Tutorial for Setting Up Raspberry Pi for Ham Radio Use

There was a time when a ham radio set up sported many dials and switches and probably quite a few boxes as well. Computers have changed all that. Some transceivers now have just a few buttons or are even totally computer-controlled. Where a ham, at one time, might have a TeleType machine, a slow-scan TV monitor, and a fax printer for receiving satellite images, now that can all be on a single computer which can even be a Raspberry Pi. [F4GOH] has a post that takes you from the fundamentals to installing everything from an SDR to many common ham programs for digital modes, APRS, SSTV, and more. You can download the seven-part tutorial as separate PDF files, too.

Even if you aren’t a ham, you might find some of the software interesting. OpenWebRX lets you listen to your software defined radio on the road. You can use other software to pick up weather satellite data.

If you are a seasoned Linux user, you won’t need some of the early material. But you will find some good notes on how to use the ham-specific software and get a good overview of what is possible.

Ham radio has changed a great deal. If you think of it as people with noisy large radios, you might be surprised. The hobby is big enough that you’ll find everything from people talking on tiny radios around the world using a hybrid of radio and Internet connectivity, to people bouncing signals off the moon or using ham radio satellites.

[Dan Maloney] has talked about how to get started in ham radio for under $50. Then again, you might need another $50 for the Raspberry Pi. Of course, there are plenty of opportunities to hack the gear.

source https://hackaday.com/2020/09/08/tutorial-for-setting-up-raspberry-pi-for-ham-radio-use/

Measure 1024 Times, Cut Once

Typically, someone’s first venture into coding doesn’t get a lot of attention. Then again, most people don’t program a CNC table saw right out of the gate. [Jeremy Fielding] wasn’t enticed with “Blink” or “Hello, world,” and took the path less traveled. He tackled I/O, UX, and motion in a single project, which we would equate to climbing K2 as a way to get into hiking. The Python code was over 500 lines, so we feel comfortable calling him an over-achiever.

The project started after he replaced the fence on his saw and wondered if he could automate it, and that was his jumping-on point, but he didn’t stop there. He automated the blade height and angle with stepper motors, so the only feedback is limit switches to keep it from running into itself. The brains are a Raspberry Pi that uses the GPIO for everything. There is a manual mode so he can use the hand cranks to make adjustments like an ordinary saw, but he loses tracking there. His engineering background shines through in his spartan touchscreen application and robust 3D model. The built-in calculator is a nice touch, and pulling the calculations directly to a motion axis field is clever.

We’ve covered [Jeremy]’s DIY dynamometer and look forward to whatever he builds next. Until then, check out a light-duty approach to CNC that cuts foam in two-and-a-half dimensions.

Thank you, [Gabe Eff], for the tip.

source https://hackaday.com/2020/09/08/measure-1024-times-cut-once/

Electric Surfboard Doesn’t Need Waves

Surfing is a majestic sport, but one which relies heavily on the environment to provide suitable waves for the practice. If you don’t live near the right piece of coast, you’re simply out of luck. Of course, you could always build yourself an electric board instead to tear up the local lakes – and that’s precisely what [Simon] did. 

Following on from earlier experiments with 3D printed boats, the board is powered by a pair of jet drives, sourced from [YOUNGSTERS JETS]. Not one to skimp on horsepower, [Simon] selected twin 5000W motors to provide plenty of motive power. Of course, operating at such power levels comes with some headaches, and there’s plenty of blown ESCs and damaged motors along the way. Perseverance and plenty of cash outlay later, and the board is out carving elegant lines in the water at over 45 km/h.

Future updates aim to solve the problem of water ingress into the electronics, particularly the hand controller, of which [Simon] has already ruined two. We look forward to seeing more of these craft out in the water in coming days, particularly as they’re at least 30% less loud and annoying than the common jetski. Video after the break.

source https://hackaday.com/2020/09/08/electric-surfboard-doesnt-need-waves/

Identifying Creatures that go Chirp in the Night

It’s common knowledge that bats navigate and search for their prey using echolocation, but did you know that the ultrasonic chips made by different species of bats are distinct enough that they can be used for identification? [Tegwyn☠Twmffat] did, which is why he came up with this impressive device capable of cataloging the different bats flying around at night.

Now this might seem like an odd gadget to have, but if you’re in the business of wildlife conservation, it’s not hard to imagine how this sort of capability might be useful. This device could be used to easily estimate the size and diversity of bat populations in a particular area. [Tegwyn☠Twmffat] also mentions that, at least in theory, the core concept should work with other types of noisy critters like rodents or dolphins.

