Tag Archives: The MagPi

MagPi 77: Make with code

Post Syndicated from Rob Zwetsloot original https://www.raspberrypi.org/blog/magpi-77/

Hey folks, Rob from The MagPi here! Before I head off on my Christmas holidays, I want to introduce you to The MagPi 77, where we teach you how to make with code.

Making made fun! See what we did there?

What do we mean by that? Well, using code to make things – whether that’s scripts, programs, or games on your Pi, or whether you’re controlling LEDs with code, or robots, or massive Rube Goldberg machines. In this feature, we show new Pi users how to get started making practical applications with Python, and hopefully you’ll be inspired to go on and do something special.

Can you make… with code?

Accessories make the Pi

Want to power up your Raspberry Pi with a few extras? We’ve put together a guide to the 20 best Raspberry Pi accessories, covering IoT, robots, media, power solutions, and even industrial add-ons. There’s a lot of stuff you can do with your Pi, and even more if you’ve got the right tool to help.

We have the best accessories for you

More, you say?

Still need more reasons to grab a copy? Well, we have a tutorial on how to make a smart door, we continue developing Pac-Man while checking out the Picade Console, and we have plenty of amazing project showcases like the SelfieBot!


Get The MagPi 77

You can get The MagPi 77 from WHSmith, Tesco, Sainsbury’s, and Asda. If you live in the US, head over to your local Barnes & Noble or Micro Center in the next few days for a print copy. You can also get the issue online: check it out on our store, or digitally via our Android or iOS apps. And don’t forget, there’s always the free PDF.

Free Raspberry Pi 3A+ offer!

We’re still running our super special Raspberry Pi 3A+ subscription offer! If you subscribe to twelve months of The MagPi, you’ll get a Raspberry Pi 3A+ completely free while stocks last. Make sure to check out our other subs offers while you’re there, like three issues for £5, and our rolling monthly sub.

Get a 3A+ completely free while stocks last!

Right, happy holidays, folks! See you all in the New Year!

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MagPi 76: our updated Raspberry Pi Superguide!

Post Syndicated from Rob Zwetsloot original https://www.raspberrypi.org/blog/magpi-76/

Hi folks, Rob from The MagPi here! The holiday season will soon be upon us, and that means a lot of Raspberry Pis will be given as gifts. For all these new Pi users, we thought it was time to update our beginners’ guide for 2019 in issue 76 of The MagPi, out now!

And yes, this includes the brand-new 3A+.

Look, up on the magazine rack!

Is it a bird? A plane? No, it’s Superguide!

In this Superguide, we’ll take you through the initial setup of the Pi, we’ll help you familiarise yourself with it, and we’ll even show you a couple of fun Pi projects to get started with! Whether you’re a complete newbie to Raspberry Pi or you want need a little refresher, our guide has got you covered.

Superb

3A+ subscription offer!

Speaking of the Raspberry Pi 3A+, we have a full feature on the fresh addition to the Raspberry Pi family, including all the juicy benchmarks, stats, and info you’d ever want to know. There’s even an interview with Eben Upton and Roger Thornton about its development!

In fact, we love the 3A+ so much that we’re offering a brand-new, limited-time subscription offer: sign up for a twelve-month print subscription of The MagPi now, and you’ll get a Raspberry Pi 3A+ completely free!

Hurry though, this offer only runs as long as stocks last.

Be quick, this offer won’t be around forever!

Heads, Pac-Man, and Christmas lights

Of course, there also are amazing projects, guides, and reviews in this issue. This includes As We Are, a mesmerising art project that displays people’s faces on a 14-foot tall screen shaped like a head. We also show you how to start making Pac-Man in our monthly Pygame tutorial, and our smart lights guide has a bit of a festive flair to it.


Get The MagPi 76

You can get The MagPi 76 from WHSmith, Tesco, Sainsbury’s, and Asda. If you live in the US, head over to your local Barnes & Noble or Micro Center in the next few days for a print copy. You can also get the issue online: check it out on our store, or digitally via our Android or iOS apps. And don’t forget, there’s always the free PDF.

Rolling subscription offer!

Want to support the Raspberry Pi Foundation and the magazine? As well as the subscription mentioned above, you can now take out a monthly £5 subscription to the magazine, effectively creating a rolling pre‑order system that saves you money on each issue.

The MagPi subscription offer — The MagPi 75

That’s it for now! I’ll see you next time around Christmas.

 

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Can’t Drive This, the 4D arcade machine

Post Syndicated from Rob Zwetsloot original https://www.raspberrypi.org/blog/4d-arcade-machine/

A Raspberry Pi–powered arcade display with hidden interactive controls won over the crowds at Gamescom. Rosie Hattersley and Rob Zwetsloot got the inside scoop.

Pixel Maniacs is a Nuremberg-based games maker that started out making mobile apps. These days it specialises in games for PC, Xbox One, PlayStation, and Nintendo Switch. You Can’t Drive is its first foray into gaming with a Raspberry Pi.

If you’re going to add a little something extra to wow the crowd at the Gamescom video games trade fair, a Raspberry Pi is a surefire way of getting you noticed. And that’s the way Pixel Maniacs went about it.

The Nuremberg-based games developer retrofitted an arcade machine with a Raspberry Pi to showcase its intentionally silly Can’t Drive This precarious driving game at Gamescom.

This two-player co-operative game involves one player building the track while the other drives along it.

Complete with wrecking balls, explosions, an inconvenient number of walls, and the jeopardy of having to construct your road as you negotiate your way, at speed, across an ocean to the relative safety of the next lump of land, Can’t Drive This is a fast‑paced racing game.

Splash action

Pixel Maniacs then took things up a notch by providing interactive elements, building a mock 4D arcade game (so-named because they feature interactive elements such as motion cabinets). The fourth dimension, in this case, saw the inclusion of a water spray, fan, and console lights. For its Gamescom debut, Pixel Maniacs presented Can’t Drive This in a retro arcade cabinet, where hordes of gaming fans gathered round its four-way split screen to enjoy the action.

Getting to the heart of the matter and replacing the original 1980s kit with modern-day processors and Pi-powered additions

Adding Raspberry Pi gaming to the mix was about aiding the game development process as much as anything. Andy Holtz, Pixel Maniacs’ software engineer, told The MagPi that the team wanted an LED matrix with 256 RGB LEDs to render sprite-sheet animations. “We knew we needed a powerful machine with enough RAM, and a huge community, to get the scripts running.”

Pixel Maniacs’ offices have several Raspberry Pi–controlled monitors and a soundboard, so the team knew the Pi’s potential.

The schematic for the 4D arcade machine, showing the importance of the Raspberry Pi as a controller.

The arcade version of the game runs off a gaming laptop cunningly hidden within the walls of the cabinet, while the Raspberry Pi delivers the game’s surprise elements such as an unexpected blast from a water spray. A fan can be triggered to simulate stormy weather, and lights start flashing crazily when the cars crash. Holtz explains that the laptop “constantly sends information about the game’s state to the Raspberry Pi, via a USB UART controller. The Pi reads these state messages, converts them, and sends according commands to the fans, water nozzle, camera, and the LED light matrix. So when players drive through water, the PC sends the info to the Pi, and [the latter] turns on the nozzle, spraying them.”

Having played your heart out, you get a photo-booth-style shot of you in full-on gaming action.

The arcade idea came about when Pixel Maniacs visited the offices of German gaming magazine M! Games and spied an abandoned, out-of-order 1980s arcade machine lurking unloved in a corner. Pixel Maniacs set about rejuvenating it, Da Doo Ron Ron soundtrack and all.

Sustained action

Ideas are one thing; standing up to the rigours of a full weekend’s uninterrupted gameplay at the world’s biggest games meet is something else. Holtz tells us, “The Raspberry Pi performed like a beast throughout the entire time. Gamescom was open from 9am till 8pm, so it had to run for eleven hours straight, without overheating or crashing. Fortunately, it did. None of the peripherals connected to the Pi had any problems, and we did not have a single crash.”

