Engineering:PocketQube
Specifications | |
---|---|
Launch mass | 250 g |
Dimensions | 5 × 5 × 5 cm (1p) |
A PocketQube is a type of miniaturized satellite for space research that usually has a size of cube with 5 cm sides (one eighth the volume of a CubeSat), has a mass of no more than 250 grams, and typically uses commercial off-the-shelf components for its electronics.
Beginning in 2009,[1] Morehead State University (MSU) and Kentucky Space developed the PocketQube specifications to help universities worldwide to perform space science and exploration. While the bulk of development comes from academia, several companies build PocketQubes, such as Fossa Systems and Alba Orbital.[2] PocketQube projects have even been the subject of Kickstarter campaigns.[3][4] The PocketQube format is also popular with amateur radio satellite builders.[5]
Design
The PocketQube specification accomplishes several high-level goals. Simplification makes it possible to design and produce a workable satellite at low cost. Encapsulation of the launcher-payload interface takes away the prohibitive amount of managerial work previously required for mating a piggyback satellite with its launcher. Unification among payloads and launchers enables quick exchanges of payloads and utilization of launch opportunities on short notice. PocketQube is similar to CubeSat in this regard.
The standard was first proposed by Professor Bob Twiggs of Morehead State University, and the intention was for a satellite which could fit in a pocket, hence the name PocketQube.
Workshops
The first US workshop was held at NASA Ames and at Cape Canaveral in April 2014. There was a three-year gap until the next PocketQube workshop was held at TU Delft in The Netherlands in March 2017. The third workshop took place also at TU Delft in March 2018, with 22 presentations and 70 attendees. This is now an annual event for the PocketQube development community.
Launched
Listed in ascending order by launch date.
– Indicates low altitude launch. |
Orbital No | Name | Type | Organisation | Mission | Launch Date (UTC) | Rocket | Status | Broker | Decay date |
---|---|---|---|---|---|---|---|---|---|
1 | Beakersat-1[lower-alpha 1] | 2.5p | Morehead State University, Sonoma State University | Teaching Tool | 2013-11-21, 07:11 | Dnepr | No longer in orbit | GAUSS | Decay: 2019-2-13[6] |
2 | $50Sat (Eagle-2) | 1.5p | Amateur Group | Amateur Mission | No longer in orbit | Decay: 2018-5-18[7] | |||
3 | QubeScout-S1 | 2.5p | University of Maryland, Baltimore County | Sensor/dynamic attitude experiments | In orbit | ||||
4 | WREN | 1p | Stadoko UG | Tech demo, Camera SSTV, 3 Axis Reaction Wheel and pp Thrusters | In orbit | ||||
Astria | 5p | BCIT Satellite Launch Program | Test structural feasibility at 30,000 feet for new design | 2018-6-21[8] | UBC Black Tusk[9] | Launch failure[10] | UBC | Suborbital: 2018-6-21 | |
TQube | 1p | Amateur | Insulation testing and recording of structural dynamics | 2019-10-11, 18:37 | Neutron | Success | TQube | Suborbital: 2019-10-11 | |
5 | SMOG-P | 1p | Budapest University of Technology and Economics, Hungary | Measurement of the radio spectrum in the UHF TV band | 2019-12-6,
08:18 |
Electron | No longer in orbit | Alba Orbital | Decay: 2020-09-28[11] |
6 | ATL-1 | 2p | Advanced Technology of Laser | Test a new thermal isolation material in space | No longer in orbit | Decay: 2020-10-9[12] | |||
