I have Raspberry Pi and I mainly use it for VPN and piHole. I’m curious if you have one, have you found it useful? What do you do with your Raspberry Pi?
There's a bus station across from my studio / coworking space. I can see people waiting for the bus and doing either: 1) staring into the void 2) looking at their watches 3) desperately glancing in the direction where the bus is coming from.<p>I figured that it'd be nice to let people know when the bus is supposed to be there. So, I installed a 28" display on a monitor stand, installed the stand on my window frame, turned the monitor to face the bus station, and show the up-to-date arrival time in a very big font (the buses have GPS; the Pi gets the real time info from the local transit authority).<p>This is in Montreal. Some info here [0]. And a little video [1].<p>[0] <a href="https://greg.technology/#bus" rel="nofollow">https://greg.technology/#bus</a>
[1] <a href="https://youtu.be/pc16oPb5zW0" rel="nofollow">https://youtu.be/pc16oPb5zW0</a>
I have it set up to run a project where a subreddit has control over the watering of a live plant in my apartment.<p>The pi runs a reddit bot that reads the votes, and can switch on a pump to water. It also collects data about sunlight, moisture, temp and humidity to help inform the decision about watering. Despite many people's preconceptions about the goodness of the internet, I must admit that they do a wonderful job caring for my plant!<p>website: <a href="http://www.takecareofmyplant.com" rel="nofollow">http://www.takecareofmyplant.com</a><p>subreddit w/ voting: <a href="http://old.reddit.com/r/takecareofmyplant" rel="nofollow">http://old.reddit.com/r/takecareofmyplant</a>
I have 13 in service right now:<p>- Outdoor irrigation control via OpenSprinkler Pi: <a href="https://opensprinkler.com/product/opensprinkler-pi/" rel="nofollow">https://opensprinkler.com/product/opensprinkler-pi/</a><p>- Z-Wave home automation via ZWay: <a href="https://z-wave.me/products/razberry/" rel="nofollow">https://z-wave.me/products/razberry/</a><p>- 2 Custom HAVC thermostats using: <a href="https://github.com/jeffmcfadden/PiThermostat" rel="nofollow">https://github.com/jeffmcfadden/PiThermostat</a><p>- An NTP server with GPS attached for a time source.<p>- 2 for weather monitoring (one directly attached to sensors, one that aggregates the data from a few sources and provides reporting)<p>- A sort of centralized "workhorse" Pi that runs a lot of random cron jobs, etc.<p>- An Alexa gateway for home automation<p>- An NES emulator<p>- An infrared-remote source for turning on/off surround receiver, TV, etc.<p>- Monitoring of HVAC temperatures/performance<p>- An intranet server<p>Assuming I didn't forget anything.
I started a company that constructed booths which used 70 accurately sync'd Pis with custom PiCams (fitted with lenses) to take pictures of human subjects, for turning them into avatars like this:<p><a href="https://sketchfab.com/3d-models/pete-swagger-walk-a55d807de14a4ba7bdb9977600e7c412" rel="nofollow">https://sketchfab.com/3d-models/pete-swagger-walk-a55d807de1...</a><p>At the beginning of the project, I'd barely powered up the Pis I had collecting dust in my drawer. By the end, I was a legitimate domain expert in several niches within niches of Pi dark arts. For example, since Pis do not have hardware clocks, you have to rely on NTP. However, you need to take pains to make sure that each Pi is getting the same amount of voltage or else they will run at different speeds. If you want to power 70 Pis in a constrained space, you need to devise a customized power distribution system with adequate heat venting.<p>Due to the thin effect, voltage drops over distance, so the distance a Pi was from the power would impact the voltage and therefore the speed. The major breakthrough came when I realized that I could start with a high end power supply outputting 14 volts and terminate each parallel line with a device known as a UBEC. They are used primarily by drone enthusiasts to make efficient use of battery packs.<p>A UBEC is designed to drop down a supply voltage to 5v without bleeding off the excess voltage as heat. Since this could also describe a fuse, we felt comfortable bypassing the Pi's MicroUSB power supply and attaching the UBEC's pins directly to the top pins on the Pi's GPIO breakout.<p>That's just a tiny example of the hijinx. The Pi is an incredible tool if you're patient and clever.<p>What a rollercoaster.
I live in an apartment with quite strict fire-protection standards. Due to the fact that I have a cat that absolutly loves to go outside, I needed to find a solution for him to get outside without a catdoor trough my door.<p>So I installed a fire-protecion-approved door drive that is hooked to a raspberry pi. Another raspberry pi then analyzes a video stream and detects my cat. If my cat is in the frame for n amount of time, a message is sent to the pi conntected to the door drive and the door opens up slightly for him to get in.
I have an old Raspberry Pi 1 that runs headless raspbian with a set of cheap speakers plugged into it and an old usb wifi adaptor. It has only one purpose: to play a wav file of a telephone ringing for one minute. My spouse does not ever have the ringer on her cell phone. So when I am out and I need her to look at her phone, I VPN in to my home network, ssh into the pi using Terminus on my iphone, and 'aplay' the wav file.<p>The real reason we ever wanted to get a landline was because of this issue, so instead of wasting money I just used spare parts to make an alert system I can activate remotely. I can also use the 'say' command for text-to-speech, but that's not really effective. The old school phone ringer wav is perfect.
2 Pis for dealing with ADS-B (airplane data), one for 1090Mhz, the other for 978Mhz. I could run that on the same one, but seemed easier to just split them up given some of the software is a bit picky with device IDs. The 978Mhz is much quieter than the 1090Mhz, so I also run a private SpyServer (<a href="https://github.com/lloydpick/docker-spyserver" rel="nofollow">https://github.com/lloydpick/docker-spyserver</a>) for listening to radio transmissions.<p>1 Raspberry Pi for a running a very stupid sitcom sound thing. Using a camera it tries to recognise who you are, then play a random sound assigned to you out of a little speaker. Think of like the cheering/clapping when a guest or celebrity enters the room in a sitcom tv show, and replace out the clapping with whatever sound you want.
I'm Dr. Torq and have a Raspberry Pi in my Steampunk conference badge. Use it during my tech talks. I walk into the room, power down the badge, plug in the HDMI, power up the badge and run my slides with a nano-keyboard/mousepad and LibreOffice. Works great. When I'm walking around a show, the badge displays a little promotional video on it's 3.5" touch-screen. Runs on a big cell phone power pack, in my pocket. See my gadgets and hacker articles at <a href="https://thenewstack.io/author/rob-reilly/" rel="nofollow">https://thenewstack.io/author/rob-reilly/</a>.
1x Raspberry Pi 3 installed in my car within the internal network as a bastion box and to run software that let's my interact with the entertainment system<p>1x Raspberry Pi 3 running Home Assistant with a Z-Wave USB Dongle (Home Automation)<p>1x Raspberry Pi 3 running OctoPrint (Host/remote-control for 3D Printer)<p>1x Raspberry Pi 3 running FullPageOS (Full-screen Chromium in kiosk mode) displaying a server statusboard in our home office<p>Next project: 1x Raspberry Pi Zero W to run Unifi Controller<p>I have a couple of original Model B+ sitting around unused right now - just not powerful enough for any of the above projects.<p>(Update: Formatting)
I use a Raspberry Pi to stream PlayStation 2 backups over SMB by networking the onboard Ethernet port of the Pi to allow access to a Samba Share service running on the Pi. This allows for seamless playback of games with heavy Full Motion Video sequences as the Ethernet transmission is faster than the max throughput of the USB2.0 ports provided on the PlayStation 2. It -also supports auto mounting and sharing of external drives to allow for seamless drive swapping if you have a large library.<p>Using the same technique, games can also be streamed to PlayStation 3 and original Xbox.<p>I added some additional support for Xlink Kai so that you can play LAN enabled games over the Pi’s WiFi connection by plugging a compatible game console into the Ethernet port of the Pi or by connecting to an access point that is auto created when a secondary WiFi dongle is attached to the Pi.<p>I learned that there are usually a hundred or so people in South America who play Halo 2 using Xlink Kai and this makes it very easy to connect to them for lag free multiplayer on original hardware. This feature also works on Nintendo Switch and PSP with a bit of extra work.<p>The project is open source and [available as a flashable SD image on Github](<a href="https://github.com/toolboc/psx-pi-smbshare" rel="nofollow">https://github.com/toolboc/psx-pi-smbshare</a>).<p>Youtuber VersatileNinja recently published a detailed video on [how to get started with the project](<a href="https://youtu.be/Ilx5NYoUkNA" rel="nofollow">https://youtu.be/Ilx5NYoUkNA</a>) if anyone is interested in taking it for a spin.
I have several<p>* Pie-hole and runs Nagios to collect information about things going on inside the network.<p>* One running a PiDP-11 (pdp 11/70 emulator) as well as providing MOP service to boot my DEC terminal multiplexor (it provides the boot image when the mux comes up)<p>* One is a stratum-1 time server using an Adafruit GPS module with PPS output. This because I got tired of both the reflection attacks and trying to manage ntp access from inside the house to outside.<p>* One runs RasPBX and talks to the VOIP phone that is my home "business" line.<p>* One sits on my electronics workbench and runs OpenOCD and allows BlackMagic Probes to export GDB as a service over the network. That lets me debug from anywhere without burning a USB port or adding additional software.<p>* One runs a very simple time series database and is the collector for IOT type devices that are sending various bits of information (energy use, temp, humidity, particulate levels, etc)<p>* One drives a display which has a dashboard of various things that the others are doing (like Nagios alerts, data trends etc) This one is a candidate for replacement as the 4K monitor would be nice here.<p>* One runs the waveforms live software from Digilent and hooks to an Analog Discovery 2 on my workbench. (scope, logic analyzer, etc)<p>EDIT: And its important to know that I boot them using the network and run them off NFS from a NAS box, the idea being that when they break I can easily swap the CPU part with a new one.
I have a (basically non-existent) side business selling LED strips and RPi lighting controllers for surfboards! If you've seem some viral videos with guys surfing around at night, they were probably using my gear :-)<p>Briefly put, I use the Glediator and Jinx! control software on an RPi, which communicates with an Arduino, which drives the LEDs. I put them in a permanently sealed box, water proof it as much as I possibly can, then cut some IP68 RGB LED strips to size and strap them to the rails of the board. I can remotely access the RPi via Wi-Fi to change lighting schemes, and there's a wireless charging coil inside the box which I can use to charge the batteries, so I never have to open it up after waterproofing. It's basically bomb-proof, and simple enough that I can teach a surf bum how to use it in about half and hour.<p>Start thinking of the RPi as more of a powerful microcontroller and suddenly a world of opportunities open up. I did my dissertation on it! Titled 'Home Automation and Monitoring using a Raspberry Pi', I basically used an RPi as a master node to control a bunch of Arduino slave nodes, using I2C protocol. With just two wires and an Pi, I run about 20 Arduino's all over my house, doing everything from feeding my fish, to monitoring air quality, to starting my coffee maker. I can access it remotely via Wi-Fi too, so I can do things like water my plants while I'm away. Aiming for a full Wallace and Grommet home in the near future.<p>Raspberry Pi's are awesome.
The coffee machine in our office is controlled by blockchain NFTs and a Raspberry Pi:<p>Once authenticated, an owner of the NFT can select their coffee type on their phone which then signals the Raspberry Pi to make whatever coffee type was selected by jumping the contacts that used to be pressed by the machine's buttons (which have been removed).<p>It's a cool gimmick, fun to show off to visitors, gives us a nice record of who is making coffee (since each NFT's owner is unique and trackable), limits users to those with the NFT without us having to build usernames/passwords, and is also how I make my coffee each afternoon.
I discovered that my 17-month old son loves to mess with stereo controls. So I bought a few rotary encoders and neo-pixel rings - build a wooden enclosure with a plastic faceplate, and wrote some code to generate fancy light and audio effects when he turns/clicks the knobs. He loves it.
A security camera NVR. (Help wanted! I'm developing it here: <a href="https://github.com/scottlamb/moonfire-nvr" rel="nofollow">https://github.com/scottlamb/moonfire-nvr</a> I'm proud of the design but it's still far from a polished system that does everything a reasonable person would expect. Lots of opportunities to extend it if you're looking for a fun Rust + Javascript project.) A Raspberry Pi 2 will run a working setup; the new Raspberry Pi 4 should be a lot more pleasant in terms of being able to recompile it in a reasonable time, transfer video segments quickly, etc. I think the biggest missing piece is a real-time clock. Faster flash, builtin SATA, and a builtin NPU would also be great of course but not realistic for $35.<p>A home theater control system. The Pi uses HDMI-CEC, my Samsung TV's EXLINK (their protocol over RS-232), Roku's HTTP interface, etc. and an Android app is the frontend. I wanted to make this into a nice polished thing other people could use but have given up on the idea for now. The thing is that media components are super finicky, many things need special support written just for them, and you really have to extensively tweak them to see how they function as a whole. (eg does your TV turn off your stereo receiver when it turns off itself. The answer varies based on the model and settings of both components.) HDMI-CEC doesn't live up to its potential in this regard.<p>[edit: fixed hyperlink]
I run a plex media server on my 3b+. The server is on the wall below my router (attached via ethernet), a 2TB HDD sits next to the server. I put movies & TV for my kids on the server, then they can watch on one of two TVs in the house via Roku. It's good for getting them off trashy Netflix movies & making classics (or what I consider classics at least) available to them.<p>I chose this configuration rather than running plex in the cloud because a) don't want to pay monthly forever for something I use a few times a week; b) less wasting power and c) this at least theoretically can work during an internet outage (though plex authentication may make this difficult). I configured the HDD to spin down after 20 seconds of no r/w, so the whole thing draws very little power while idling (or so I assume).<p>The major limitation of this setup is that the pi cannot handle video transcoding. As long as I transcode to something the Roku supports natively this isn't an issue: transcode once (on my laptop), put it on the Pi, play whenever. I have yet to script this process but that's my next step in the project.<p>It will probably be a year before I realize any cost savings (a friend pays CAD20/mo for a hosted setup which also handles on-the-fly transcoding), but, well, it's a simple server and I just wanted to do it myself, gosh darn it!
College student here with a part-time data entry job. I have automated nearly all of it using Python, Selenium, and a few nasty bash scripts called by periodic cronjobs. Recently purchased a 3b+ for the task so that I can travel without worrying about AirBnB wifi speeds. If I need anything I can just SSH or VNC into it from a coffee shop. It just sits next to my router and blinks all day doing my job for me! Best $35 I have ever spent.
I've got 5. I only actively use 3 of them.<p>1. Media player connected to projector running RasPlex - this software is outdated enough and buffers on some high bitrate content that I should buy a replacement device, but it still works well enough. I tried upgrading to a newer raspi and wasted an hour trying to get it to run, then gave up. So, I still use my old one. It still gets used daily and works well enough (only issue is the buffering on occasion).<p>2. RetroPie - I rarely game, but it's cool to be able to turn this on and have a library of all the games I played (and those I never had) from childhood.<p>3. I use the third one as a networked LED marquee controller (HUB75 panels) with this software: <a href="https://github.com/hzeller/rpi-rgb-led-matrix" rel="nofollow">https://github.com/hzeller/rpi-rgb-led-matrix</a><p>The other 2 I just have sitting on my desk and occasionally use for small dev projects or to test out some new project I read about on here, hackaday, etc.<p>An ongoing project that I haven't made much progress with is an automated turret that squirts squirrels with water. I made something similar in college (a "paintball gun" turret with openCV blob detection/tracking) that had decent performance. Now that openCV on rpi can outperform my old college laptop, I want to setup the pi to detect squirrels, track them, and keep them away from a bird feeder/plants in my backyard.
So many things!<p>1. Home Assistant for tying together all the various brands of smart home devices <a href="https://www.home-assistant.io/" rel="nofollow">https://www.home-assistant.io/</a><p>2. OctoPrint for managing a 3D printer (also has a home assistant integration) <a href="https://octoprint.org/" rel="nofollow">https://octoprint.org/</a><p>3. Magic Mirror that shows me news, weather, commute time estimate, etc <a href="https://magicmirror.builders/" rel="nofollow">https://magicmirror.builders/</a><p>4. PiHole for blocking all ads on my home network <a href="https://pi-hole.net/" rel="nofollow">https://pi-hole.net/</a><p>5. The brains of a toy i hacked apart for a friend's robot fight <a href="https://www.facebook.com/RobotRiotCompetition/" rel="nofollow">https://www.facebook.com/RobotRiotCompetition/</a><p>6. PyPortal Twitter feed on my desk <a href="https://www.adafruit.com/product/4116" rel="nofollow">https://www.adafruit.com/product/4116</a><p>7. Server for various weekend web projects
I was bullish when I got my first Pi to run Home Assistant (before hass.io), but got discouraged when the sd card failures were gas-lighting me by silently reverting my code changes. That and the lack of hardware clock hampering some of the diagnostic tools I usually use, kept me sticking with VMs on a NUC and a fanless Celeron for Kodi for my main compute uses.<p>In time I have gotten more Pis, but mainly for hardware aided projects such as the
Pidp/8: <a href="https://obsolescence.wixsite.com/obsolescence/pidp-8" rel="nofollow">https://obsolescence.wixsite.com/obsolescence/pidp-8</a>
The rejuvenated Nabaztag: <a href="https://www.ulule.com/le-retour-du-nabaztag/" rel="nofollow">https://www.ulule.com/le-retour-du-nabaztag/</a>
The seasonal Xmas tree hat: <a href="https://thepihut.com/products/3d-xmas-tree-for-raspberry-pi" rel="nofollow">https://thepihut.com/products/3d-xmas-tree-for-raspberry-pi</a>
And a Mycroft Mark I: <a href="https://mycroft.ai/mark1/" rel="nofollow">https://mycroft.ai/mark1/</a> which is Pi based inside and the only one these projects which is always powered on.<p>The 4 seems like it may finally have the horsepower to make me try to give it a go again and possibly replace my various x86 pucks as they age out.
I've done digital signage, controlled servos, used them as cameras, the works.<p>Right now I have:<p>- A 5-node Pi 2 cluster running k3s.io (<a href="https://github.com/rcarmo/raspi-cluster" rel="nofollow">https://github.com/rcarmo/raspi-cluster</a>), and a separate Pi 2 I use as a Docker build box and local Docker registry.<p>- A Pi 3B+ as a "lab" desktop computer with an USB oscilloscope and FTDI cables to flash ESP8266 and Arduinos<p>- A Lakka.tv arcade/MAME box for the kids with a PS3 controller (no room for a proper PiCade, we just use the TV(<p>- A Pi 3A+ with a mic array for playing around with Google Assistant<p>- A Pi Zero W taped to the inside of my electricity meter trying to estimate power consumption (we have a spinning disk mechanical meter)<p>- Another Pi Zero W that I use to demo Azure IoT solutions<p>- An ODROID U2 (Could be a Pi) running HomeKit and Node-Red for home automation, as well as a bastion container (all dockerized).<p>Edit: forgot about the 3B hooked up to my 3D printer running OctoPi<p>And the list goes on. I have many older Series Bs lying around, and once used one to revive a dead synth whose MIDI keyboard still worked (I set up timidity and a sound font on it and it became the kids' piano). I also ran a Plex server on one until it became obvious that I needed to think about transcoding (but it worked fine for music).<p>You can do a _lot_ with Raspberry Pis, and I fully expect to get a beefy Pi 4 to use as a lab computer.<p>I just hope they also beef up the Zero at some point (power envelope will be a problem, but a Zero with Pi 2 specs would be great).
My most recent use has been teaching game development. I have kids and their friends are often around the house. A couple of them asked if I knew how to program games and I've been teaching them using Pico-8.<p>Many of these kids don't have computers at home so as a reward for finishing their first project I'm making them a home console with some RPi's I have laying about and Pico8.
A client that I'm consulting was being ripped off by a local IT provider with pricing for on-premises servers & MS software.
I proceeded to rent cheaper equivalent machines off-site.
The IT provider claimed the hardware firewall (Fortigate) was not configurable for site-to-site to the new machines directly (could be, not an expert on those).
Therefore, I ended up purchasing several Raspberries and configuring them as OpenVPN routers that opened up the office LAN to said machines.