A Raspberry Pi 3B+ was used to trigger the water spray, lights, and fans, bringing an extra element to the gameplay, as well as rendering the arcade machine’s graphics.

Fans were enthusiastic too, with uniformly positive feedback, and one Gamescom attendee attempting to buy the arcade version there and then. As Andy Holtz says, though, you don’t sell your baby. Instead, Pixel Maniacs is demoing it at games conventions in Germany this autumn, before launching Can’t Drive This across gaming platforms at the end of the year.

This article was printed in The MagPi issue 75. Get your copy of The MagPi in stores now, or download it as a free PDF here.

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Brand-new books from The MagPi and HackSpace magazine

Post Syndicated from Rob Zwetsloot original https://www.raspberrypi.org/blog/book-of-making-1-magpi-projects-book-4/

Hey folks, Rob from The MagPi here! Halloween is over and November has just begun, which means CHRISTMAS IS ALMOST HERE! It’s never too early to think about Christmas — I start in September, the moment mince pies hit shelves.

Elf GIF

What most people seem to dread about Christmas is finding the right gifts, so I’m here to help you out. We’ve just released two new books: our Official Raspberry Pi Projects Book volume 4, and the brand-new Book of Making volume 1 from the team at HackSpace magazine!

Book of Making volume 1

HackSpace magazine book 1 - Raspberry Pi

Spoiler alert: it’s a book full of making

The Book of Making volume 1 contains 50 of the very best projects from HackSpace magazine, including awesome project showcases and amazing guides for building your own incredible creations. Expect to encounter trebuchets, custom drones, a homemade tandoori oven, and much more! And yes, there are some choice Raspberry Pi projects as well.

The Official Raspberry Pi Projects Book volume 4

The MagPi Raspberry pi Projects book 4

More projects, more guides, and more reviews!

Volume 4 of the Official Raspberry Pi Projects Book is once again jam-packed with Raspberry Pi goodness in its 200 pages, with projects, build guides, reviews, and a little refresher for beginners to the world of Raspberry Pi. Whether you’re new to Pi or have every single model, there’s something in there for you, no matter your skill level.

Free shipping? Worldwide??

You can buy the Book of Making and the Official Raspberry Pi Projects Book volume 4 right now from the Raspberry Pi Press Store, and here’s the best part: they both have free worldwide shipping! They also roll up pretty neatly, in case you want to slot them into someone’s Christmas stocking. And you can also find them at our usual newsagents.

Both books are available as free PDF downloads, so you can try before you buy. When you purchase any of our publications, you contribute toward the hard work of the Raspberry Pi Foundation, so why not double your giving this holiday season by helping us put the power of digital making into the hands of people all over the world?

Anyway, that’s it for now — I’m off for more mince pies!

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MagPi 75: 75 greatest projects, chosen by you

Post Syndicated from Rob Zwetsloot original https://www.raspberrypi.org/blog/magpi-75-greatest-projects/

Hi folks, Rob from The MagPi here! A few weeks ago, we asked you to vote on your top 50 favourite Raspberry Pi projects from the last two-or-so years. We had thousands of responses, but there was one clear winner…and you can find out who that was in issue 75 of The MagPi, out tomorrow in stores, and available today online!

MagPi 75 Raspberry Pi magazine front cover

See who you folks voted for…

You heard right, the magazine is available a day early to download and buy online! Don’t say we never spoil you.

The community has voted

As well as counting down your 50 favourites, we’ve also got 25 other amazing projects selected by Eben Upton, Philip Colligan, Carrie Anne Philbin, and others!* Is your favourite project on the list?

MagPi 75 Raspberry Pi magazine

We don’t want to spoil the surprise — you’ll have to get the magazine to read the whole thing!

And there’s so much more!

On top of community favourites, we bring you a lot more in issue 75. This month we have a big feature on using the Raspberry Pi Camera Module, we show you ten of our favourite starter kits, and we also have a guide on building a secret radio chat device.

MagPi 75 Raspberry Pi magazine

Want to use the new Raspberry Pi TV HAT? We show you how.

All this along with news, reviews, community features, and competitions!

MagPi 75 Raspberry Pi magazine

See what we saw at Maker Faire New York!

Get The MagPi 75

You can get The MagPi 75 tomorrow from WHSmith, Tesco, Sainsbury’s, and Asda. If you live in the US, head over to your local Barnes & Noble or Micro Center in the next few days for a print copy. However, you can get the new issue online today! Check it out on our store, or digitally via our Android or iOS apps. And don’t forget, there’s always the free PDF.

Rolling subscription offer!

Want to support the Raspberry Pi Foundation and the magazine? You can now take out a monthly £5 subscription to the magazine, effectively creating a rolling pre‑order system that saves you money on each issue.

The MagPi subscription offer — The MagPi 75

You can also take out a twelve-month print subscription and get a Pi Zero W plus case and adapter cables absolutely free! This offer does not currently have an end date.

Thanks for sticking with The MagPi for 75 issues! Here’s to hundreds more.

*Oi, Zwetsloot, why wasn’t I asked?! – Alex

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Explore the depths with the PiCam Marine

Post Syndicated from Rob Zwetsloot original https://www.raspberrypi.org/blog/picam-marine/

This article from The MagPi issue 74 highlights the use of the Raspberry Pi Zero to build a marine camera for coral exploration. Get your copy of The MagPi in stores now, or download it as a free PDF here.

Raspberry Pi Picam Marine

The crew took 20 000 photos in total during the cruise.

Ecologists in Germany are deploying camera-equipped Pi Zero Ws off the coast of Norway to discover more about coral activity. Dr Autun Purser works in the Deep Sea Ecology and Technology group of the Alfred Wegener Institute. The group has a keen interest in cold-water corals, which are found in most European seas.

Raspberry Pi Picam Marine

Besides coral, they identified dozens of crabs.

“In the last three decades, we’ve started to understand these can form reefs whenever conditions are suitable for growth,” explains Autun. “During our cruise in the Skagerrak, we intended to map corals and see when, and under what conditions, they did most feeding.”

Feeding time

Their aim was to continue the development of “cheap camera systems which can be used for a range of applications in the deep sea, down to depths of at least 6000 metres. We investigated the use of Pi Zero W computers and [Raspberry Pi Camera Modules] to record video snippets of both the seafloor and any scientific devices that we place underwater, and we found the small size of the computers to be of great benefit to us.”

Raspberry Pi Picam Marine

The PiCam Marines are sent underwater in the deployment basket of a submarine. The captain, crew, and scientists aboard RV Poseidon cruise POS526 were also essential for the initial deployments.

The Pi Zero Ws and cameras are placed in strong, waterproof pressure containers, and powered by Li-ion batteries that can withstand the cold deep ocean conditions. “The WiFi connectivity allowed us to set up a router on deck to both initiate our cameras and, on retrieval from the sea-floor, download our collected images without having to reopen the pressure housings,” reveals Autun.


He and two colleagues programmed the camera system using Python 3 to turn on an LED light and take a maximum resolution image, at set times. It has proven “capable of imaging individual corals from 2 m distance, allowing us to tell if the tentacles were actively extended or not.”

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MagPi 74: Build a Raspberry Pi laptop!

Post Syndicated from Rob Zwetsloot original https://www.raspberrypi.org/blog/magpi-74-build-a-raspberry-pi-laptop/

Hey folks! Rob from The MagPi here with the good news that a brand new issue is out today, with a slightly new look. The MagPi 74 shows you how to build a Pi‑powered laptop, and gives tips on how to recycle an old laptop to use with Pi.

magpi 74

The laptop is not spooky, but the Halloween projects definitely are

We’ve got a pretty simple, tiny laptop build that you can follow along with, which will easily slip into your pocket once it’s completed. We also cover the basic Raspberry Pi Desktop experience, in case you fancy installing the x86 version to bring new life to an old laptop.