7 | FossaSat-1 | 1p | Fossa Systems | LoRa Demonstration & Deployable solar panels. | No longer in orbit | Decay: 2020-10-28[13] | |||
8 | Noor 1a | 3p | Stara Space | Experimental | No longer in orbit | Decay: 2020-12-29[14] | |||
9 | Noor 1b | 3p | Stara Space | Experimental | No longer in orbit | Decay: 2020-04-7[15] | |||
10 | TRSI | 1p | TRSI Club | Amateur, testing novel receiver | No longer in orbit | Decay: 2020-10-13[16] | |||
11 | DIY-1 / ARDUIQUBE | 1p | DIYSATELLITE | Technology Demonstrator | 2021-3-22, 06:07:12 | Soyuz-2.1a / Fregat | In orbit | GAUSS | |
12 | STECCO | 6p | School of Aerospace Engineering of Sapienza University of Rome | Laser Ranging | In orbit | ||||
13 | SMOG-1 | 1p | Budapest University of Technology and Economics, Hungary | Measurement of the radio spectrum in the UHF TV band | In orbit | ||||
MDQube SAT-1 prototype | 1.25p | Innova Space | Technology demonstration | 2021-6-11 | Aventura I-e2 | Success | TLON Space | Suborbital: 2021-6-11 | |
14 | GENESIS N | 1.5p | AMSAT EA | Amateur Radio / Thruster Experiment | 2021-9-3, 01:59 | Alpha | Launch failure | FOSSA System / Libre Space Foundation | Suborbital: 2021-9-3[lower-alpha 2] |
15 | GENESIS L | 1.5p | AMSAT EA | Amateur Radio / Thruster Experiment | Launch failure | ||||
16 | QUBIK 1 | 1p | Libre Space Foundation | Amateur Radio[17] / Technology Demonstrator | Launch failure | ||||
17 | QUBIK 2 | 1p | Libre Space Foundation | Amateur Radio[17] / Technology Demonstrator | Launch failure | ||||
18 | FOSSASAT 1b | 1p | Fossa Systems | LoRa Demonstration | Launch failure | ||||
19 | FOSSASAT 2 | 2p | Fossa Systems | LoRa Demonstration | Launch failure | ||||
20 | Unicorn 1 | 2p | Alba Orbital UG | Inter-sat link | 2022-1-13, 15:25 | Falcon 9 | In orbit | Alba Orbital / Exolaunch | |
21 | Unicorn 2A | 3p | Alba Orbital UG | Earth observation | In orbit | ||||
22 | Unicorn 2D | 3p | Alba Orbital UG | Earth observation | In orbit | ||||
23 | Unicorn 2E | 3p | Alba Orbital UG | Earth observation | In orbit | ||||
24 | Unicorn 2TA1 | 1p | Carnegie Mellon University | Earth observation | In orbit | ||||
25 | Delfi-PQ | 3p | Delft University of Technology | IoT | In orbit | ||||
26 | Hades | 1.5p | AMSAT EA | Amateur radio | In orbit | ||||
27 | EASAT-2 | 1.5p | AMSAT EA | Amateur radio / Science | In orbit | ||||
28 | Sattla-2A | 2p | Ariel University | Education | In orbit | ||||
29 | Sattla-2B | 2p | Ariel University | Education | In orbit | ||||
30 | PION-BR1 | 1p | PION Labs | Technology Demonstrator | In orbit | ||||
31 | MDQube-SAT1 | 2p | Innova Space | Technology Demonstrator | In orbit | ||||
32 | Grizu-263a | 1p | Zonguldak Bülent Ecevit University | Technology Demonstrator | In orbit | ||||
33 | Challenger | 3p | Quub / Intuidex | Technology Demonstrator | In orbit | FOSSA Systems / Exolaunch | |||
34 | Template:Country data NEP SanoSat-1 | 1p | Orion Space | Technology Demonstrator | In orbit | ||||
35 | WISeSAT-1 (FOSSASAT-2E1) | 2p | WISeKey | IoT | In orbit | ||||
36 | WISeSAT-2 (FOSSASAT-2E2) | 2p | WISeKey | IoT | In orbit | ||||
37 | CShark Pilot 1 (FOSSASAT-2E3) | 2p | CShark | IoT | In orbit | ||||
38 | Laika (FOSSASAT-2E4) | 2p | Porkchop | Technology Demonstrator | In orbit | ||||
39 | FOSSASAT-2E5 | 2p | FOSSA Systems | IoT | In orbit | ||||
40 | FOSSASAT-2E6 | 2p | FOSSA Systems | IoT | In orbit | ||||
41 | Unicorn-2F | 3p | Alba Orbital UG | Earth observation | 2022-5-2, 22:49 | Electron | In orbit | Alba Orbital | |
42 | TRSI-2 | 1p | TRSI Club | Amateur radio | In orbit | ||||