Powered by the NVIDIA Jetson Nano, the unit listens with a high-end ultrasonic microphone for the telltale chirps of bats. These are then processed by the software and compared to a database of samples that [Tegwyn☠Twmffat] personally collected in local nature reserves. In the video after the break, you can also see how he uses a set of house keys jingling as a control to make sure the system is running properly.

As winner of the Train All the Things contest back in April, we’re eager to see how the Intelligent Wildlife Species Detector will fare as the competition heats up in the 2020 Hackaday Prize.

source https://hackaday.com/2020/09/08/identifying-creatures-that-go-chirp-in-the-night/

ESP32 Hash Monster Fills Pockets with Packets

Unless you’re reading this from the middle of the ocean or deep in the forest, it’s a pretty safe bet there’s WiFi packets zipping all around you right now. Capturing them is just a matter of having the right hardware and software, and from there, you can get to work on cracking the key used to encrypt them. While such things can obviously have nefarious connotations, there are certainly legitimate reasons for auditing the strength of the wireless networks in the area.

It might not have the computational horsepower to crack any encryption itself, but the ESP32 M5Stack is more than up to the task of capturing WiFi packets if you install the Hash Monster firmware developed by [G4lile0]. Even if you don’t intend on taking things farther, this project makes finding WiFi access points and grabbing their packets a fascinating diversion with the addition of a few graphs and an animated character (the eponymous monster itself) that feeds on all those invisible 1s and 0s in the air.

There’s some excellent documentation floating around that shows you the start to finish process of popping open a WiFi network with the help of Hash Monster, but that’s only the beginning of what’s possible with this gadget. A quick search uncovers a number of software projects that make use of the specific advantages of the M5Stack compared to more traditional ESP32 boards, namely the built-in screen, buttons, and battery. We’ve even seen it used in a few builds here on Hackaday, such as this DIY thermal camera and custom shipboard computer system.

[Thanks to Manuel for the tip.]

source https://hackaday.com/2020/09/08/esp32-hash-monster-fills-pockets-with-packets/

A Gaming Mouse With Recoil Feedback

Rumble first hit the gaming mainstream back in the mid-1990s, and has become de rigeur for console players using gamepads ever since. It’s less prevalent on the PC, because most players rely on keyboards and mice that are rumble-free. However, innovation is possible, and [ilge] put together a modified mouse for shooters that has an excellent recoil feedback device. 

The feedback effect is run by an Arduino, which receives serial data from a Python program running on the host computer. When the mouse is clicked, the Python program notifies the Arduino, which then fires a bank of four solenoids repeatedly back-and-forth to generate the feedback effect. The solenoids are triggered by a relay, which is an easy way to switch such a load, though we suspect it may not hold up well over time due to the rapid fire rate and the likelihood of spark damage over time from high inrush current to the solenoids.

It’s a simple build that nonetheless adds a great haptic feedback effect to the otherwise humble computer mouse. While we don’t expect to see pros using the device anytime soon, it’s a great concept that does add to the shooter experience. Similar hardware could likely be put to great use in a VR context, too. The state of the art of haptic technology continues to move at a rapid pace, and we can’t wait to see what comes next. Video after the break.

source https://hackaday.com/2020/09/08/a-gaming-mouse-with-recoil-feedback/

The Floppy Disk As A Portable Music Format

We remember the floppy disk as the storage medium most of us used two decades or more ago, limited in capacity and susceptible to data loss. It found its way into a few unexpected uses such as Sony’s Mavica line of digital cameras, but outside those who maintain and use older equipment it’s now ancient history.

Seemingly not for [Terence Eden] though, who has made a portable audio player that uses a floppy disk as its storage medium. It came about with the realization that half an hour of extremely compressed audio could be squeezed onto a standard 3.5 inch floppy, and then that the Beatles’ A Hard Day’s Night album comes in at only a shade over that time. With some nifty manipulation of the compression command line and the judicious removal of some unnecessary metadata, the album can fit on a floppy in equivalent quality to the AM radio fans would have heard it over back in 1964.

The player would have been a major undertaking when the floppy was king, but in 2020 it’s simply a USB floppy drive, a Raspberry Pi, and a battery pack. He’s given us the full instructions, and no doubt a more permanent version could be built with a 3D-printed case.

We’re fascinated by the recent trend of storing audio on floppy disks, but despite the hipster vibe, we doubt  the idea will catch on. It’s not the first floppy-based player we’ve seen, but the previous one was more of a fake player.

source https://hackaday.com/2020/09/07/the-floppy-disk-as-a-portable-music-format/

You Don’t Need a Weatherman to Know which Way the Drone Blows

“How’s the weather?” is a common enough question down here on the ground, but it’s even more important to pilots. Even if they might not physically be in the cockpit of the craft they are flying. [Justin Parsons] explains how weather affects drone flights and how having API access to micro weather data can help ensure safe operations.