Welcome, foolish mortals…

I’m also very happy to announce that The MagPi Halloween projects feature is back this year! Put together by yours truly, Haunted Halloween Hacks should get you in the mood for the spookiest time of the year. October is the only month of the year that I’m allowed to make puns, so prepare yourself for some ghastly groaners.

magpi 74

Rob has unleashed his awful alliteration skills this issue, with some putrid puns

Still want more?

On top of all that, you can find more fantastic guides on making games in Python and in C/C++, along with our brand new Quickstart guide, a review of the latest Picade, and more inspiring projects than you can shake a Pi Zero at.

Qwerty the fish keeps this garden growing

magpi 74

Start making a Space Invaders clone with Pygame!

Get The MagPi 74

You can get The MagPi 74 today from WHSmith, Tesco, Sainsbury’s, and Asda. If you live in the US, head over to your local Barnes & Noble or Micro Center in the next few days for a print copy. You can also get the new issue online from our store, or digitally via our Android or iOS apps. And don’t forget, there’s always the free PDF as well.

Rolling subscription offer!

Want to support the Raspberry Pi Foundation and the magazine? You can now take out a monthly £5 subscription to the magazine, effectively creating a rolling pre‑order system that saves you money on each issue.

The MagPi subscription offer — The MagPi 74

You can also take out a twelve-month print subscription and get a Pi Zero W plus case and adapter cables absolutely free! This offer does not currently have an end date.

We need you!

Issue 75 is next month, and we’re planning to showcase 75 amazing Raspberry Pi projects! We need your help to vote for the top 50, so please head to the voting page and choose your favourite project. Click on a project name to cast your vote for that project.

That’s it for now! Oh, and if you make any Raspberry Pi Halloween projects this year, send them to us on Twitter or via email.

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Vote for your 50 favourite projects!

Post Syndicated from Rob Zwetsloot original https://www.raspberrypi.org/blog/vote-for-your-favourite-projects/

Hi folks, Rob from The MagPi here. While we’re working on the next issue of The MagPi, we’re very aware that we’re almost at issue 75!

Rob didn’t give Alex an image to put here so she made one

To celebrate this milestone, we’re doing another countdown of projects. We ranked 50 projects for issue 50 of The MagPi, and this time we’re ranking 75 of the greatest Raspberry Pi projects — and we need your help to do that!

Vote for your favourite

You folks in the community never stop amazing us with the things you make, so our list will be full of the outstanding projects you’ve made since we released issue 50 for October 2016! Like last time, you can vote for your favourites, but we’re upping the ante: we want you to choose the top 50 projects from the list of 75 we’ve compiled.

Want to know more about the projects? Visit our blog post detailing all the options.

Make sure to choose your favourites before Tuesday 2 October!

Note: There is a poll embedded within this post, please visit the site to participate in this post’s poll.

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MagPi 73: make a video game!

Post Syndicated from Rob Zwetsloot original https://www.raspberrypi.org/blog/magpi-73-make-video-game/

Hi folks, Rob from The MagPi here! As far back as I can remember, I always wanted to learn to code to make a video game. I’m technically working on one right now! It’s wildly behind my self-imposed schedule, though. If you too wish to learn how to make games, then check out issue 73 of The MagPi, out today!

The MagPi 73

Make video games in the latest issue of The MagPi!

Let’s play a game

There are many classifications of video games these days, and many tools to help make it easy. We take you through making a purely narrative experience on Twine, up to programming a simple 8-bit game for Pico-8 in this month’s main feature. Don’t forget our ongoing series on how to make games in C/C++ and Pygame as well!

The MagPi 73

Make games today on your Pi!

Boost your home security

If making games aren’t quite your thing, then we also have a feature for our more serious-sided readers on how to secure your home using a Raspberry Pi. We show you how to set up a CCTV camera, an IoT doorbell, and a door security monitor too.

Home security made easy with a Raspberry Pi

Maker Faire Tokyo

We also have a bumper five pages on Maker Faire Tokyo and the Japanese Raspberry Pi community! I went out there earlier this month and managed to drag myself away from the Gundam Base and the Mandarake in Akihabara long enough to see some of the incredible and inventive things Japanese makers had created.

The MagPi 73

See our report from Maker Faire Tokyo!

All of this along with our usual selection of tutorials, projects, and reviews? We spoil you.

The MagPi 73

Amazing projects to inspire!

Get The MagPi 73

You can get The MagPi 72 today from WHSmith, Tesco, Sainsbury’s, and Asda. If you live in the US, head over to your local Barnes & Noble or Micro Center in the next few days for a print copy. You can also get the new issue online from our store, or digitally via our Android or iOS apps. And don’t forget, there’s always the free PDF as well.

Rolling subscription offer!

Want to support the Raspberry Pi Foundation and the magazine? You can now take out a monthly £5 subscription to the magazine, effectively creating a rolling pre-order system that saves you money on each issue.

The MagPi subscription offer — The MagPi 73

You can also take out a twelve-month print subscription and get a Pi Zero W plus case and adapter cables absolutely free! This offer does not currently have an end date.

That’s it for now, see ya real soon!

Edit: I’m sure he’ll run out of Star Trek GIFs eventually – Alex

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Prepare yourself for winter with the help of squirrels

Post Syndicated from Alex Bate original https://www.raspberrypi.org/blog/raspberry-pi-squirrel-cafe/

This article from The MagPi issue 72 explores Carsten Dannat’s Squirrel Cafe project and his mission to predict winter weather conditions based on the eating habits of local squirrels. Get your copy of The MagPi in stores now, or download it as a free PDF here.

The Squirrel Cafe on Twitter

Squirrel chowed down on 5.0 nuts for 3.16 min at 12:53:18 CEST. An #IoT project to predict how cold it’ll be next winter. #ThingSpeak

Back in 2012, Carsten Dannat was at a science summit in London, during which a lecture inspired him to come up with a way of finding correlations between nature and climate. “Some people say it’s possible to predict changes in weather by looking at the way certain animals behave,” he tells us. “Perhaps you can predict how cold it’ll be next winter by analysing the eating habits of animals? Do animals eat more to get additional fat and excess weight to be prepared for the upcoming winter?” An interesting idea, and one that Germany-based Carsten was determined to investigate further.

“On returning home, I got the sudden inspiration to measure the nut consumption of squirrels at our squirrel feeder”, he says. Four years later and his first prototype of the The Squirrel Cafe was built, incorporating a first-generation Raspberry Pi.

A tough nut to crack

A switch in the feeder’s lid is triggered every time a squirrel opens it. To give visual feedback on how often the lid has been opened, a seven-segment LED display shows the number of openings per meal break. A USB webcam is also used to capture images of the squirrels, which are tweeted automatically, along with stats on the nuts eaten and time taken. Unsurprisingly perhaps, Carsten says that the squirrels are “focussed on nuts and are not showing interest at all in the electronics!”

The Squirrel Cafe on Twitter

Squirrel chowed down on 4.5 nuts for 6.60 min at 14:23:55 CEST. An #IoT project to predict how cold it’ll be next winter. #ThingSpeak

So, how do you know how many nuts have actually been eaten by the squirrels? Carsten explains that “the number of nuts eaten per visit is calculated by counting lid openings. This part of the source code had been reworked a couple of times to get adjusted to the squirrel’s behaviour while grabbing a nut out of the feeder. Not always has a nut been taken out of the feeder, even if the lid has been opened.” Carsten makes an assumption that if the lid hasn’t been opened for at least 90 seconds, the squirrel went away. “I’m planning to improve the current design by implementing a scale to weigh the nuts themselves to get a more accurate measurement of nut consumption,” he says.

Squirrel Cafe Raspberry Pi The MagPi

Just nuts about the weather!