43 | TRSI-3 | 1p | TRSI Club | Amateur radio | In orbit | ||||
44 | MyRadar-1 | 1p | ACME AtronOmatic, LLC (MyRadar) | Experimental | In orbit | ||||
45 | FOSSASAT-2E7 | 2p | FOSSA Systems | IoT / Earth Exploration | 2022-5-25, 18:35 | Falcon 9 | In orbit | FOSSA Systems / Momentus | |
46 | FOSSASAT-2E8 | 2p | FOSSA Systems | IoT / Earth Exploration | In orbit | ||||
47 | FOSSASAT-2E9 | 2p | FOSSA Systems | IoT / Earth Exploration | Deployment failure | ||||
48 | FOSSASAT-2E10 | 2p | FOSSA Systems | IoT / Earth Exploration | Deployment failure | ||||
49 | FOSSASAT-2E11 | 2p | FOSSA Systems | IoT / Earth Exploration | In orbit | ||||
50 | FOSSASAT-2E12 | 2p | FOSSA Systems | IoT / Earth Exploration | In orbit | ||||
51 | FOSSASAT-2E13 | 2p | FOSSA Systems | IoT / Earth Exploration | In orbit | ||||
52 | Canary Hatchling | 1p | CareWeather | Demonstrator | In orbit | ||||
53 | FOSSASAT-1B | 1p | FOSSA Systems | IoT | 2022-10-1, 07:01 | Alpha | No longer in orbit | Libre Space Foundation | Decay: 2022-10-3 |
54 | GENESIS-G/ASTROLAND-1 | 1.5p | AMSAT EA | Technology Demonstrator | No longer in orbit | Decay: 2022-10-3 | |||
55 | GENESIS-J/ASTROLAND-2 | 1.5p | AMSAT EA | Technology Demonstrator | No longer in orbit | Decay: 2022-10-3 | |||
56 | QUBIK-3 | 1p | Libre Space Foundation | Amateur Radio[18] / Technology Demonstrator | No longer in orbit | Decay: 2022-10-3 | |||
57 | QUBIK-4 | 1p | Libre Space Foundation | Amateur Radio[18] / Technology Demonstrator | No longer in orbit | Decay: 2022-10-3 | |||
58 | Unicorn-2G | 3p | Alba Orbital UG | Earth observation | 2023-1-3
14:56 |
Falcon 9 | Transfer stage failure | Launcher | |
59 | Unicorn-2H | 3p | Alba Orbital UG | Earth observation | Transfer stage failure | ||||
60 | URESAT | 1.5p | AMSAT EA / URE | Amateur radio | 12 June 2023
21:35 |
Falcon 9 | In orbit | Alba Orbital | |
61 | MRC-100 (formerly SMOG-2) | 3p | Budapest University of Technology and Economics | Radio spectrum measurement, technology demonstration | In orbit | ||||
62 | ROM-2 | 1p | International Computer High School of Bucharest | Earth observation | In orbit | ||||
63 | Unicorn-2I | 3p | Alba Orbital UG | Earth observation | In orbit | ||||
64 | Satlla-2I | 2p | Ariel University | Education | In orbit | ||||
65 | Istanbul | 1p | Hello Space | IoT | In orbit | ||||
66 | TinySat* | 1p | Stratonavtika | Earth Observation | 27 June 2023
11:34:49 |
Soyuz-2.1b / Fregat | In orbit | Stratonavtika | |
67 | TinySat* | 1p | In orbit | ||||||
68 | TinySat* | 1p | In orbit | ||||||
69 | TinySat* | 1p | In orbit | ||||||
70 | TinySat* | 2p | In orbit | ||||||
71 | TinySat* | 2p | In orbit | ||||||
72 | Hydra-1 / HADES-D | 1.5p | Hydra Space / AMSAT EA | IOT | 11th November 2023 | Falcon 9 | In Orbit | Alba Orbital | |
73 | ROM-3 | 1.5p | FRR | EO | In Orbit | ||||
74 | SpaceANT-D | 1p | SpaceIn | IOT | In Orbit | ||||
75 | U2 Tartan Artibeus-2 | 1p | Alba Orbital/CMU | Tech Demo | In Orbit | ||||
76 | Unicorn-2J | 3p | Alba Orbital | EO | In Orbit | ||||
77 | Unicorn-2K | 3p | Alba Orbital | EO | In Orbit | ||||
78 | Hello Test 1 | 2p | Hello Space | IOT | In Orbit | Momentus | |||
79 | Hello Test 2 | 2p | Hello Space | IOT | In Orbit | ||||
80 | MDQubesat-2 | 2p | Innova Space | IOT | 1st December 2023 | Falcon 9 | In Orbit | Alba Orbital | |
81 | Unicorn-2L | 3p | Alba Orbital | EO | In Orbit | ||||
82 | Unicorn-2M | 3p | Alba Orbital | EO | In Orbit | ||||
83 | Unicorn-2N | 3p | Alba Orbital | EO | In Orbit |
