The Automated Solution To Your Unpopularity

You feel that you’re unpopular and no one likes you. The bad news is that if that’s the case in the real world there’s no easy way to fix it. The good news is there’s a great substitute — your popularity on Instagram. With this vending machine you can replace your personality with followers on Instagram. It’s just a shame we have to wait a year until Coachella.

This project is an interactive installation from [Dries Depoorter] that makes it possible to buy followers and likes in just a few seconds. It’s not limited to Instagram — you can get followers on FaceBook, YouTube, and Twitter, too. The hardware consists of a Raspberry Pi 3B+, an Arduino, coin acceptor, a few character LCDs running over I2C, and somewhat surprising for a one-off ‘art installation’, a lot of DIN rails mounted to a real industrial enclosure. Someone here knows what they’re doing;  there’s something resembling cable management inside this box and this vending machine is built to last.

Using this vending machine is as easy as sticking a few Euro coins in the slot and selecting the number of followers or likes you’d like. In a few minutes afterward, hundreds of notifications pop up on your phone. There’s no mention of the software in this vending machine aside from it being written in Python, which makes us wonder where these Instagram bots are based. Check out the video below.

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Tiny Wooden Laptop Packs Raspberry Pi

Building a handheld Raspberry Pi rig is practically a hacker rite of passage these days. Off-the-shelf parts keep getting better, and we’re now starting to see affordable compact LCD screens with decent resolution become common. [MakeFailRepeat] got his hands on a HyperPixel screen, and decided to whip up a neat project with it.

The result is a charming little laptop, packing a 4″ screen with 800×480 resolution. Input is via multi-touch, as well as an integrated keyboard. The frame of the laptop is wooden, with a 3D printer supplying parts for the hinge mechanism. To round out the aesthetics, the top of the device was given a decorative copper inlay. Power management is via a UPS hat, which allows the device to switch seamlessly between battery and mains power.

A project like this is a great way to learn a wide range of valuable skills. It involves woodworking and 3D design, as well as the basic configuration of a single board computer. They come in all shapes and sizes, like this tiny RetroPie handheld, or this slick laptop build. Video after the break.

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Keep The Kids Entertained With A Time Machine

We often hear it said that today’s kids don’t go out and play as much as they did in the past, but honestly, it’s hard to really blame them. Have you seen some of the games they have now? It’s going to take something a little more exciting than a game of stickball to get them off the couch when they’ve got 4K and VR game systems to play with.

Circuit to control ATX PSU

Which is exactly why [Bobek] is building his kids a time machine. Not a literal one, of course. The Flux Capacitor technology required has yet to be mastered. But it does allow the player to “travel” through time through videos which are played by punching in specific codes they have to unlock by solving puzzles in the real world. Then again, keeping keeping kids active and mentally engaged might as well be “going back in time” in some people’s eyes.

By the looks of things, [Bobek] still has a little work to do on the project, but it’s far enough along that we can get an idea. Inside the bottom of the heavy duty plastic case he’s installed an ATX power supply and a Raspberry Pi 3, and an top of that, there’s a metal plate that holds the power button, an RGB backlit keyboard, and a Vacuum Florescent Display.

After powering on the system, the kids punch in the codes they’ve earned on the keyboard. If accepted, it starts the corresponding presentation which goes over the sights and sounds of the time period they’ve unlocked. In the video after the break you can see [Bobek] test the device with a small display hanging off the end of an HDMI cable, but presumably the system will eventually get an integrated display. The kids could also plug it into the TV, but at that point you might be going full circle.

We’ve seen several examples of hackers creating their own electronic gadgets to keep their children entertained. The line might be a little blurry, but we’d rather see kids use their imagination to “fly” a spaceship in their bedroom than play Roblox on their phone.

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PiFX, The Pi-Powered Pedal Board

Since the beginnings of the Raspberry Pi, [Tibbbbz] has wanted to build a DIY guitar effects board and amp simulator. A device like this, and similar ones sold by Boss and Kemper, put a bunch of processing power inside a metal enclosure with some footswitches and a pair of quarter inch jacks for input and output. Mash some buttons and wicked toanz come out the other end. Now this is actually possible with a Pi, and it’ll sound great too.

Because this is an audio application, latency is critical. It doesn’t really matter if you have 200 milliseconds of latency when scrolling through your Facebook feed, but for real-time audio processing anything over five milliseconds is disorienting and nearly unusable. [Tibbbbz] is using a standard, off-the-shelf USB audio adapter that gets the latency down to about that level. A Raspberry Pi is never going to have latency as low as a handful of transistors in a analog effects pedal, but it’s close enough.