The big question, of course, is what does this all tell us about the weather? Well, this is a complicated area too, as Carsten illustrates: “There are a lot of factors to consider if you want to find a correlation between eating habits and the prediction of the upcoming winter weather. One of them is that I cannot differentiate between individual squirrels currently [in order to calculate overall nut consumption per squirrel].” He suggests that one way around this might be to weigh the individual squirrels in order to know exactly who is visiting the Cafe, with what he intriguingly calls “individual squirrel recognition” — a planned improvement for a future incarnation of The Squirrel Cafe. Fine-tuning of the system aside, Carsten’s forecast for the winter of 2017/18 was spot-on when he predicted, via Twitter, a very cold winter compared to the previous year. He was proven right, as Germany experienced its coldest winter since 2012. Go squirrels!

Follow The Squirrel Cafe

Track the eating habits of the squirrels through some utterly adorable photos on The Squirrel Cafe Twitter account, and learn more about the project on The Squirrel Cafe website.

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MagPi 72: AI made easy for your Raspberry Pi

Post Syndicated from Rob Zwetsloot original https://www.raspberrypi.org/blog/magpi-72/

Hi folks, Rob from The MagPi here! With AI currently a hot topic in hobby tech, we thought we’d demystify it for you and your Raspberry Pi in The MagPi 72, out now!

AI made easy, in issue 72 of The MagPi!

The MagPi 72

AI made easy covers several types of current AI and machine learning tech that you, as a hobbyist and consumer, can get your hands on and use with your Pi. Many companies offer voice and image recognition services that work with the help of machine learning, and it’s actually pretty easy to get started with these.



We asked several AI experts to help us out with this, and we cover robot automation, getting the details of an image, and offline voice recognition. We promise it’s Skynet-safe.

Make sweet music

Want to make music? Then follow our guide to create your own Raspberry Pi–powered recording studio — all you need to bring to the table is your own musical talent.


We’ve also got some great tutorials on how to make a mini magic mirror and hack Minecraft Pi with Mathematica, along with some fantastic project showcases such as the squirrel cafe and a ghost detector.



Still not satisfied? Then check out our reviews and community segments — there’s a lot of excellent stuff to read about this issue.

Get The MagPi 72

You can get The MagPi 72 today from WHSmith, Tesco, Sainsbury’s, and Asda. If you live in the US, head over to your local Barnes & Noble or Micro Center in the next few days for a print copy. You can also get the new issue online from our store, or digitally via our Android or iOS apps. And don’t forget, there’s always the free PDF as well.

Rolling subscription offer!

Want to support the Raspberry Pi Foundation and the magazine? You can now take out a monthly £5 subscription to the magazine, effectively creating a rolling pre-order system that saves you money on each issue.

The MagPi subscription offer — The Magpi 72 - AI Raspberry Pi

You can also take out a twelve-month print subscription and get a Pi Zero W plus case and adapter cables absolutely free! This offer does not currently have an end date.

See you next month!

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Build an oscilloscope using Raspberry Pi and Arduino

Post Syndicated from Rob Zwetsloot original https://www.raspberrypi.org/blog/build-oscilloscope-raspberry-pi-arduino/

In this tutorial from The MagPi issue 71Mike Cook takes us through the process of building an oscilloscope using a Raspberry Pi and an Arduino. Get your copy of The MagPi in stores now, or download it as a free PDF here.

The oscilloscope is on the wish list of anyone starting out with electronics. Your author used to tell his students that it was your eyes, making electricity visible. Unfortunately, they are quite expensive: from a few hundred pounds to up to £5000 and beyond. However, by using an Arduino and some software on the Raspberry Pi, you can make a passable beginner’s oscilloscope.

Raspberry Pi Arduino oscilloscope magPi 71

Last September, in The MagPi #61, there was an article outlining the way the Raspberry Pi and the Arduino could be used together. We at the Bakery have been doing this for some time: we first had a major project in the Raspberry Pi Projects books by Andrew Robinson and Mike Cook. The big advantage of the Arduino from a signal processing point of view is that there is minimal interruption from the operating system and you can gather data at a constant uninterrupted rate. This is just what we need for making an oscilloscope. The idea is that the Arduino gathers a whole heap of voltage samples as fast as it can and stores it in memory. It then transfers that memory to the Raspberry Pi, again as fast as possible. The Pi plots the data and displays it, then the software allows measurements to be made on the samples.

So you can measure the time and voltage difference, known as a delta, between any two points on the samples. You can even display the frequency that the ‘time delta’ corresponds to by taking its reciprocal. These are features found in expensive oscilloscopes. We have also built in a trigger function; this is to synchronise the onset of the rapid data gathering with the occurrence of a positive transition on the input signal through a specified voltage. The result is that regular waveforms can look stable on the display.

The hardware

The schematic of the Arduino data acquisition module is shown in Figure 1.

Raspberry Pi Arduino oscilloscope magPi 71

Figure 1: Schematic of the Arduino acquisition module

You will notice that it is quite simple. It consists of three potentiometers for the oscilloscope’s controls and an AC coupled biased voltage input.

The capacitor ensures that no DC components from the input get through and gives a modicum of protection against overvoltage. The reference voltage, or ground, is similarly biased as +2.5V above the Pi’s ground level.

The use of a BNC socket for the input ensures that you can use this with proper oscilloscope probe leads; these normally have an X10 switchable attenuator fitted, thus allowing voltages of +/- 25V to be measured. Full construction details can be found in the numbered steps.

Raspberry Pi Arduino oscilloscope magPi 71

The BNC socket has a flat on each side of the thread to prevent it rotating with the twisting force it will be subjected to upon connecting any probe. We did this by first drilling an 8mm hole for the flats and then enlarging the hole with a circular file on each side to allow it to fit. An 8×12mm hole was filed opposite the USB connecter to allow access.

Arduino software

The software, or sketch, you need to put into the Arduino is shown in the Gather_A0.ino listing, and is quite simple. Normally an Arduino of this type will take samples at a rate of 10 000 per second — or as we say, a 10k sample rate. This is not too good for an oscilloscope, but we can increase this sample rate by speeding up the A/D converter’s clock speed from the default rate. It does not appear to affect the reading accuracy too much. By making this change, we can speed up the sample rate to 58k. This is much better and allows useful measurements to be made in the audio range.

Raspberry Pi Arduino oscilloscope magPi 71

We used an Arduino Nano and soldered the header pins to it. Then we took a 14 hole by 19 strips piece of stripboard and drilled some holes to fix it to the base of the box. You might want to make this longer than 19 strips if you are not using surface-mount resistors on the underside. Fit header sockets to the stripboard and break the tracks on the underside between the two rows.

So, first, the trigger function is optionally called and then the samples are gathered in and sent to the Pi. The trigger function has a time-out that means it will trigger anyway after one second, whether it sees a transition on the input signal or not. Then the three pots are measured and also sent to the Pi. Note here that the samples are ten bits wide and so have to be sent as two bytes that get joined together again in the Pi’s software.

Also note the use of the double read for the pots, with a bit of code between each. This ensures a more stable reading, as the input capacitor of the Arduino’s sample and hold circuit needs time to charge up, and it has less time than normal to do this due to the speeding up of the D/A. It does not affect the waveform samples too much, as in most waveforms one sample voltage is close to the previous one.

Raspberry Pi Arduino oscilloscope magPi 71

We then drilled three holes for the pots, and added the small slots for the anti-rotation lugs. Then we fitted the pots and wired them up using the diagram above. This is the view from inside the lid of the box; if you’re worried about touching the side of the box with your soldering iron, consider soldering them before attaching them to the box.

At the end of the transfer, the Arduino sits in a loop waiting for an acknowledge byte from the Pi so it can start again. This acknowledge byte also carries the information as to whether or not to use a trigger on the next sample.

