The Zero Terminal 3: A Pop-Out Keyboard Linux Computer In Your Pocket

August 10, 2020 by Jenny List 35 Comments

The mobile phone revolution has delivered us attractively packaged and convenient computing in our pockets, but without the easy hackability we like in our community. Meanwhile the advent of single board computers has given us affordable super-powerful hardware that can run a very capable GNU/Linux operating system and fulfill all our hackable computing needs. Combine the two though? Plenty have tried, few have succeeded in making something as slick as the former with the open power of the latter. Fine if you like your portable devices to have a cyberdeck vibe, but maybe not something you’d take into the boardrooom. Never fear though, for [N-O-D-E] have the solution, in version 3 of the Zero Terminal. It’s the ultimate in Raspberry Pi based handheld computing, and it resembles a slightly chunky mobile phone.

At its heart is a Waveshare OLED 5.5″ touch screen, on the back owhich is mounted a PCB that carries a USB hub and power circuitry. A Pi Zero is mounted directly to this, and a cleverly designed HDMI adapter board interfaces it to the display. The power board is a generic one, the one designed for the PCB proved difficult to hand solder. There’s a very smartly designed case to give it that mobile phone feel, and on the back are a set of sockets with all the relevant Pi connections. This opens the possibility of some exciting add-ons, the first of which is a sliding keyboard similar to those on early Android phones. The ‘board is based on a [Bobricius] design, though sadly isn’t quite working yet.

As you can see in the video below the break, this is about as slick a mobile Pi as it’s possible to get. [N-O-D-E], we want one. Just take our money!

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Unbricking A $2,000 Exercise Bike With A Raspberry Pi Zero And Bluetooth Hacks

August 4, 2020 by Dan Maloney 17 Comments

Really, how did we get the point in this world where an exercise bike can be bricked? Such was the pickle that [ptx2] was in when their $2,000 bike by Flywheel Home Sports was left without the essential feature of participating in virtual rides after Peloton bought the company. The solution? Reverse engineer the bike to get it working with another online cycling simulator.

Sniffing Flywheel Bluetotooth packets with Bluetility

We have to admit we weren’t aware of the array of choices that the virtual biking markets offers. [ptx2] went with Zwift, which like most of these platforms, lets you pilot a smart bike through virtual landscapes along with the avatars of hundreds of other virtual riders. A little Bluetooth snooping with Bluetility let [ptx2] identify the bytes in the Flywheel bike’s packets encoding both the rider’s cadence and the power exerted, which Zwift would need, along with the current resistance setting of the magnetic brake.

Integration into Zwift was a matter of emulating one of the smart bikes already supported by the program. This required some hacking on the Cycling Power Service, a Bluetooth service that Zwift uses to talk to the bike. The final configuration has a Raspberry Pi Zero W between the Flywheel bike and the Zwift app, and has logged about 2,000 miles of daily use. It still needs a motor to control the resistance along the virtual hills and valleys, but that’s a job for another day.

Hats off to [ptx2] for salvaging a $2,000 bike for the price of a Pi and some quality hacking time, and for sticking it to The Man a bit. We have to say that most bike hacks we see around here have to do with making less work for the rider, not more. This project was a refreshing change.

[Featured images: Zwift, Flywheel Sports]

[via r/gadgets]

Facial Detection With Pi + MATLAB

August 4, 2020 by Orlando Hoilett 2 Comments

[Monica] wanted to try a bit of facial detection with her Raspberry Pi and she found some pretty handy packages in MATLAB to help her do just that. The packages are based on the Viola-Jones algorithm which was the first real-time object detection framework for facial detection.

She had to download MATLAB’s Raspbian image to allow the Pi to interpret MATLAB commands over a custom server. That setup is mostly pretty easy and she does a good job walking you through the setup on her project page.

With that, now she can control the Pi in MATLAB: configure the camera, toggle GPIO, etc. The real fun comes with the facial detection program. In addition to opening up a live video feed of the Pi camera, the program outputs pixel data. [Monica] was mostly just testing the stock capabilities, but wants to try detecting other objects next. We’ll see what cool modifications she’s able to come up with.

If MATLAB doesn’t quite fit your taste, we have a slew of facial detection projects on Hackaday.

IOT Pinball Puts Oktoberfest Fun On Tap

August 3, 2020 by Kristina Panos 5 Comments

We don’t really miss going out to bars all that much, unless you’re talking about the one downtown with all the pinball machines. Don’t get us wrong — pinball emulators have gotten crazy good, and you can find exact digital replicas of most machines to play on your phone or whatever. But it just doesn’t compare to the thrill of playing a real cabinet.