As drone capability and flight time increase, the missions they will fly are getting more and more complex. [Justin] uses a service called ClimaCell which has real-time, forecast, and historical weather data available across the globe. The service isn’t totally free, but if you make fewer than 1,000 calls a day you might be able to use a developer account which doesn’t cost anything.

According to [Justin], weather data can help with pre-flight planning, in-flight operations, and post-flight analysis. The value of accurate forecasting is indisputable. However, a drone or its ground controller could certainly understand real-time weather in a variety of ways and record it for later use, so the other two use cases maybe a little less valuable.

While on the subject, it seems to us that accurate forecasting could be important for other kinds of projects. Will you have enough sun to catch a charge on your robot lawnmower tomorrow? If your beach kiosk is expecting rain, it could deploy an umbrella or close some doors and shutdown for a bit.

If you insist on using a free service, the ClimaCell blog actually lists their top 8 APIs. Naturally, their service is number one, but they do have an assessment of others that seems fair enough. Nearly all of these will have some cost if you use it enough, but many of them are pretty reasonable unless you’re making a huge number of calls.

How would you use accurate micro weather data? Let us know in the comments. Then again, sometimes you want to know the weather right from your couch. Or maybe you’d like your umbrella to tell you how long the storm is going to last.

source https://hackaday.com/2020/09/07/you-dont-need-a-weatherman-to-know-which-way-the-drone-blows/

Easy Focus Stacking With Your CNC Machine

Macro photography is the art of taking photos of things very close up, and ideally at great detail. Unfortunately cameras have poor depth of field at close ranges, so to get around this, many use focus stacking techniques. This involves taking many photos at different focal lengths and digitally compositing them together. To help achieve this, [gtoal] realized that garden variety CNC machines would be perfect for the job.

To focus stack effectively, it’s desirable to move the camera in very small increments of sub-mm precision, in order to get different parts of the subject in focus. For this, a CNC machine excels, as it’s designed to move tool heads in very tiny, precise movements.

To achieve a bargain focus stacking rig, [gtoal] used a Dremel tool mount for cutting discs. It’s repurposed here, used as an easy way to fit a Raspberry Pi camera to a CNC tool head through its mounting holes. From there, it’s a simple manner of stepping the CNC a tiny amount at a time on the Z-axis, while taking photos with the Raspberry Pi along the way. [gtoal] notes that it would be simple for an experienced CNC user to whip up a program to automate the entire process.

We’ve seen other budget focus stacking rigs before, and even a busted 3D printer that was turned into an automated scanning microscope. If you’ve got your own tricks for top notch macro photography, drop us a note in the tipline!

source https://hackaday.com/2020/09/07/easy-focus-stacking-with-your-cnc-machine/

Reach your fitness goals this year in 12 easy steps

Set up an exercise routine and focus on proper nutrition to reach your fitness goals this year. By following the easy steps below, you can achieve your fitness and nutrition goals. Take your workout to new heights by finding sports equipment for sale on Junk Mail today.

Reach Your Fitness Goals This Year | Junk Mail
Photo Source – www.pixabay.com

1. Set clear goals

Set
clear and attainable fitness
goals that are simple to achieve. Write down your specific goals and
stick them up in a place where you’ll see them often. When you’re clear about
what you want to achieve, it’s easier to stay motivated.

2. Create a plan

Once
you know what your fitness
goals are, develop a plan of how you’re going to achieve them. Write
down the specific steps you need to take with a timeline for each phase of your
fitness journey. Include periods of rest so that you enjoy some downtime along
the way.

3. Keep records

Take
note of what strategies work for you and those that don’t. By recording your
fitness journey, you can use the information to develop a schedule that works
well for you. Focus on the strategies that help you achieve your goals and
discard those that don’t.

4. Identify your motivation

Identifying
the reasons why you set specific fitness goals helps to keep you motivated. These reasons give
you the energy to keep working towards your goals. Write down these reasons and
revisit them when you’re finding it challenging to stay on track.

5. Avoid trends

Avoid
diets and fitness trends that are complicated and unobtainable. Focus on
creating a workout schedule that fits in with your lifestyle and personal needs
rather than going from one trend to the next. Likewise, it’s advisable to focus
on eating healthy and nutritious meals rather than participating in fad diets.

6. Be flexible

While
it’s helpful to set specific goals, it’s also beneficial to make adjustments
along the way. If a goal is no longer a good fit, change it so that it’s a
better match for your personal fitness journey. When a goal is too challenging
to achieve, it can leave you feeling demotivated. Rather than giving up
entirely, alter your fitness schedule so that it’s easier to maintain.