For the audio system, it’s all about JACK audio: a wonderful frontend for the Linux audio system. The actual pedal emulation is happening with Guitarix. For the hardware part of this build, there’s actually not that much going on here apart from a USB sound card and a touch screen display. The footswitches are the most interesting as they’re wired up as buttons in a repurposed USB keyboard controller board. This repurposing of a USB keyboard is rather interesting, because it vastly simplifies the entire build. All of this is wrapped up in a wedge-shaped walnut pedalboard that’s sturdy enough to live on the stage at least part of the time. You can check out the demos here.

Chatterbox Voice Assistant Knows To Keep Quiet For Privacy

Cruising through the children’s hands-on activity zone at Maker Faire Bay Area, we see kids building a cardboard enclosure for the Chatterbox smart speaker kit. It would be tempting to dismiss the little smiling box as “just for kids” but doing so would overlook something more interesting: an alternative to data-mining corporations who dominate the smart speaker market. People are rightly concerned about Amazon Echo and Google Home, always-listening devices for online retail sending data back to their corporate data centers. In order to be appropriate for children, Chatterbox is none of those things. It only listens when a button is pressed, and its online model is designed to support the mission of CCFC (Campaign for a Commercial-Free Childhood.)

Getting started with a Chatterbox is much like other products designed to encourage young makers. The hardware — Raspberry Pi, custom HAT, speaker and button inside a cardboard enclosure — is conceptually similar to a Google AIY Voice kit but paired with an entirely different software experience. Instead of signing in to a Google developer account, children create their own voice interaction behavior with a block-based programming environment resembling MIT Scratch. Moving online, Chatterbox interactions draw upon resources of similarly privacy-minded entities like DuckDuckGo web search. Voice interaction foundation is built upon a fork of Mycroft with changes focused on education and child-friendliness. If a Chatterbox is unsure whether a query was for “Moana” or “Marijuana”, it will decide in favor of the Disney movie.

Many of these privacy-conscious pieces are open source or freely available, but Chatterbox pulls them all together into a single package that’s an appealing alternative to the big brand options. Based on conversations during Hackaday’s Maker Faire meetup, there’s a market beyond parents of young children. From technically aware adults who lack web API coding skills, to senior citizens unaware of dark corners of the web. Chatterbox Kickstarter campaign has a few more weeks to run but has already reached funding goals. We look forward to having a privacy-minded option in voice assistants.

The Raspberry Pi Portable Console You Wish You Had

A retro game console is a fun all-arounder project. You’ve got electronics, mechanical design, and software considerations. For this year’s Hackaday Prize, is going all in. The Portable Retro Game Console with 7.9-inch Display is a work of art, and everything that a retro console could be.

This build is based on the Raspberry Pi 3 A+ instead of the B model for space-saving considerations. The screen is a beautiful 7.9 inch IPS panel with 2048 x 1536 resolution. Stereo 3 W speakers pump out the tunes, and an 8000 mAh provides somewhere between 3 and 6 hours of play time.

While using a Raspberry Pi 3 for retro gaming is fun, there’s a world of oppurtunity for emulating bigger and badder consoles thanks to more powerful single board computers. The Nvidia Jetson Nano is far more powerful than the Raspberry Pi 3, and could conceivably emulate N64 and PlayStation games. The Atomic Pi, the fantastic computer that totally isn’t industrial surplus repackaged as an educational computer, already is proven to emulate N64 games. Imagine taking a portable console out of your backpack and playing Conker’s Bad Fur Day on the bus. Oh, that’s cheeky, but it is possible thanks to the amazing work of hardware creators.

PocketPi Is Exactly What It Sounds Like

The Raspberry Pi line of single-board computers are remarkably useful things, but they generally require some accessories to be hooked up to become a useful computing platform. [Ramin Assadollahi] wanted a pocket-sized computer to work on without the distractions so common on smartphones, so whipped up the PocketPi to do the job.

It’s a testament to the popularity of the Raspberry Pi platform that [Ramin] was able to put this project together with so many off-the-shelf parts. A Pi Zero W was chosen for its compact size, while a HyperPixel 4.0 screen was chosen for its high resolution in a small package. These parts were combined with a 3000 mAh battery, Adafruit Powerboost 1000C and a small USB keyboard and hub. It’s all wrapped up in a tidy 3D printed package, giving the pocket-sized computer a classic late-1980s look, albeit with much more horsepower under the hood.

It looks like a fun and useful machine to have when out and about, and the full QWERTY keyboard makes input easy. We’ve seen [Ramin]’s work before – with last year’s StickPi implementing an e-paper display. Video after the break.

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