May 7 2012

ARTSAT release App for iPhone or iPod Touch

ARTSAT PROJECT-1: INVADER is an amateur radio “Art Satellite” currently being developed as a part of the “ARTSAT: Art and Satellite Project” which aims at a practical use of a satellite for art and design. Invader is a 1U CubeSat being developed by students at Tama Art University.

ARTSAT have just released their App for the iPhone or iPod Touch (iOS 5 or greater).

You can install it by entering your email address or in the USA your phone number at
https://apps.facebook.com/fanpagemobilizer/install?app_id=990569E751E34CCF898C9352FAC2F92F

ARTSAT on Facebook https://www.facebook.com/artsat

Invader CubeSat – A Student Art Satellite http://www.uk.amsat.org/?p=6449

May 7 2012

IARU agrees 437.525 MHz for ITF-1

Ayano Okamura ITF-1 Project Manager

The Cubesat “Image The Future” ITF-1 build by students at the University of Tsukuba has had the frequency of 437.525 MHz coordinated by the IARU Amateur Satellite Frequency Cooordination panel.

IFT-1 recently underwent thermal vacuum testing.

It is planned to be launched on a H-IIA rocket in the fiscal year 2013. The orbit will be 400 by 350km with an inclination of 65 degrees.

The formal name ITF-1 comes from the initial letter of the university slogan “Imagine The Future”.  The satellite also has a popular name YUI which means “bond” in Japanese, it came from the project’s concept‚ “Creating the Worldwide Human Community”.

The UTF-1 Project Manager is Ayano Okamura and you can read her blog at http://tinyurl.com/ITF-1-ProjectManagerBlog

The Chief Tech blog by Asai Eisuke is at http://tinyurl.com/ITF-1-TechBlog

ITF-1 (YUI) on the IARU Amateur Satellite Frequency Coordination pages http://www.amsatuk.me.uk/iaru/formal_detail.php?serialnum=226

 

May 6 2012

CubeBug-1 Updated: 02 May 2012

Supporting Organisation Ministry of Science, Technology & Productive Innovation
Contact Person norberto.wente.dk.nospam

 
Headline Details: CubeBug-1 is the first technology demonstration mission for a new cubesat platform design (mechanics, hardware and software) intended to be released as Open Source and Open Hardware for its use in Amateur projects, University projects and research labs. This projectis sponsored by the Argentinian Ministry of Science, Technology and Productive Innovation. As payload on this first mission, some custom designed components will be tested: an ARM based on-board computer, a nano-reaction wheel with its driver circuit and a low resolution camera, all based on COTS components. Planning to use half duplex communications on UHF with 9k6 GMSK data. CubeBug-1 is a 2U cubesat and isexpected to be launched as part of a group of cubesats in a DNEPR rocket launch planned for September 2012 from Yasny into a 607km 98 degree polar orbit. After the technology demonstration part of the mission is over, the satellite will enter a mode that will include services to the Amateur radio community, including a Digipeater, science data downloads from the payload (including images if possible), etc.
Application Date: 01 May 2012 Freq coordination completed on

 

The IARU Amateur Satellite Frequency Coordination Status pages are hosted by AMSAT-UK as a service to the world wide Amateur Satellite Community

 

May 6 2012

OSSI CubeSat – Ground Station Video

Hojun Song with Hannes Gassert wearing OSSI GS Backpack

Hojun Song with Hannes Gassert wearing OSSI Ground Station Backpack and holding a Yagi antenna

Korean artist Hojun Song DS1SBO has made available videos showing the construction of his satellite OSSI.

In addition to radio communications (145 MHz uplink, 435 MHz downlink) OSSI is fitted with LED’s that can flash in Morse Code and is also flying Super-Capacitors.

The backpack ground station that he’s developed features a novel fold up antenna.

OSSI will take off on a Soyuz rocket from Baikonour in Kazakhstan this August.

Watch Setting up the OSSI Satellite Ground Station

 The OSSI ground station has been delivered to etoy. etoy is art and invests all resources in the production of more art, see http://www.etoy.com/

OSSI carries LED’s that can signal in Morse Code

Watch Building the Onboard Computer (OBC)

OSSI Art CubeSat to Launch in August http://www.uk.amsat.org/6993

Funds have been raised by selling T-shirts

May 6 2012

Glasgow school wins CanSat launch competition

The UK’s Alpha team from Bearsden Academy in Glasgow were awarded first place in the second European CanSat Competition. 14 secondary school teams, from different ESA member states, participated in the finals of the competition at the Andøya Rocket Range in Norway.