7. Don’t rush

As
you start working towards your fitness goals, it’s tempting to put pressure on yourself and go
all out. However, you’ll have a better chance of accomplishing your goals if
you pace yourself along the way. Not only does taking a gentler approach help
you to stay motivated, but it also protects you against injury and burnout.
Regular gentle exercise is more effective than an intense training session once
a week.

8. Invest in a health coach

Struggling
to reach your fitness
goals? Invest in a health coach or personal trainer. Professional
support helps to keep you on track when you’re facing challenges on your
fitness journey. These professionals have plenty of knowledge and advice that
allows you to get better and faster results.

9. Get support

Working
out with other people helps you to stay disciplined. Joining a community of
like-minded people makes it easier to be enthusiastic about working out. You’ll
be able to share knowledge within the group and support each other through
difficult times.

10. Listen to your body

Listen
to your body and don’t exercise if you’re feeling sick. Resting will help you
recover quicker so that you can return fully committed to your fitness
schedule.

11. Forgive yourself

Learning
to be gentle and love yourself is an important aspect of getting fit and healthy.
Don’t be hard on yourself if you miss a workout or eat an unhealthy meal every
once in a while. Forgive yourself and continue with your schedule the following
day.

12. Don’t give up

If
you’ve deviated from your fitness schedule and you feel like a failure, don’t
give up. Rather revisit your goals and recommit yourself to achieving them. The
most successful people have gone through difficult patches and made mistakes,
but they picked themselves up and kept going rather than admitting defeat.

Reach Your Fitness Goals This Year | Junk Mail
Photo Source – www.pixabay.com

Now that you know how to reach your fitness goals this year, you can find affordable sports equipment for sale on Junk Mail.

Codespaces for Embedded Development

We can sympathize with [Benjamin Cabé]. He has a lot of development boards and it has become painful to maintain the many toolchains for each board. We’ve also suffered from upgrading one tool breaks another tool in some obscure way. His solution? Use Github Codespaces which you can get early access for beta testers.

The idea is that you can spin off a container-specific to a GitHub repository that has all the proper versions and dependencies required to work with a project.

If you sign up for the beta, you’ll be on a waitlist, but it is interesting to see [Benjamin] go through the steps. The service is free during the beta and you get two codespaces. Presumably, you’ll eventually be able to pay for more capability.

The idea is good, but we’ll have to see about the implementation. A preconfigured container might move from machine to machine or even to deep storage for later reconstitution. Flashing the binary image to the device looked painful from the browser. We’ve seen it done nicely with, for example, the online Arduino IDE but it did take some installable software helpers to do that.

We’ll be curious about how many different platforms this will support. However, you can roll your own version of this and avoid the cloud using Docker or even a full-blown VM like VirtualBox. Sure, it is more work, but you control your destiny. Add something like Platform.IO and your choice of development tools and you can avoid having so many competing development tools all in your main computer.

source https://hackaday.com/2020/09/07/codespaces-for-embedded-development/

Miniature Faux Floppy for 8-Bit Atari Looks the Part

There’s plenty of fun to be had with retrocomputers of yesteryear, but for modern users, it can be something of a culture shock. Going back to floppy disks after all these years is a reminder of just how far storage technology has come in terms of speed, reliability, and of course, capacity. Luckily, there are ways to combine the best of both worlds.

Floppy drive emulators for classic computers are of course nothing new, but we think this one [c0pperdragon] has put together is worthy of a closer look. Not only does the ATmega32U4 based emulator have an exceptionally low part count, but the code has been written in the Arduino IDE. Both features make it easy for new players to duplicate and revise the design should they feel so inclined. In a pinch you could even implement it on a breadboard with a garden variety Arduino.

The emulator is housed in a 3D printed enclosure designed to look like an era-appropriate Atari 1050 Disk Drive, except you’re using SD cards instead of floppies. The firmware can mimic two physical drives and supports up to 100 disk images on each SD card. The user interface is about as simple as it gets, with two push buttons and a pair of seven-segment LEDs to indicate which disk image is currently loaded up.

We’ve seen some very elaborate disk emulators over the years, but there’s something compelling about how straightforward this version is. If it helps a few more people experience the unique joys of retrocomputing, it’s a win in our book.

source https://hackaday.com/2020/09/07/miniature-faux-floppy-for-8-bit-atari-looks-the-part/

Miniature Faux Floppy for 8-Bit Atari Looks the Part

There’s plenty of fun to be had with retrocomputers of yesteryear, but for modern users, it can be something of a culture shock. Going back to floppy disks after all these years is a reminder of just how far storage technology has come in terms of speed, reliability, and of course, capacity. Luckily, there are ways to combine the best of both worlds.