- * Tinysat do not follow the currently recognized PocketQube Mechanical standard as they deploy from a cubesat with a rail interface and not from a dedicated MR-Fod style PocketQube deployer on a tabbed baseplate (which all other orbital pocketqubes on the list have used). This makes them a variant of the PocketQube standard.
In development
Name | Type | Organisation | Mission | Launch Date (UTC) | Rocket | Broker | Status | Remarks |
---|---|---|---|---|---|---|---|---|
AQUIS | 1p | Space Team Aachen | Technology Demonstrator | TBC | TBC | TBC | In development | The satellite will contain an in-house developed propulsion system |
Orbital Temple | 1p | Edson Pavoni and Team | Art | TBC | TBC | TBC | In development | Edson Pavoni talks about the Orbital Temple, the first PocketQube with artistic goals |
OzQube-1[yes|permanent dead link|dead link}}] | 1p | Picosat Systems | Earth Observation | TBC | TBC | TBC | In development | Team Interview |
Discovery 1a | 1p | Quub, Inc. | Camera / Photo Sat | TBC | TBC | TBC | In development | Windform XT 2.0 based PocketQube testing of the shelf components for space use |
UoMBSat1 | 1p | University of Malta + University of Birmingham | Technology Demonstrator + Ionospheric Sounder | TBC | TBC | TBC | In development | ASTREA Website @ UoM |
APRS PocketQube | 1p | National Chiao-Tung University | APRS PocketQube for Moving Objects Tracking | TBC | TBC | TBC | In development | |
UBO | 1p | Satellite Applications Catapult | Outreach | TBC | TBC | TBC | In Development | http://buildubo.co.uk/build/ |
Myansat-1 | 1p | Independent | Outreach | TBC | TBC | TBC | In Development | https://web.archive.org/web/20190115020853/http://myansat.com/ |
TFTQube | 1p | The Flame Trench | Amateur | TBC | TBC | TBC | In Development | https://theflametrench.com/flagship/ |
TBC | TBC | University of Zacatecas | STEM | TBC | TBC | TBC | In Development | https://www.research"ate.net/project/Design-and-Implementation-of-a-PocketQube-system-for-educative-purposes |
LibertyQube-1 | 1p | Liberty Life LLc | Experimental | TBC | TBC | TBC | In Development | https://www.libertylife-llc.com/ |
SatDuino | 1p | Technical School N° 5 of Mar Del Plata | Education | TBC | TBC | TBC | In Development | https://satduinot5t1.wixsite.com/satduino |
BYqube-1 | 1p | Brigham Young University | Education | TBC | TBC | TBC | In Development | |
Pycubed-1 | 1p | Stanford University | Education | TBD | Alba Orbital | In Development | ||
DynOSSAT-EDU | 1p | BHDynamics | TBC | TBC | TBC | In Development | ||
BS-0 | 1p | Aerozono Space Technologies (Argentina) | Earth Observation/ Technology Demonstrator | TBC | TBC | TBC | In Development | https://aerozono_space.gitlab.io/aerozono-space |
BeliefSat-1 | 2p | K. J. Somaiya Institute of Engineering and Information Technology | Educational mission demonstrating PocketQube technologies | TBC | TBC | TBC | In Development | https://github.com/NewLeapKjsieit/BeliefSat |
TQube-FO | 1p | TQube | Amateur tracking | TBD | TBD | TBD | In development | |
Leopard-Sat 1 | 1p | Wentworth Institute of Technology | Experimental mission demonstrating the use of two cameras onboard | TBD | TBD | TBD | In Development | https://www.notion.so/picosat/Wentworth-PicoSat-a2947a5c33a04c8d9a6e7d9849fd3605 |
PocketQube vs PocketQub
The PocketQube standard originally started as PocketQub.[19] This was changed in 2012 by Professor Bob Twiggs of Morehead State University. The standard is now referred to as PocketQube.