Raspberry Pi Arduino oscilloscope magPi 71

Add the resistors and capacitors to the stripboard and wire up the BNC socket. Solder this up before mounting, otherwise you will melt the plastic. Remember to thread the central wire through the ground washer, crinkle washer, and nut before soldering it. Add labels Trigger, Time, and Volts to the knobs.

Finally, before each buffer full of data is gathered, pin 13 on the board is lit, and turned off after. This is so that we could time the process on a commercial oscilloscope to find the sample rate — something you will not have to do if you use the recommended AVR-type Arduinos running at 16MHz.

Pi software

The software for the Raspberry Pi is written in Python 3 and used the Pygame framework. It proved to be a lot more tricky to write than we first imagined, and is shown in the Scope.py listing. Python 3 uses Unicode characters by default, and allowed us to display the delta (Δ) and mu (μ) Greek characters for the difference and the time. The code first sets up the non-display part of the window; this is only drawn once, and then parts of it are updated when necessary. Depending on what type of Arduino you have, it can show up as a different USB port; we found that ours showed up as one of two ports. Comment out which one is not applicable when defining the sampleInput variable at the start of the listing.

Finally, we cobbled together a 168×78 pixel logo for the top-left corner, using a piece of clip art and fashioning the word ‘Oscilloscope’ from an outlined version of the Cooper Black font. We called it PyLogo.png and placed it in an images folder next to the Python code.

Using the oscilloscope

The oscilloscope samples at 58 kHz, which in theory means you can measure waveforms at 29 kHz. But that only gives you two samples per cycle, and as the samples can be anywhere on the waveform, they do not look very good. As a rough guide, you need at least ten points on a waveform to make it look like a waveform, so that gives a top practical frequency of 5.8 kHz. However, by using the Time Magnify options along with the Freeze function, you can measure much higher frequencies. The time and voltage cursor lines let you find out the values on any point of the waveform, and by clicking the Save functions, the current cursor is replaced by a dotted line that is fixed, and measurements can be made relative to that. The oscilloscope in action can be seen in Figure 2.

Raspberry Pi Arduino oscilloscope magPi 71

Figure 2: Taking measurements on a swept signal

Note that pressing the S key on the keyboard produces a screen dump of the display.

Taking it further

There are lots of ways you can take this project further. A simple upgrade would involve you having a second data buffer to allow you to display a saved waveform to compare against the current live one. You could also add a lower-speed acquisition mode to see slower waveforms. You can go the other way and use a faster Arduino so you can see the higher frequencies. This oscilloscope is AC coupled; you could add a DC coupling option with a switch potential divider and amplifier to the front end to extend the range of voltages you can measure. All these improvements, however, will need changes to the software to allow the measuring to take place on these wider-range parameters.

Finish the project

For the complete project code, download the free PDF of The MagPi issue 71, available on The MagPi website.

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MagPi 71: Run Android on Raspberry Pi

Post Syndicated from Rob Zwetsloot original https://www.raspberrypi.org/blog/magpi-71-android-raspberry-pi/

Hey folks, Rob here with good news about the latest edition of The MagPi! Issue 71, out right now, is all about running Android on Raspberry Pi with the help of emteria.OS and Android Things.

Raspberry Pi The MagPi Magazine issue 71 - Android

Android and Raspberry Pi, two great tastes that go great together!

Android and Raspberry Pi

A big part of our main feature looks at emteria.OS, a version of Android that runs directly on the Raspberry Pi. By running it on a touchscreen setup, you can use your Pi just like an Android tablet — one that’s easily customisable and hackable for all your embedded computing needs. Inside the issue, we’ve got a special emteria.OS discount code for readers.

We also look at Android Things, the official Android release for Raspberry Pi that focuses on IoT applications, and we show you some of the amazing projects that have been built with it.

More in The MagPi

If Android’s not your thing, we also have a big feature on building a Raspberry Pi weather station in issue 71!

Raspberry Pi The MagPi Magazine issue 71 - Android

Build your own Raspberry Pi weather station

On top of that, we’ve included guides on how to get started with TensorFlow AI and on building an oscilloscope.

Raspberry Pi The MagPi Magazine issue 71 - Android

We really loved this card scanning project! Read all about it in issue 71.

All this, along with our usual varied selection of project showcases, excellent tutorials, and definitive reviews!

Get The MagPi 71

You can get The MagPi 71 today from WHSmith, Tesco, Sainsbury’s, and Asda. If you live in the US, head over to your local Barnes & Noble or Micro Center in the next few days for a print copy. You can also get the new issue online from our store, or digitally via our Android or iOS apps. And don’t forget, there’s always the free PDF as well.

New subscription offer!

Want to support the Raspberry Pi Foundation and the magazine? We’ve launched a new way to subscribe to the print version of The MagPi: you can now take out a monthly £4 subscription to the magazine, effectively creating a rolling pre-order system that saves you money on each issue.

The MagPi subscription offer — Run Android on Raspberry Pi

You can also take out a twelve-month print subscription and get a Pi Zero W plus case and adapter cables absolutely free! This offer does not currently have an end date.

That’s it, folks! See you at Raspberry Fields.

The post MagPi 71: Run Android on Raspberry Pi appeared first on Raspberry Pi.

MagPi 70: Home automation with Raspberry Pi

Post Syndicated from Rob Zwetsloot original https://www.raspberrypi.org/blog/magpi-70-home-automation/

Hey folks, Rob here! It’s the last Thursday of the month, and that means it’s time for a brand-new The MagPi. Issue 70 is all about home automation using your favourite microcomputer, the Raspberry Pi.

Cover of The MagPi 70 — Raspberry Pi home automation and tech upcycling

Home automation in this month’s The MagPi!

Raspberry Pi home automation

We think home automation is an excellent use of the Raspberry Pi, hiding it around your house and letting it power your lights and doorbells and…fish tanks? We show you how to do all of that, and give you some excellent tips on how to add even more automation to your home in our ten-page cover feature.

Upcycle your life

Our other big feature this issue covers upcycling, the hot trend of taking old electronics and making them better than new with some custom code and a tactically placed Raspberry Pi. For this feature, we had a chat with Martin Mander, upcycler extraordinaire, to find out his top tips for hacking your old hardware.

Article on upcycling in The MagPi 70 — Raspberry Pi home automation and tech upcycling

Upcycling is a lot of fun

But wait, there’s more!

If for some reason you want even more content, you’re in luck! We have some fun tutorials for you to try, like creating a theremin and turning a Babbage into an IoT nanny cam. We also continue our quest to make a video game in C++. Our project showcase is headlined by the Teslonda on page 28, a Honda/Tesla car hybrid that is just wonderful.

Diddyborg V2 review in The MagPi 70 — Raspberry Pi home automation and tech upcycling

We review PiBorg’s latest robot

All this comes with our definitive reviews and the community section where we celebrate you, our amazing community! You’re all good beans

Teslonda article in The MagPi 70 — Raspberry Pi home automation and tech upcycling

An amazing, and practical, Raspberry Pi project

Get The MagPi 70

Issue 70 is available today from WHSmith, Tesco, Sainsbury’s, and Asda. If you live in the US, head over to your local Barnes & Noble or Micro Center in the next few days for a print copy. You can also get the new issue online from our store, or digitally via our Android and iOS apps. And don’t forget, there’s always the free PDF as well.

New subscription offer!

Want to support the Raspberry Pi Foundation and the magazine? We’ve launched a new way to subscribe to the print version of The MagPi: you can now take out a monthly £4 subscription to the magazine, effectively creating a rolling pre-order system that saves you money on each issue.

The MagPi subscription offer — Raspberry Pi home automation and tech upcycling

You can also take out a twelve-month print subscription and get a Pi Zero W plus case and adapter cables absolutely free! This offer does not currently have an end date.

That’s it for today! See you next month.