Floppy drive emulators for classic computers are of course nothing new, but we think this one [c0pperdragon] has put together is worthy of a closer look. Not only does the ATmega32U4 based emulator have an exceptionally low part count, but the code has been written in the Arduino IDE. Both features make it easy for new players to duplicate and revise the design should they feel so inclined. In a pinch you could even implement it on a breadboard with a garden variety Arduino.

The emulator is housed in a 3D printed enclosure designed to look like an era-appropriate Atari 1050 Disk Drive, except you’re using SD cards instead of floppies. The firmware can mimic two physical drives and supports up to 100 disk images on each SD card. The user interface is about as simple as it gets, with two push buttons and a pair of seven-segment LEDs to indicate which disk image is currently loaded up.

We’ve seen some very elaborate disk emulators over the years, but there’s something compelling about how straightforward this version is. If it helps a few more people experience the unique joys of retrocomputing, it’s a win in our book.

source https://hackaday.com/2020/09/07/miniature-faux-floppy-for-8-bit-atari-looks-the-part/

Watch Winder Keeps Your Timepieces Ticking

Mechanical watches are triumphs of engineering on a tiny scale. Capable of keeping time by capturing the energy of the user’s own movements, they never need batteries changed. Unfortunately, they quickly lose time when not worn for a few days. To solve that problem, [sblantipodi] built a smart watch winder.

The overall build consists of six individual winder units. Each one has an ESP8266EX D1 Mini microcontroller, hooked up to a 28BYJ48 stepper motor with a ULN2003 motor driver. There’s also an OLED screen for status information. When commanded, the stepper motor turns, rotating a watch case to wind the timepieces. Control is via voice command, thanks to a Google Home Mini and a Raspberry Pi running Home Assistant. Watches can be wound individually, or all together, depending on the command given.

It’s a device that would serve any collector well, and could come in handy for watchmakers to wind customer watches waiting for pickup. Other similar builds have used special silent drives to ensure the device doesn’t disturb sleep when used on a bedside table. Video after the break.

source https://hackaday.com/2020/09/06/watch-winder-keeps-your-timepieces-ticking/

DIY Relay Module Saves Time

As any programmer could tell you, there’s significant value in automating a process that is performed often enough. The more times that process is used, the more it makes sense to automate it or at least improve its efficiency. This rule isn’t limited to software though; improvements to hardware design can also see improvements in efficiency as well. For that reason, [Hulk] designed a simple relay module in order to cut the amount of time he spends implementing this solution in his various other projects.

While driving a relay with a transistor is something fundamental, this project isn’t really about that per se. It’s about recognizing something that you do too much, and then designing that drudgery out of your projects. [Hulk] was able to design a PCB with 12 modules on it, presumably saving fabrication costs. He can then easily populate them with specific components as soon as he needs one. Another benefit of designing something like this yourself, rather than an off-the-shelf relay module, is that you can do away with any useless features you’ll never need (or add ones that aren’t available in commercial devices).

We can appreciate the efficiency gains this would make for our next project that needs a simple driver for a light, garage door opener, or any other binary electronic device. It can be a hassle to go find the correct transistor and relay, solder it all on the project board, and hope it all works. A pre-made solution solves all these issues, but we do wish the schematics were available to keep us from having to design our own. Driver boards are a pretty common project for all the different types of relays we see around here, so there is probably one available out there.

source https://hackaday.com/2020/09/06/diy-relay-module-saves-time/

Hackaday Links: September 6, 2020

That was a close shave! On Tuesday, asteroid 2011 ES4 passed really close to the earth. JPL’s close approach data pegs its nominal distance from earth at about 0.00081083276352288 au! Yeah, we had to look it up too: that’s around 75,000 miles (120,000 kilometers), just ten times the diameter of the earth and only about one-third the distance from the earth the moon. It got within about 52,000 miles of the moon itself. Bookworms who made it all the way through Seveneves are surely sweating right now.

There’s a low current arms race when it comes to lighting up LEDs. The latest salvo in the field comes from [Christoph Tack] who boasts a current of 1.36 µA at 3 V for a green LED that is roughly 10x brighter than a phosphorescent watch dial. Of course, the TritiLED is the design being chased, which claims to run 17.6-20.2 years on a single CR2032 coin cell.

