11 PocketQube Payload/Mission Ideas

PocketQubes are quickly opening up a new area for the utalization and commercialization of space. Here at just a few ideas on how you can use the PocketQube platform:

Optics

Most people question whether optical payloads make sense on a satellite as small as a PocketQube. We have researched it and it appears sub 10m GSD is possible within a 3p platform such as Unicorn-2. This is comparable to Sentinel Optics and much better than Landsat. We believe there are going to be a lot of optical PocketQubes in the future.

optics pq.png

ADS-B (Plane Tracking)

There are now commercially available PocketQube ADS-B payloads from Skyfox Labs. Our own Unicorn-1 was to take an ADS-B payload, including a high gain stubbed helix antenna. Paul the creator of WREN is also working on an ADS-B satellite, it seems it wont be too long before there are PocketQube ADS-B sats flying.

Picture from Skyfox Labs

Picture from Skyfox Labs

AIS (Ship Tracking)

AIS is more tricky than ADS-B because the wavelength is much longer at 162 Mhz (vs 1090Mhz for ADSB). This requires a bigger antenna which is difficult within a PocketQube form factor, however it’s not impossible and we believe there are ways to do it.

Science Payload

Science is the drive of big missions. Great things have been achieved. There have be a few PocketQube science missions proposed and flown. TLogoQube had a CZT array to measure X-ray’s in space, something which would be tricky to do on the ground. Large constellations of science PocketQubes could open up new avenues for scientists and create datasets of Earth which are currently not available.

UoMBSat-1, Science PocketQube

UoMBSat-1, Science PocketQube

IOD/IOV

In Orbit Demonstration or In Orbit Validation, flying new tech or designs in space for the first time is by far the most popular mission type we see in the near term for PocketQubes. Semiconductors, propulsion, solar cells tech etc are all ongoing mission proposals and we see many more ideas everyday.

Unicorn-1 IOD/IOV platform, credit Alba Orbital

Unicorn-1 IOD/IOV platform, credit Alba Orbital

IOT/Comms

The Internet of Things is a big growth area of the small satellite industry. 10’s of lions of devices are coming online and need to be connected somehow. While bigger satellites like 12U cubesat can get large throughput, a swarm of PocketQubes can offer better updates by reducing latency more time-critical applications.

Cryptocurrency

The recent success of Bitcoin and Etherium has led to many Alt Coins coming to market. Many of these are looking to space as a way to reach the 7.5 billion people on Earth. For a currency to be successful it need to be universally accessible and it is tricky for governments to block.

Unicorn-2, Alba Orbital

Unicorn-2, Alba Orbital

Hyperspectral

It’s not just the optical part of the spectrum which can be utilised from space. With a 3p such as Unicorn-2, Hyperspectral PocketQube missions are starting to become viable. The main issue with these missions are the high data rates required to get all the payload data off the spacecraft. It will be sometime before this is available.

Spectrum Monitoring

Monitoring the earth’s RF spectrum usage using PocketQubes isnt just an idea, the SMOG-1 have already built. Fitting in only a 1p, the tiny spectrum analyzer can measure from around 500 Mhz to 1 Ghz, helping find underused spectrum. This is a hot area of PocketQube research.

SMOG-1, Credit BME

SMOG-1, Credit BME

Weather/GNSS-R

Now this idea is definitely hard. Using a PocketQube for GNSS-R is very difficult, but may be possible. Deploying a high gain array may close the link of the GNSS signals reflected of the Earth, if done in a 3p. This has potential use cases for Weather, more readings aiding models and forecasts.

 

If you have any more ideas, for missions and you would like to discuss their viability on a PocketQube, drop us an email contact@pocketqubeshop.com

Meet the PocketQube team: SunewnewSat

August 15 2014

We have been talking to the some of the teams on the front line of the PocketQube revolution. This blog features Montaser Sallam of the SunewnewSat team, a 1p PocketQube project from Jordan in Middle East. SunewnewSat is currently in the design phase and will hopefully get a launch in the not too distant future. The satellite will carry an array of small sensors.

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How did you hear about PocketQube?

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After seeing Planetary Resources’ ARKYD kickstarter campaign, I got really excited and started looking for other space related projects, that’s when I found out about the awesome Wren PocketQube and eventually the PocketQube standard.

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Tell us a bit about your PocketQube Project

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SunewnewSat is the first Jordanian satellite project, it serves as an educational platform for me as a student and other university or high school students in the future. I am planning to keep things as simple as possible. Naturally, my primary focus will be on the radio and the EPS. A number of sensor readings will be downlinked to earth through different protocols. A simple satellite identification system will also be explored. 

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Why choose a PocketQube form factor?

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A satellite that fits in your pocket!? Where do I sign up?

I think that is the coolest fact about PocketQubes.

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Where did the idea come from, what is the objective?

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I have an interest in spacecraft avionics and I wanted some advice on that subject so I sent a message to one of Planetary Resources’ engineers asking for advice, his advice to me was to start a Cubesat program in my university. Unfortunately, due to some issues, that was not possible. I didn’t give up, so I tried my luck with the local amateur radio society and they were supportive, needless to say, SunewnewSat was born.

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What do you do outside building your PocketQube?

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I am an electronics engineering undergraduate at Yarmouk University, IEEE Vice Chairman of YU student branch, a guitarist and a black belt holder in Shotokan Karate. I am also working towards getting an amateur radio operator license.

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What does the future hold?

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The learning curve is very steep, so whatever the future holds, an amazing experience is ahead of us. 

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What are your top tips for budding PocketQube builder?

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Don’t unplug the soldering iron and you will be fine.

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What is your definition of success?

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A functional engineering model that have passed all the required tests. SunewnewSat in orbit, not as space debris though.

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Got PocketQube ideas? Start your project todayIf you found this interview interesting please consider sharing it :) Building a PocketQube, want to be featured on this blog? Get in touchYou can keep up to date with the SunewnewSat project via their website, https://www.facebook.com/pages/SunewnewSat/679922652088229?fref=ts

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