Quite satisfying, as it allowed to break the client out of the proprietry software/hardware/vendor chain at a rather small expense.
Using several Raspberry Pis to monitor CO2 levels in my house. Each Raspberry Pi has a CO2 sensor - wrote a little Python script to retrieve data from sensor and upload it to a server Which is also a Raspberry Pi.
At one point I stuffed 40 of them into a rack mount and built a cluster to use for teaching at my university. Never gotten any publication out because it‘s fairly uninteresting from an academic point of view, but as a teaching tool to learn ARM assembler or parallel programming / how to execute stuff on supercomputers / OpenMPI it’s an invaluable tool.<p>Recently there have been some odroid c2 added to the cluster, so it‘s not only RPis anymore.<p>More info: <a href="https://www.caps.in.tum.de/en/himmuc/" rel="nofollow">https://www.caps.in.tum.de/en/himmuc/</a><p>Some Beautyshots at my Instagram: <a href="https://www.instagram.com/p/BcA1QdFgWuk/" rel="nofollow">https://www.instagram.com/p/BcA1QdFgWuk/</a>
I've made some interesting projects over the years - only a writeup on a few of these, and some are in pieces and in various states of disrepair after moving so much.<p>Some write ups on larger projects:<p>1. I used a raspberry pi to coordinate the firing of multiple cameras, and then had the pi upload to a cloud service that would stitch them together to an "infinite zoom" super selfie. <a href="https://medium.com/@thekeithchester/gigasnap-" rel="nofollow">https://medium.com/@thekeithchester/gigasnap-</a>
a-prototyping-story-efed72099d32<p>2. I created a library that made it dead simple for a raspberry pi to communicate to arduinos, and used that to control a <i>lot</i> of hardware projects, like little robots. <a href="https://medium.com/@thekeithchester/serial-synapse-94a114aa271e" rel="nofollow">https://medium.com/@thekeithchester/serial-synapse-94a114aa2...</a><p>3. Raspberry Pi's controlled the heartbeat detection (controlled lights and music of your booth) and conductive paint controller (I built it and still don't understand the meaning) for this art piece. <a href="https://vimeo.com/207047769" rel="nofollow">https://vimeo.com/207047769</a><p>4. I had a video / text message doorbell a couple of apartments ago. <a href="https://github.com/hlfshell/doorbell" rel="nofollow">https://github.com/hlfshell/doorbell</a><p>5. Used one as an MQTT hub for numerous IoT projects. I created <a href="https://github.com/hlfshell/mqtt-scheduler" rel="nofollow">https://github.com/hlfshell/mqtt-scheduler</a> to schedule MQTT jobs for things like the arduino powered garden controller (lights + water pumps) I built for my wife. <a href="https://github.com/hlfshell/garden-relay" rel="nofollow">https://github.com/hlfshell/garden-relay</a><p>6. This never got off the ground, but when Pokemon Go had first launched and was super popular, I wrote a slackbot that would alert everyone in the office when pokemon (outside of the super common Rattatas and Pidgeots) was nearby. I was repurposing that code to make a portable Pokemon radar that would jump a false account around the area around you, thus hunting down pokemon for you. <a href="https://github.com/hlfshell/pokemon-tracker" rel="nofollow">https://github.com/hlfshell/pokemon-tracker</a> It never got far as the game got super stale quick.
I have 3 running right now<p>1x Raspberry Pi model B (from 2012!) - runs a reverse proxy to things in my local network, and runs a dynamic DNS service. It's showing its age as its ARMv6 and I guess at some point updates won't be as frequent so will eventually have to retire it, but it works fine for now.<p>1x Pi model 3 - runs various services, inc. GOGS a private git server, ZNC, a service to control my TV, a service to control my 'smart plug' lamp through a private API, a private docker registry, a voicemail system connected to Twilio<p>1x Pi model 3 - running Pi-Hole and wireguard<p>I love all of them very dearly and looking forward to reading this thread!
Hi!<p>If you are interested in a 100% offline and private-by-design Voice AI, you should take a look at what we are building at <a href="https://snips.ai" rel="nofollow">https://snips.ai</a>, it is 100% free for Makers<p>This allows you to do a 100% private Home Assistant, or add voice control to any of your projects :)<p>It works for english, french, german, japanese, spanish, italian, and more coming, and runs on a Raspberry Pi 3 (and iOS, Android, Linux)<p>You can take a look at our blog to see how to get started <a href="https://blog.snips.ai" rel="nofollow">https://blog.snips.ai</a><p>We would love to publish on it what you are building with it!
Coincidentally there’s another story on the front page about using a Raspberry Pi to hack NASA: <a href="https://news.ycombinator.com/item?id=20264774" rel="nofollow">https://news.ycombinator.com/item?id=20264774</a>
I have a few Raspberry Pi boards and since I've seen folks doing stuff similar to what mostly do I thought I comment on something I hadn't seen yet.<p>I struggle with tinnitus distress and Ménière's. One of my coping strategies is to continuously play some sort of background sound in the areas I occupy.<p>I have a first gen RPi with a set of USB powered speakers in my bedroom that plays long form background soundscapes I get from YouTube on loop. This is the lowest tech I could muster. YouTube-DL is a command line tool that fetches content from places like YouTube and recodes it. I use mpg123 to play the resulting audio file on loop... and because I'm already using ssh for all sorts of other things as go about my day this workflow is basically completely integrated into my normal day-to-day activities.<p>When I first started doing this I changed the audio track on a fairly regular basis. Sometime to suit my mood, other times for the weather. These days it's more of a seasonal thing.<p>It works great. It's proven to be really reliable and it was really, really cheap.
I've built a mobile airpollution sensor together with a few other parents and their kids at my 8-year old son's primary school in London. Air pollution is a big topic as the school is right next to a busy road, a lot of children are suffering from asthma and Islington has been pretty useless in collecting/publishing data. So we've started taking things in our own hands and built a handful of raspberry pi based monitors in class rooms, the playground and children take it with them on their school run. geo-tagged data is automatically uploaded to little influxdb/grafana based web service wheneve the pi has a wifi connection. Makes it an interesting project for kids to look and interpret charts and stuff as well. Currently we're measuring PM2.5/PM10, temp and humidity only, haven't had the time yet to look into NOx sensors yet...<p><a href="https://github.com/bstiel/airpollutionpi" rel="nofollow">https://github.com/bstiel/airpollutionpi</a>
I'm building a CarPi. I'm using a bluetooth OBD-II adapter and Python-OBD to monitor my car's diagnostics and record them. I'm planning on adding a GPS adapter and probably a gyroscope/accelerometer so I can track location and motion at the same time.<p>It's mostly just for fun.<p>Maybe one day I'll add some kind of analysis to it. It might be interesting to track location, motion, and car status in order to predict mileage or if the engine light will turn on.
Four things:<p>1. Pihole to ad block ads (useful for phone browsing) <a href="https://pi-hole.net/" rel="nofollow">https://pi-hole.net/</a><p>2. Custom Weather conditions dashboard, using Dark Sky's API<p>I'd love to replace the weather dashboard with one of my integrated work / personal calendars so I could see what meetings I have each day but work won't expose that data, claims it's a security risk.<p>3. Custom NYC subway dashboard, showing me estimated train arrivals for trains at the 2 closest stations.<p>The MTA has free apps which also show estimated train arrivals but only for one station at a time. Also, the MTA's train estimation methodology isn't as accurate as it could be.<p>4. Retro Pie, to play NES and SNES games <a href="https://retropie.org.uk/" rel="nofollow">https://retropie.org.uk/</a>
I use them as controllers/monitors for remotely managing a 3d printer farm. At about $40 total extra per printer for the pi and associated hardware, and an open source utility called "octoprint", i'm able to remotely upload, monitor, cancel/pause, and have a camera feed to each printer. They also give some additional nice-to-haves by allowing me to upgrade the printer firmware remotely, and get very accurate print completion estimation times.
I'm using one as part of a midi controller project:<p><a href="http://jsnow.bootlegether.net/jik/keyboard.html" rel="nofollow">http://jsnow.bootlegether.net/jik/keyboard.html</a><p>The controller has 156 pressure sensitive keys. The raspberry Pi runs a program that reads from a bank of 20 8-channel ADCs all wired up to a SPI bus (it runs at 2mhz, and I'm able to get about 90 samples per second), and then generates MIDI commands that are sent over a USB-MIDI adapter.<p>I could use a microcontroller for this, but it's kind of convenient to be able to plug other USB-MIDI devices into it and have it work, and to be able to run a Linux-based synthesizer locally if I want. (I've been planning on using a Teensy for the next version.)
My work has a really old phone system which I became the admin of. I discovered it had an audio input for Music-On-Hold, so I set up a spare RPi Zero that I had as a music player so that we'd have hold music. Low effort but wonderful improvement for work. Every now and then I go back and tinker with it to improve it a bit. (Next step is to make it controllable via a web interface.)<p>I have a RPi 3B+ that I use for some emulation, though I hardly ever play with it. Setting it up was plenty interesting, though.<p>And I have a Zero and a Zero W that I use for random tinkering/testing, both semi-permanently attached to a breadboard for ease of use.<p>(I've got a big list of projects I'd like to try or develop, but the above are the only things I've done so far.)
I have a pair of Pi Zero Ws set up as timelapse cameras that I keep in the garden - Cucumber vines and flowers opening is pretty interesting at 1 frame per minute<p>I recently did a project with a pair of RPi 3b+ and cellular modems as construction cameras.<p>I set up RetroPie on a 3b+, but it wasn't enough for the N64 games my wife and I wanted to play the 4 could change that<p>Currently my security cameras are recorded using Orchid VMS on an Odroid XU4 ( Cloudshell with 2x 4T SATA)<p>Its a great little tool for learning Bash, and groking your systems - testing portability? - without invoking AWS resources.
* I made a Raspberry Pi Zero W version of this baby monitor (<a href="https://kamranicus.com/guides/raspberry-pi-3-baby-monitor" rel="nofollow">https://kamranicus.com/guides/raspberry-pi-3-baby-monitor</a>)<p>* I am using a Raspberry Pi Zero W + Arduino Pro Mini, with a GPS, Sensors, Camera and Radio for a High Altitude Balloon (HAB) project (<a href="https://bitbucket.org/ccapo/habpi/src/master" rel="nofollow">https://bitbucket.org/ccapo/habpi/src/master</a>), launch pending. A friend is also launching a similar project (<a href="https://bitbucket.org/peterkingsbury/neopi/src/master/" rel="nofollow">https://bitbucket.org/peterkingsbury/neopi/src/master/</a>)<p>* I am using a Raspberry Pi 3 for RetroPie<p>* I have a Raspberry Pi 3+ for development purposes, mainly the HAB project since developing on a Raspberry Pi Zero is quite slow
I'm in a college club that uses Pis to run football playing robots. The Pi basically translates instructions from a Bluetooth PS4 controller into commands for a motor driver.
We currently 4 college clubs in the league and we play a couple of scrimmages and a championship every year. The robots take big hits in the games(these bots can go faster than we can run) and we've found the Arduino to be the most durable and reliable platform as well as being the most customizable.
Here is our club Website: <a href="https://www3.nd.edu/~rfc/" rel="nofollow">https://www3.nd.edu/~rfc/</a>
Here is a little video about the club: <a href="https://www.greatbigstory.com/stories/nbc-sports-intramural-football" rel="nofollow">https://www.greatbigstory.com/stories/nbc-sports-intramural-...</a>
I use it to automate my weed garden in my closet. It turns on and off the LED lights everyday and waters my plants with a pump based on the moisture level of the soil. I measure the moisture level through a moisture sensor. Weed is fun.
I have a bunch doing different things:<p>One is running our sprinklers with OpenSprinklerPi <a href="https://opensprinkler.com/product/opensprinkler-pi/" rel="nofollow">https://opensprinkler.com/product/opensprinkler-pi/</a><p>One is running VolumeIO to splay music on the speakers in our house as a Spotify Connect device <a href="https://volumio.org/" rel="nofollow">https://volumio.org/</a><p>One controls our whole house humidifier via a relay and a combination of weather and thermostat information.<p>One has been turned into a precision/TSD/regularity rally computer for my vintage car. <a href="https://en.wikipedia.org/wiki/Regularity_rally" rel="nofollow">https://en.wikipedia.org/wiki/Regularity_rally</a><p>One runs my 3D printer using OctoPrint <a href="https://octoprint.org/download/" rel="nofollow">https://octoprint.org/download/</a><p>And I use one as a race car telemetry system using a 9-dof sensor and a GPS module (with brake, throttle, and steering inputs to come).<p>For most of these projects, they're complete overkill in terms of hardware, but with integrated wifi and bluetooth, and a host of GPIO pins, they make developing projects like this dead simple. And at $35, the amount of time they save is well worth it over bare metal hardware.
I love and hate this question! I've always been curious what others do with them, but I just convinced myself not to buy a 4 and I'm sure this thread will give me reason to reconsider.<p>-1x Raspberry Pi Zero W in my garage running my drip irrigation (a relay board connects it to standard 24V irrigation solenoids)<p>-1x Raspberry Pi 3 B+ in my office running a dynamic dns script and sitting behind a forwarded port for easy sshing. I have also used this to play with pihole and Apache Guacamole, plus whatever other networking stuff sounds interesting<p>-1x Raspberry Pi Zero W hopping between my garage and car running a program that collects and displays OBDII and GPS data<p>-Nx of most other Pi revisions collecting dust in my closets and storage areas. They're cheap enough that I've compulsively over-purchased them over the years...
<a href="https://www.anfractuosity.com/projects/painting-a-christmas-tree/" rel="nofollow">https://www.anfractuosity.com/projects/painting-a-christmas-...</a> - A little project I created to 'paint' my Christmas tree lights.<p><a href="https://www.anfractuosity.com/projects/diy-inline-refractometer/" rel="nofollow">https://www.anfractuosity.com/projects/diy-inline-refractome...</a> - I'm currently working on an inline refractometer using a pi zero to capture the output and attempt to convert to a digital reading.<p><a href="https://www.anfractuosity.com/projects/wildlife-camera/" rel="nofollow">https://www.anfractuosity.com/projects/wildlife-camera/</a> - I've also got a pi zero setup in an IP68 case, with waterproof USB cable, to capture wildlife in the garden.<p>This uses a simple script using picamera, to detect motion and record video, which I then just rsync to my laptop. I tried to use a PIR sensor, but alas the casing seemed to block IR. I'm planning on using a doppler radar sensor instead at some point.
Ours ran various things in our escape rooms:<p>1) I ran a browser in kiosk mode with a mouse that was used with some custom software on a computer in the room.<p>2) We had it connected to a remote keypad that opened a magnetic lock, popping a drawer open, when the sequence was correctly entered.<p>3) We had one connected to a magnetic sensor that would open another cabinet when items were placed correctly.<p>4) I ran the clocks and hint systems in the rooms from RPi's as well, which allowed me to run mini web servers on them that I would access from the control room to mess with the time if the game called for it, or to send hints in to the rooms, or to trigger sounds or videos.<p>5) Finally, we ran our lobby slideshow system with one, and also played our orientation videos on them.<p>Yes, we could have used Arduino for some of these, but I always liked RPi's because I could SSH into them to do the resets or to trigger the doors remotely if needed from my computer at the control center.
A security camera outdoors (connected to another webcam outdoor), when there is motion it will send a request to another indoor raspberry (node server) connected to a speaker and will play the sound of an angry dog. The system is working fine for more than a year without breaks. Raspberry is robust.
I had one of the original 2012 Model B's (with the 256MB RAM) serving as a simple web server for years. I just recently retired it in favor of a VM.<p>Other than that, I have:<p>- A RetroPie attached to my living room TV<p>- A Zynthian (<a href="http://zynthian.org/" rel="nofollow">http://zynthian.org/</a>)<p>- A PiDP-11 (<a href="https://obsolescence.wixsite.com/obsolescence/pidp-11" rel="nofollow">https://obsolescence.wixsite.com/obsolescence/pidp-11</a>)<p>In the past, I've played around with them, making:<p>- A touch-screen enabled stand-alone SunVox synth<p>- A home audio server attached to my stereo<p>- An experiment to read MIDI files from floppy disks, also attached to the stereo<p>I have a couple spares laying around waiting for use cases... but I'm not really antsy to get to them. I'd love to build an OTTO (<a href="https://github.com/topisani/OTTO" rel="nofollow">https://github.com/topisani/OTTO</a>) when it's ready for prime time. I'm also considering building some sort of portable RetroPie.
Squeakernet FLP is not a cat feeder, it's a feline lifestyle platform. Current features are largely focused on kibble deployment though.<p><a href="https://github.com/buzzcola/squeakernet/" rel="nofollow">https://github.com/buzzcola/squeakernet/</a>
I'm totally naive with Raspberry Pi..can someone comment on the following project: Is it possible to put a glass eye behind a portrait of a one-eyed pirate and make its eye move around/follow whoever enters the room? A friend has a glass eye but nothing to do with it.
I run a grid of about 250 Pi 2 and 3s across several offices and datacenters. They are the backbone of our graphics playback system (i.e. slates) and low latent IPTV system. Users can subscribe to any channel necessary without expensive re-encoding or RF antenna systems. I absolutely love them and 4k60 HEVC is a huge upgrade for the 4!
Use a small software defined radio to listen to ADS-B messages (real time airplane telemetry— even with a crappy $10 USB SDR dongle I can sometimes see planes that are 100+ miles away)<p>Host my website (if I ever got any actual traffic it might be a problem, but since 99% of the traffic is me it's ok)<p>Various web scraping/archival tasks
I started a company that constructed booths which used 70 accurately sync'd Pis with custom PiCams (fitted with lenses) to take pictures of human subjects, for turning them into avatars like this:
<a href="https://maintenancearistonalex.blogspot.com/2019/06/blog-post.html" rel="nofollow">https://maintenancearistonalex.blogspot.com/2019/06/blog-pos...</a><p>At the beginning of the project, I'd barely powered up the Pis I had collecting dust in my drawer. By the end, I was a legitimate domain expert in several niches within niches of Pi dark arts. For example, since Pis do not have hardware clocks, you have to rely on NTP. However, you need to take pains to make sure that each Pi is getting the same amount of voltage or else they will run at different speeds. If you want to power 70 Pis in a constrained space, you need to devise a customized power distribution system with adequate heat venting.<p><a href="https://indesitmaintenance.blogspot.com/2019/06/blog-post.html" rel="nofollow">https://indesitmaintenance.blogspot.com/2019/06/blog-post.ht...</a><p>Due to the thin effect, voltage drops over distance, so the distance a Pi was from the power would impact the voltage and therefore the speed. The major breakthrough came when I realized that I could start with a high end power supply outputting 14 volts and terminate each parallel line with a device known as a UBEC. They are used primarily by drone enthusiasts to make efficient use of battery packs.<p>A UBEC is designed to drop down a supply voltage to 5v without bleeding off the excess voltage as heat. Since this could also describe a fuse, we felt comfortable bypassing the Pi's MicroUSB power supply and attaching the UBEC's pins directly to the top pins on the Pi's GPIO breakout.<p>That's just a tiny example of the hijinx. The Pi is an incredible tool if you're patient and clever.<p>What a rollercoaster.
I used it to monitor ADSL device status[0], also created a DIY timecapsule for MacOS[1] — these were all in the past, though.<p>Currently the Pi is on my roof, connected to an SDR. I sometimes run rtl_server on it, and listen around. Although it's been a hassle, since I have to run upstairs and disconnect it everytime there's a storm. Also, listening to the device over WiFi means I get really laggy control over my SDR. I'm planning on replacing the Pi with something better powered.<p>[0]: <a href="https://github.com/amingilani/scruffy" rel="nofollow">https://github.com/amingilani/scruffy</a><p>[1]: <a href="https://github.com/amingilani/chronopill" rel="nofollow">https://github.com/amingilani/chronopill</a>
I control my home automation: <a href="https://github.com/stapelberg/hmgo" rel="nofollow">https://github.com/stapelberg/hmgo</a> for sensors and valve drives, <a href="https://github.com/stapelberg/zkj-nas-tools/tree/master/avr-x1100w" rel="nofollow">https://github.com/stapelberg/zkj-nas-tools/tree/master/avr-...</a> controls multimedia devices, <a href="https://github.com/stapelberg/zkj-nas-tools/tree/master/dornr%C3%B6schen" rel="nofollow">https://github.com/stapelberg/zkj-nas-tools/tree/master/dorn...</a> orchestrates backups.<p>I run one as an appliance hooked up to my document scanner which places the documents on Google Drive: <a href="https://github.com/stapelberg/scan2drive" rel="nofollow">https://github.com/stapelberg/scan2drive</a><p>I run two more for automatically testing new releases of <a href="https://gokrazy.org/" rel="nofollow">https://gokrazy.org/</a><p>All of this is implemented in Go on top of <a href="https://gokrazy.org/" rel="nofollow">https://gokrazy.org/</a>, without any Linux distribution in the mix :).