Proving once again that Hanna and Barbera were indeed future-tech prophets, flying cars are now a thing. Sky Drive Inc. made a four-minute test flight of a single passenger octo-rotor aircraft. Like a motorcycle of the sky (and those are a thing too) this thing is single-passenger and the cockpit is open air. The CNN article mentions that “The company hopes to make the flying car a part of normal life and not just a commodity”. Yeah, we’re sure they do, but in an age when electric cars are demonized for ranges in the low hundreds of miles, this is about as practical for widespread use as self-balancing electric unicycles.

Just when you thought the Marble Machine X project couldn’t get any bigger, we find out they have a few hundred volunteers working to update and track CAD models for all parts on the machine. Want a quick-start on project management and BOM control? These are never seen as the sexy parts of hardware efforts, but for big projects, you ignore them at your own peril.

Google and Apple built a COVID-19 contact tracing framework into their mobile platforms but stopped short of building the apps to actually do the work, anticipating that governments would want to control how the apps worked. So was the case with the European tracing app as Elliot Williams recently covered in this excellent overview. However, the United States has been slower to the game. Looks like the tech giants have become tired of waiting and have now made it possible for the framework itself to work as a contact tracing mechanism. To enable it, local governments need to upload a configuration file that sets parameters and URLs that redirect to informational pages from local health departments, and users must opt-in on their phone. All other tracing apps will continue to function, this is meant to add an option for places that have not yet adopted/developed their own app.

And finally, it’s time to take back responsibility for your poor spelling. Auto-correct has been giving us sardines instead of teaching how to fish for them ourselves. That ends now. The Autocorrect Remover is an extension for Google Docs that still tells you the word is wrong, but hides the correct spelling, gamifying it by having you guess the right spelling and rewarding you with points when you get it right.

source https://hackaday.com/2020/09/06/hackaday-links-september-6-2020/

Restoring an Unusual Piece Of Computing History

Trawling classified ads or sites like Craigslist for interesting hardware is a pastime enjoyed by many a hacker. At a minimum, you can find good deals on used tools and equipment. But if you’re very lucky, you might just stumble upon something really special.

Which is exactly how [John] came into possession of the TRANSBINIAC. Included in a collection of gear that may have once belonged to a silent key, the device is a custom-built solid-state computer that appears to have been assembled in the early 1960s. Featuring a large see-through window not unlike what you might find on a modern gaming computer and a kickstand that tilts it back at a roughly 45° angle, it was obviously built to be shown off. Perhaps it was a teaching aid or even a science fair entry.

After some digging, it looks like the design of the TRANSBINIAC was based on plans published in the January 1960 issue of Electronics Illustrated. Though there are some significant differences. This computer uses eight bistable flip-flip modules instead of the original six, deletes the multiplication circuit, and employs somewhat simplified wiring. Whoever built this machine clearly knew what they were doing, which for the time, is really saying something. This truly unique machine may well have been one of the first privately owned digital computers in the world.

Which is why we’re glad to see [John] trying to restore the device to its former glory. Naturally it’s a little tricky since the computer came with no documentation and its design doesn’t exactly match anything out there. But with the help of other Hackaday.IO users, he’s hoping to get everything figured out. It sounds like the first step is to try and diagnose the 2N554 germanium transistor flip-flop modules, as they appear to be behaving erratically. If you have experience with this sort of hardware, feel free to chime in.

We’re supremely proud of the fact that so many of these early computer examples (and the people that are fascinated by them) have recently found their way to Hackaday.IO. They’re literally the building blocks on which so much of our modern technology is based on, and the knowledge of how they were designed and operated deserves to live on for future generations to learn from. If it wasn’t for 1960s machines like the TRANSBINIAC or the so-called “Paperclip Computer”, Hackaday might not even exist. It seems like the least we can do is return the favor and make sure they aren’t forgotten.

[Thanks to Yann for the tip.]

source https://hackaday.com/2020/09/06/restoring-an-unusual-piece-of-computing-history/

Pocket-sized Device Sniffs Out Damp Masks

The realities of wearing a mask when you go out, from forgetting the thing in the car to dealing with fogged up glasses, have certainly taken some getting used to for most of us. But not every issue is immediately obvious. For example, experts say that as a mask gets damp from exhalation or perspiration it becomes less effective. Which is precisely why [Rick Pannen] has designed the Mask Moisture Meter.

As deep as we are into the Microcontroller Era, we really appreciate the simplicity of this design. It’s just a 555 timer, a buzzer, some LEDs, and a handful of passive components to get them all talking to each other. There’s no firmware or programming required; just put a fresh battery in the holder and away you go. The traces of the PCB serve as a moisture detector, so when the board is pushed against something wet enough, the red LED and buzzer will go off to warn the user.