Animated GIF: a door slides open and Captain Picard emerges hesitantly

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Converting a Kodak Box Brownie into a digital camera

Post Syndicated from Rob Zwetsloot original https://www.raspberrypi.org/blog/kodak-brownie-camera/

In this article from The MagPi issue 69, David Crookes explains how Daniel Berrangé took an old Kodak Brownie from the 1950s and turned it into a quirky digital camera. Get your copy of The MagPi magazine in stores now, or download it as a free PDF here.

Daniel Berrangé Kodak Brownie Raspberry Pi Camera

The Kodak Box Brownie

When Kodak unveiled its Box Brownie in 1900, it did so with the slogan ‘You press the button, we do the rest.’ The words referred to the ease-of-use of what was the world’s first mass-produced camera. But it could equally apply to Daniel Berrangé’s philosophy when modifying it for the 21st century. “I wanted to use the Box Brownie’s shutter button to trigger image capture, and make it simple to use,” he tells us.

Daniel Berrangé Kodak Brownie Raspberry Pi Camera

Daniel’s project grew from a previous effort in which he placed a pinhole webcam inside a ladies’ powder compact case. “The Box Brownie project is essentially a repeat of that design but with a normal lens instead of a pinhole, a real camera case, and improved software to enable a shutter button. Ideally, it would look unchanged from when it was shooting film.”

Webcam woes

At first, Daniel looked for a cheap webcam, intending to spend no more than the price of a Pi Zero. This didn’t work out too well. “The low-light performance of the webcam was not sufficient to make a pinhole camera so I just decided to make a ‘normal’ digital camera instead,” he reveals.
To that end, he began removing some internal components from the Box Brownie. “With the original lens removed, the task was to position the webcam’s electronic light sensor (the CCD) and lens as close to the front of the camera as possible,” Daniel explains. “In the end, the CCD was about 15 mm away from the front aperture of the camera, giving a field of view that was approximately the same as the unmodified camera would achieve.”

Daniel Berrangé Kodak Brownie Raspberry Pi Camera
Daniel Berrangé Kodak Brownie Raspberry Pi Camera
Daniel Berrangé Kodak Brownie Raspberry Pi Camera

It was then time for him to insert the Raspberry Pi, upon which was a custom ‘init’ binary that loads a couple of kernel modules to run the webcam, mount the microSD file system, and launch the application binary. Here, Daniel found he was in luck. “I’d noticed that the size of a 620 film spool (63 mm) was effectively the same as the width of a Raspberry Pi Zero (65 mm), so it could be held in place between the film spool grips,” he recalls. “It was almost as if it was designed with this in mind.”

Shutter success

In order to operate the camera, Daniel had to work on the shutter button. “The Box Brownie’s shutter button is entirely mechanical, driven by a handful of levers and springs,” Daniel explains. “First, the Pi Zero needs to know when the shutter button is pressed and second, the physical shutter has to be open while the webcam is capturing the image. Rather than try to synchronise image capture with the fraction of a second that the physical shutter is open, a bit of electrical tape was used on the shutter mechanism to keep it permanently open.”

Daniel Berrangé Kodak Brownie Raspberry Pi Camera

Daniel made use of the Pi Zero’s GPIO pins to detect the pressing of the shutter button. It determines if each pin is at 0 or 5 volts. “My thought was that I could set a GPIO pin high to 5 V, and then use the action of the shutter button to short it to ground, and detect this change in level from software.”

This initially involved using a pair of bare wires and some conductive paint, although the paint was later replaced by a piece of tinfoil. But with the button pressed, the GPIO pin level goes to zero and the device constantly captures still images until the button is released. All that’s left to do is smile and take the perfect snap.

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MagPi 69: affordable 3D printing with a Raspberry Pi

Post Syndicated from Rob Zwetsloot original https://www.raspberrypi.org/blog/magpi-69/

Hi folks, Rob from The MagPi here with the good news that The MagPi 69 is out now! Nice. Our latest issue is all about 3D printing and how you can get yourself a very affordable 3D printer that you can control with a Raspberry Pi.

Raspberry Pi MagPi 69 3D-printing

Get 3D printing from just £99!

Pi-powered 3D printing

Affordability is always a big factor when it comes to 3D printers. Like any new cosumer tech, their prices are often in the thousands of pounds. Over the last decade, however, these prices have been dropping steadily. Now you can get budget 3D printers for hundreds rather than thousands – and even for £99, like the iMakr. Pairing an iMakr with a Raspberry Pi makes for a reasonably priced 3D printing solution. In issue 69, we show you how to do just that!

Portable Raspberry Pis

Looking for a way to make your Raspberry Pi portable? One of our themes this issue is portable Pis, with a feature on how to build your very own Raspberry Pi TV stick, coincidentally with a 3D-printed case. We also review the Noodle Pi kit and the RasPad, two products that can help you take your Pi out and about away from a power socket.


And of course we have a selection of other great guides, project showcases, reviews, and community news.

Get The MagPi 69

Issue 69 is available today from WHSmith, Tesco, Sainsbury’s, and Asda. If you live in the US, head over to your local Barnes & Noble or Micro Center in the next few days for a print copy. You can also get the new issue online from our store, or digitally via our Android and iOS apps. And don’t forget, there’s always the free PDF as well.

New subscription offer!

Want to support the Raspberry Pi Foundation and the magazine? We’ve launched a new way to subscribe to the print version of The MagPi: you can now take out a monthly £4 subscription to the magazine, effectively creating a rolling pre-order system that saves you money on each issue.

Raspberry Pi MagPi 69 3D-printing

You can also take out a twelve-month print subscription and get a Pi Zero W, Pi Zero case, and adapter cables absolutely free! This offer does not currently have an end date.

We hope you enjoy this issue! See you next month.

The post MagPi 69: affordable 3D printing with a Raspberry Pi appeared first on Raspberry Pi.

AIY Projects 2: Google’s AIY Projects Kits get an upgrade

Post Syndicated from Alex Bate original https://www.raspberrypi.org/blog/google-aiy-projects-2/

After the outstanding success of their AIY Projects Voice and Vision Kits, Google has announced the release of upgraded kits, complete with Raspberry Pi Zero WH, Camera Module, and preloaded SD card.

Google AIY Projects Vision Kit 2 Raspberry Pi

Google’s AIY Projects Kits

Google launched the AIY Projects Voice Kit last year, first as a cover gift with The MagPi magazine and later as a standalone product.

Makers needed to provide their own Raspberry Pi for the original kit. The new kits include everything you need, from Pi to SD card.

Within a DIY cardboard box, makers were able to assemble their own voice-activated AI assistant akin to the Amazon Alexa, Apple’s Siri, and Google’s own Google Home Assistant. The Voice Kit was an instant hit that spurred no end of maker videos and tutorials, including our own free tutorial for controlling a robot using voice commands.

Later in the year, the team followed up the success of the Voice Kit with the AIY Projects Vision Kit — the same cardboard box hosting a camera perfect for some pretty nifty image recognition projects.

For more on the AIY Voice Kit, here’s our release video hosted by the rather delightful Rob Zwetsloot.

AIY Projects adds natural human interaction to your Raspberry Pi

Check out the exclusive Google AIY Projects Kit that comes free with The MagPi 57! Grab yourself a copy in stores or online now: http://magpi.cc/2pI6IiQ This first AIY Projects kit taps into the Google Assistant SDK and Cloud Speech API using the AIY Projects Voice HAT (Hardware Accessory on Top) board, stereo microphone, and speaker (included free with the magazine).

AIY Projects 2

So what’s new with version 2 of the AIY Projects Voice Kit? The kit now includes the recently released Raspberry Pi Zero WH, our Zero W with added pre-soldered header pins for instant digital making accessibility. Purchasers of the kits will also get a micro SD card with preloaded OS to help them get started without having to set the card up themselves.

