Student and amateur CubeSat news roundup – Feb.12.2021

A sampling of recent articles, press releases, etc. related to student and amateur CubeSat / SmallSat projects and programs (find previous smallsat roundups here):

** Swiss student team aims to launch two CubeSats by 2023 for atmospheric research. The Spacecraft Team at EPFL (École Polytechnique Fédérale de Lausanne) will lead the CHESS project: EPFL moves boldly into space with its CHESS satellites – EPFL

Designing a satellite and launching it into space is no run-of-the-mill project. Rather, it’s one that forever marks the early careers of the students who take part – just ask the EPFL students who designed the SwissCube, a 1U CubeSat (a small standardized unit measuring 10 cm x 10 cm) launched in 2009. Today, a new group of students, the EPFL Spacecraft Team, is taking on a new challenge. With the support of the EPFL Space Center (eSpace), they are developing a constellation of two satellites, called CHESS, that will be launched in two years. The team is currently seeking additional members and sponsors.

This ambitious project has already signed on six universities, three companies, 15 professors and 53 students.* The two satellites will work in concert; each one will be a 3U CubeSat bearing primary and secondary payloads. They will orbit at different altitudes – one will travel in a circular orbit at the low altitude of around 550 km, and the other will travel in an elliptic orbit at an altitude oscillating between 400 km and 1,000 km. The constellation will be launched in March 2023 and remain in flight for at least two years.

This project will give the students who participate each year a chance to learn about complicated space technology and gain experience working on a cross-disciplinary team. “It’s a way to learn the real-world skills required in our industry, like team management, coordination, communication and fundraising,” says Emmanuelle David, the deputy director of eSpace. “These are skills you can’t learn only from a book. And they will let the students become operational as soon as they start their first job or when and if they decide to start their own business.”

New technologies will be tested thanks to the CHESS mission. Credits: EPFL

** Brigham Young University “Spacecraft Selfie Cam” CubeSat makes orbit on Virgin Orbit’s first successful LauncherOne mission: BYU’s ‘Spacecraft Selfie Cams’ reach space, history-making cube-satellites deployed – ABC4.com

The science team at Brigham Young University (BYU) is finally where no Cougar has gone before, with a camera.

“Spacecraft Selfie Cam” is the nickname of BYU’s tiny cube satellites, “CubeSats” for short.

The school’s science team has made history with the tiny 6-inch space probes. For the first time, satellites designed in Provo have been successfully deployed in space.

About 60 students worked on the NASA funded project over a five year span:

BYU is part of a NASA project where the directive is, “The PICs mission will demonstrate low-risk, low-cost, spacecraft inspection by a passive, fly-away probe.”

What does it mean? The satellites are designed to take pictures of other satellites, and that’s how they got the name “Spacecraft Selfie Cam” If you watch science fiction movies, you have seen the probes portrayed hundreds of times in many ways. Essentially the probes fly out into space from the spacecraft and inspect for damage. Only BYU’s little probes are real.

Passive Inspection CubeSat (PICS) at Brigham Young Univ. Credits: BYU Spacecraft Group

See also:

** SriShakthiSat, built by students at Coimbatore College in India, set to launch on PSLV rocket on Feb.28th. A ground station on campus was inaugurated during a visit by ISRO Chairman K. Sivan.

** Cape-3 CubeSat built by students at Univ. of Louisiana at Lafayette successfully communicates with ground station after reaching orbit via Virgin Orbit LaunchOne mission: Students’ CAPE-3 satellite collecting data for NASA as it orbits Earth | University of Louisiana at Lafayette

At about four inches across each side, the “CubeSat” is small. And fast. It circles the globe every 90 minutes at 17,000 miles per hour. Radiation levels collected along the way via a small Geiger counter and a small plastic chip embedded inside will help inform NASA efforts to develop small, chip-based radiation detectors.

“The detectors would provide liquid crystal display readings so astronauts could constantly monitor how much radiation they’re being exposed to,” explained UL Lafayette’s Dr. Paul Darby, the project leader.

Darby, an assistant professor in the University’s Department of Electrical and Computer Engineering, said the detectors could be configured like wristwatches astronauts could wear, or credit cards they could carry in their pockets.

The research is part of NASA’s CubeSat Launch Initiative. The initiative provides opportunities for colleges and universities to conduct scientific investigations in space; findings, in turn, assist NASA with exploration and technology development.

** Univ. of Michigan MiTEE CubeSat operating in orbit after launch on Virgin Orbit LaunchOne rocket. The spacecraft, whose full name is Miniature Tether Electrodynamics Experiment-1, will test a electrodynamic tether for propellantless propulsion. See previous posts about the MiTEE project here and here.