Now admittedly, there’s a point where you certainly won’t need an electronic gizmo to tell you a mask is wet. But as [Rick] demonstrates in the video after the break, the circuit is sensitive enough to indicate when there’s moisture in the material that might not be immediately obvious to the eye.

source https://hackaday.com/2020/09/06/pocket-sized-device-sniffs-out-damp-masks/

Pocket-sized Device Sniffs Out Damp Masks

The realities of wearing a mask when you go out, from forgetting the thing in the car to dealing with fogged up glasses, have certainly taken some getting used to for most of us. But not every issue is immediately obvious. For example, experts say that as a mask gets damp from exhalation or perspiration it becomes less effective. Which is precisely why [Rick Pannen] has designed the Mask Moisture Meter.

As deep as we are into the Microcontroller Era, we really appreciate the simplicity of this design. It’s just a 555 timer, a buzzer, some LEDs, and a handful of passive components to get them all talking to each other. There’s no firmware or programming required; just put a fresh battery in the holder and away you go. The traces of the PCB serve as a moisture detector, so when the board is pushed against something wet enough, the red LED and buzzer will go off to warn the user.

Now admittedly, there’s a point where you certainly won’t need an electronic gizmo to tell you a mask is wet. But as [Rick] demonstrates in the video after the break, the circuit is sensitive enough to indicate when there’s moisture in the material that might not be immediately obvious to the eye.

source https://hackaday.com/2020/09/06/pocket-sized-device-sniffs-out-damp-masks/

Recognizing Activities Using Radar

Caring for the elderly and vulnerable people while preserving their privacy and independence is a challenging proposition. Reaching a panic button or calling for help may not be possible in an emergency, but constant supervision or camera surveillance is often neither practical nor considerate. Researchers from MIT CSAIL have been working on this problem for a few years and have come up with a possible solution called RF Diary. Using RF signals, a floor plan, and machine learning it can recognize activities and emergencies, through obstacles and in the dark. If this sounds familiar, it’s because it builds on previous research by CSAIL.

The RF system used is effectively frequency-modulated continuous-wave (FMCW) radar, which sweeps across the 5.4-7.2 GHz RF spectrum. The limited resolution of the RF system does not allow for the recognition of most objects, so a floor plan gives information on the size and location of specific features like rooms, beds, tables, sinks, etc. This information helps the machine learning model recognize activities within the context of the surroundings. Effectively training an activity captioning model requires thousands of training examples, which is currently not available for RF radar. However, there are massive video data sets available, so researchers employed a “multi-modal feature alignment training strategy” which allowed them to use video data sets to refine their RF activity captioning model.

There are still some privacy concerns with this solution, but the researchers did propose some improvements. One interesting idea is for the monitored person to give an “activation” signal by performing a specified set of activities in sequence.

Radar is a complex but fascinating topic, and we’ve seen a number of excellent projects in the field, including a bicycle mounted radar that can be used to generate aerial images and a Doppler radar module designed from first principles.

Thanks [Qes] and [Adam Conner-Simons] for the tip!

source https://hackaday.com/2020/09/06/recognizing-activities-using-radar/

A Free Software OS for the reMarkable e-Paper Tablet

If you’re looking to rid your day to day life of dead trees, there’s a good chance you’ve already heard of the reMarkable tablet. The sleek device aims to replace the traditional notebook. To that end, remarkable was designed to mimic the feeling of writing on actual paper as closely as possible. But like so many modern gadgets, it’s unfortunately encumbered by proprietary code with a dash of vendor lock-in. Or at least, it was.

[Davis Remmel] has been hard at work porting Parabola, a completely free and open source GNU/Linux distribution, to the reMarkable. Developers will appreciate the opportunity to audit and modify the OS, but even from an end-user perspective, Parabola greatly opens up what you can do on the device. Before you were limited to a tablet UI and a select number of applications, but with this replacement OS installed, you’ll have a full-blown Linux desktop to play with.

You still won’t be watching videos or gaming on the reMarkable (though technically, you would be able to), but you could certainly use it to read and edit documents the original OS didn’t support. You could even use it for light software development. Since USB serial adapters are supported, microcontroller work isn’t out of the question either. All while reaping the considerable benefits of electronic paper.

The only downside is that the WiFi hardware is not currently supported as it requires proprietary firmware to operate. No word on whether or not [Davis] is willing to make some concession there for users who aren’t quite so strict about their software freedoms.