I don't have a project yet -- but one I'm really interested in is having a Raspberry Pi run and store historical data from an air quality (particle) measurement sensor. I'm hoping to measure how the air quality outside my home (near a freeway) changes during the day and night with traffic, and also how the indoor air quality is impacted.<p>It outputs UART 9600 baud data (<a href="https://sensing.honeywell.com/honeywell-sensing-particulate-hpm-series-datasheet-32322550" rel="nofollow">https://sensing.honeywell.com/honeywell-sensing-particulate-...</a>).<p>Does anyone have a good link to some simple guides / advice on how to run such devices using a RPi?<p>Thanks!
I have one set up with the RetroPi distribution, that I carry around with me, along with two USB game-pad controllers, so I can engage in retro-gaming wherever I'm at (assuming there's an HDMI display available).<p>I'm also dabbling with embedding one in the gutted out shell of an old boom-box, and making it a portable Alexa-like "smart speaker" of sorts. Looking at using something like Mycroft[1] or something of that ilk.<p>But outside of running Mycroft or whatever, I want to load this thing down with sensors (microphone, webcam, GPS, SDR, accelerometer, temperature, humidity, ultrasonic, infrared, whatever I can) and stream the data to a server where I can do more intensive AI related work. The idea is that this thing is the front-end to experimenting with "embodied AI" and having an AI "thing" that can really sense and experience it's environment.<p>This whole thing is very incipient, but I'm looking at seeing what I can do with something like OpenCOG, or SOAR or ACT-R, coupled with various ML techniques, to give this thing some level of smarts.<p>[1]: <a href="https://mycroft.ai/" rel="nofollow">https://mycroft.ai/</a>
I have several of them:<p>* 1 original model that runs pi-hole for the household<p>* 1 RPi 3 running RetroPie for emulating classic video games<p>* 1 RPi 3 connected to an official RPi touch screen display that runs a Home Assistant UI<p>* 4 RPI 3s running as a Kubernetes cluster, mostly just for the fun of setting it up, but I have a few odd jobs that run on them, such as chat bots<p>I don't have a picture of the cluster all hooked up, but this is what it looks like without any cables attached: <a href="https://twitter.com/jimmycuadra/status/846935997619200000" rel="nofollow">https://twitter.com/jimmycuadra/status/846935997619200000</a>
I built a guitar stomp box using a Raspberry Pi Zero to trigger samples with a foot switch. Runs on 9 volts and has a very bright OLED display so I can still see what it's doing when I'm playing in a dark venue.
It's an addiction, I have 17 and a Pi4 on order<p>1 - (pi) pi - temperature sensor<p>2 - (pi) woody - garage door opener - custom web interface<p>3 - (pi2) white - Unicorn hat blinking lights<p>4 - (pi2) pi2b - OpenVPN server, pihole DNS<p>5 - RetroPi - Games (Pi 3)<p>6 - bigwood - Freeswitch phone system, Nagios4 (Pi 2 Model B v1.1)<p>7 - (pi) unicorn #2 - unicorn hat blinking lights<p>8 - pi2 motion - motion sensor, camera, blink(1) light- blink shows red or orange when motion is sensed and takes photos<p>9 - Slack Bot - (at work)<p>10 - zero (on desk at home)<p>11 - green3 - camera - garage wide angle (old cam)<p>12 - infra - camera front door<p>13 - infra2 - camera garage wide angle<p>14 - infra3 - camera front door far view<p>15 - zerow-cam with infrared usb adapter displaying cameras on tv - change cameras with remote control<p>16 - zerow-cam1 - camera back yard<p>17 - zerow-cam2 - camera back yard<p>18 - Pi4 4GB is backordered but I found a Pi4 2GB which I hope will serve well as a file/backup server. Hoping to utilize the USB3 to get better I/O to a couple external disks.<p>Running Bitwarden on a VM right now but will probably move this to a Pi4 in the near future<p>I have all of these connected to a custom command-and-control web interface (socket.io) where I can send commands, perform updates, monitor load average, version, uptime - and can reboot if needed
I used an ESP8266 and not the Pi for this, but a really really great m/c project is a wireless fan controller for a smoker or kamado (big green egg-style) grill.<p>I made mine from scratch as an learning exercise, but here’s a similar project using the Pi:
<a href="https://github.com/michmike/Raspberry-PI-Q" rel="nofollow">https://github.com/michmike/Raspberry-PI-Q</a>
It’s<p>We use it to make, for example, this recipe (with some modifications of our own) on a regular basis with a minimum of effort, and it is one of the most breathtakingly delicious things I’ve ever tasted, let alone cooked myself. We follow his instructions but hold to 180-190 deg until the meat reaches about 138, basting a few times with a honey+whiskey+thyme glaze; also be sure to use a fatty salmon, like (in my experience) farmed atlantic, not sockeye.<p><a href="https://youtu.be/1zT8QBMEML8" rel="nofollow">https://youtu.be/1zT8QBMEML8</a>
I have 4 running at home as servers:<p>- an OctoPi server, which allows me to manage my 3d printer remotely.<p>- a VPN<p>- a Plex Server, serving media to my TVs and phone. I just ordered the new 4GB Pi4 to replace this one. I’l probably re-purpose it as an OctoPi-like box for managing a CNC.<p>- a seldom-used retro gaming box, that’s actually been mostly by a hacked Playstation Classic
Media player connected to tv. (Kodi or Elec, I can't recall which)<p>What I found really neat about this is that if you use the HDMI connection, there is some automated setup/control that allows my tv remote to control the PI. (through the HDMI connection)<p>But also, the smart phone app for Kodi remote control added a new layer of interaction with the media player that is just sort of unique and unexpected. (everything worked so easily)
I installed the Pi-hole ad blocker (<a href="https://pi-hole.net/" rel="nofollow">https://pi-hole.net/</a>) on a Raspberry Pi Zero, and have it as my DNS server on my home network. It has improved general browsing speed tremendously.
A few years ago some of my coworkers used a Raspberry Pi to instrument our work foosball table. They had badge readers so all the players could badge in, and IR sensors for autoscoring. They found some open-source foosball leaderboard software that they ran on the Raspberry Pi as well, so we had an auto-scoring, auto-ranking foosball table. Best Raspberry Pi project I've ever seen :)
I have several, I use them for multiroom audio with snapcast (mostly with USB DACs although one has a DAC hat.
Some have temp and humidity sensors, one has the rpi cam.
One has a always on vpn connection and transmission running.
For a while I used one with a Parsec client and cloud gaming.
However, I use a Odroid XU4 for all the big stuff (home assistant, NAS, nodered, mopidy, etc.)
At the moment I am using a few pi to control my garden systems. I just built an open source system (<a href="https://mudpi.app" rel="nofollow">https://mudpi.app</a>) to help manage the sensors and relays. Actually gearing up for a launch soon.<p>Being able to regulate my watering and control it from my phone as been awesome. The whole thing emits events with sensors on redis so its open for systems to hook on top of it. Pi was the ideal choice to keep inital costs low. The amount of power you get for the price is pretty sweet.<p>The other pi is running the same code moderating lights on a basement shelf of plants too.<p>The last pi I am using retro pi to play some old school roms.
My wife and I went to Paris, and in our AirBnB there was a fantastic little radio. We'd turn it on and listen to Radio FIP and just leave it going. I had forgotten the pleasure of listening to what was on, rather than picking, or worse, skipping songs.
I hooked up my raspberry Pi to a small LED header with directional buttons on it. Each button was a different french radio station's m3u stream, output to speakers. It perfectly simulated the radio.
I want to put in a delay where it would be time synched with California so the theme is more aligned (slow night time music at lunch is noticeable).
1) PiHole<p>2) Wired one into a rotary phone to make a weird steampunky smarthouse controller (Dial '0' to turn off all downstairs lights and music, etc)<p>3) Various LED controls for fun, and Christmas<p>4) Always experimenting with MycroftAI to stay away from Alexa
Some use them to get into NASA, so, pretty useful.<p>> The U.S. National Aeronautics and Space Administration (NASA) this week confirmed that its Jet Propulsion Laboratory (JPL) has been hacked. An audit document from the U.S. Office of the Inspector General was published by NASA this week. It reveals that an unauthorized Raspberry Pi computer connected to the JPL servers was targeted by hackers, who then moved laterally further into the NASA network.<p><a href="https://news.ycombinator.com/item?id=20264774" rel="nofollow">https://news.ycombinator.com/item?id=20264774</a>
1. PiHole (seems popular in this thread)<p>2. OctoPrint for my printer (with a touchscreen because I hate using the knob-based interface on the printer when I'm leveling the bed or doing maintenance)<p>3. Sitting on my desk because my Terraria server was freezing when saving the world file. Might set it up for emulation in the living room
There's a thousand or so of them scattered around Europe which were the foundation of the company I work at, acting as IoT hubs to communicate with devices designed to alert insurance customers of floods, intrusion, and fire in their homes. We hadn't ever really planned to get into building our own hubs, but the RPi ecosystem meant that when we were forced into that corner on short notice (thanks Smartthings for shutting down app approvals at the last minute) we were able to go from zero to working product in a matter of weeks!
I use a RPi Zero W to run DakBoard: <a href="https://dakboard.com/site" rel="nofollow">https://dakboard.com/site</a> which my family uses to organize our life.<p>I'm planning on adding another Pi as a Pi Hole device as an experiment in parental controls via low TTL values to provide scheduled access to specific DNS names. For example, my kid gets distracted beyond all that is reasonable by Discord and I'd like to let him use Discord, but only at specific times. Anyone with an interest in this, please let me know!
I run OSMC[0] which is really just raspbian + kodi + updates.<p>Because it's just debian, I also run homeassistant in a docker container started with systemd.<p>I like this because:<p>- OSMC ensures it boots into kodi and keeps kodi up to date<p>- systemd/docker makes it very easy to manage my homeassistant config by scp'ing a new image over to the pi.<p>Nothing out of the ordinary given the other responses here, but thought I'd share because it's been an especially stable setup for me.<p>[0]: <a href="https://kodi.wiki/view/OSMC" rel="nofollow">https://kodi.wiki/view/OSMC</a>
In the process of moving our Hardware Test infrastructure(Think Selenium for testing hardware)over from Windows SBC based solutions to a R-Pi-Zero based solutions. Applications range from driving stepper motors, sensors and generating pass/fail results. The inital investment is in porting all the code written for Windows to embedded linux but the investment pays off in the long run in cost minimized by moving away from a Windows desktop. Will do a write up of how i achieved it once i have some concrete results.
I'm using mine as a kitchen computer to lookup stuff online. Not exactly a Pi, but I used a adafruit feather to detect vibrations. I used it for landscape photography with a super telephoto lens where I wanted to be able to detect vibrations before firing off a bracketed shot.
I created a toilet bot for our office. We only have one toilet, which caused a lot of people to walk to the toilet to check if it's free.
I connected the Raspi with GPIO door controller and created a python script which makes use of the UCWA library from skype for business and hooked it to a blynclight (status indicator).
Now ever coworker can add a specific contact to his Skype for Business favorites and will immediately see if the toilet is free or occupied.
Turned a Pi 1 into a DHCP server at work to replace failed windows server.<p>Got a Pi Zero at home, but only used it to play with GPIO and i2c, i like to poke around in drivers to get more insight into how different hardware interfaces and protocols work over these interfaces.
I'm using a Raspberry Pi (Gen 1, Model B I think) to run a smart mirror. It pulls up my daily commute, news headlines, weather, and calendar. I take no credit for the software (<a href="https://github.com/MichMich/MagicMirror" rel="nofollow">https://github.com/MichMich/MagicMirror</a>)<p>I also had one connected to my Motorola LapDock back in 2012 to run a portable raspbian laptop. It worked surprisingly well.
I've got a 3b+ and a 1b, and whilst only the 3b is in use currently, I have plans for the other.<p>The 3b runs libreelec for a tv in my bedroom. I found my 1b to be too slow for this, but the 3b+ does admirably.<p>The 1b, I hope to repurpose into a couple of services:<p>1) a pihole for my home network<p>2) a Wireguard VPN for connecting my phone back to my home network.<p>This is all sort of waiting on me getting usable internet, because my 700kbps upload currently sort of makes it pointless. However, I'd like to do this once I have better internet so I can use my phone as if I'm on my home network. This will provide me with several benefits:<p>1) I will be able to stream media when travelling for work<p>2) My phone will benefit from the pihole even when out and about<p>3) I will be able to control my home network as if at home<p>4) It will provide another endpoint for hurdling the GFW when I work in China<p>I hope to start all of this next year, once I move house or when I finally receive a proper internet connection rolled out to my place. If the 1b is too weak for those services, then I will probably repurpose it into some sort of automation system for watering plants, since once again due to work travel I routinely have to lug them over to relatives' houses whenever I'm away for a week or more.
I'm a ham radio operator and I run a WSPR beacon using a RPi, a TAPR-QRPi shield, the WsprryPi software and a random wire antenna. The RPi generates an HF signal on GPIO_4 at around 14 MHz (20 meter short wave band), the TAPR-QRPi shield filters out the harmonics and amplifies the carrier to around 200 milliwatts. Using a 12 feet wire on my balcony I get automated reception reports from 300 to 2800 miles away.
1) barcode scanner to put products in my online supermarket’s shopping cart<p>2) security cam to do facial recognition and drop me an email<p>3) general purpose remote control website/api for turning things on/off such as tv, amp, dac (typical things that need hw integration: ir blaster, 433mhz sockets, 12v trigger voltage etc). Recently discovered APIs integrate quite nicely with Apple’s iOS ‘Shortcuts’ app for poor man’s voice control!
I use Raspberry Pi 2 to synchronize files across my ubuntu/macos/windows machines, backup them into the encrypted backup and then upload that backup offsite.<p>I use syncthing to synchronize files. It's fast, stable, cost me nothing and the only limit I have is the size of my disks.<p>Syncthing is decentralized, that means that two machines have to be powered on at the same time to be able to perform sync. Raspberry Pi allows me to have that always-on machine at home which is small, quiet and unnoticeable in my electricity bill. Syncthing works across internet bypassing NAT thanks to the community-ran relays (I also run one of them). I could take my laptop everywhere and file changes will still reach my Raspberry Pi.<p>I hook up an external Seagate USB HDD and it runs just fine without an extra power source. Syncthing keeps up-to-date copy of all my files on that external HDD.<p>I use borg-backup to take hourly snapshots of my files. Those snapshots are encrypted and I upload them offsite without any worries that some cloud provider could possibly read them. I use rclone for that, it can interface with a number of cloud providers out there. It just take your files and one-way sync them into the cloud.<p>The setup of rclone and borg-backup is not particularly complicated but still requires some time. Directories, encryption keys, periodic jobs have to be configured. I abstracted all that into one script which is a bit opinionated but works for me. That script can be run on Linux on on MacOS. I used my Mac for that before Raspberry Pi. It uses system or launchd to run periodic jobs <a href="https://github.com/senotrusov/backup-script" rel="nofollow">https://github.com/senotrusov/backup-script</a><p>I installed Ubuntu server on that Raspberry Pi to have familiar environment.<p>Sadly Raspberry Pi lacks secure boot and have no internal TPM functionality. My external HDD is encrypted but I can't trust Raspberry Pi to hold the encryption key. In rare event of reboot I have to ssh in and manually enter the LUKS key.<p>This setup is still prone to an evil maid attack as someone could replace or modify the SD card to log that key. That scenario is highly unlikely as I am no particular interest to anyone. What is slightly more realistic is that someone could brake into my house to steal stuff. For that my data is secure as the key is lost the moment you power off the Raspberry Pi.<p>Overall I'm pretty happy with that setup. My Raspberry Pi slowly blinks with it onboard red LED to indicate that all that services run well and alarms me with fast blinks if something is not right.
I have a RPi2 running as an NFS server.
I have a RPi0W with a camera streaming video to said NFS server.
I have a RPi1(256MB) in the bathroom streaming music from the aforementioned NFS server.
I have a RPi0 attached to the USB port of my router running PiHole.<p>And then I have a shelf of other Pis doing nothing, but you know, one day I will finish all those projects...
Our Raspberry Pi 3 B is the core processing unit for our humanoid robotics platform [1]. This is in the context of the RoboCup competition [2]. With it we run:<p>* Vision - A custom CNN using YOLO [3], where we are able to process a 256x256 (input is scaled) at 10fps to detect bounding boxes for balls and goal posts<p>* Localization - Kalman filter (mainly currently used for tracking rotation)<p>* Networking - Game controller (referee) [4], team communication [5] and a debug interface [6]<p>* Behaviour - A hybrid state machine<p>* Walking - Inverse kinematic walk with a balance system [7]<p>Feel free to ask questions. We plan to open source everything (everything) in a month to two months.<p>[1] <a href="https://humanoid.science/" rel="nofollow">https://humanoid.science/</a><p>[2] <a href="https://www.robocup.org/" rel="nofollow">https://www.robocup.org/</a><p>[3] <a href="https://pjreddie.com/darknet/yolo/" rel="nofollow">https://pjreddie.com/darknet/yolo/</a><p>[4] <a href="https://github.com/RoboCup-Humanoid-TC/GameController" rel="nofollow">https://github.com/RoboCup-Humanoid-TC/GameController</a><p>[5] <a href="https://github.com/RoboCup-Humanoid-TC/mitecom" rel="nofollow">https://github.com/RoboCup-Humanoid-TC/mitecom</a><p>[6] <a href="https://github.com/hellerf/EmbeddableWebServer" rel="nofollow">https://github.com/hellerf/EmbeddableWebServer</a><p>[7] <a href="https://github.com/Rhoban/IKWalk" rel="nofollow">https://github.com/Rhoban/IKWalk</a><p>EDIT: Bullet points on different lines
I work for the Raspberry Pi Foundation, in the Education team.<p>We're always on the look out for new ideas and projects to turn into learning resources.<p>If anyone would like to share their code, wiring diagrams and setup processes, then please feel free to email me.<p>marc@raspberrypi.org
I have one hooked up to my TV on an HDMI port to display all my home surveillance cameras in a grid. Works with any cameras that support RTSP.<p><a href="https://selfhostedhome.com/raspberry-pi-video-surveillance-monitor/" rel="nofollow">https://selfhostedhome.com/raspberry-pi-video-surveillance-m...</a>
I used my Raspberry Pi 3 B+ to control all Fish tank equipments remotely. We live in a city (Chennai, India) and my family usually goes to our native for 2 months every year during summer vacation. During these times, it find it very difficult to manage the equipments.<p>The Raspberry Pi controls 2 Lights, 2 Filter pumps, Cooler, Fish feeder, and CO2 cylinder. Am planning to attach a camera and some sensors to the system as well.<p>Right now, all these components are controlled by simple scheduling, but am planning to extend the control through a server in future.<p>The Pi is connected to a 8-Relay board and is attached to a extension power board. So this setup can control just any equipment.<p>Source Code: <a href="https://github.com/codetiger/AquariumControl" rel="nofollow">https://github.com/codetiger/AquariumControl</a>
I just set up pi-hole on one this weekend. It was my first time trying a Raspberry Pi, and I loved it. With the news about the latest version and the improved specs, I'm considering setting up a couple to replace my kids' computers, which are all old and under-powered.