Don’t despair, because for the next couple of weeks, you can queue up to play on a real Oktoberfest pinball machine that’s sitting in Espoo, Finland. The controls are hooked up to a Raspberry Pi 4 through a custom HAT, along with a camera pointed at the playfield and another focused on the backglass screen. The game development/video streaming company Surrogate is hosting a tournament over the internet, and will be giving prizes to the top ten high rollers.

We usually have to wait until the holiday season to come across these remote-reality gaming opportunities. Having played it several times now, we recommend spamming the flippers until you get a feel for the lag. Also, just holding the flippers up while the ball is in the upper half of the playfield will catch a lot of balls that you might otherwise lose due to flipper lag, and sometimes they end up back in front of the launcher to shoot again. After the break, check out a brief but amusing video of setting up the cameras and Pi that includes a taste of the Oktoberfest music.

The tournament runs until the end of August, which should be enough time for somebody to set up CV and a keyboard to play this automatically. Need inspiration? Here’s an open-source pinball machine that can play itself.

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The Internet Of Bubble Machines

July 31, 2020 by Orlando Hoilett 15 Comments

Everyone loves a good bubble machine. These oddly satisfying novelty items have brought children and adults mindless entertainment since their inception. [8BitsAndAByte] had the same thought, but wanted to give their bubble machine a taste of the IoT-age.

First, they modified an off-the-shelf bubble machine with a Raspberry Pi and relay module. The Pi can easily trigger the bubbling mechanism by controlling power to the machine using the relay. Seems simple enough. The part of this project that might be a bit more unfamiliar to you is controlling the robot over the internet using remo.tv.

Remo.tv is a robot controller platform that’s both free and open-source, and we’ve seen [8BitsAndAByte] take advantage of this web controller before. Seems like they’re really getting the hang of it. Their writeup links to a detailed setup guide for configuring the Pi, so hopefully, that’s not too much trouble.

Couple the IoT setup with a Pi camera and you’ve got a live stream that’s admittedly oddly satisfying to watch with or without the bubbles.

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Do You Know Where Your Children Are? Check The Weasley Clock

July 29, 2020 by Kristina Panos 16 Comments

What’s the coolest thing you could build for a Harry Potter fan, aside from a working magic wand or Quidditch broomstick? We would have to say a Weasley clock that shows the whereabouts of everyone in the family is pretty high on the list, especially if that fan is a wife and mother.

Here’s how it works: they’ve set up geofences to define the boundaries of home, each person’s school or workplace, and so on. The family’s locations are tracked through their phones’ GPS using Home Assistant, which is hosted on a Raspberry Pi. Whenever someone’s location changes, the Pi alerts the clock over MQTT, and it moves the 3D-printed hands with servos.

The clock has some interesting granularity to it as well. As someone gets closer to home, their pointer’s distance reflects that in its proximity to the Home slice. And Home itself is divided into the main house and the shop and reflected by the pointer’s position.

We particularly like the attention to detail here, like the art poster used for the clock’s face that includes all the Weasley’s whereabouts in the background. It’s built into a thrift store grandmother clock, which is smaller than a grandfather clock but no less majestic. In the future there are plans to implement the clock’s chimes to announce that someone is back home.

No matter what you’re into, the whereabouts clock idea can probably fit that universe. For instance, here’s one that uses LEGO mini-fig heads to locate roommates.

RadioGlobe Takes The World Of Internet Radio For A Spin

July 27, 2020 by Kristina Panos 26 Comments

There’s no denying that the reach and variety of internet radio is super cool. The problem is that none of the available interfaces really give the enormity of the thing the justice it deserves. We long for a more physical and satisfying interface for tuning in stations from around the globe, and [Jude] has made just the thing.

RadioGlobe lets the user tune in over 2000 stations from around the world by spinning a real globe. It works by using two absolute rotary encoders that each have a whopping 1024 positions available. One encoder is stuck into the South Pole, and it reads the lines of longitude as the user spins the globe.

The other encoder is on the left side of the globe, and reads whatever latitude is focused in the reticle. Both encoder are connected to a Raspberry Pi 4, though if you want to replicate this open-source project using the incredibly detailed instructions, he says a Raspberry Pi 3 B+ will work, too.

In the base there’s an LCD that shows the coordinates, the city, and the station ID. Other stations in the area are tune-able with the jog wheel on the base. There’s also an RGB LED that blinks red while the station is being tuned in, and turns green when it’s done. We totally dig the clean and minimalist look of this build — especially the surprise transparent bottom panel that lets you see all the guts.

There are three videos after the break – a short demo that gives you the gist of how it works, a longer demonstration, and a nice explanation of absolute rotary encoders. Those are just the tip of the iceberg, because [Jude] kept a daily vlog of the build.

Maybe you just long for a web radio that dials in vintage appeal. This antique internet radio has a lot of features, but you wouldn’t know it from the outside.

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