Update: MiTEE-1 is operational with nominal health beacons and battery voltages! This is a huge accomplishment for our team as we continue MiTEE-1’s Health & Status Checkout procedures; more updates to come! 〽️🛰️
(Check out MiTEE-1 on the RHS of the first image!) pic.twitter.com/gl2tD2rBXM

— MiTEE CubeSat (@miteecubesat) January 19, 2021

The @miteecubesat, built by a team at @UMich, is proving out the concept of an electrodynamic tether between satellites in space. Miniature ED tethers could be a simple way to enable smallsat constellations to function more like coordinated fleets rather than uncontrolled swarms. pic.twitter.com/69lbxul4Ck

— Virgin Orbit (@VirginOrbit) February 2, 2021

** University of Toronto institute sent a dozen satellites into orbit on recent SpaceX Rideshare mission: Space Flight Laboratory (SFL) Announces Successful Launch of 12 Satellites on SpaceX Ride-Sharing Mission | UTIAS Space Flight Laboratory

Space Flight Laboratory (SFL), a developer of complete microspace missions, today announced the launch and successful deployment of 12 satellites on January 24, 2021. The SpaceX Falcon 9 ride-sharing mission carried three different SFL-designed microspace platforms into orbit for three separate commercial constellations.

The January 24 launch included:

- Three formation-flying, radio frequency geolocating microsatellites built upon SFL’s 30-kg DEFIANT platform for HawkEye 360 Inc. of Herndon, VA.
- One next-generation greenhouse gas monitoring microsatellite, known as GHGSat-C2 or “Hugo”, built by SFL on its 15-kg NEMO platform for GHGSat Inc. of Montreal, Canada.
- Eight commercial communications CubeSats developed using the SFL 6U-XL SPARTAN design.

This week’s deployment of the DEFIANT microsatellites also marked the third entirely new microspace platform developed by SFL to reach orbit in just the past five months. SFL’s SPARTAN bus was introduced for the first time on September 28, 2020, with the launch of two communications CubeSats. And SFL’s NAUTILUS microsatellite platform made its debut on September 2, 2020, with the launch of the NEMO-HD Earth observation mission for Slovenia.

“These launches demonstrate SFL’s unmatched ability to innovate and deliver quality at any size on short schedules,” said SFL Director, Dr. Robert E. Zee. “SFL is a unique microspace provider that offers a complete suite of nano-, micro- and small satellites – including high-performance, low-cost CubeSats – that satisfy the needs of a broad range of mission types from 3 to 500 kilograms.”

** CubeSat built by high school students in Sirius on the Black Sea to launch this year: Satellite developed by Sirius high school to be launched into space in late 2021 – TASS

A space weather nanosatellite, developed by Sirius high school students, will be launched at the end of 2021. The test model has already passed the initial trials, the high school told TASS Wednesday.

“The small spacecraft of the CubeSat-3U format will be brought to the orbit in late 2021. Sirius’ own satellite will collect data on space weather for Moscow State University (MSU) scientists. The satellite was assembled by students at Sirius high school, under supervision of the ‘Space systems and remote Earth probing’ laboratory specialists,” the high school press service said.

** Two Taiwanese CubeSats launched with SpaceX Rideshare mission. The Ionospheric Dynamics Explorer and Attitude Subsystem Satellite (IDEASat) is intended for studies of ionospheric space weather. The other satellites is called YUSAT or Yushan,which means jade mountain) and was built by New Taipei-based MoGaMe Mobile Entertainment to monitor marine activities. Signals from both satellites have been detected by stations outside of Taiwan but only IDEASSat has been received by the home ground station: National Central University successfully received and decoded the “IDEASSAT” CubeSat downlink signal. “YUSAT” CubeSat is still in progress. – National Space Organization

The “YUSAT (aka Yushan) ” and “IDEASSAT (aka Flying Squirrel)” CubeSats were successfully launched from Cape Canaveral Space Force Station (CCSFS), in Florida, the United States, at 11:00 pm of January 24, 2021, Taiwan time. The ground receiving station of National Central University (NCU) successfully received the IDEASSAT CubeSat downlink signal at 9:00 pm on February 1^st, and successfully decoded the first beacon message at 11:34 pm.

After YUSAT and IDEASSAT CubeSats were transported to CCSFS in Florida, U.S., in December of last year, various integration and test (I&T) and inspection tasks as well as joint interface tests with the Falcon 9 rocket at the launch site have been performed. At 11:00 pm in the evening on January 24^th, they were carried by the Falcon 9 rocket and launched into space. About 59 minutes after the rocket launch, the two satellites began to separate from the rocket. The separated satellites are orbiting the earth with the altitude of about 525 kilometers, with the period about 96 minutes, and at an inclination of about 97.5 degrees. YUSAT and IDEASSAT would be passing and communicating with the ground stations in Taiwan 1 to 2 times between 8 and 10 o’clock in the morning and evening, respectively.

In the first few days, neither the YUSAT ground station of National Space Organization (NSPO) of National Applied Research Laboratories (NARLabs) nor the IDEASSAT ground station of NCU received signals from two CubeSats, respectively. However, there were some good news about the transmitted signals from the two CubeSats received by the foreign stations fortunately, because these amateur radio stations around the world can cooperate each other for receiving satellite signals. Based on the received and decoded signals from them, both satellites are confirmed to be alive and continuously orbiting around the Earth.