I do embedded, real-time and distributed product development for clients in the commercial, enterprise, aviation, defense, and big science domains. I probably own two dozen Pis of various vintages (and just ordered one of the new Pi 4 models). It's my go-to platform for prototyping, especially for ARM-based systems. I keep one on my LAN just to regression and unit test software that I otherwise developed on an Intel platform. I've also used Pis in devices that are more-or-less permanently deployed, like an NTP server that uses a GPS-disciplined chip-scale cesium atomic clock as its oscillator, and a home-built WWVB clock. I'm currently using three Pis in a Differential GNSS system I'm prototyping.
I use one with an extra wifi card as a wireless router. I'm living in hotels a lot and sometimes I find their wifi too restrictive. The built-in wifi card connects to the hotel wifi and the external wifi card acts as an access point to which all my other devices connect to. This way I only need to pass the captive portal once (and only pay for one device ...) and I can enable a VPN to my home router in case I want to use Netflix or Amazon Prime in a foreign country.<p>Another raspberry pi I turned into a listening device to analyze and modify traffic. I call it Lauschgerät: <a href="https://github.com/SySS-Research/Lauschgeraet" rel="nofollow">https://github.com/SySS-Research/Lauschgeraet</a>
I use it do Anki on my bike ride to/from work. Wrote some scripts in Python. They take my deck, convert it to speech using IBM Watson’s TTS. Then i made a small PCB with 4 buttons that is fixed to the handle bar. That way I can interact with the program.
Mine is running in my attic, hooked up to three antennas on my roof:<p>1. A GPS antenna which provides an accurate “stratum 0” time source. The pi runs ntpd and provides time for all devices on my network.<p>2. A home built ADS-B antenna for receiving position reports from local aircraft and airliners. Interfaces to the pi with a USB SDR. Pi runs dump1090 to provide a web visualization of local air traffic. I also feed FlightAware with this info.<p>3. A home built VHF antenna for listening to airband transmissions. Second SDR. Pi runs scanner software and an IceCast server for clients on my network to connect and listen.<p>The pi also has a temperature sensor that logs once a minute so I can plot my attic’s temperature and I can have it alert me if it gets too hot.
At one point, I figured I wanted some lighting for my bar, which consists of about 70 bottles on shelves (about 1.2m wide and 2m height).<p>But a simple on/off is not good enough. Instead, I went with individually addressable LEDs (NeoPixels strips to be exact), and developped my own back-end to manage those LEDs, with a simple front-end.<p>So far, it supports lighting bottles individually, by category (rum, vodka etc...) and some simple animations across the whole bar.<p>It's a nice ambient lighting, and it serves as a show-off for guests.<p>Plus the whole thing runs on a second-hand computer power-supply. The Pi runs on the power-supply power-on line so that when no LED is on, the main power-supply is shutdown to reduce electricity consumption.
I got a bunch of them running Screenly (<a href="https://www.screenly.io" rel="nofollow">https://www.screenly.io</a>), so I'd say that's a good use :)<p>Also, I'm using PiHole and Home Assistant.<p>Disclaimer: I'm the author of Screenly.
I use one as a hub/gateway for untrusted IoT devices.<p>It hosts a separate, isolated wifi network via hostaod/dnsmasq. Clients aren't given routes to the primary network or the broader internet - they should only see the Pi and other clients (I'd eventually like to restrict access to other clients as well, but haven't played with that yet).<p>Access to the devices is via a web server running on the Pi that relays commands and responses. Right now it's a page full of hard-coded buttons and indicators, but I eventually want to turn it into a flexible firewall-like system to make it easier to add/configure/remove clients and rules.
I got an AdaFruit servo hat and I use it to drive my hexapod. I used to use a Propeller and then an Arduino. My next project is to integration some vision recognition into my robot. I am planning on using a Jetson Nano for the vision part, but I believe switching to a Pi for the robot was a helpful precondition. I haven't decided if I will just use the Nano to control the robot or use it as a visual co-processor with the Pi.<p>Old video of my hexapod below. Still works great though, because it is really sturdy.<p><a href="https://www.youtube.com/watch?v=121DuXM5tYE" rel="nofollow">https://www.youtube.com/watch?v=121DuXM5tYE</a>
I've been always fascinated with sunrises and sunsets, so I built a picam to take timelapses:<p><a href="https://hackaday.io/project/28694-yet-another-raspberry-picam/details" rel="nofollow">https://hackaday.io/project/28694-yet-another-raspberry-pica...</a><p>youtube channel: <a href="https://www.youtube.com/channel/UCkH0MTHo-LlxOL_W_3Qeq9Q" rel="nofollow">https://www.youtube.com/channel/UCkH0MTHo-LlxOL_W_3Qeq9Q</a><p><a href="https://www.flickr.com/photos/bentretea_picam/" rel="nofollow">https://www.flickr.com/photos/bentretea_picam/</a>
I have a pi3 setup as a garage door opener. It's wired to two, 4 channel relays (only use two relays), one for each garage door. A simple php page that can be accessed and a big icon 'lressed', triggers the gpio to switch the relay. This opens or closes the door. I set this up because I got tired of replacing batteries in a garage door opener. This way,I just open the web page on my phone and open the door. I also setup a few android Tasker jobs to register when my phone connects to home wifi, and is also connected to my vehicle Bluetooth. When that registers, it automatically opens the garage door.
We use it as a front end to our Church's AV system. It runs a GUI written in Python with PySide that controls our cameras, hyperdeck recorder and vision mixer.<p>It also controls the power switches for the system, and the blinds.
Two things, working on more. VPN router and a doorbell to desktop-notifications box. I like listening to music on noise cancelling headphones sometimes when I work. I wouldn't hear the doorbell in that case, so I have a pi with a mic that sits close to the doorbell. If the noise level goes past a certain threshold for a few samples, it sends a command to my workstation where a script sits and triggers a desktop notification. Works pretty well with very few false positives and all "I might miss the package delivery guy" anxiety is gone while I enjoy music.
I use one running OpenWRT as a router. Its an old 3B, so it barely keeps up now that our internet has been updated to 100Mbps. It will soon be replaced, possibly with a pi 4. Of course, it also runs some other things.<p>I have OpenVPN running on it as well as a little nginx instance that I can use for reverse proxying if need be.<p>And the wifi turned out to be surprisingly solid as a (slow) access point, so I have sometimes used it as a Internet of Things Access Point with routing rules to keep all of those devices off the internet.<p>Its a surprisingly powerful little network box even with its significant limitations.
1x Raspberry Pi 3B+ running OctoPrint, velcro-attached to my printer.<p>2x Raspberry Pi 2B running OSMC (with Kodi) for streaming from NAS to office TV and living room TV.<p>1x Raspberry Pi Zero W running OSMC (with Kodi) for streaming from NAS to bedroom TV.<p>Provided HEVC H265 decoding works as it should, I suspect I will eventually upgrade all 3 of these to Model 4. They're great for a media center -- low power, small, and provide a local-only player for TVs I don't want to connect to any network.<p>Also have 2 OG B+ models that sit in a drawer unused, since they don't have enough power for the above tasks.
I use a Raspberry PI Zero / 3 together with a phat dac for a bluetooth audio receiver / Airplay in my car:<p>Auto-Installer: <a href="https://github.com/BaReinhard/Super-Simple-Raspberry-Pi-Audio-Receiver-Install" rel="nofollow">https://github.com/BaReinhard/Super-Simple-Raspberry-Pi-Audi...</a><p>PhatDac (hardware): <a href="https://www.amazon.com/Pimoroni-24-bit-192KHz-Sound-Raspberry/dp/B019U9VC9E/ref=sr_1_1?keywords=phat+dac&qid=1561436473&s=gateway&sr=8-1" rel="nofollow">https://www.amazon.com/Pimoroni-24-bit-192KHz-Sound-Raspberr...</a><p>Alternative (hardware): <a href="https://www.amazon.com/Audio-AUDIO-Raspberry-Better-quality/dp/B00MDW602K/ref=sr_1_2?keywords=phat+dac&qid=1561436555&s=gateway&sr=8-2" rel="nofollow">https://www.amazon.com/Audio-AUDIO-Raspberry-Better-quality/...</a><p>It can be controlled via buttons over bluez / dbus via infrared remote and buttons:<p>Button Shim (hardware): <a href="https://www.amazon.com/Pimoroni-PIM301-Button-Shim/dp/B07HCPC8MP/ref=sr_1_1?keywords=pimoroni+button+slim&qid=1561436627&s=gateway&sr=8-1" rel="nofollow">https://www.amazon.com/Pimoroni-PIM301-Button-Shim/dp/B07HCP...</a><p>Bluez API: <a href="https://git.kernel.org/pub/scm/bluetooth/bluez.git/tree/doc/media-api.txt" rel="nofollow">https://git.kernel.org/pub/scm/bluetooth/bluez.git/tree/doc/...</a><p>DBUS control script: <a href="https://github.com/sandreas/raspberry-bluetooth-receiver/blob/master/scripts/btapi.sh" rel="nofollow">https://github.com/sandreas/raspberry-bluetooth-receiver/blo...</a><p>Unfortunately it is not possible to set playback position via dbus (see <a href="https://stackoverflow.com/questions/50190477/bluez-and-dbus-set-track-playback-position-jump-to-position" rel="nofollow">https://stackoverflow.com/questions/50190477/bluez-and-dbus-...</a>), so rewind 30 seconds is not possible atm.
I used a Raspberry Pi to solve the problem that the trash can in front of the building where I lived was often overflowing when I tried to take out the trash:<p>I connected a 20x4 character LCD to the Pi and put it next to the bathroom mirror. The display displays some useful info:
- Estimated garbage can levels (interpolated based on the trash calendar)
- weather forecast
- cryptocurrency prices<p>So when I notice that the trash can level is low I can take out the trash without troubles.<p>(These days I use my Pis for more simple things like RetroPie+Kodi and PiHole)
I use an older Pi with a USB DAC to bring in audio and data from my radio scanners, for a slow-moving side project. Goal is to mux the audio with time sensitive radio metadata, like talk group and location (surprisingly difficult given messy state of formats, containers and playback options) and deliver this to clients on the network for easy listening and other processing (e.g. speech-to-text, mapping, etc.). Learned a bunch of gstreamer in the past half year, hoping to pick this all back up with the Pi4.
Many hospitals in S.Korea adopted my rpi based system. It is a network organized, synchronized, distributed video signage with weather/news web feeds and touch screen based vision acuity tester integrations.
The major key factor in it is a framebuffer driver by pure python which is open sourced by myself through Github.
<a href="https://github.com/chidea/FBpyGIF" rel="nofollow">https://github.com/chidea/FBpyGIF</a><p>Recent haul-over includes ESP8266 based remote power management.
I used mine as a NAS for a while with an external USB HDD and a samba share. It was also set up to be a VPN and pi-hole. I have a pi zero that I use to flash coreboot on laptops.<p>My PS3 isn't doing so hot as a media server client for my NAS's movie library - the network connection is poor, the interface is fiddly, and it can't load subtitles embedded in files. I was going to buy a pi3 to replace it as a media server client and hook up an external DVD player, but now I'll be getting a pi 4!
1. simple server for backup and git repos<p>2. xbmc for videos on main tv<p>3. retropie (I had fun with this for about a week but haven't used it lately)<p>4. pihole for blocking ads and time-wasting sites<p>5. various small projects: security camera, motorized window shade, etc.<p>I run Home Assistant on my desktop to communicate with a few of the other devices in the house but I might move that over to a Pi so I don't have to worry about restarts and performance. I'm thinking about consolidating this setup somewhat but I'm waiting for my next move.
I have three always on<p>One Pi3B+ connected to anemometer and single solar cell, uploads up to 60 secs of analog data reading every minute by CRON, then has other CROn stuff for emailing<p>One Pi Zero for home security camera attached to motion sensor/rapid shutter mode, uploads to S3 bucket<p>One Pi zero for reading HN news out loud in the morning by Amazon Polly, tracking solar cells on window, and then more scheduling stuff<p>I have another one powered by USB, I intend to use it as "swappable dev stacks by sd card" through USB SSH
I'm working on turning it into a IR emitter to control some stuff that I have that lack remotes. I have another I've loaded snips onto an will be experimenting with soon - I'm currently using a PlayStation eye for the experimentation, but will have to get a better microphone/speaker. I wish I could hack a dot/echo/etc. and use their microphone/speaker, but meh, I'll take what I can get.<p>Also, the IR pi will probably drive some ambient light as well.
I hooked up the raspberry pi to an old monitor I hung over the kitchen table. It boots up shortly before dinner time for an hour and then displays "Find my Friends" on Chromium in kiosk mode. (Inspired bij the Weasly family clock from Harry Potter).<p>It's a fixture I couldn't live without anymore. When family members travel you still feel connected. It has a tiny ruby script to rotate through pages, during breakfast it displays the kids' upcoming class schedule.
I've got a RPi 2 running PiHole and a SAMBA server for a bit of in-home file-swapping convenience. ("Just throw it on the server and I'll pull it from there!")<p>Currently my problem is that samba will fail to write files greater than around 100+ MB uploaded to the server. (Writing to a USB drive). It still handles multi-gigabyte downloads ok.<p>I've been able to work around it with SFTP uploading, so it's just a minor annoyance, but I wish I knew what was going on.
We hacked together an automatic door opening system controllable via smartphone that notifies you on ringing and sends a video, then opens the doors on button press with a Lego contraption [1].<p>[1]: <a href="https://www.reddit.com/r/raspberry_pi/comments/bwdv36/a_smartphone_door_control_system_hacked_together/" rel="nofollow">https://www.reddit.com/r/raspberry_pi/comments/bwdv36/a_smar...</a>
We used a few to power kiosk touch screens and other commercial display applications using network broadcast video.<p>Made a seven screen display each with their own pi that sync’d individual videos running on each to create some video art pieces.<p>Also made a bullet time rig with 15 pi’s and each with their own webcam. There was a guy who did this already with lots of documentation but using his own pi-interface hardware he created. We did it without the pi controllers.
I use it to take up space in my drawer of useless electronic stuff because I can never find a combination of power supply and SD card that doesn't eventually end up corrupt and unbootable.
A device that waits for the SSID of my Olympus WiFi-enabled camera to show up and then sync all new photos:<p><a href="https://github.com/gvalkov/olympus-photosync-server" rel="nofollow">https://github.com/gvalkov/olympus-photosync-server</a>
<a href="https://github.com/gvalkov/olympus-photosync" rel="nofollow">https://github.com/gvalkov/olympus-photosync</a>
I pulled a prank at the office with my RPi.<p>I built a very simple circuit to listen to 5V pin of HDMI and I hid RPi and the circuit under the desk of a colleague after work and turned off video output of RPi.
Colleague's laptop -HDMI> RPi -HDMI> external display.
when the colleague comes to work and turn on the laptop, my RPi turned on its video output and external display showed the website I made for the occasion.
Some projects:<p>Easy Setup (Download and Run):<p>- ADS-B decoder and transmitter to FlightAware<p>- PiHole<p>Required More Coding:<p>- PhotoBooth: Python script that monitored a special Gmail account and sent attached images to a photo printer (Canon Selphy)<p>- Upload to Dropbox: ScanSnap sheet-fed scanner, listened to scanner button response, created PDFs, copied to DropBox<p>- Data Collection Engine:<p>1. Collected data from local sensors (temperature and humidity) in nursery.<p>2. Collected periodic data from public APIs (NYC CitiBike)<p>3. Captured time lapse images from nursery every 2 minutes.
I will use my first one to power a hard drive that I leave with family or friends. They'll have a small box (mind the inclusion of an external hard drive, still a relatively small box) with my off site back up, and I could host the same for them.<p>This is after a failed plan to use it for Android TV (my girlfriend made the mistake of picking a WebOS TV and I made the mistake of thinking it wouldn't be so bad). The old one was just a little too slow and only did full HD (honestly, it's fine, but if you have a 4k TV it feels kinda silly). Now that the pi4 has a bunch more power and can do 4K at 60Hz, there is another chance for this!<p>I'm also toying with the idea of using it for sensors. Battery powered air quality sensor to see along my walking route (there is a narrow, busy car passage that I'm curious about), or maybe measuring things like electricity or heater usage in realtime. Having a graph showing you when it gets used a lot might help identify some easy wins, since walking to the basement to check the meter is a little cumbersome. But those are just ideas.
I've bought every board that comes out since the 2B. Most of them get gifted to relatives as Kodi boxes. The three I currently use are a 3B that runs the [0] LivPi CO2 and environment monitor, a zero W that has a noIR camera pointing at my plants under lights, and a 2B+ that runs piHole.<p>I recommend the odroid [1] XU4 (desktop) or [2] HC1 (nas) if you have anything that requires constant read writes. Pi SD cards do go bad over time unless you set it to run the OS from memory. Odroid made a smarter choice going with eMMC early on. The con of odroid is you have to hack everything that was already done on a pi to work.<p>[0] <a href="http://www.livpi.com/" rel="nofollow">http://www.livpi.com/</a><p>[1] <a href="https://www.hardkernel.com/shop/odroid-xu4-special-price/" rel="nofollow">https://www.hardkernel.com/shop/odroid-xu4-special-price/</a><p>[2] <a href="https://www.hardkernel.com/shop/odroid-hc1-home-cloud-one/" rel="nofollow">https://www.hardkernel.com/shop/odroid-hc1-home-cloud-one/</a>
My Raspberry Pi 3 works as a CUPS print server connected to a laser printer, as a pi-hole DNS server to filter ads, and as a ssh entry point (with dynamic DNS). I would use a Pi zero, but Ghostscript is not too happy when printing large documents on a single-core processor with 512 MB of ram. I still have to find the time to set-up a backup server on it (and decide which software to use).
I have 5 or more in my house, some bought, some inherited. One of them runs pi-hole. I'm in the middle of setting up octopi for a new 3d printer on another one. Two of the others are pi zeros (no wireless), no plan for those any time soon. I also have one of the older models, RCA video output instead of HDMI. I'm not sure I'll ever find a use for that one.
I build an RC (with the goal of making it autonomous) car. I got as far as giving it edge detection: <a href="https://www.youtube.com/watch?v=r-o8Uzi5o1k" rel="nofollow">https://www.youtube.com/watch?v=r-o8Uzi5o1k</a> but haven't continued the project. It's a great platform for exploring controlling hardware and prototyping ideas!
A bunch:
- Ubiquiti network controller, Pi Hole
- Temperature controller to knit an ancient hydronic in floor heater and a new-ish mini split together to act in unison. Pings local national weather stations to get more accurate data than I care to replicate at my home.
- Octoprint for my 3d printer
- 4x for a hobby project stitching together video from multiple cameras
I have several RPI... I have one that controls the roof of my remote astro observatory, using some level converters drives relays to control two whinchs... When I have to open the roof I launch a python script. I have also another controlling the supplies of the mount, telescope, camera, focuser... These pi's are really realiable (I use Raspian, no X)
I'm using an RPi as the main compute module for an Autonomous Radio Controlled Car. It's similar to a Donkey Car, but not using ROS (at the moment). Project is documented here: <a href="https://medium.com/@mikkelwilson/autonomous-rc-car-part-0-6e341de2a52d" rel="nofollow">https://medium.com/@mikkelwilson/autonomous-rc-car-part-0-6e...</a> (This is not a commercial project; just for fun)<p>I'm very interested to see how OpenCV 4 and YOLOv3 object detection will run on the new RPi. At the current trajectory I will have to upgrade to a Jetson Nano to get hardware acceleration (CUDA), but resorting to specialty hardware seems like cheating.<p>They also make a great prototyping platform for IoT projects. I've built 802.11.4 (Zigbee) mesh radio networks for passing small messages across neighborhood distances.<p>Previously I used an RPi to run an Airplay Bridge to my Sonos speakers. This has since been supplanted by AirPlay 2, which Sonos supports.