We’ve been waiting patiently for the electronic paper revolution to do more than replace paperbacks with Kindles, and devices like the reMarkable seem to be finally moving us in the right direction. Thankfully, projects that aim to bring free and open source software to these devices mean we won’t necessarily have to let Big Brother snoop through our files in the process.

source https://hackaday.com/2020/09/06/a-free-software-os-for-the-remarkable-e-paper-tablet/

A Free Software OS for the reMarkable e-Paper Tablet

If you’re looking to rid your day to day life of dead trees, there’s a good chance you’ve already heard of the reMarkable tablet. The sleek device aims to replace the traditional notebook. To that end, remarkable was designed to mimic the feeling of writing on actual paper as closely as possible. But like so many modern gadgets, it’s unfortunately encumbered by proprietary code with a dash of vendor lock-in. Or at least, it was.

[Davis Remmel] has been hard at work porting Parabola, a completely free and open source GNU/Linux distribution, to the reMarkable. Developers will appreciate the opportunity to audit and modify the OS, but even from an end-user perspective, Parabola greatly opens up what you can do on the device. Before you were limited to a tablet UI and a select number of applications, but with this replacement OS installed, you’ll have a full-blown Linux desktop to play with.

You still won’t be watching videos or gaming on the reMarkable (though technically, you would be able to), but you could certainly use it to read and edit documents the original OS didn’t support. You could even use it for light software development. Since USB serial adapters are supported, microcontroller work isn’t out of the question either. All while reaping the considerable benefits of electronic paper.

The only downside is that the WiFi hardware is not currently supported as it requires proprietary firmware to operate. No word on whether or not [Davis] is willing to make some concession there for users who aren’t quite so strict about their software freedoms.

We’ve been waiting patiently for the electronic paper revolution to do more than replace paperbacks with Kindles, and devices like the reMarkable seem to be finally moving us in the right direction. Thankfully, projects that aim to bring free and open source software to these devices mean we won’t necessarily have to let Big Brother snoop through our files in the process.

source https://hackaday.com/2020/09/06/a-free-software-os-for-the-remarkable-e-paper-tablet/

Filament Dust Filter Helps Keep Your Print Quality High

If we’re honest, our workshop isn’t as clean as it probably should be, and likely many makers out there will say the same. This can have knock-on effects, such as iron filings clogging motors, or in this case, dust affecting the quality of 3D prints. Aiming to tackle this, [3Demon] built a fun Spongebob-themed dust filter for their 3D printer.

The filter works in a simple way. The Spongebob shell is 3D printed in two halves, with a hinge joining both parts. Inside each half, a section of sponge is stuck inside. The two halves are then closed with a snap fit, with the filament passing through a hole in Spongebob’s head and out through the (square) pants. With the sponge packed in nice and tight, dust is wiped from the filament as it feeds through bob to the printer.

While it’s important to install carefully to avoid filament feed issues, it’s an easy way to automatically clean filament during the printing process. You may be surprised just how dirty your filament gets after sitting on the shelf for a few months. Getting rid of such contamination decreases the likelihood of annoying problems like delaminations and jams. Avid printers may also want to consider making their own filament, too. Happy printing!

source https://hackaday.com/2020/09/06/filament-dust-filter-helps-keep-your-print-quality-high/

ExoMy Is A Miniature European Mars Rover With A Friendly Face

Over the past few weeks, a new season of Mars fever kicked off with launches of three interplanetary missions. And since there’s a sizable overlap between fans of spaceflight and those of electronics and 3D printing, the European Space Agency released the ExoMy rover for those who want to experience a little bit of Mars from home.

ExoMy’s smiling face and cartoonish proportions are an adaptation of ESA’s Rosalind Franklin (formerly the ExoMars) rover which, if 2020 hadn’t turned out to be 2020, would have been on its way to Mars as well. While Rosalind Franklin must wait for the next Mars launch window, we can launch ExoMy missions to our homes now. Like the real ESA rover, ExoMy has a triple bogie suspension design distinctly different from the rocker-bogie design used by NASA JPL’s rover family. Steering all six wheels rather than just four, ExoMy has maneuvering chops visible in a short Instagram video clip (also embedded after the break).

ExoMy’s quoted price of admission is in the range of 250-500€. Perusing instructions posted on GitHub, we see an electronics nervous system built around a Raspberry Pi. Its published software stack is configured for human remote control, but as it is already running ROS (Robot Operating System), it should be an easy on-ramp for ExoMars builders with the ambition of adding autonomy.

ExoMy joins the ranks of open source rover designs available to hackers with 3D printing, electronics, and software skills. We recently covered a much larger rover project modeled after Curiosity. Two years ago NASA JPL released an open source rover of their own targeting educators, inspiring this writer’s own Sawppy rover project, which is in turn just one of many projects tagged “Rover” on Hackaday.io. Hackers love rovers!


source https://hackaday.com/2020/09/05/exomy-is-a-miniature-european-mars-rover-with-a-friendly-face/