More about the projects:

The Ionospheric Dynamics Explorer and Attitude Subsystem Satellite (IDEASSat). Photo credits: National Space Organization of Taiwan

** Turkey’s ASELSAT CubeSat reaches orbit via SpaceX Falcon 9 Rideshare mission. The spacecraft was developed by Turkey’s ASELSAN military technology company in partnership with Istanbul Technical University. Statement about ASELSAT 3U Cube Satellite from SSB – Aroged

Developed with domestic facilities X-Band Transmitter, By integrating the U3 size cube satellite with high resolution camera The images obtained will be transmitted to the ground station. Also located on the cube satellite radiation dosimeter Thanks to this, radiation information in the low orbit environment will be recorded for feedback for design improvements.

More at

** AMSAT news on student and amateur CubeSat/smallsat projects:

ANS-017 AMSAT News Service Weekly News Bulletin – ANS – mailman.amsat.org

RadFxSat-2 Launch Delayed Until Sunday, January 17, 2021
November/December 2020 AMSAT Journal Now Online
UVSQsat Scheduled for January 21, 2021 Launch
Seven US Schools Moved Forward in ARISS Selection Process
CubeSat to Test Harnessing Earth’s Magnetic Field for Propulsion
CHESS CubeSat Constellation to Carry FUNcube Transponders
International Amateur Radio Union Preparing for WRC-23
Hamfests, Conventions, Maker Faires, and Other Events
Upcoming Satellite Operations
ARISS News
Satellite Shorts from All Over

ANS-024 AMSAT News Service Weekly Bulletins – ANS – mailman.amsat.org

Update on the Status of RadFxSat-2 / Fox-1E
UVSQ-SAT Launch Now January 24th
Changes to AMSAT-NA TLE Distribution for January 21, 2021
ftp.amsat.org Service to be Terminated
ARISS News
Hamfests, Conventions, Maker Faires, and Other Events
Upcoming Satellite Operations
Satellite Shorts from All Over

ANS-028 AMSAT News Service Special Bulletin – ANS – mailman.amsat.org

RadFxSat-2 Signals Detected, AMSAT Engineering Continues to Assess Status

ANS-031 AMSAT News Service Weekly Bulletin – ANS – mailman.amsat.org

RadFxSat-2 Update – (January 29, 2021)
RadFxSat-2 Signals Detected, AMSAT Engineering Continues to Assess Status (January 28, 2021)
ARISS Operations Situation
Changes to AMSAT-NA TLE Distribution for January 28, 2021
QSO Today Virtual Ham Expo to Include Speaker Track on Amateur Radio Satellites
Ham Radio’s SuitSat Returns in Short Horror Film
Hamfests, Conventions, Maker Faires, and Other Events
Upcoming Satellite Operations
ARISS News
Satellite Shorts from All Over
Iodine Thruster Could Slow Space Junk Accumulation

ANS-038 AMSAT Weekly News Bulletin – ANS – mailman.amsat.org

RadFxSat-2/Fox-1E Is Designated AMSAT-OSCAR 109 (AO-109)
SN9 Starship Test Launch: Otherwise successful test ends in a fireball
CAPE-3 Updates and iGate Request
First QO-100 satellite contact from Indonesia
ARISS Call for Proposals: Contacts for January to June 2022
Changes to AMSAT-NA TLE Distribution for February 4, 2021
ARISS News
Upcoming Satellite Operations
Hamfests, Conventions, Maker Faires, and Other Events
Satellite Shorts From All Over

General CubeSat/SmallSat info:

** Payload Profile #1: Launch Demo 2 | Virgin Orbit

As our first ever batch of customers begin to downlink data from their satellites, let’s take a deeper dive into each of the missions that flew onboard LauncherOne this month. First up are CACTUS-1, ExoCube, and CAPE-3. To learn more about our Launch Demo 2 mission, visit our website: https://virg.in/j7y

** Payload Profile #2: Launch Demo 2 | Virgin Orbit

From scientific experiments to tech demonstrations, we’re taking a closer look at each of the missions that flew to space onboard #LaunchDemo2. This week, the spotlight is on MITEE-1, PICS and PolarCub.

** Payload Deep Dive #3: Launch Demo 2 | Virgin Orbit

From scientific experiments to tech demonstrations, we’re taking a closer look at each of the missions that flew to space onboard #LaunchDemo2. Tune in to our last of three Payload Profiles learn a bit more about Q-Pace, RadFXSat-2, and TechEdSat-7.

** Into a Shoebox: The Incredible Journey of RainCube and Tempest-D – NASA JPL (See also A Pioneering NASA Mini Weather Satellite Ends Its Mission – NASA JPL)

On June 25, 2018, RainCube and Tempest-D were deployed from the International Space Station. Both are 6U CubeSats developed by NASA-JPL as instrument technology demonstrations. RainCube implemented the first precipitation radar in a CubeSat and Tempest-D tested the performance of a CubeSat microwave radiometer to observe precipitation and clouds. Together, they became the first CubeSats to measure precipitation from space, with Raincube providing detailed vertical structure information and Tempest-D providing coarse vertical and detailed horizontal structure.