I'm still using an old 1B (512MB version) for Kodi, almost on a daily basis. Playing back stuff from an NFS share. I'm limited to 1080p but that's still fine with me, I'd need a TV upgrade first anyways.<p>It's showing its age though, and I had to hack up some stuff to use it properly:<p>I'm controlling Kodi via Yatse (Android app), and mostly just use the file mode to browse Movies and TV shows. I have them sorted and named properly anyways so that's not that much of an inconvenience to me. Using the fancy views that show artwork and IMDB metadata is still working but a little to slow.<p>But even in plain "file mode" Yatse was a little to slow and sometimes timing out when listing directories with 200+ items. This is where the hacky stuff comes to play: I built a simple proxy that intercepts the requests from Yatse and modifies them, namely, when Yatse is listing a directory it sets some field in the JSON that says "media type video" for example, when browsing for videos (forgot what the key is called exactly; currently at work). So I simply strip that key entirely from the request, and now listings take 1-2 seconds for large directories.<p>While I was at it I also started to intercept links to youtube videos and instead call youtube-dl to download them first and then have Kodi play them back via NFS. This way I get 1080p instead of just 720p and also have a history of everything I watched on YouTube, in case I can't find it anymore, or it gets deleted etc. It's pretty brittle since it doesn't properly track state or prevent you from triggering a second download while the first one is still active, also if you request a 50min video it will take a while until playback actually starts, since it needs to download it fully first. But at least it recognizes if a video has already been downloaded and just starts playback instantly. Turning this into a proper project is on my TODO list, but that list is mighty long.
I have it set up to run a project where a subreddit has control over the watering of a live plant in my apartment.
The pi runs a reddit bot that reads the votes, and can switch on a pump to water. It also collects data about sunlight, moisture, temp and humidity to help inform the decision about watering. Despite many people's preconceptions about the goodness of the internet, I must admit that they do a wonderful job caring for my plant!<p>website: <a href="https://www.idealzanussiservice.com" rel="nofollow">https://www.idealzanussiservice.com</a><p>subreddit w/ voting: <a href="https://www.idealzanussiservice.com/blog/%D8%B5%D9%8A%D8%A7%D9%86%D8%A9-%D8%A7%D9%8A%D8%AF%D9%8A%D8%A7%D9%84-%D8%B2%D8%A7%D9%86%D9%88%D8%B3%D9%89-%D9%81%D9%89-%D8%A7%D9%84%D9%82%D8%A7%D9%87%D8%B1%D8%A9" rel="nofollow">https://www.idealzanussiservice.com/blog/%D8%B5%D9%8A%D8%A7%...</a>
Truth be told I have 5 or 6 raspberries. In all seriousness I think I'm actively using 3:<p>* A rpi zero running several scripts(hooked to slack, telegram and a private mattermost server) to monitor the health of some production services at work from home(in case the network at work goes down and all the services there fail to notify the right people). Has never happened but having it makes sleep at night a tad better.<p>* Rpi 3 b for some throwaway code/testing/place to store stuff at home and using it as an access server to access my home network.<p>* Rpi 2 b pretty much glued to my parents' router so I can access the network at their place every time there's one of those "My computer is telling me something, what do I do?". I'm sure most of you are aware that those messages are surely gonna cause the end of the universe and need to be resolved as soon as possible and could not possibly wait 2 hours.
I'm using a raspberry pi as a low latency server to organize and provide a bridge between esp8266's that are running LP flame effects for Capn Nemos Flaming Carnival. You know, for the kids! I've open sourced various aspects, and though it's all a bit disorganized as it is primarily me that uses it, you can find codey bits at <a href="https://github.com/burntech" rel="nofollow">https://github.com/burntech</a>, and cool pictures and links at <a href="http://capnnemosflamingcarnival.org" rel="nofollow">http://capnnemosflamingcarnival.org</a>. Yeah, it's kind of a Burning Man thing. But long term, I hope the tech can serve as a small fast network that controls potentially timing critical things (eg shutting off fire reliably, music-controlled effects, and etc.).
I have two. The main reason I love them is I can leave them on all the time using very little power. Our would be surprised how much u can supercharge your home network by having always-on Linux boxes on it.<p>One runs nextcloud and serves as a nas. I use freeddns to give my nextcloud instance a legit URL for free. I use letsencrypt to host my cloud over https, again for free.
The other runs emulationstation, deluge (torrent) which only runs when the box is connected to a VPN running on a vps, and serves up my movies and shows via minidlna.<p>I've also got some cool chron jobs that backup important stuff ((encrypted of course) to Google cloud and do some other things. I also serve up a keepass password database via webdav and do some neat stuff regarding keeping my keyfile separate fr my internet facing box but I won't get into exactly how that works.
I use it as a test camera source.<p><a href="https://github.com/pauldotknopf/raspberry-pi-camera-source/releases/tag/2.0" rel="nofollow">https://github.com/pauldotknopf/raspberry-pi-camera-source/r...</a><p>I can't wait for my Pi 4 to get in so that I can have a test 4k60 source.
Controller and logger (temperature, humidity, time lapse photos) for making tempeh (90F oven).<p><a href="https://github.com/smeylan/tempeh/blob/master/tempehrature.py" rel="nofollow">https://github.com/smeylan/tempeh/blob/master/tempehrature.p...</a>
It used to run kplex to bridge NMEA data (wind speed, depth soundings, boat speed, etc.) from our SeaTalk network to TCP/IP. Now a GL-AR300M does the job though, along with all the Wifi/GSM routing, saving one computer and power (when running strictly off solar and batteries, this matters).
I have a pi with a small display that keeps generating inspiring/funny quotes from various books that I have read.<p><a href="https://github.com/abhinuvpitale/goodreads-quotes-raspberry-pi" rel="nofollow">https://github.com/abhinuvpitale/goodreads-quotes-raspberry-...</a>
Media center & TV PC. I have a 4 TB external hard drive connected to it (and swap on it). Using a custom compiled kernel with zswap support, browsing the web isn't that bad with the 1GB of RAM on the 3B.<p>I've also hooked up an RTL-SDR to it and ran rtl-tcp instead of needing to run a long USB cord.
The best use I have so far is for a local TV station have the Pi using a LAMP stack to:<p>a) a Pubic Service Announcement slideshow it autoboots into chrome and hooks in composite NTSC. Can be remotely managed, etc.<p>b) It also serves the station's website which previews the slideshow in a frame, or has a page showing all the slides.<p>Experience: very resilient just cycle power when problems... but learned the SD card is way too sensitive for power cycling - so now has an external HDD for better recovery.<p>Plan to work on one for data collection/receipt for a local recycler, that one will likely use Python with a touchscreen to collect signatures.<p>This is a big disruption to the POS/terminal market as it gives a very powerful/flexible platform that can be developed/deployed inexpensively, and parts can be sourced easily when HW problems occur.
My favorite use is in a photo booth I set up. It controls two cameras (webcam for preview, DSLR for the actual photo -- hopefully the RPi 4 will be me enough bandwidth to drop to just the DSLR), outputs to a printer, and drives a monitor. And the whole thing fits in a nice little suitcase.
I play around with K8s on ARM: <a href="http://pidramble.com" rel="nofollow">http://pidramble.com</a><p>It's been a fun hobby project over the past 6 years, and I also do some other things like home environment (temp, PM2.5, etc.) monitoring.<p>I also have a few Pi Zero W's strapped to USB batteries I use for impromptu time-lapses, using a little set of scripts here: <a href="https://github.com/geerlingguy/pi-timelapse" rel="nofollow">https://github.com/geerlingguy/pi-timelapse</a><p>I love being able to tinker with software/hardware easily... The Arduino and FPGA's require a deeper investment, and I like how I can do everything I want in Python on a Pi, for more hobbyist projects that don't have more power/processing constraints.
At Geckoboard we have a Pi hooked up to a thermal receipt printer so that remote participants can print off their retrospective cards through Slack: <a href="https://medium.com/geckoboard-under-the-hood/building-a-slack-printer-for-remote-retrospectives-8de0282e5791" rel="nofollow">https://medium.com/geckoboard-under-the-hood/building-a-slac...</a><p>(We've upgraded it a bit since that post! - We also use it to ping a Slack channel for when it's standup).<p>We also use Pis to run some of our dashboards: <a href="https://support.geckoboard.com/hc/en-us/articles/360023924372-Set-up-Geckoboard-on-a-Raspberry-Pi" rel="nofollow">https://support.geckoboard.com/hc/en-us/articles/36002392437...</a>
Use it to bring Android Auto to my old car stereo:<p><a href="https://medium.com/@bendavey/bringing-android-auto-to-audi-navigation-plus-rns-e-using-a-raspberry-pi-3d7d3bd97d7a" rel="nofollow">https://medium.com/@bendavey/bringing-android-auto-to-audi-n...</a>
We have over 2000 deployed over Europe in locksmiths, providing a form of key service to the public.
Challenges include not DDoSIng our APIs, getting a correct configuration to not nuke SD cards, and ensure that a bad firmware push doesn't knock the network offline.
Short answer: I've got one sitting behind the TV in my parents' kitchen, running ssh and openvpn for proxy/vpn purposes, but mostly working as an automated BBC TV downloader, scripted to download a list of shows every night, at different qualities (e.g. don't need high frame rate for quiz shows), rsync them to my server at home outside the UK, and send me a PushBullet message to tell me what will be available to watch over breakfast. Works beautifully!<p>I'm very tempted to get a 4 and pair it with a lower-specced NAS for home server purposes - I don't think even the Pi 4 has quite the I/O to be a great storage server by itself, but that combo is probably more fun and flexible than just a NAS alone...
Make little fun robots like this Pixar lamp:
<a href="https://hackaday.com/2019/05/25/little-lamp-to-learn-longer-leaps/" rel="nofollow">https://hackaday.com/2019/05/25/little-lamp-to-learn-longer-...</a>
1 - Kids' desktop (Raspi3)
2 - Kodi (Raspi2)
3 - LAN print/automated backup server (Raspi1)<p>I've order a 4GB Raspi4 to upgrade the kids' desktop and 1 GB Raspi4 to upgrade the automated backup server (Gb ethernet + USB3!). Kodi will get the old kids' desktop.
I played with mine for a few weeks and got bored with it. It's on my desk here somewhere, possibly still running.<p>I setup a headless Linux distro and tested out the ARM port of SBCL. Not surprising, really, but I was able to setup Emacs, Slime, and SBCL and develop Lisp over SSH pretty comfortably.<p>I ended up writing a Common Lisp binding to WiringPI [0], and then another package which used it to read data from a GPS module [1]. I didn't really have a plan, just seemed interesting.<p>I haven't done much with it since then.<p>[0] <a href="https://github.com/jl2/wpi" rel="nofollow">https://github.com/jl2/wpi</a><p>[1] <a href="https://github.com/jl2/pigps" rel="nofollow">https://github.com/jl2/pigps</a>
<i>Home automation</i>: it's an offline system I wrote myself to tie together all the different systems where I would normally need separate (always online) controller for each. That includes several soldered-to-GPIO-pins remote controls, and a HomeMatic and a ZWave radio module, although the latter is still controlled by the Z-Way software and I'm just using their API for those devices. It's a Raspberry Pi of the first generation, I'll probably replace the hardware soon.<p><i>Audio</i>: I'm also using one RPi2 with an attached hard disk as a music player for pen&paper roleplaying sessions, and I have 3 Pis distributed around the house acting as Wifi-enabled Airplay receivers attached to off-the-shelf powered speakers.<p><i>Retro gaming</i>: I built one RPi2 into an empty Amiga 500 case, it runs an Amiga emulator with many emulated game floppy disks onboard. Fun fact, the Amiga 500 keyboard sends its key strokes over a serial interface, so it's relatively easy to attach it to modern devices.<p><i>3D printing</i> / <i>IP cameras</i>: I have drifted towards the Orange Pi hardware recently, mainly because they have a dirt-cheap headless module that costs about 10€. These are extremely useful for all kinds of automation tasks. For example, I'm using them with the Octoprint open source project to control 3D printers. Those headless Orange Pi Zeros are also fantastic as IP cameras, which has become necessary recently because consumer IP cameras that do <i>not</i> send all your data to China have become rare and expensive.<p><i>Attendance and access control</i>: I'm currently considering throwing out our shitty proprietary attendance and access management system at work, in favor of some simple custom-built Raspberry Pi or Orange Pi-powered panels. I have a prototype ready but haven't had time yet to make more.<p><i>Lab control</i>: I have an RPi3 attached via serial interface to a chemical analytics device at work, which required reverse engineering the proprietary protocol between the device and its shitty Win32 software. This allowed us to throw out a legacy Windows PC that needed to phone home all the time.
I just use one as a Plex server. Can't beat the cost of running it, which is roughly $6/year worth of electricity if I remember correctly. Previously I was running my Plex server on my gaming rig which cost a relative fortune to have running 24/7.
Tor relay with Display-O-Tron Hat to visualize the tx/rx speeds.<p>Wardriving rig with GPS puck that runs kismet, airbash, and bettercap to steal PMKIDs and also 4-way handshakes from nearby networks for offline cracking and data visualization. Also has UPS supply for backup power.<p>An aborted project to make a Hindustani raga time-of-day player, based on a Pi Zero W with a 128GB SD card, that would stream a continuous loop of music appropriate to the specific time of day (8 distinct periods), via a network interface such as Plex. But it was too complicated.<p>I've also used an RPi3 as a node in <a href="https://github.com/lennartkoopmann/nzyme" rel="nofollow">https://github.com/lennartkoopmann/nzyme</a>.
One runs CUPS and is my printserver for an ancient but very reliable HP laserprinter.<p>One is our Internet radio in the kitchen.<p>One Pi 3 with a PiNoir infrared camera is used in a home-made camera trap for recording the local wildlife.<p>Two Pi Zero Ws are used in my son's high altitude balloon cosmic ray high school experiment, recording video, and reporting GPS altitude and Muon count rates via 50bits/sec RTTY.<p>One is used in a beetbox I built for a BBC TV show. Not this one, but pretty similar: <a href="https://newatlas.com/beetbox-vegetables-musical-instrument/25462/" rel="nofollow">https://newatlas.com/beetbox-vegetables-musical-instrument/2...</a><p>Then there's assorted robots, but none of those are currently operational.
* Security camera with motion detection, which uploads clips to my personal Google Drive.<p>* Always-on, ssh-authenticated gateway to my LAN. I used it while traveling to tunnel through and remotely control my desktop computer which had some credentials I didn't have with me.
I have a few.<p>1) PiHole. I'm upgrading this to a RasPi4 and seeing if I can also merge 2) 5) and 6) into it.<p>2) NAS/VPN/Media Server/Hass.io<p>3) RTL-SDR for ADS-B Receiver feeding to numerous data warehouses (Flightaware, ADS-B Exchange, PlaneFinder, etc)<p>4) Connected to RTL-SDR and running rtltcp for generic HF/VHF/UHF radio receiving which was previously part of a SATNOGS automatic cubesat/Amsat/ISS receiver build I've not completed yet.<p>5) Debian desktop on my workbench<p>6) A Pi Zero W running a ZNC IRC bouncer<p>7) Experimenting with remote ham radio control but linux-based ham radio software is still a bit too frustrating, so this isn't an active project.<p>8) Two extra RasPis and three PiZeroW's just lying around because Microcenter always has them for ridiculously low prices.
I'm using it to build a modern take on a "word processor", a hardware keyboard + microprocessor that only writes text to its onboard memory.<p>My current roadblock is getting a relatively high resolution rather wide aspect ratio screen. Hard to find, it seems.
I'm giving my son a classical education with it. Using Retropi<p>Every now and then we play "Daddy's games", so he has NES megadrive, and MAME (PacMan mainly). As he starts to master those, I'll add the next generation to it. If we've played some of the same games, hopefully it gives us some form of common framework, and him an interest in how he could code something similar i.e. a gateway in to computers. If he decides he doesn't like it, that's fine too.<p>So far it's goign well - we set off on the adventure 6 months ago when he was 4. I'll also get another microUSB card and try trhe same with my daughter when she's a bit older (currently she's 2).
Low-cost Aarch64 development machine! I run Aarch64 Fedora on a Pi 3B+ for porting personal projects to Aarch64 and for testing. When mainstream desktop ARM arrives (ARM Macs perhaps?), I’d like to be ready in case I have to make a switch from x86-64.
Nothing yet, though I'm looking at possible projects.<p>The router and modem both run OpenWRT, which addresses any number of basic sins one might hope for, including adblocking, firewalling, and media server.<p>I am looking for options to provide streamed media over existing audio equipment in the flat. This might be applied to a media library (DLNA audio and video), podcasts, Internet radio, and borrowed items from libraries (local, online).<p>There's a set of devices which offer to talk to local audio equipment, much of which costs as much, and often several times more than, a RaPi. Seems that a full SoC system might be the better option, particularly if WiFi and Bluetooth are built in.
For those of you commenting about the mechanics and pitfalls, I've found that a Pi3B+ with the 7" screen and a keyboard/trackpad is a wonderful tool for provisioning new cards. I do headless system configuration on that, then swap to the Zero or whatever it'll actually use. Since the BSPs for every board are tiny, there's no reason to limit yourself to something that can't work on all of the boards out there. It makes troubleshooting a lot easier. Also, don't buy crap SD cards, and probably have 2x the number you'd like to have running. This stuff is cheap so that you can have multiples for testing.
1 runs RISCOS so I can run old beeb games on and emulator;<p>1 keeps a log of temperature/pressure/humidity using sense hat;<p>1 has a backup of my photos on an external hd (and also has an sds011 dust sensor (<a href="https://github.com/glgraca/sds011" rel="nofollow">https://github.com/glgraca/sds011</a>).<p>But my best project has been a picture frame using a Pi Zero W that receives photos via Telegram. My kids' grandparents have this also and they love it (<a href="https://github.com/glgraca/PiFrame" rel="nofollow">https://github.com/glgraca/PiFrame</a>).<p>I once took one on a holiday to watch Netflix at night.
I have several running 3d printers-- OctoPi or NanoDLP. I've been able to modify OctoPi to run several printers at once, but it is way more work than its worth.<p>I also made a media player for my daughter that has all of her kids shows on it. I designed/printed a case for the RPI+vesa mount. I'm super excited about the new RPI that was announced todayish-- because it has a hardware h.265 decoder meaning, I'll no longer have to transcode some things.<p>I tried PiHole and I really liked it, but it caused some problems with some sites my folks frequent, and it broke mDNS discovery on my network. I may reinstall it and just exempt their devices.
Not technically my Pis, but I built a digital signage (<a href="https://info-beamer.com" rel="nofollow">https://info-beamer.com</a>) product around it. So I enjoy working with the Pi and making a living from it.
I did a whistle box. A NAS for whistle blowers and journalists. <a href="https://github.com/Guiraud/WB" rel="nofollow">https://github.com/Guiraud/WB</a><p>The Idea is for anyone to make a low cost NAS that allows a TOR service to upload/dowload files , pgp encrypted them with the key of the journalist, while having the simpliest interface as possible. I did'nt update for a long time tho.<p>There's a Slide in french language here : <a href="https://fr.slideshare.net/Fred2baro/la-whistlebox" rel="nofollow">https://fr.slideshare.net/Fred2baro/la-whistlebox</a>
My father built this wild automatic glass cutter with one.
<a href="https://twitter.com/Eric_WVGG/status/1010952072139890694" rel="nofollow">https://twitter.com/Eric_WVGG/status/1010952072139890694</a> [edit: I'm a dummy, this is built on an Arduino]<p>He also built a solar panel that's mounted on an upside-down bicycle frame, slowly turns all day to keep facing the sun. Lot of interesting math to track the sun across the calendar year.<p>I'm boring, just building a NAS with Nextcloud Pi. Although it will likely be built on a different board that's better-suited for NAS…
I use a B+ to run a print server. Its wired directly over serial to a receipt printer. Since it exposes a standard CUPS interface, I have a few bots that call it to print out things. (messages, memes, weather, diagnostics)
- 1x Raspberry Pi (older, not sure exact model) - exposed to the internet and acts as a bastion host for ssh'ing into other devices on my home network<p>- 1x Raspberry Pi Zero W - monitors several Wemo Insight Switches around the house and turns them on if they are in an off state (if the power goes out, the Wemo switches do not turn back on so I have to do it manually)<p>- 6x Raspberry Pi 3 Model B - running in a k8s cluster (1 master, 5 workers) doing nothing until I can find time to continue working on this project... found out I need to build Docker images on an ARM host so my CI/CD first choice did not work :(
Video playing through Kodi and nothing else. Nearly all other "competing" boards are either cheaper or more powerful or both, and more open, but the PI has the best CEC imlementation along with good video acceleration which makes it ideal for the task.