The first prize was awarded to team Alpha, from the UK. Credits: ESA / J Makinen. (JPG, 61 Kb) CanSats are miniature simulation satellites the size of a soda can. The students had to build their own space experiments, fitting all the major subsystems including radio communications on 433/434 MHz and power into just 350ml.

The tiny CanSats were designed to separate from their rocket and conduct their missions as they descended on parachutes to the ground for recovery by the teams. They were launched in pairs from seven small Intruder rockets up to an altitude of about 1km.

Setting up an Intruder rocket for launch. Credits: ESA / J Makinen. (JPG, 68 Kb) Despite very strong winds, all of the CanSats were successfully recovered, with the exception of the Spanish one, which failed to communicate with the ground station.

The UK team received good telemetry data on 434.25 MHz, but were a little disappointed that their miniature rover deployed earlier than planned. The other teams, from Denmark, Belgium, the Netherlands, France, Spain, Austria, Czech Republic, Norway, Romania, Italian, Irish, Greek, Portugese had varying degrees of success.

Once they analysed the results of their missions, the teams were judged by a board composed of technical experts from space agencies and industry. Following the UK team in second place was the Icaromenippus 3D team from the 3rd General Lyceum of Mytilini, Strati Myrivili, Greece, with the Portuguese Azorean Shearwater team from EBS Santa Maria, Vila do Porto in the Azores in third place.

“The standard of the projects was really high and the judges were very impressed by the professional attitude of the students,” said Helen Page, the ESA CanSat Project Coordinator. “They learned an enormous amount about space science, engineering and technology, as well as developing practical skills and experiencing the excitement of a launch campaign at a world-class rocket range.”

Students from the Norwegian team Navican testing their CanSat's parachute. Credits: ESA / J Makinen. (JPG, 72 Kb) The 2012 European CanSat competition was organised by ESA’s Education Office in collaboration with the Norwegian Centre for Space-related Education (NAROM). For more details about the teams involved visit the ESA website.

The Scottish CanSat Competition was organised using the STEM Ambassador Network, a list of the Scottish schools involved and 70cm frequencies is at
http://www.fistraltraining.co.uk/index.php?option=com_content&view=article&id=126&Itemid=75

Scottish CanSat Facebook http://www.facebook.com/pages/Scottish-Cansat-Competition/136524309785701

CanSat website http://cansat.eu/

May 5 2012

Atlas V Launches AEHF-2 Satellite For Classified U.S. Messages

A United Launch Alliance Atlas V carries a U.S. Air Force/ Lockheed Martin AEHF spacecraft to orbit. The AEHF-2 satellite will carry the most highly-classified U. S. satcom traffic. This flight marks the 30th successful Atlas V mission; the launch vehicle has a 100 percent success record. Photo Credit: Alan Walters/awaltersphoto.com

 

The second U.S. Air Force Advanced Extreme High Frequency (AEHF) communications spacecraft was successfully launched into a super synchronous transfer orbit May 4 atop a United Launch Alliance (ULA) Atlas V 531 rocket.

Liftoff of the 197 ft. tall 2.7 million lb. thrust vehicle from Launch Complex 41 at Cape Canaveral Air Force Station occurred at 2:42 p.m. EDT.

“The 13,600 lb. satellite cost $1.7 billion”,  said USAF Capt. John Francis, the AEHF project lead in charge of Operations and Sustainment. This makes it one of the most expensive military spacecraft ever launched from Cape Canaveral. The first AEHF spacecraft launched in August 2010 also cost $1.7 billion.

“The AEHF satellite series is the most sophisticated military communications system ever built and it will be a integral part of our national space security architecture,” said Steve Tatum, Lockheed-Martin’s Communications Director.

Three Aerojet solid rocket boosters along with the Russian-built RD-180 engine send out a massive plume of fury as the Atlas V 531 roars into Florida’s blue sky. Photo Credit: Jeffrey J. Soulliere

 

“We’re extremely pleased and excited with today’s launch,” said USAF Capt. Francis. “We have a big AEHF-2 team and it all culminated today,” he said.  It’s kind of like the Super Bowl – and we just scored the winning touchdown.”

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