Google AIY Projects Vision Kit 2 Raspberry Pi

Everything you need to build your own Raspberry Pi-powered Google voice assistant

In the newly upgraded AIY Projects Vision Kit v1.2, makers are also treated to an official Raspberry Pi Camera Module v2, the latest model of our add-on camera.

Google AIY Projects Vision Kit 2 Raspberry Pi

“Everything you need to get started is right there in the box,” explains Billy Rutledge, Google’s Director of AIY Projects. “We knew from our research that even though makers are interested in AI, many felt that adding it to their projects was too difficult or required expensive hardware.”

Google AIY Projects Vision Kit 2 Raspberry Pi
Google AIY Projects Vision Kit 2 Raspberry Pi
Google AIY Projects Vision Kit 2 Raspberry Pi

Google is also hard at work producing AIY Projects companion apps for Android, iOS, and Chrome. The Android app is available now to coincide with the launch of the upgraded kits, with the other two due for release soon. The app supports wireless setup of the AIY Kit, though avid coders will still be able to hack theirs to better suit their projects.

Google has also updated the AIY Projects website with an AIY Models section highlighting a range of neural network projects for the kits.

Get your kit

The updated Voice and Vision Kits were announced last night, and in the US they are available now from Target. UK-based makers should be able to get their hands on them this summer — keep an eye on our social channels for updates and links.

The post AIY Projects 2: Google’s AIY Projects Kits get an upgrade appeared first on Raspberry Pi.

Build a house in Minecraft using Python

Post Syndicated from Rob Zwetsloot original https://www.raspberrypi.org/blog/build-minecraft-house-using-python/

In this tutorial from The MagPi issue 68, Steve Martin takes us through the process of house-building in Minecraft Pi. Get your copy of The MagPi in stores now, or download it as a free PDF here.

Minecraft Pi is provided for free as part of the Raspbian operating system. To start your Minecraft: Pi Edition adventures, try our free tutorial Getting started with Minecraft.

Minecraft Raspberry Pi

Writing programs that create things in Minecraft is not only a great way to learn how to code, but it also means that you have a program that you can run again and again to make as many copies of your Minecraft design as you want. You never need to worry about your creation being destroyed by your brother or sister ever again — simply rerun your program and get it back! Whilst it might take a little longer to write the program than to build one house, once it’s finished you can build as many houses as you want.

Co-ordinates in Minecraft

Let’s start with a review of the coordinate system that Minecraft uses to know where to place blocks. If you are already familiar with this, you can skip to the next section. Otherwise, read on.

Minecraft Raspberry Pi Edition

Plan view of our house design

Minecraft shows us a three-dimensional (3D) view of the world. Imagine that the room you are in is the Minecraft world and you want to describe your location within that room. You can do so with three numbers, as follows:

  • How far across the room are you? As you move from side to side, you change this number. We can consider this value to be our X coordinate.
  • How high off the ground are you? If you are upstairs, or if you jump, this value increases. We can consider this value to be our Y coordinate.
  • How far into the room are you? As you walk forwards or backwards, you change this number. We can consider this value to be our Z coordinate.

You might have done graphs in school with X going across the page and Y going up the page. Coordinates in Minecraft are very similar, except that we have an extra value, Z, for our third dimension. Don’t worry if this still seems a little confusing: once we start to build our house, you will see how these three dimensions work in Minecraft.

Designing our house

It is a good idea to start with a rough design for our house. This will help us to work out the values for the coordinates when we are adding doors and windows to our house. You don’t have to plan every detail of your house right away. It is always fun to enhance it once you have got the basic design written. The image above shows the plan view of the house design that we will be creating in this tutorial. Note that because this is a plan view, it only shows the X and Z co-ordinates; we can’t see how high anything is. Hopefully, you can imagine the house extending up from the screen.

We will build our house close to where the Minecraft player is standing. This a good idea when creating something in Minecraft with Python, as it saves us from having to walk around the Minecraft world to try to find our creation.

Starting our program

Type in the code as you work through this tutorial. You can use any editor you like; we would suggest either Python 3 (IDLE) or Thonny Python IDE, both of which you can find on the Raspberry Pi menu under Programming. Start by selecting the File menu and creating a new file. Save the file with a name of your choice; it must end with .py so that the Raspberry Pi knows that it is a Python program.

It is important to enter the code exactly as it is shown in the listing. Pay particular attention to both the spelling and capitalisation (upper- or lower-case letters) used. You may find that when you run your program the first time, it doesn’t work. This is very common and just means there’s a small error somewhere. The error message will give you a clue about where the error is.

It is good practice to start all of your Python programs with the first line shown in our listing. All other lines that start with a # are comments. These are ignored by Python, but they are a good way to remind us what the program is doing.

The two lines starting with from tell Python about the Minecraft API; this is a code library that our program will be using to talk to Minecraft. The line starting mc = creates a connection between our Python program and the game. Then we get the player’s location broken down into three variables: x, y, and z.

Building the shell of our house

To help us build our house, we define three variables that specify its width, height, and depth. Defining these variables makes it easy for us to change the size of our house later; it also makes the code easier to understand when we are setting the co-ordinates of the Minecraft bricks. For now, we suggest that you use the same values that we have; you can go back and change them once the house is complete and you want to alter its design.

It’s now time to start placing some bricks. We create the shell of our house with just two lines of code! These lines of code each use the setBlocks command to create a complete block of bricks. This function takes the following arguments:

setBlocks(x1, y1, z1, x2, y2, z2, block-id, data)

x1, y1, and z1 are the coordinates of one corner of the block of bricks that we want to create; x1, y1, and z1 are the coordinates of the other corner. The block-id is the type of block that we want to use. Some blocks require another value called data; we will see this being used later, but you can ignore it for now.

We have to work out the values that we need to use in place of x1, y1, z1, x1, y1, z1 for our walls. Note that what we want is a larger outer block made of bricks and that is filled with a slightly smaller block of air blocks. Yes, in Minecraft even air is actually just another type of block.

Once you have typed in the two lines that create the shell of your house, you almost ready to run your program. Before doing so, you must have Minecraft running and displaying the contents of your world. Do not have a world loaded with things that you have created, as they may get destroyed by the house that we are building. Go to a clear area in the Minecraft world before running the program. When you run your program, check for any errors in the ‘console’ window and fix them, repeatedly running the code again until you’ve corrected all the errors.

You should see a block of bricks now, as shown above. You may have to turn the player around in the Minecraft world before you can see your house.

Adding the floor and door

Now, let’s make our house a bit more interesting! Add the lines for the floor and door. Note that the floor extends beyond the boundary of the wall of the house; can you see how we achieve this?

Hint: look closely at how we calculate the x and z attributes as compared to when we created the house shell above. Also note that we use a value of y-1 to create the floor below our feet.

Minecraft doors are two blocks high, so we have to create them in two parts. This is where we have to use the data argument. A value of 0 is used for the lower half of the door, and a value of 8 is used for the upper half (the part with the windows in it). These values will create an open door. If we add 4 to each of these values, a closed door will be created.

Before you run your program again, move to a new location in Minecraft to build the house away from the previous one. Then run it to check that the floor and door are created; you will need to fix any errors again. Even if your program runs without errors, check that the floor and door are positioned correctly. If they aren’t, then you will need to check the arguments so setBlock and setBlocks are exactly as shown in the listing.

Adding windows

Hopefully you will agree that your house is beginning to take shape! Now let’s add some windows. Looking at the plan for our house, we can see that there is a window on each side; see if you can follow along. Add the four lines of code, one for each window.

Now you can move to yet another location and run the program again; you should have a window on each side of the house. Our house is starting to look pretty good!

Adding a roof

The final stage is to add a roof to the house. To do this we are going to use wooden stairs. We will do this inside a loop so that if you change the width of your house, more layers are added to the roof. Enter the rest of the code. Be careful with the indentation: I recommend using spaces and avoiding the use of tabs. After the if statement, you need to indent the code even further. Each indentation level needs four spaces, so below the line with if on it, you will need eight spaces.