The freshly announced PI4 seems a step in the right direction price and performance wise, although I don't expect the Pi Foundation (aka Broadcom) to solve the openness problem anytime soon, so although it could soon become my main video player I won't consider it for anything else, especially if security related.
1x RP3 running OSMC <a href="https://osmc.tv/download/" rel="nofollow">https://osmc.tv/download/</a><p>2x RP2/3 with HiFi Berry DAC driving an amp. <a href="https://www.picoreplayer.org/" rel="nofollow">https://www.picoreplayer.org/</a> connecting to <a href="http://wiki.slimdevices.com/index.php/Logitech_Media_Server" rel="nofollow">http://wiki.slimdevices.com/index.php/Logitech_Media_Server</a><p>1x RP2 running PiHole and Apache + Owncloud<p>1x RP3 running RetroPie<p>The OSMC and music players get daily use and have been in use for a few years
The Pi Zero W can act as both a USB host and a USB HID device, i.e. can act as a keyboard/mouse. This makes it a very capable bad USB/rubber ducky/automation tool with Wifi enabled.<p>I've created a small repo to demonstrate this. Connect a zeroW to a computer, the Pi will expose a hidden Wifi network that by connecting to it you'll be able to send remote keyboard commands (or execute ducky scripts) on the host computer:
<a href="https://github.com/ozkatz/pi-remote-ducky" rel="nofollow">https://github.com/ozkatz/pi-remote-ducky</a>
Pi-Hole, RetroPie, and for my 1st-grade son I installed Kano OS for his first computer. I see a couple of Pi 4s as upgrades in my future.<p>Also looking to get my SDR rig up and running on one of the other Pis i have waiting to be used.
I'm not really using one regularly right now, but here are the few things I've done with my Pis:<p>- Hosted a blog using Rails and a Cron that updated the A record on my Route53 domain to point to my local IP address. I'm not sure anyone ever read it, but I had it up for about a year.<p>- Attempted to reverse engineer a treadmill controller with the UART pins. I successfully figured out the baud rate and captured bytes, but never figured out how to control the treadmill motor board. I have a feeling the motor board had a problem.<p>- Connected a piezo element to GPIO and made a controllable alarm device.<p>Nothing that cool, really.
A programmable, annoying, rotating alarm. Triggered every time a Jenkins build fails.<p><a href="https://www.youtube.com/watch?v=wgXXkwVXqvI" rel="nofollow">https://www.youtube.com/watch?v=wgXXkwVXqvI</a>
1. RPi Model 2B: running Kodi, and connected to my TV. Utilized for watching movies from my NFS-shared movie storage drive.<p>2. RPi Zero: used to prototype a device for my company. The RPi is connected to a LimeSDR Mini and an UPS. Meant to work out some of the software and form factor for a deployable electronic warfare device.<p>I'm starting to replace RPis with ODroids for the most part. I'm actually waiting for 2x ODroid-HC2 to arrive any day now. One will be hosting a Syncloud instance, as I want to experiment with Diaspora social network. Not exactly sure what I'll use the other for yet.
Mine drives an LED pixel frame in my living room: <a href="https://www.instagram.com/p/BIgFP9dhkPZ/" rel="nofollow">https://www.instagram.com/p/BIgFP9dhkPZ/</a>
With my 16 year old son, I built a weather balloon with one, including an Arduino, a few temperature sensors, a GPS, LoRA radio, and we're going to launch it next month. Having a hard time finding Helium.
Shameless plug but run a basic weather station (currently in my room until I find a weatherproof enclosure) <a href="https://alonsoarteaga.me" rel="nofollow">https://alonsoarteaga.me</a>
We use them in our stores for digital signage - we use 60" screens in the store front and behind the food counters. We created web app that allows our Marketing team to allocate posters/menus/videos to stores or groups of stores. Changes are pulled by the store from the server every 60 seconds. If the store loses network connection it will just continue to cycle the existing images/videos until the connection is restored. Even with the price of the screens it's very cost effective compared to commercial offerings.
Among other things, I use it for a cycle-exact emulation of the Commodore 1541 floppy disk drive:<p>Firmware:
<a href="https://cbm-pi1541.firebaseapp.com/" rel="nofollow">https://cbm-pi1541.firebaseapp.com/</a><p>Hardware:
<a href="https://www.hackup.net/2018/07/pi1541io-revision-4/" rel="nofollow">https://www.hackup.net/2018/07/pi1541io-revision-4/</a>
<a href="https://github.com/hackup/Pi1541io" rel="nofollow">https://github.com/hackup/Pi1541io</a>
Outside of off the cuff experiments, most of my Pis are provisioned as MotionEyeOS[0] security cams. Each client can be linked into a central "server" so you can view them all at once, and lots of nice config options for storing or sending image and video either continuously or based on motion. I have the streaming set up so I can peek in from anywhere using VLC on my phone.<p>[0] <a href="https://github.com/ccrisan/motioneyeos/wiki" rel="nofollow">https://github.com/ccrisan/motioneyeos/wiki</a>
1. Buy 8 of them with large-capacity SD cards, hoping to make an awesome Ceph cluster.<p>2. Build said Ceph cluster.<p>3. Become disillusioned with both SD and USB I/O.<p>4. Place all of them in storage.<p>5. Buy 8 Tinkerboards, hoping to make an awesome Ceph cluster....
A project I want to do: use an rtl-sdr to catch temperature readings from a BBQ thermometer off the air. Then push that data to prometheus/grafana and get alerting when the brisket is done.
Currently:<p>* I use a Raspberry Pi Zero-W and a neopixel strip to tell me the time at night. This post describes part of it: <a href="http://www.thebacklog.net/projects/smart-light/" rel="nofollow">http://www.thebacklog.net/projects/smart-light/</a><p>* Run a piHole at home.<p>Things I've done in the past:<p>* Use a Raspberry Pi as an intervalometer to do time lapses with a DSLR camera<p>* Make a photo booth for a 2 day workshop.<p>* As a cheap computer to run coding tutorials<p>* Monitor water levels in a hydroponics system using a ultrasonic sensor<p>* As a WiFi access point to access a wired network from my phone
Pi Zero running a digital picture frame that I made from a discarded 17" laptop screen<p>Pi 3B running adsb-receiver and feeding flight data into Flightaware, ADSB-Exchange, ADSBHub, FlightRadar24.<p>Pi B Rev 1 running node-red with a Jeenode decoding weather station data from my weather station. Sends data over MQTT to Home-Assistant.<p>I have a BananaPi M2 Zero running Armbian and doing nothing at the moment. It's likely going to be put in a box close to the ADSB antenna and take over ADSB duties in order to free up the 3B for AIY/Snips.ai experimenting.
At home: emulating old games, wifi hot spot (not needed so much these days) for hotel rooms with wired internet, and a plex server to serve videos to the kid's iPads in the car during road trips.<p>At work: show Grafana dashboards on our 4k monitors. Currently using model 3 which doesn't like 4k so much. I'm looking forward to upgrading to the 4 in this case, see if they are more reliable. The 3's like to crash/reboot periodically and really struggle to drive the 4k display at a decent speed.
I run Pi-hole off a RPi Zero W on my local network. Set it up over Ethernet with a bit of cron automation [0] and later expanded Gravity (the blocklist) along with firewall NAT rules to redirect all DNS queries to go through the Pi-hole [1].<p>[0]: <a href="https://paul.af/adding-pi-hole-to-my-local-network" rel="nofollow">https://paul.af/adding-pi-hole-to-my-local-network</a><p>[1]: <a href="https://paul.af/pi-hole-revisited" rel="nofollow">https://paul.af/pi-hole-revisited</a>
I wrote up a Medium post about what I do with mine: <a href="https://medium.com/@adamargo/how-i-use-raspberry-pis-for-homekit-automation-ed69df8d8be7" rel="nofollow">https://medium.com/@adamargo/how-i-use-raspberry-pis-for-hom...</a><p>Mostly home automation.
1x homebridge server, ffmpeg transcoder for security cameras,
1x for controlling an electric fireplace using an IR shield and power monitoring outlet,
1x for controlling model train switches and bridging that into HomeKit
I used to turn my pi into low power consumption devices and donate them to the solar berry project [0]. Side loaded with rachelpi [1] software that brings the better part of the internet to kids in dark regions of Africa.<p>[0]: <a href="https://turingtrust.co.uk/home/our_work/solarberry/" rel="nofollow">https://turingtrust.co.uk/home/our_work/solarberry/</a><p>[1]: <a href="http://rachelfriends.org/" rel="nofollow">http://rachelfriends.org/</a>
I built the RadioInstigator, a mobile SigInt attack platform for around $150.<p><a href="https://hackaday.com/2019/06/05/mobile-sigint-hacking-on-a-civilians-budget/" rel="nofollow">https://hackaday.com/2019/06/05/mobile-sigint-hacking-on-a-c...</a><p>If it wasn't for F5OEO's Rpitx library, I would have been stuck with non-SDR Tx. <a href="https://github.com/F5OEO/rpitx" rel="nofollow">https://github.com/F5OEO/rpitx</a>
Not using the Raspberry Pi yet but have been exploring the idea of using it as a way of delivering our educational content to rural areas of Zambia.<p>Idea would be to provide enough information in a booklet to get students to a point where they can power the pi and then teach them the basics of electronics and coding by building a power monitoring system, with the pi at the heart.<p>You can what we are doing here: <a href="https://localelectricity.org/" rel="nofollow">https://localelectricity.org/</a>
I have a few:<p>- v3 that runs RetroPie
- v2 for PiHole
- a zero W with a vibration sensor that I use to text me when my washer is done (turned off the washer's alarm so as not to wake sleeping kids)
1. RPi 1B (256 MB RAM) as my home phone/voicemail system, using Asterisk PBX (with FreePBX). Have used it since it first came out.
2. RPi 1B+ as a car media server with minidlna using a USB WiFi adapter.
3. RPi 2B as an ownCloud server.
4. RPi 3B as a LibreELEC (Kodi) media (streaming) center.
5. RPi Zero W. No use yet.<p>I have used the 3B for RetroPie as well in the past.
I am planing on using a RPi for different kinds of webscraping in the future.
I would also like to set up a NAS/backup server.
Quadcopter pet project <a href="https://github.com/castis/currant" rel="nofollow">https://github.com/castis/currant</a><p>One for running Retropie <a href="https://emulationstation.org/gettingstarted.html#install_rpi_retropie" rel="nofollow">https://emulationstation.org/gettingstarted.html#install_rpi...</a>.<p>Next one is for playing with <a href="https://www.zoneminder.com/" rel="nofollow">https://www.zoneminder.com/</a>
Besides the standard PiHole VPN so on I have several RPis I use.
1. I run Samba to manage access to provide AD to my home computers and manage the attachment of various network shares.<p>2. I have a RPi with an attached set of 12v switch controls that I use to manage various things in my Airstream trailer such as internal/external lights a backup shut off valve for my LP tanks as well as a watering system for plants that I keep in the trailer that I don't always get around to watering.
Homeassistant (Hass with mqtt and grafana), Octoprint, MotionEyeOS, pihole, pivpn, Donkey car, Robot operating system (ROS), and a wireless controller for my crazyflie quadcopter
I have one running pi-hole and Ubiqiti controller (powered by my router's usb port), one sitting under the TV running Kodi connected to a NAS, avoiding the need for discs (big plus when you have small children), one sat next to an old hi-fi which also links to the NAS and lets me stream music to the hi-fi, and a couple of older ones which aren't connected to anything having been replaced with newer models. Oh, and a Zero, which I've never found a use for.
Really simple stuff, compared to the self watering plants, etc.:<p>- AdGuard Home DNS (Pi Hole was just not stable for me)<p>- Unifi Controller<p>- Torrent box (come get your Linux distros!)<p>- Always on platform to host various scripts on; one backs up my blog to Internet Archive when it changes, for example.<p>- Twitter bots that report the RPi status (just went down for reboot, etc.)<p>- Bot that watches Caltrain for delays and Tweets them to me.<p>- Platform to play around with orchestration, DevOps, etc. I learned Ansible using them. Still want to move it all to Docker, but that'll have to wait.
When reading specs of the new raspberry pi I decided I will buy two in the near future to serve as a desktop for my girls.
I still have a raspberry pi 1b with 512mb. I was too soon and missed the free upgrade. Tried it once as media server. Was not impressed. After that I bought a pine64 with 2Gb ram that runs my bookmarks web application I personally use every day. Also bought the hardkernel mc1 cluster to play with.
Still the support for raspberry pi is unbeatable.
1. Retropie
2. Pi-hole
3. Bluetooth presence detection
4. Previously ran a Hassio instance on one
5. Wireguard server
6. <i>(HiFiBerry + Volumio) x 3<p></i>great for multi room sonos-like system
Does work-in-progress count? I have two with cameras I am attempting to rig up as a frontend/backup camera in my Humvee (very necessary!), hopefully w/ UI on iPhone
Things I use Raspberry Pis for:<p>* Pi-hole<p>* Home Assistant<p>* Processing assistance and PPP/Serial and tcpser connection for an Amiga 4000<p>* MyCroft personal assistant<p>* Octoprint for 3D Printing<p>* MotionEye camera management (Moving across to a NUC)<p>* A 4 node pi-zero cluster using a ClusterHat for distributed Pi approximation optimization I normally run once a year on Pi day.<p>Much of this is due to the segregated way my network is set up, and the Pis have largely replaced previous OpenWRT devices, although some of these Pis have now or are in the process of moving to other more reliable systems.
I run my own energy monitoring business. We use many RPi's for remote customer site energy meter data collection and forwarding to our cloud based REST servers. Once we got over the SD card issues, I have had zero problems and no hardware failures (including SD card issues) in four years now.<p>Because of the low cost, I always install two units on every site; one is powered and idle but ready to take over if the other fails. Not hot-standby but close enough for my purposes.
A Pi for UniFi, a Pi as a print server (older model) for a USB laser printer, a Pi as a print and input server for a thermal receipt printer that only has serial (or a 350$ option for a 10Mbit ethernet addon) + a button to fetch a hotspot code from UniFi and print it for a guest for limited guest access. And a free floating Pi for various functions, sometimes as an I2C board, SPI interface, Scan server, placeholder when one of the others is in maintenance etc.
Nothing too exciting. I've got an air purifier set up with homebridge and run a PiHole from it. I've also used it to practice setting up websites from scratch.
I have several Raspberry Pi's in use:
- One Zero with AudioQuest Dragonfly for PiMusicBox
- RPI v1 with a camera for motion detection
- RPI v3 for HomeAssistant Hub
I haven't built it yet, but I want to buy some clickable rotary encoders, some knobs and build a light switch for my smart lights.<p>A knob you can click to turn the lights on or off, and turn to control the brightness.<p>A knob you can click to toggle between "natural light" and "color", and turn to control either the warmth or the hue.<p>Not sure if I need a whole Pi for this or if I should attempt it with something more bare-bones, but that's the project I have in mind.
- Network controller for my latest file server and video NAS, which is based on a USB RAID-1 drive. The box that produces the graphics however is a small Intel-based box (not a NUC though).<p>- Network controller (using CUPS) for a very old laser printer that only has USB.<p>- Various hobby electronics projects like controlling an Arduino robot via photo and ultrasonic sensors and wifi, developing networking software for ESP8266, and various other simple electronics experiments.
On my original pi, I use it to sense whether my washing and drying machine is working and sends me a notification when the load is done. It uses 2 adxl345 accelerometer with 1 pi. Instructions are on github <a href="https://github.com/jebeaudet/time-to-fold-alerter" rel="nofollow">https://github.com/jebeaudet/time-to-fold-alerter</a><p>On my rpi3, I use it for download automation with couch potato, sonarr and radarr.
I think I have at least one of every variant. I had fun playing with all of them. But in the end, I wanted to use one for a Linux development machine and it was always just a bit too slow to be useful. This one sounds like it might have just crossed into the lower realm for laptops so I'll give it a try. And yes, I know, using it as a development machine was not really the intended purpose, but a $55 machine is so tantalizing.
I have a Raspberry Pi 3 where I host my personal website including a nextcloud instance, with it I learned more about Linux.<p>With the release of Raspbian Buster I am currently rebuilding it because it was the first one I bought so there was plenty of residual stuff from when I had no idea what I was doing.<p>I have a Pi 3b+ I use as a Pi-Hole, samba share and whatever I want to try at the moment. I have to rebuild it after I "finished" with my site.<p>And I want a Pi 4, or two.
I have one pi3b+ running Dark Ice transmitting my local police scanner to broadcastify. I built it manually on raspbian and it was a bit of a pain to get setup.
I have a bunch of them scattered around my house.<p>2x LibreELEC media players
1x RetroPie emulation station
1c OctoPrint/OctoPi 3D printer controller
1x Home Assistant automation controller
1x Car PC project
1x retrofitted old alarm clock
1x hosting RTL-SDR stick in attic<p>One of the media centers is actually a Tinkerboard, but that's been annoying due to half-assed support and I'll be replacing it with a Pi 4 as soon as I can get my hands on one.
2 RPis running Octoprint for the 3D printers
1 RPi connected to the laser cutter which I'm currently fixing
1 RPi that I take with me and connect to from my phone through ssh (moving to mosh and a Bluetooth terminal when I get the chance)
1 RPi that I leave in the lab so people can play with it with numpy/scipy/octave
1 RPi that I'm setting up with something like Jellyfin for my home media server
Airplay server connected to my hifi using <a href="https://github.com/mikebrady/shairport-sync" rel="nofollow">https://github.com/mikebrady/shairport-sync</a> Here's a setup guide: <a href="https://thepi.io/how-to-set-up-a-raspberry-pi-airplay-receiver/" rel="nofollow">https://thepi.io/how-to-set-up-a-raspberry-pi-airplay-receiv...</a>
Experiments mostly.<p>Yesterday I tried steam link. Previously a vpn AP. Also a air quality mon. And a flightaware station. And a file server.<p>ie i Format it quite often and start from scratch
Fairly pedestrian uses.<p>One running OSMC (Kodi) media server.<p>One that manages nightly backups for all the machines on my network. Does wake-on-LAN as needed, uses rsnapshot to encrypted external drive. I also run Pi-Hole on this.<p>Have one in the office that serves as a terminal server via X2Go. Let's me remote desktop to office machines as needed.<p>I'm quite a fan of DietPi as my distro to use on these. I also use Ansible as much as possible to configure and manage them.
With an amazing team, I'm helping run a fleet of a few hundredish pi3/3b+ and hundreds of pizero-W cameras in an evolving automotive IoT solution.<p>It's definitely been a challenge using them in volume, but they've been surprisingly reliable once you control for things like heat dissipation and get a decent networking solution. (At our scale we're approaching having to decide if we want to be a MVNO.)
Mine is running Hypriot OS (<a href="https://blog.hypriot.com" rel="nofollow">https://blog.hypriot.com</a>): Everything on it is dockerized.<p>The coolest application: An Airconnect container (<a href="https://github.com/philippe44/AirConnect" rel="nofollow">https://github.com/philippe44/AirConnect</a>) which upgrades my mediocre Internet radio device with AirPlay.
I am using The Pi for<p>1) video security system using zoneminder<p>2) text and email me alerts<p>3) Automate lights/devices using 433MHz RF sockets, crontab and RF433Utils<p>4) A cloud storage for my files using owncloud
I have one set up as a sprinkler timer (<a href="https://github.com/callahanrts/sprinklers" rel="nofollow">https://github.com/callahanrts/sprinklers</a>). Scheduling my sprinklers with cron jobs gives me a lot more flexibility over water times. It also runs a local webserver so I can turn a zone on for just a few seconds when I'm fixing a leak.
