Sonic Pi: Live & Coding Summer School with the #RaspberryPi

This Summer School sounds brilliant. From Monday 28th July to Friday 1st August, Cambridge Junction will be running an event for kids aged between 10 and 14 that will get them into coding using the Raspberry Pi with Sonic Pi. At £25 for 5 days from 10am to 4pm, this is stunningly good value and features the following:

  • Led by artists Juneau Projects and supported by Sonic Pi Live developer Dr Sam Aaron.
  • Learn how to code using a Raspberry Pi Computer
  • Write your own digital music using Sonic Pi Live software
  • Build your own electronic instrument
  • Perform Live at Cambridge Junction
  • Work with professional live coders, musicians and artists

The ticket price includes drinks, an artist journal, a Live Coder badge and use of all the equipment.

Advance booking is essential and participants must attend all 5 days.

Please visit this page for more details and to make a booking.

Wayland still a way off for the #RaspberryPi, but getting there!

Russell Barnes over at Raspi.today has conducted an interview with Daniel Stone, graphics lead at Collabora, about current progress on the X-windows replacement system, Wayland. There’s some technical detail in here and it’s a fascinating insight into the development process of what will be one of the biggest leaps forward in Raspberry Pi performance. Read it here. Don’t forget to listen to Russell’s podcasts!

Apollo mission capsule uses #RaspberryPi for creative play


Jeff Highsmith, who created a Mission Control Desk for his kids earlier this year, has now unveiled his latest creation. It’s a command capsule that mimics the Apollo moon missions! Made out of wood, it has 38 switches of various types and 291 LEDs inside. An Arduino is used for inputs and outputs for the main instrument panel and a Raspberry Pi performs logic calculations and produces various sounds. Programming inside the Pi triggers simulations of both the Apollo 12 lightning strike and the Apollo 13 cryo tank disaster and there is even an iPhone dock for playing back mission videos. There’s also a mechanised payload bay door (with a camera and screen so you can see what’s going on as your payload bay is exposed to ‘space’). The whole thing is, of course, not practical (it doesn’t fly in space, obviously) but Jeff as designed the two pieces to be used as props for creative play. From the video you can tell his sons get a real kick out of using it! Read more here

Edimax EW-7811Un wifi dongle – review

EBuyer sent me one of these for free to review. There were no conditions attached, leaving me free to give (as always) an honest opinion of the product.

121721-220220-800

This Edimax wifi dongle is tiny. In fact, the packaging maintains that it’s the “World’s Smallest!” I don’t know about that, but it certainly is small. It runs at 150Mbps and is a 802.11 dongle that will run on class b, g and n networks. It is compatible with all modern wifi routers and you shouldn’t have any problems connecting it to your home or work network.

Inside the packaging is the dongle itself, a small manual and a mini CD containing drivers for XP, Vista and Windows 7.

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Drivers for Windows 8 need to be downloaded. This could be tricky if you don’t have internet access, but we’ll let that one pass as what we’re really interested in is if it works with the Raspberry Pi.

First of all, in order to use this dongle (like 99% of the other dongles available), you either need to switch your Pi off before you plug it in or plug the dongle into a powered USB hub. Plugging it in whilst your Pi is running will cause it to reboot and potentially corrupt your SD card. Please take my word for it!

Having plugged the dongle in, I used lsusb to ensure that the dongle has been detected correctly (which it had) and it read:

Edimax Technology Co., Ltd EW-7811Un 802.11n Wireless Adapter [Realtek RTL8188CUS]

and then used usb-devices to check it’s power consumption.

T: Bus=01 Lev=02 Prnt=02 Port=01 Cnt=02 Dev#= 4 Spd=480 MxCh= 0
D: Ver= 2.00 Cls=00(>ifc ) Sub=00 Prot=00 MxPS=64 #Cfgs= 1
P: Vendor=7392 ProdID=7811 Rev=02.00
S: Manufacturer=Realtek
S: Product=802.11n WLAN Adapter
S: SerialNumber=00e04c000001
C: #Ifs= 1 Cfg#= 1 Atr=80 MxPwr=500mA
I: If#= 0 Alt= 0 #EPs= 4 Cls=ff(vend.) Sub=ff Prot=ff Driver=rtl8192cu

 

As expected, the dongle will use a maximum of 500mA. I have seen a dongle that reserves less power than this, and I’m surprised (given the green credentials proudly displayed on the box) that they couldn’t have operated at a lower reserved current. Having said that, most wifi dongles reserve 500mA so it wasn’t unexpected. Apparently the actual power usage is closer to 70mA, which is very acceptable.

I booted the Pi into X windows and used the Wifi Config utility program to connect to my home network. There were no problems – the connection was made quickly and without any fuss. I used the dongle for about 2 hours without any problems during 2 separate sessions on an ‘n’ network without any problems whatsoever. The connection automatically picked up upon multiple reboots. I was able to get a good distance away from the wifi router with several walls in between. In fact, signal strength results were very similar to those from my work laptop which has a very good wifi card in it.

There’s not much more I can say. It does the job very nicely and, with its gold colour, looks good (if that makes any difference). The very small footprint makes it ideal for general Raspberry Pi use and for specialist applications such as robotics.

Overall rating: 9/10 (it loses a point for the rebooting behaviour).

You can buy the Edimax dongle from eBuyer for £7.49 currently (1st July 2014).

ebuyer

 

New telemetry board for high altitude ballooning with the #RaspberryPi

Launching today for pre-orders is Pi in the Sky, a new GPIO plugin board specifically designed for high-altitude ballooning. With Dave Akerman behind the board and the software, this is something to get excited about. Retailing for £100+VAT, the board has the following features:

  • Efficient built-in power regulator providing run time of over 20 hours from 4 AA cells
  • Highly sensitive UBlox GPS receiver approved for altitudes up to 50km
  • Temperature compensated, frequency agile, 434MHz radio transmitter
  • Temperature sensor
  • Battery voltage monitoring
  • Sockets for external i2c devices, analog input, external temperature sensor
  • Allows use of Raspbery Pi camera
  • Mounting holes and spacers for a solid connection to the Pi

A whole open-source software suite is also available from GitHub with the following features:

  • Radio telemetry with GPS and sensor data using UKHAS standard
  • Radio image download using SSDV standard
  • Multi-threaded to maximize use of the radio bandwidth
  • Variable image size according to altitude
  • Stores full-definition images as well as smaller transmitted images
  • Automatically chooses better images for download
  • Configurable via text file in the Windows-visible partition of the SD card
  • Supplied as github repository with instructions, or SD card image

According to Dave’s blog, he is conducting test flights on 4th July and a Pi in the Sky launch on the 5th.

You can read more and pre-order your board from their website.