Launch
As of December 2019, the only launch brokers capable of providing launch integration for PocketQube satellites are Fossa Systems, Libre Space Foundation, Alba Orbital and GAUSS Srl.
See also
Notes
References
- ↑ Twiggs, Bob. "Making it small". http://mstl.atl.calpoly.edu/~bklofas/Presentations/DevelopersWorkshop2009/7_CubeSat_Alt/1_Twiggs-PocketQub.pdf.
- ↑ Alba Orbital
- ↑ "Kickstarter". http://gigaom.com/2013/10/01/kickstarter-campaign-will-help-you-build-a-satellite-for-less-than-600/.
- ↑ "Kickstarter, Wired UK". https://www.wired.co.uk/news/archive/2013-09/23/pocketqube.
- ↑ "AMSAT UK". 22 November 2013. http://amsat-uk.org/2013/11/22/50sat-eagle2-pocketqube-operational/.
- ↑ "Technical details for satellite BEAKERSAT 1". https://www.n2yo.com//satellite/?s=39437.
- ↑ "SATVIEW - EAGLE 2 - Norad 39436U - Tracking satellites and Spacejunk in Real time". http://www.satview.org/?sat_id=39436U.
- ↑ "UBC Rocket BCIT launch". https://www.facebook.com/ubcrocket/photos/a.233133253772898/576916696061217/.
- ↑ "UBC Rocket". https://www.facebook.com/ubcrocket/photos/pcb.582747162144837/582746562144897/.
- ↑ "Black Tusk Launch". https://www.youtube.com/watch?v=qybrfn_pUFs.
- ↑ "SMOG-P - NORAD 44832 - 3D Online Satellite Tracking". https://www.satflare.com/track.asp?q=44832&sid=2#TOP.
- ↑ "ATL-1 - NORAD 44830". https://www.satflare.com/track.asp?q=44830#TOP.
- ↑ "FOSSASAT-1 - NORAD 44829 - 3D Online Satellite Tracking". https://www.satflare.com/track.asp?q=44829.
- ↑ "NOOR 1A". https://www.n2yo.com/satellite/?s=44827#results.
- ↑ "NOOR 1B - NORAD 44828 - 3D Online Satellite Tracking". https://www.satflare.com/track.asp?q=44828&sid=2#TOP.
- ↑ "TRSI - NORAD 44831 - 3D Online Satellite Tracking". https://www.satflare.com/track.asp?q=44831.
- ↑ 17.0 17.1 "IARU Sat Coordinator". http://www.amsatuk.me.uk/iaru/finished_detail.php?serialnum=703.
- ↑ 18.0 18.1 "IARU Sat Coordinator". http://www.amsatuk.me.uk/iaru/finished_detail.php?serialnum=828.
- ↑ "Standard". http://pocketqub.org/standard/.
External links
Original source: https://en.wikipedia.org/wiki/PocketQube.
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