I use it to remotely start my computer. My raspberry pi is always on and i use "wake on lan"[1] to start my desktop whenever needed. My desktop is powerful and consumes decent amount of power. Using Rpi to start is lot more power efficient.<p>[1] <a href="https://en.wikipedia.org/wiki/Wake-on-LAN" rel="nofollow">https://en.wikipedia.org/wiki/Wake-on-LAN</a>
I use it with Elixir - <a href="https://github.com/nerves-project" rel="nofollow">https://github.com/nerves-project</a><p>various IOT things - plants, HVAC etc etc<p>for real world: deployed "kiosk"/touch POS using <a href="https://github.com/LeToteTeam/kiosk_system_x86_64" rel="nofollow">https://github.com/LeToteTeam/kiosk_system_x86_64</a>
I used several Pi Zeros with EnviroPhat sensor hats to monitor temperatures and light levels in my Bitcoin mine. I have a Pi 3 setup as a game emulator in the basement. And I used to chop up rc toys from the thrift store to make RPI robots to chase my cats:<p><a href="https://www.youtube.com/watch?v=4Set6z566-s" rel="nofollow">https://www.youtube.com/watch?v=4Set6z566-s</a>
Absolutely nothing.<p>Because i still need to buy a micro HDMI cable :)<p>The plan is to setup a piHole, make a SMB share on usb HDD, and if it has enough juice left - connect it to TV and setup it with some streaming services.<p>I would love to have a small home server rack but both power costs and space constraints prevent me from setting it up. i might do it on multiple RPI's - and maybe add a NAS for storage later on.
I use it to run my automated watering system in my garden.<p><a href="https://github.com/davidbanham/relay_runner" rel="nofollow">https://github.com/davidbanham/relay_runner</a><p>I used to use an esp8266 but replaced it with a Pi after a lightning strike destroyed it. The Pi is just so much easier to write software for and it's been no less reliable in practice.
- Hosting personal website from my DMZ at home.<p>- SDR and packet radio (Direwolf) projects<p>- Kodi<p>- rpi zeroW with usb serial for connecting back to my house from work/travel.<p>I had more projects, but I've been able to replace them all with ESP8266's. Rpi is overkill to do simple things like toggle a gpio pin or take temperature readings. Use it if you have it, but it's nice freeing up extra rpi's with a $2 ESP.
I keep buying them, but so far the only thing I've done with one was years ago when I entered an RPi-powered "pumpkin computer" as the IT department's entry to the company jack-o-lantern contest.<p>I keep meaning to buy a bunch of 'em and build a portable Erlang/OTP cluster. So far I've only done the "buy a bunch of 'em" step ;)
Personally I have a Model B running Alpine and SSH to receive incoming connections at home.<p>I’ve also convinced the company to buy 8 3B. Each of those is connected to a 1080p display through HDMI and each one of them boots raspian with chromium-browser in kiosk mode into one specific Grafana panel or playlist. I control what URL each of them boots into from Saltstack states.
A Pi 2 at work runs a Grafana playlist on a spare display.<p>A Pi 3 at home runs a Flask server that collects data from sensors around the house (ESP8266 + SHT20 for temp/humidity), and provides a web page that overlays sensor data on a diagram of the house. I've been curious about CO2 levels in the bedroom overnight, and have parts for that experiment on order.
1. A raspberry pi 3 on which I use git-annex to archive data on a bunch of large USB disks.<p>2. A raspberry pi 2 at a different location which provides off-site backups for the data archived by the first pi<p>3. A raspberry pi zero to run magic mirror on a leftover screen (I cannot be bothered to turn it into an actual smart mirror though)<p>4. And I recently added another raspberry pi 3 to play with RetroPie
I run a Newsreader server. It collects news from many hundreds of places and at any time offers a beautiful timeline view for all my screen devices: <a href="https://www.raspberrypi.org/forums/viewtopic.php?f=41&t=238133" rel="nofollow">https://www.raspberrypi.org/forums/viewtopic.php?f=41&t=2381...</a>
I have a Pi3 in a case that looks like a NES. I'm running RetroPie on it with a few ROMs I've found around the internet. It works pretty flawlessly.<p>When the pre-order frenzy for the Pi4 has died down, I'm going to buy a 2 or 4GB model and use it to replace the old and slow crappy Windows 10 box we're using to stream Amazon Prime stuff to our TV.
I made a fairytale phone as a present for a colleague's kid. I played with Arduino's before and this was my first Pi project. Pretty fun to do.<p>Roughly followed this tutorial: <a href="https://www.instructables.com/id/Fairytale-Phone/" rel="nofollow">https://www.instructables.com/id/Fairytale-Phone/</a>
I have a live stream of my bee hives, the pi reads the stream from the camera and frame copies it to the correct format for YouTube live:
<a href="https://www.youtube.com/channel/UC2E5s3LTU9ObXjiOL7K8KPg/live" rel="nofollow">https://www.youtube.com/channel/UC2E5s3LTU9ObXjiOL7K8KPg/liv...</a>
I have a script check Hacker News every hour for stories on VIM and Tweet them out. Love my Pi.<p><a href="https://github.com/lando2319/HN_Vimmy_Bot" rel="nofollow">https://github.com/lando2319/HN_Vimmy_Bot</a><p><a href="https://twitter.com/HN_Vimmy_Bot" rel="nofollow">https://twitter.com/HN_Vimmy_Bot</a>
I tried making a "travel access point" with mine, so I could have all my devices already setup to access a single access point and funnel all the traffic through that. I was previously using a $20 router, but curiously the Pi 3B just didn't want to play ball, dropping packets / connections and generally sucking. :(
One Pi 3 running Pi-hole:
One Pi 3 hosting a Picroft instance;
One Pi 3 with a camera to experiment with simple video capture;
One Pi 3 and several Pi zero W's on a custom network ( the Zero's act as temperature sensors in different rooms, reporting back to the Pi 3 as a control node; eventually it will be running our HVAC).
I use one to control a 3D printer with <a href="https://octoprint.org" rel="nofollow">https://octoprint.org</a> and another to integrate some smart home devices that are not homekit compatible with my homekit setup, using <a href="https://homebridge.io" rel="nofollow">https://homebridge.io</a>.
I previously used mine to drive my synchronised Christmas light display. It worked great one year, then for some reason the next year, retrieving the playback position of an audio file in Java was taking nearly a second (previously it was practically instant).<p>I never figured that out, so I bought a second-hand Mac Mini to power the display instead.
All headless:<p>One for Kodi+VPN. With yatse on Android I have my own Netflix and Spotify for my own owned content on demand whenever.<p>Another for a baby monitor that feeds TinyCamPro with audio and video<p>A third that is a slave Kodi to play music in different part of the house as well, but mainly to operate the electric gate from my phone.<p>About to buy a rp4 to build a synth with a keyboard I just got.
I just recently went on a vacation that included two 14 hour days of travel. I setup a Raspberry Pi as a Wifi hotspot for the car, added a 128GB USB thumb drive, loaded it up with movies, attached it to a 20,000mAh battery pack. My wife and son were able to watch movies on their iPads using the VLC iOS app for the whole trip.
I have a rpi2 I use as a low power server that keeps me connected to my irc server and runs tasks for me.<p>I have a rpi3 installed in my truck that acts as a media player. It also reads my OBDII so I know how my engine is running and other diagnosis information. I also use it to map wifi/bluetooth spots and other random data as I am driving.
I have a pi with a Displayotron HAT which is designed to wake me up with a loud klaxon noise if it detects service outage. It also emits a soft glow to show that all is well.<p>Aside from valuing my sleep, I have a lot of incentives to ensure it never goes off, including the fact my wife says she'll divorce me if she ever hears the klaxon :D
Better media center with Raspberry PI and Dropbox ( or whatever you like ) -> <a href="https://medium.com/@efazati/better-media-center-with-raspberry-pi-and-dropbox-or-whatever-your-like-bd716d272357" rel="nofollow">https://medium.com/@efazati/better-media-center-with-raspber...</a>
My aspirational goal is to make a "mission control" panel for my kids - basically take a bunch of panel mount buttons and switches and combine it with an old monitor to make a fun toy! The Pi would control the monitor but I will need to add/design an input/output board to handle the buttons and switches.
I have a small Internet kiosk for one-off browsing and guests.<p>Currently, mine is running on an ODROID-C2 but the Pi 4 should have more than enough performance for one.<p>My setup is a stripped down install with a minimal window manager. There's only one icon for launching Firefox which is configured in an amnesic mode. The DNS is set to my Pi-hole.
I have a wall mounted 20" TV in my garage above the corner of my workbench. Use it to look up stuff or watch how to videos or just play music.<p>I love minimalism and part of my minimalism approach is not having vulnerable things in vulnerable places. So if the Pi gets destroyed because a workshop is fairly volatile, no big deal.
I setup a pi 3 running OpenLighting Architecture (OLA) connected to 2 ENTTEC USB->DMX adapters, connected to 2 Wireless DMX transceivers as an ARTNET->DMX gateway to allow our team to remote control all the stage lighting at the church via software without running cables to all the lights. Pretty cool setup.
I'm trying to write my own micro-kernel from scratch that runs on a Raspberry Pi 3B.<p>It boots up and has support for virtual memory, interrupts, timers and very basic multi-threading.<p>You can take a look at the source code here -> <a href="https://xbhatnag.com/xyos" rel="nofollow">https://xbhatnag.com/xyos</a>
1. Telegram chat bot from this rust crate: <a href="https://crates.io/crates/telegram-bot" rel="nofollow">https://crates.io/crates/telegram-bot</a>
2. Some web microservices that the chatbot communicates with
3. Pi hole adblocking.<p>This is all on one 3b+ with plenty of resources to spare.
I have 3 use cases for my RPi:<p>-PiHole as an ad/tracking blocker (adding PiVPN tonight to VPN into my home network)<p>-Plugging sensors to measure temp/humidity and controlling AC state (on/off) via IR Led (<a href="https://imgur.com/a/pYugqXz" rel="nofollow">https://imgur.com/a/pYugqXz</a>)<p>-Unifi Controller
Currently have one Raspberry Pi serving as a home git (Gitea) server, incase a widespread GitHub outage occurs. Good to have multiple repositories and take advantage of the distributed nature of Git anyways.<p><a href="https://gitea.io/en-us/" rel="nofollow">https://gitea.io/en-us/</a>
I created this project with my kids: <a href="https://greenido.wordpress.com/2018/10/09/raspberry-pi-as-security-camera-with-motion-detection/" rel="nofollow">https://greenido.wordpress.com/2018/10/09/raspberry-pi-as-se...</a>
Fun stuff!
There was a time I was super into a project where I had a streaming server that used my Spotify account and would allow anyone with access to the server to change the song. I was basically trying to replicate what Sonos does with a Pi. It worked, but I abandoned it after a few months of not using it.
I used RBPs when working on museums. For example as mini video players, to connect sensors and trigger a video or turn on some light, etc.<p>Also to serve as RS232 to wifi adapters. You'd be surprised how much stuff still uses serial to interface with the outside world (tvs, projectors, audio switchers, etc).
I've set up a SatNOGS (<a href="https://SatNOGS.org" rel="nofollow">https://SatNOGS.org</a>) ground-station using a turnstile antenna. I'm able to retrieve signals from satellites and assist the rest of the community to retrieve signals from my location as well.
Just another Talking Fish controller project...<p><a href="https://www.youtube.com/watch?v=7busGsuIOU4" rel="nofollow">https://www.youtube.com/watch?v=7busGsuIOU4</a><p><a href="https://github.com/djmips/trout" rel="nofollow">https://github.com/djmips/trout</a>
I have multiple but the one I use the most has Kodi installed. It's connected to a projector and I basically use it as a media center streaming files from one of my desktops over the local network.<p>Another one is used more like a custom IoT hub/gateway for various BLE (and even some LoRa devices).
RPi2: Hass.io, switches the lights and reads my electricity/gas usage from mqtt. RPi1B: sends smart energy/gas meter values over mqtt to RPi2. RPi3: Recallbox, mainly for Mariokart 64 and GranTurismo 2 with my son but also does Kodi. Probably will be replaced by a 4 soon :)
Streaming via airplay (we have iphones at home). Currently connected to a jukebox: <a href="https://twitter.com/0x0ece/status/1137487161974972416?s=21" rel="nofollow">https://twitter.com/0x0ece/status/1137487161974972416?s=21</a>
I run my new daily newsletter (btvdaily.com) from a Raspberry Pi 3. It generates the content and mails it out each morning (via Mailchimp) from my house. The website is not hosted on it though.<p>It also runs a Twitter bot I made that takes a picture of my backyard each morning (@walkburlington).
I use it for a personal project implying scraping some websites. One of these websites was behind Cloudflare (I think), and thus was blocking request from my OVH server. Therefore I used my Raspberry to do the job, on my own connection.
I also put recently a Pi-hole on it.
I use a Pi 3 running FreeBSD 12 and CUPS as a print server for my Brother laser printer. The printer has an option for a network card, but finding one is many times more expensive than the Pi, and it's so old I wouldn't entirely trust it on my network anyway :)
I use them to convert old industrial equipment into oddball control surfaces. For example <a href="http://www.digitalesoterica.net/projects/honeywell.html" rel="nofollow">http://www.digitalesoterica.net/projects/honeywell.html</a>
Pi-hole and Syncthing. And I have Apache installed that just spits out a list of upcoming Doctors appointments since I have a few of those a week and they frequently change. I don't drive and my sister drives my to appointments so it helps her keep track of things.
I used mine to build an egg incubator this year, <a href="http://www.velvetcache.org/2018/03/04/chicken-cam-incubator-edition" rel="nofollow">http://www.velvetcache.org/2018/03/04/chicken-cam-incubator-...</a>
Good question! I have quite a few Pi sipping small amounts of power here, so... Web server, mail server, gopher server, key server, NTP server, SMS gateway (with SMS hat), NTP client network reference clock (Pi Zero), MQTT server, Flightaware box, PiHole, XMPP server.
Doorlocks of our hackerspace has been RPi controlled almost since the original RPi came out, maybe 2013. Nowadays we got 4 doors on 3 RPIs (internal and external), with over 200 members that has access. Using MQTT to communicate with our membersystem since 2016 or so.
To run Kodi as a frontend to my Mythtv backend. The 4 out I am wondering how I could replace the backend desktop with a Pi. I would need to find a way to connect a TV tuner to it. That seems the biggest hurdle. My current card connects through PCI slot as I recall...
I spent a while figuring out the cheapest possible way of doing front end dev for a series of blog posts (that I never wrote) . The result was using a Pi3B+ and a lot of open source tools, Github and Netlify. It works so well I'm still using it for a ton of dev.
1 x Rapsberry Pi 3 as RetroPie/Kodi/Printserver for an old Dymo Labelprinter
1 x Raspberry Pi Zero W as Dakboard (<a href="http://www.dakboard.com" rel="nofollow">http://www.dakboard.com</a>)<p>I think i want to make useful wireless NAS out of a Pi 4 once.
- pi hole
- NAS
- Plex server<p>working on<p>super interested in the work Nick Busey has been workingon<p>HomelabsOS<p>tons of cool stuff, lots of awesome software to install.<p>I have been enjoying the open source community a lot lately<p><a href="https://gitlab.com/NickBusey/HomelabOS" rel="nofollow">https://gitlab.com/NickBusey/HomelabOS</a>
In production since 2016 with 3 x Raspberry Pi 3s. Very reliable - they only need a reboot once a year. These guys are hardcore - processing bursts of thousands of records from a serial interface 24 hours a day 7 days a week and shuffling it off to the cloud.
Has anyone used it for any car-related mods? I share my passion between coding and cars so I'd love to push some boundaries there if anyone has tried before? Gauage display from sensor units, just a cool OS display for music, or maybe something cooler?
I have 4 raspberries running 24/7:<p>- 2x Raspberry PI 3B+ in my office running 2 custom dashboards with info related to my web projects. One also runs Homebridge.<p>- 1x Raspberry PI 3B+ running pivpn.io<p>- 1x Raspberry PI X running an energy monitor (bough it as a kit<p>I threw my first Raspberry Pi in the trash just last week.
- LED Light alarm<p>- Living room music player & "radio" streamer -- I need to set this up as an A2DP audio receiver too<p>- octoprint server<p>- Stratum 1 NTP server (GPS referenced)<p>If I didn't also have a "big" linux system running 24/7, it would be doing things like DHCP, DNS, MQTT server, etc.
I am going to use one to try to replace my Echo Dot with. I only use Spotify, TP-Link lightbulbs and power plugs, timers, reminders, and weather, so I think replicating this functionality with RPi and Mozilla IoT Gateway should be a fun little project.
I have been trying to build an Rpi+eink screen laptop, using <a href="https://github.com/joukos/PaperTTY" rel="nofollow">https://github.com/joukos/PaperTTY</a> But haven't touched the project in months now.
One runs pi-hole, and maybe soon will also run pi-vpn. The other runs a small Nextcloud instance that I use for org files and such. In the past I also had magic mirror installed on one and used it as a sort of weather/reddit/news dashboard.
I used it as a ad hoc game camera last summer (we had something coming through our back yard, so wanted to see what it was, and I won't say no to buying more electronics I'll use once), but that's about it. Been powered off ever since.
1. pihole and unifi cloud key (not pleased that this is a requirement, but glad i can run it alongside my pihole)<p>2. retropie<p>3. commodore64 disk drive emulator! [1]<p>[1] <a href="https://cbm-pi1541.firebaseapp.com/" rel="nofollow">https://cbm-pi1541.firebaseapp.com/</a>
I got a RPi 3B+ to build and test some open-source amateur astronomy tools I contribute to - everything has been working quite nicely so far (I use Fedora on my computers and it also works fine on the Pi). I'm eyeing the RPi 4 with interest.
A Pi Zero W at work, controlling an LED from BlinkStick which change color depending on my presence and status, monitoring my position and calendar through IFTTT.<p>I
I can also change it manually through HTTP GET commands on the BlinkStick server with my API key.
I've got a first-gen Pi that's filled a variety of roles through the years. Currently it's hooked up to an old black-and-white TV where I play old TV shows and the occasional youtube video (omxplayer `youtube-dl -g <url>`).
I rigged up something where by I can see and operate the garage door at home. It even works by talking to Siri to get it to do its thing...<p><a href="https://imgur.com/a/Gd54E" rel="nofollow">https://imgur.com/a/Gd54E</a>
One runs my 3d printer. I've also tried using them for robots and I've built a couple microscopes/telescopes where the pi ran the video subsystem. But for that case I always end up switching back to an Intel NUC or a laptop.
I didn't fiddle with it for quite a while, since I was bored of updating and using old code, so I removed it from the chain, but a few years ago I ran it as an ad-filtering, transparent proxy in my LAN. Very nice (for a tiny network) !
I used mine as a dlna server and file server, but I was constantly having to restart it or delete the database to get it to pick up new files I had recently dragged on to it. Has anyone been able to use one successfully for serving media?
Another friend of mine also used a Raspberry Pi with MagicMirror (<a href="https://magicmirror.builders/" rel="nofollow">https://magicmirror.builders/</a>) to build a smart mirror. That was a neat project.
1x Raspberry Pi 3 to power a weather station sampling wind direction, wind speed, air temperature, soil temperature, air humidity, rainfall and push data to Weather Underground.<p>1x Raspberry Pi 3 to teach the kids how to code in Python and do math games.
I set up a camera facing the door to the apartment with it but I haven't gone farther with motion detection like I planned to. Also got some IR emitters to try to control the AC unit with it but haven't gotten around to it.
I have a bunch of headless Zero Ws spread around the house, each monitoring temperature and reporting themselves over multicast DNS<p><a href="http://jpbuzbee.asuscomm.com/" rel="nofollow">http://jpbuzbee.asuscomm.com/</a>
A lot of folks have said "pihole". I have a linux server at home that does my DNS and a bunch of other stuff. I also have a pi3 still in the box.<p>Would there be an advantage to me running pihole on the pi3 instead of on my linux server?
Right now: I use it as a Flashrom rig, for flashing BIOS chips.<p>The new Raspberry Pi looks powerful enough to use as a media center PC, I ordered one and want to see if it can do that well enough (read as: I’m curious to see emulation performance.)
Beside the classical setup of homeassistant I have a telegram bot that parse the website of a local used camera gear. Sometimes you can find good deals, but they last a couple of minutes, so having the new deals on time is vital.
Stepper motor control - I use the Adafruit DC & Stepper HAT <a href="https://www.adafruit.com/product/2348" rel="nofollow">https://www.adafruit.com/product/2348</a><p>Pretty easy to use, so far I like it.
