Archivo de la etiqueta: communication

The Federal Communications Commission (FCC) has said it will vote in November on whether to allow U.S. GPS receivers to access the Galileo global navigation satellite system (GNSS).

From an Amateur Radio perspective the key part is that the FCC will only be voting to waive its licensing requirements for non-federal operations with Galileo channels E1 and E5, subject to certain technical constraints.

This means they will not be voting on the E6 channel 1260-1300 MHz, these frequencies are also Amateur and Amateur-Satellite Service allocations. This suggests for 1260-1300 MHz the situation in the USA will be unchanged, the unlicensed use of the Galileo signal on channel E6 will not be permitted for non-Federal operations in the USA.

Read the Reuters story which also says Ajit Pai is proposing the first comprehensive review of the FCC’s orbital debris rules since their adoption in 2004
https://www.reuters.com/article/us-usa-fcc-gps-europe/fcc-to-vote-to-allow-u-s-devices-to-use-european-navigation-system-idUSKCN1MY2X6

2006 article – Galileo and amateur radio operations in 1260-1300 MHz
http://www.southgatearc.org/articles/galileo.htm

Students programming the Astro Pi computers Credit: UK Space Agency (Max Alexander)

Radio amateur Dave Honess M6DNT is interviewed in the popular Raspberry Pi magazine MagPi about “Taking Education to the Stars”.

The article, on pages 84/85 of issue 75 November 2018 MagPi, covers the educational role of the two Astro Pi units on the International Space Station.

Dave mentions Tim Peake KG5BVI / GB1SS and the work of ARISS – Amateur Radio on the International Space Station, saying:

“Radio remains the only way to communicate with all our spacecraft throughout the solar system, and organisations like ARISS and local HAM radio clubs are, in my opinion, becoming more and more necessary to attract new talent.”

Download the Free PDF of MagPi magazine from
https://www.raspberrypi.org/magpi-issues/MagPi75.pdf

David Honess M6DNT with both ISS Astro Pi computers

In 2017 Dave Honess M6DNT and Tim Peake KG5BVI / GB1SS were inducted into the prestigious CQ Amateur Radio Hall of Fame for their educational work in the ISS Astro Pi program and ARISS, Dave said:
“I was really surprised when I heard I’d been inducted into the Hall of Fame, especially alongside Tim! Thank you to CQ magazine for the honour.”
https://amsat-uk.org/2017/05/19/cq-mag-honors-astro-pi-britons/

Since March 2018 Dave Honess M6DNT has been working at ESA ESTEC (European Space Research and Technology Centre) in the Netherlands where he is ISS and International Education Operations Coordinator
https://twitter.com/dave_spice

ARISS http://www.ariss.org/contact-the-iss.html

Happy ESEO students and AMSAT-UK members

ESA reports the European Student Earth Orbiter (ESEO) has concluded its test campaign. The ESEO student teams gathered in the Netherlands, October 18, 2018 for a last precious lesson before the satellite is launched

ESEO satellite in the anechoic chamber at the ESTEC test facilities, in the Netherlands

ESEO carries an amateur radio 1260 to 145 MHz FM transponder and a 1k2 and 4k8 BPSK telemetry beacon developed by AMSAT-UK members.

The satellite has been at ESA’s ESTEC test facilities, in the Netherlands, where it completed the last steps of a thorough satellite test campaign which had started in August 2018 at SITAEL’s facility in Mola di Bari, Italy.

Learning by doing has already proven an amazing experience for the ten university student teams from different European universities who have designed and built the instruments and several key subsystems of the ESEO satellite.

On October 18, at a dedicated workshop, the ESEO students had the additional chance to hear first-hand what it takes to run a satellite test campaign – trouble shooting included!

“In the space sector no satellite could ever be launched without a thorough tests campaign”, said Piero Galeone, coordinating the ESA Academy programme of which ESEO is a part. “The reason is that – as perfect as your satellite design and manufacturing process can be – the devil always hides in the details. If there is anything to be fixed, you want to know it and correct it before the satellite flies on its orbit hundreds kilometres from the surface of the Earth, beyond the reach of any engineer’s hands”.

Read the full ESA story at
http://www.esa.int/Education/ESEO/Learning_from_real-life_experience_-_ESEO_s_educational_story_continues

SSDV image of Moon and Earth taken by LO-94 (DSLWP-B) – Credit Cees Bassa

Daniel Estévez EA4GPZ / M0HXM reports decoding a JT4G amateur radio signal from the LO-94 (DSLWP-B) spacecraft that was reflected off the Moon.

Daniel says “JT4G is a digital mode designed for Earth-Moon-Earth microwave communications, so it is tolerant to high Doppler spreads. However, the reflections of the [DSLWP-B] B0 transmitter at 435.4 MHz, which contained the JT4G transmissions, were very weak, so I had not attempted to decode the JT4G Moonbounce signal.”

However, by analysing a recording made on October 19, 2018 at 17:53:35 GMT he was able to decode one of the five JT4G transmissions in the recording.

Read his blog post at https://destevez.net/2018/10/dslwp-b-jt4g-decoded-via-moonbounce/

Also see Geometry for DSLWP-B Moonbounce
https://destevez.net/2018/10/geometry-for-dslwp-b-moonbounce/

The DSLWP amateur radio satellites built by students from the Harbin Institute of Technology was launched to Lunar orbit on May 20, 2018
https://amsat-uk.org/2018/05/19/dslwp-satellites-lunar-orbit/