Since some of these code lines are lengthy and indented a lot, you may well find that the text wraps around as you reach the right-hand side of your editor window — don’t worry about this. You will have to be careful to get those indents right, however.

Now move somewhere new in your world and run the complete program. Iron out any last bugs, then admire your house! Does it look how you expect? Can you make it better?

Customising your house

Now you can start to customise your house. It is a good idea to use Save As in the menu to save a new version of your program. Then you can keep different designs, or refer back to your previous program if you get to a point where you don’t understand why your new one doesn’t work.

Consider these changes:

  • Change the size of your house. Are you able also to move the door and windows so they stay in proportion?
  • Change the materials used for the house. An ice house placed in an area of snow would look really cool!
  • Add a back door to your house. Or make the front door a double-width door!

We hope that you have enjoyed writing this program to build a house. Now you can easily add a house to your Minecraft world whenever you want to by simply running this program.

Get the complete code for this project here.

Continue your Minecraft journey

Minecraft Pi’s programmable interface is an ideal platform for learning Python. If you’d like to try more of our free tutorials, check out:

You may also enjoy Martin O’Hanlon’s and David Whale’s Adventures in Minecraft, and the Hacking and Making in Minecraft MagPi Essentials guide, which you can download for free or buy in print here.

The post Build a house in Minecraft using Python appeared first on Raspberry Pi.

Community profile: Dave Akerman

Post Syndicated from Alex Bate original https://www.raspberrypi.org/blog/community-profile-dave-akerman/

This column is from The MagPi issue 61. You can download a PDF of the full issue for free, or subscribe to receive the print edition through your letterbox or the digital edition on your tablet. All proceeds from the print and digital editions help the Raspberry Pi Foundation achieve our charitable goals.

The pinned tweet on Dave Akerman’s Twitter account shows a table displaying the various components needed for a high-altitude balloon (HAB) flight. Batteries, leads, a camera and Raspberry Pi, plus an unusually themed payload. The caption reads ‘The Queen, The Duke of York, and my TARDIS”, and sums up Dave’s maker career in a heartbeat.

David Akerman on Twitter

The Queen, The Duke of York, and my TARDIS 🙂 #UKHAS #RaspberryPi

Though writing software for industrial automation pays the bills, the majority of Dave’s time is spent in the world of high-altitude ballooning and the ever-growing community that encompasses it. And, while he makes some money sending business-themed balloons to near space for the likes of Aardman Animations, Confused.com, and the BBC, Dave is best known in the Raspberry Pi community for his use of the small computer in every payload, and his work as a tutor alongside the Foundation’s staff at Skycademy events.

Dave Akerman The MagPi Raspberry Pi Community Profile

Dave continues to help others while breaking records and having a good time exploring the atmosphere.

Dave has dedicated many hours and many, many more miles to assist with the Foundation’s Skycademy programme, helping to explore high-altitude ballooning with educators from across the UK. Using a Raspberry Pi and various other pieces of lightweight tech, Dave and Foundation staff member James Robinson explored the incorporation of high-altitude ballooning into education. Through Skycademy, educators were able to learn new skills and take them to the classroom, setting off their own balloons with their students, and recording the results on Raspberry Pis.

Dave Akerman The MagPi Raspberry Pi Community Profile

Dave’s most recent flight broke a new record. On 13 August 2017, his HAB payload was able to send back the highest images taken by any amateur flight.

But education isn’t the only reason for Dave’s involvement in the HAB community. As with anyone passionate about a specific hobby, Dave strives to break records. The most recent record-breaking flight took place on 13 August 2017, when Dave’s Raspberry Pi Zero HAB sent home the highest images taken by any amateur high-altitude balloon launch: at 43014 metres. No other HAB balloon has provided images from such an altitude, and the lightweight nature of the Pi Zero definitely helped, as Dave went on to mention on Twitter a few days later.

Dave Akerman The MagPi Raspberry Pi Community Profile

Dave is recognised as being the first person to incorporate a Raspberry Pi into a HAB payload, and continues to break records with the help of the little green board. More recently, he’s been able to lighten the load by using the Raspberry Pi Zero.

When the first Pi made its way to near space, Dave tore the computer apart in order to meet the weight restriction. The Pi in the Sky board was created to add the extra features needed for the flight. Since then, the HAT has experienced a few changes.

Dave Akerman The MagPi Raspberry Pi Community Profile

The Pi in the Sky board, created specifically for HAB flights.

Dave first fell in love with high-altitude ballooning after coming across the hobby in a video shared on a photographic forum. With a lifelong interest in space thanks to watching the Moon landings as a boy, plus a talent for electronics and photography, it seems a natural progression for him. Throw in his coding skills from learning to program on a Teletype and it’s no wonder he was ready and eager to take to the skies, so to speak, and capture the curvature of the Earth. What was so great about using the Raspberry Pi was the instant gratification he got from receiving images in real time as they were taken during the flight. While other devices could control a camera and store captured images for later retrieval, thanks to the Pi Dave was able to transmit the files back down to Earth and check the progress of his balloon while attempting to break records with a flight.

Dave Akerman The MagPi Raspberry Pi Community Profile Morph

One of the many commercial flights Dave has organised featured the classic children’s TV character Morph, a creation of the Aardman Animations studio known for Wallace and Gromit. Morph took to the sky twice in his mission to reach near space, and finally succeeded in 2016.

High-altitude ballooning isn’t the only part of Dave’s life that incorporates a Raspberry Pi. Having “lost count” of how many Pis he has running tasks, Dave has also created radio receivers for APRS (ham radio data), ADS-B (aircraft tracking), and OGN (gliders), along with a time-lapse camera in his garden, and he has a few more Pi for tinkering purposes.

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MagPi 68: an in-depth look at the new Raspberry Pi 3B+

Post Syndicated from Rob Zwetsloot original https://www.raspberrypi.org/blog/magpi-68/

Hi folks, Rob from The MagPi here! You may remember that a couple of weeks ago, the Raspberry Pi 3 Model B+ was released, the updated version of the Raspberry Pi 3 Model B. It’s better, faster, and stronger than the original and it’s also the main topic in The MagPi issue 68, out now!

Everything you need to know about the new Raspberry Pi 3B+

What goes into ‘plussing’ a Raspberry Pi? We talked to Eben Upton and Roger Thornton about the work that went into making the Raspberry Pi 3B+, and we also have all the benchmarks to show you just how much the new Pi 3B+ has been improved.

Super fighting robots

Did you know that the next Pi Wars is soon? The 2018 Raspberry Pi robotics competition is taking place later in April, and we’ve got a full feature on what to expect, as well as top tips on how to make your own kick-punching robot for the next round.

More to read

Still want more after all that? Well, we have our usual excellent selection of outstanding project showcases, reviews, and tutorials to keep you entertained.

See pictures from Raspberry Pi’s sixth birthday, celebrated around the world!

This includes amazing projects like a custom Pi-powered, Switch-esque retro games console, a Minecraft Pi hack that creates a house at the touch of a button, and the Matrix Voice.

With a Pi and a 3D printer, you can make something as cool as this!

Get The MagPi 68

Issue 68 is available today from WHSmith, Tesco, Sainsbury’s, and Asda. If you live in the US, head over to your local Barnes & Noble or Micro Center in the next few days for a print copy. You can also get the new issue online from our store, or digitally via our Android and iOS apps. And don’t forget, there’s always the free PDF as well.

New subscription offer!

Want to support the Raspberry Pi Foundation and the magazine? We’ve launched a new way to subscribe to the print version of The MagPi: you can now take out a monthly £4 subscription to the magazine, effectively creating a rolling pre-order system that saves you money on each issue.

You can also take out a twelve-month print subscription and get a Pi Zero W, Pi Zero case, and adapter cables absolutely free! This offer does not currently have an end date.

That’s it for now. See you next month!

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