I wrote a small network monitoring system to check jitter, packet loss, RX and TX speeds (single and multi threaded) on a regular basis. Had some troubles with an ISP a while ago and having metrics like this on hand are useful.
Like most people on here I have several raspis that I don't use. Two raspi zeros are wild life cameras for my dog. I like to see what she's doing when I'm not home.<p>One raspi 3 is a camera covering the entrance to my apartment.
RetroPi + [8bitdo N30](<a href="http://www.8bitdo.com/n30pro-f30pro/" rel="nofollow">http://www.8bitdo.com/n30pro-f30pro/</a>) controller is the best gaming box I've ever owned.
* A Pi3 running RetroPie. Might upgrade to a 4 if I can find a use for the 3.
* An original Pi that I gave to my brother in law because he was interested in setting up a PiHole (he might have used it for RetroPie, though).
I use 2, one controls fans and pumps, linear actuators, and sensors for my greenhouse. The other does likewise (plus heaters and heat lamps) for my chicken coop. I prefer rolling my own to ensure it works without internet.
I used it to make a game about High-Fiving, and I got to show it at GDC! <a href="https://www.youtube.com/watch?v=1RGjEkkfuwA" rel="nofollow">https://www.youtube.com/watch?v=1RGjEkkfuwA</a>
We're actually running multiple of them (different generations bought at different times, one is even some similar product)<p>* company ownCloud server<p>* company wiki, company IRC server<p>* private RaspberryMatic instance for doing smart home (HomematicIP) without cloud
A programmable, annoying, MQTT-triggered rotating alarm.<p>Used to annoy people when a Jenkins build fails.<p><a href="https://www.youtube.com/watch?v=wgXXkwVXqvI" rel="nofollow">https://www.youtube.com/watch?v=wgXXkwVXqvI</a>
There are so many amazing projects here, all of which are more impressive than what I actually get around to doing with mine! I really just use mine a simple way to play around with assembler in a simple environment.
I created an internet-controlled rover, with live camera feed. Tutorial: <a href="https://limitos.com/tutorials/rover" rel="nofollow">https://limitos.com/tutorials/rover</a> .
PiHole service is the only project I run on my raspberry pi. Setup is not as user friendly as we are accustomed to these days, however, with a few hours you will have a robust ad/analytics block system in place.
Pet Feeders!<p><a href="http://www.robpeck.com/2017/11/robs-raspberry-pi-powered-cat-feeders/" rel="nofollow">http://www.robpeck.com/2017/11/robs-raspberry-pi-powered-cat...</a>
I have a Raspberry Pi 3 that functions as a multi-purpose home server (Pi Hole, laptop backups, data scraping jobs, etc).<p>I have another 3 running MotionEyeOS that I keep pointed out the front of my house to catch package thieves.
I just ordered a complete Raspberry Pi Set to grab CAN BUS informations of my old landrover defender to send engine metrics to a remote sink on my synology nas at home. Maybe incl. gps tracking. Thats my plan :)
I currently have three around the apartment attached to the network:<p>One running Seafile (<a href="https://www.seafile.com/en/home/" rel="nofollow">https://www.seafile.com/en/home/</a>) with an old laptop hard-drive connected via USB enclosure. It acts as my own Dropbox. I mainly store notes and photos on it and sync them to a few other devices for redundancy. It also has a Samba share with all of my music and has an open vpn server so I can connect to it from anywhere.<p>One with a HiFiBerrry Digi+ hat (<a href="https://www.hifiberry.com/products/digiplus/" rel="nofollow">https://www.hifiberry.com/products/digiplus/</a>) connected to my sound system via toslink running an MPD (<a href="https://www.musicpd.org/" rel="nofollow">https://www.musicpd.org/</a>) server. I can control it with M.A.L.P. (<a href="https://play.google.com/store/apps/details?id=org.gateshipone.malp&hl=en_US" rel="nofollow">https://play.google.com/store/apps/details?id=org.gateshipon...</a>) on my phone. This one also has a 7" touch screen (<a href="https://www.amazon.com/Raspberry-Pi-7-Touchscreen-Display/dp/B0153R2A9I" rel="nofollow">https://www.amazon.com/Raspberry-Pi-7-Touchscreen-Display/dp...</a>) which I use to sometimes display ncmpcpp (<a href="https://github.com/arybczak/ncmpcpp" rel="nofollow">https://github.com/arybczak/ncmpcpp</a>) inside edex-ui (<a href="https://github.com/GitSquared/edex-ui" rel="nofollow">https://github.com/GitSquared/edex-ui</a>). This one also acts as the living room clock with an USB LED message board (<a href="https://www.amazon.com/818-Dream-Cheeky-Message-Board/dp/B001KU43WK/ref=cm_cr_arp_d_product_top?ie=UTF8" rel="nofollow">https://www.amazon.com/818-Dream-Cheeky-Message-Board/dp/B00...</a>) controlled by dcled (<a href="https://github.com/Conservatory/dcled" rel="nofollow">https://github.com/Conservatory/dcled</a>).<p>Another with a GPIO breakout and breadboard with an individually addressable LED light strip attached. I got the idea from this Adafruit tutorial (<a href="https://learn.adafruit.com/light-painting-with-raspberry-pi/overview" rel="nofollow">https://learn.adafruit.com/light-painting-with-raspberry-pi/...</a>). I wrote a program in Python to make it softly glow between random colors and sync to any beats-per-minute.
I'm partial to PiZero/Ws.<p>I have one connected to a big screen TV with a USB stick loaded with home videos playable using omxplayer. I use Raspicast to control the playback using my phone.<p>Also, like using them for projects using Rust.
I use it mainly for music streaming via Spotify (raspotify) and airplay. It's paired with an 10-year old EMU 0202 USB DAC which haven't had working drivers for OS X since Snow leopard or something.
I use one to receive GPS signals. Whenever I'm <500 meters from home, it turns on my air conditioner and starts making coffee.<p>Not fully automated since I still have to put the capsule in the morning, but works great.
1x nailed to my wall and acting as a jump box for my home network and a DNS server<p>1x running OctoPrint by the 3D printer<p>1x responsible for remote serial access to and cycling power on my RISC-V board<p>1x updates the weather on an e-ink display every 20 minutes
As I mentioned in another post in here I'm running a 4 Raspberry Pi Kubernetes cluster at work (based on K3S).<p>At home I use RPi Zero W for controlling my media centre in the living room (Mopidy-based) from my kitchen.
I'm using a Raspberry Pi 3 as an airplay receiver for music streaming at home. The software is called shairport-sync and is open source. My other Raspberry Pi 3 is a Retropie retro gaming console.
Lots of things, but the most useful yet is the RPi Zero USB stem which turns it into a dongle that gets power and network from my Mac. Very useful for quick and easy access to GPIO pins for ad-hoc use.
I have two Pis currently active:<p>1. Pi3: media server (minidlna), nfs & samba for backup to usb drive, Pi-Hole, weather station with BME280 sensor and gnuplot for graphing<p>2. Pi2: wifi bridge for my tv box<p>And two (Pi2 & Pi3) waiting for some use.
1x House power monitor
1x Solar power monitor
1x DVBT airplane tracking (flightradar.com)
1x Fridge temperature and humidity graphing for Salami chamber
1x Pi-hole (I also run a second pi-hole on a VM)
1x Raspberry Pi 3: Retropie powering a converted cabinet<p>1x Raspberry Pi 3: Home-assistant.io, perennial WIP<p>1x Raspberry Pi 1b: Prototype of Pandora streaming box w/pianobar and an LCD char display<p>1x Raspberry Pi 2: WIP for next rev of Pandora box
Have any of you done something with machine learning on rpi? Like face recognition or some fun robot. I'm looking at rpi4+google coral and it seems impressive enough to run interesting projects.
I use my Raspberry Pi 3B+ as an AdGuard Home server, as an OpenVPN server, to wake my PC via WoL, plus as just a basic Linux box that's on my home network that I can remote into from anywhere.
I‘m running Bind9 and ISC-DHCPD on my Pi.<p>Having set a bunch of DNS blacklist zones to completly eliminate necessary of ad blockers on all my devices.<p>Following, I have set up dhcpd, thus I‘m not bothering about setting static IPs.
I have two that control fridges for cheese making and aging. I used to have one running a custom news aggregator my gf made for me. I use them as controllers for large scale art at burning man.
I use my raspberry pi to automatically delete my tweets: <a href="https://github.com/mkaz/ephemeral" rel="nofollow">https://github.com/mkaz/ephemeral</a>
I use it to monitor a Tilt submersible hydrometer to keep track of the fermentation status of my beer. It displays the data on a small oled display and pushes it to a couple of Google sheets.
I run home assistant, unifi controller and to test out restic backup to my nas.<p>I don’t maintain it that well, right now unifi is crapping out for an unknown reason, but my one access point still works fine.
1. Rpi 3 keeping my IRC session up and working as small server for small tasks.
2. Rpi 2 has zigbee-module (raspbee) which controls lights.
3. Zero W with camera is currently doing nothing.
Buy it, think of the cool projects I'll make with it, then hide it in the cupboard. Every few months I'll take it out, set up a webserver on it and after few days hide it again.
I've got a Zero running my PedalPi guitar pedal from ElectroSmash and a 3 running with a USB dongle as a digital radio hotspot (soon to be upgraded to an MMDVM board with PiStar).
I use mine to run and monitor my 3D printer remotely. I use octopi and the little webcam extension.<p>Since I have a permanent use for it now, I'll probably be buying a second to play around with.
<a href="https://github.com/deepsyx/home-automation" rel="nofollow">https://github.com/deepsyx/home-automation</a> That's what I do :)
I turned mine into a simple Apache server. It's really nice to save a file and instantly see it live. If I like a program, I just save it and play around with on my server.
I have a Raspberry Pi 2,3 and 0W. 2 as a media and games center with RetroPi and Kodi. 3 as a Web server using LAMP and Wordpress. And 0W as a server for my non wifi printer.
I use a Pi as a bridge to control some lights using an Arduino and a 433mhz transceiver. It has a simple web API that IFTTT hooks into so I can use them with a Google Home.
I have a Pi 3 running Kodi, and I have another that I'm using as a border router for a thread mesh network. I'm going to get another at some point to run piHole.
Currently:<p>Raspberry Pi 1B+: Streaming radio scanner to Broadcastify<p>Raspberry Pi 2B: Octoprint<p>Raspberry Pi 2B: Signage, looping videos on a 32" TV<p>Raspberry Pi 3B: Duplicity "server" (backup software)<p>Raspberry Pi 3B+: Web dev box<p>Previously:<p>Raspberry Pi 1B: Hylafax server<p>Raspberry Pi 2B: Kodi
I’m using one as a smart lock so I can get in my house using my phone.<p>I have another one running HomeAssistant with a USB z-wave adapter as well as some esp8266/tasmota switches.
1. I used a Raspberry Pi Zero W to flash Coreboot onto my Lenovo X200.<p>2. I have a 3 B+ running RetroPie.<p>3. I use a model 1 with USB Wi-Fi adapter as a wireless print server for an old LaserJet printer.
Networked sound card that can also play by itself via ssh/screen/mpv when the main workstation is down.<p>That was the easiest way to avoid ground loops in my home audio setup.
Pi 1 here. Sits on a shelf collecting dust. I use lower power or more specialized micros for actual micro work and old x86 parts for higher performance workloads.
I have a Raspberry 2, 3 and 0W. 2 as a media server with RetroPi and Kodi. 3 as a web server using LAMP and Wordpress. and the 0W to work with my non WiFi printer.
I have the original Pi. With it, I started a collection of various organic and inorganic particulates. The collection site is a shelf in the corner of my basement.
HTPC for local home IPTV, another one as a wifi camera photo forwarder (security camera), another one as ADS-B receiver for adsbexchange.com and flightradar24.com
PiHole...
Also I have Transmission handling torrent files for downloading entirely legal movies, and keeps seeding them.
I use MiniDLNA to stream them to my TV.
...plug it into networks I'm not authorized to with the default password and forget about it...<p>but I actually use one w/ octoprint for my 3D printer, really like it.
Primarily, an always-on node to run wake-on-lan (via etherwake) on other home network nodes, and to act as an SSH bastion when other entrypoints are failing.
I use one as a hardware ad blocker on my home network (the project is Pi-Hole)<p>I also attached a webcam for home security (motion-project) that sends me a gif over telegram.
- One running my home automation setup (zigbee2mqtt, home assistant, influxdb, grafana, and nose red)<p>- OctoPi for my 3D printer<p>- RasPlex (Plex client attached to TV)<p>- Lakka, an emulation OS for retro gaming
Run my home automation system with Gladys Assistant! :)<p><a href="https://gladysassistant.com/" rel="nofollow">https://gladysassistant.com/</a>
here's what I used mine for:<p><pre><code> - znc bouncer
- tiny public http server
- attempt at osmc/kodi
- see how low (Hz) can it go while still be emacs capable (https://monkeyplush.blogspot.com/2012/09/raspberry-pi-underclock.html)
</code></pre>
plans that never realized:<p><pre><code> - pi as electromechanic controller
- pi as atmel flasher (thinkpad bios fix/coreboot)</code></pre>
Controlling a precision stage and camera on my 3d-printed microscope.<p><a href="https://openflexure.org" rel="nofollow">https://openflexure.org</a>
call me a little paranoid but - a RPI security camera. I have it running locally on my network, capturing still pictures of cars/people/things walking by (I live near a train). Its really just a passive monitor, but I'd like to add more difficult things to it like tell me if someone comes within x feet of my house - phone me, or something, it works for now though.
Current and former use cases:<p>1.) Arcade emulator box for a custom control panel I made<p>2.) Host machine for a twitter bot<p>3.) Octoprint server<p>4.) Virtual disk drive for an Apple II computer<p>5.) Internet connection quality monitor
1x Pi-Hole<p>1x Pilight (working together with HomeAssistant in a different machine)<p>1x sandbox (testing software, web stuff, etc)<p>1x Asterisk/RasPBX<p>1x backup manager<p>1x honeypot<p>1x bastion host<p>1x media player (also integrated with HA)
What I would pay for is:<p>A preconfigured raspberry pi, maybe with case, that automatically saves multitrack audio from a USB card. When you plug it into a Soundcraft Signature MTK audio interface (USB soundcard), at boot it waits for sound and reads all the live input channels and saves them to disk.<p>That way, we could record the full multitrack of our sessions very easily, and not necessarily need to have a laptop computer involved.<p>Edit: I would also pay for this if it shipped: <a href="http://www.samplerbox.org/" rel="nofollow">http://www.samplerbox.org/</a> which is a sample-box for a MIDI keyboard. So also taking instruments off a laptop and into a smaller device.<p>I don't know why people don't sell prepackaged RPis for a mark-up for installing software that just boots and has sensible defaults.
openHAB home automation.
The Raspberry Pi is a recommended base for openHAB and a prepared image is provided for easy use.
I use more for other purposes but openHAB is the important one. The Rpi is also nice for it as many hardware receivers/transmitters are compatible
at an Airline, we are designing a IOT feed for Aircraft Turn Around processes (RFIDs, Cameras, Sensors, etc), fed to a Pi per gate and transmitted to a MongoDB with a custom made GUI, it's a prototype/lab kinda thing though not made for full production...
1. Programming AVR µCs via ISP/SPI<p>2. Home automation based on a 433 MHz transmitter<p>3. Media centre<p>4. Small router bridging from WiFi to Ethernet
pihole, nodered domoticz mosquitto for home automation, plex sonarr bazarr radarr jackett emby deluge for home media server, all in one little rpi3 and dockerized
With the Raspberry Pi:<p>I've made a four wheel drive robot called Rover that uses brushless motors and 3d printed planetary gears. It's all CC0 open source:<p><a href="https://www.youtube.com/watch?v=pwCkX6bLY3E&t=4s" rel="nofollow">https://www.youtube.com/watch?v=pwCkX6bLY3E&t=4s</a><p><a href="https://github.com/tlalexander/rover_control" rel="nofollow">https://github.com/tlalexander/rover_control</a><p><a href="https://reboot.love/t/rover-and-skittles-cad-design-files-here/171" rel="nofollow">https://reboot.love/t/rover-and-skittles-cad-design-files-he...</a><p><a href="https://imgur.com/a/GqXD2Zj" rel="nofollow">https://imgur.com/a/GqXD2Zj</a><p>I've made a smaller classroom style robot named Skittles that also uses brushless + planetary and is open source:<p><a href="https://www.youtube.com/watch?v=Y2-zIUY_kww" rel="nofollow">https://www.youtube.com/watch?v=Y2-zIUY_kww</a><p>I taught a robotics class using the robot Skittles, and the students did a great job picking up Raspberry Pi. There's a lot of tutorials on the web they found to do their work!<p><a href="https://www.youtube.com/watch?v=4pql6ZbPVog" rel="nofollow">https://www.youtube.com/watch?v=4pql6ZbPVog</a><p>I've made a "fake Philips Hue" light out of a SK6812 RGBW LED strip to go with my existing Philips Hue system. That uses this github project:<p><a href="https://github.com/diyhue/diyHue" rel="nofollow">https://github.com/diyhue/diyHue</a><p>I made a humidity controlled chamber for mushroom cultivation:<p><a href="https://github.com/tlalexander/humidity_controller" rel="nofollow">https://github.com/tlalexander/humidity_controller</a><p>I've made an RTK GPS system using two raspberry pis and two $75 GPS receivers to make a GPS system that so far looks to be accurate to within a few centimeters (when you have clear sky).<p><a href="http://rtkexplorer.com/how-to/posts-getting-started/" rel="nofollow">http://rtkexplorer.com/how-to/posts-getting-started/</a><p>I replaced our dodgy bluetooth audio sink on our stereo with an Airplay node using this software:<p><a href="https://github.com/mikebrady/shairport-sync" rel="nofollow">https://github.com/mikebrady/shairport-sync</a><p>I've added a wireless front end to some of my 3D printers using Octoprint:<p><a href="https://octoprint.org/" rel="nofollow">https://octoprint.org/</a><p>What else? Well I just keep going. Professionally I'm a robotics prototyping engineer and I cannot tell you how much joy I get from the Pi and the things I can make with it. :)
As a braille user, I was always fond of "laptops" without a built-in display, simply to save ssace, weight and power.<p>I found a braille display which features a small compartment with micro-USB inside. Used a Pi Zero (these days 0w) to transform that braille display into a full-features Linux laptop. I documented the first version here: <a href="https://blind.guru/brlpi.html" rel="nofollow">https://blind.guru/brlpi.html</a>
I'm kinda concerned by the number of mentions here of using the Pi to run OctoPrint (I think that's right?) to remotely admin and monitor a 3D printer...<p>I've always been of the mind that a 3D printer should never be left physically unattended - even with monitoring (via camera and such), as they can potentially start a fire if something goes wrong (failed print spewing random filament?).<p>Is this a wrong viewpoint? Are there certain failsafes put into place to make the possibility of a fire non-existent?<p>I can think of a few failsafes (fire/smoke detector to shut things down, encasing the system inside a fireproof cabinet, perhaps with some kind of instant extinguisher system, filament/jam monitoring sensors) - are they enough?
Stratum-1 time server using a GPS module; was a pain in the neck to set up; reminded me of the old days, compiling kernels on a 386, or building things on Ultrix. Served its purpose for a trading project though.<p>I should probably do something else with it as its been gathering dust for years now.
Using one for a DMR (ham radio) hotspot.<p>Plan on using one for a GPSDO data monitoring.<p>The problem with the RPi is the SD card file system. It’s just not reliable enough. I have had better luck with the Beaglebone Black, which as on-board eMMC.
I have 1 in my dmz running wireguard (VPN for safe public wifi browsing) and nextcloud on ubuntu 18.04. Another inside my network running Freedombox for Privoxy and Searx.
I don't use it, I never got around to it because I'm not actually all that interested in computers, at least not in the sense that I thought I was.
* DHCP server for my LAN<p>* DNS server including pi-hole<p>* headless bittorrent client (transmission daemon)<p>* NFS and miniDLNA media server<p>* git remote