Nanosats Database (original) (raw)

World's largest database of nanosatellites,
over 4400
nanosats and CubeSats

CubeSat constellations, companies,

technologies, missions and more
Sister websites www.factoriesinspace.com and www.newspace.im

"I believe the big future of nanosatellites is still to come!"

Facts as of 2024 Dec 31

• Nanosats launched: 2806
• CubeSats launched: 2596
• PocketQubes launched: 83
• Interplanetary CubeSats: 18
• Most nanosats on a rocket: 120
• Countries with nanosats: 89
• Companies in database: 771
• Forecast: over 2080 nanosats to launch 2022-2027

PUBLICATIONS

• Erik Kulu. "CubeSats & Nanosatellites - 2024 Statistics, Forecast and Reliability." IAC 2024. Oct 18, 2024.
• Erik Kulu. "Satellite Constellations - 2024 Survey, Trends and Economic Sustainability." IAC 2024. Oct 17, 2024.
• Erik Kulu. "Small Launchers - 2023 Industry Survey and Market Analysis." 74th International Astronautical Congress (IAC 2023). Oct 4, 2023.
• Erik Kulu. "In-Space Economy in 2023 - Statistical Overview and Trends." 74th International Astronautical Congress (IAC 2023). Oct 6, 2023.
• Erik Kulu. "Nanosatellite Launch Forecasts 2022 - Track Record and Latest Prediction." 36th Annual Small Satellite Conference. Aug 9, 2022.
• Erik Kulu. "Small Launchers - 2021 Industry Survey and Market Analysis." 72nd International Astronautical Congress (IAC 2021). Oct 29, 2021.
• Erik Kulu. "In-Space Economy in 2021 - Statistical Overview and Classification." 72nd International Astronautical Congress. Oct 29, 2021.
• Erik Kulu. "Satellite Constellations - 2021 Industry Survey and Trends." 35th Annual Small Satellite Conference. Aug 10, 2021.
• Erik Kulu. "CubeSats Beyond LEO - 2021 Survey of Missions." Interplanetary Small Satellite Conference 2021. May 4, 2021.
• Erik Kulu. "Nanosatellites Through 2020 and Beyond." 2021 CubeSat Developers Workshop. April 27, 2021.

FIGURES

Last update: 2024-12-31

NOTES

Database includes and the term nanosatellite implies them all:

• All CubeSats from 0.25U to 27U. Largest launched is 16U.
• Nanosatellites from 1 kg to 10 kg and shown in kg.
• Picosatellites from 100 g to 1 kg.
• PocketQubes,TubeSats and ThinSats.

Database does not include (generally):

• Femtosatellites (10 g to 100 g), chipsats, disksats and suborbital launches.
• CubeSats bolted to upper stages and not meant to be separate objects.
• Deep space inspection cameras like flown on IKAROS & Tianwen-1.
• Satellites only in idea or concept phase (often difficult to determine). Have a long waitlist.
• Data is since 1998. There were at least 21 nanosatellites launched in the 1960s (Vanguard, OSCAR, ERS) and 1 in 1997.

Approach:

• Each database entry should be an independently flying spacecraft even when deployed together e.g. 60 ThinSats listed as 12 objects. There are some exceptions e.g. tethered CubeSats.
• It is relatively easy to gather most of the launched nanosats, but including planned future and cancelled missions gives a much deeper insight into trends and improves forecasting.
• There are a handful of US and Chinese nanosats about which (almost) nothing is publicly known.
• There is a large number of CubeSats with very little public information, especially after launch.
• Missions and company plans are often changed or cancelled, but not announced publicly.
• The changes in plans are equally interesting thus old renders etc are being kept too.
• Satellite orbits are approximate and priority is given to categorization for readability.

Comments:

• Apologies for possible mistakes, please write about them.
• There is plethora of non-public data.
• Nanosats does not own the credits for photos and logos. Please trace and ask the original authors. Most of them should be linked. They are stored because websites and posts are often deleted.

MOTIVATION

I believe the era of nanosatellites is still to come. We are only in the beginning. Greatly more launches, novel technologies, big constellations and thrilling exploration missions all over the Solar System. Thanks to miniaturized subsystems and payloads, we will be able to visit many more moons and asteroids.

Being bound to fit into a (CubeSat) box empowers creativity and innovation. It is easy to switch to a larger (custom) platform and even cheaper in some cases, but advanced R&D will benefit in the long-term. Many missions that were thought to be impossible with CubeSats are now demonstrated or planned.

"Just because a spacecraft is small, it doesn’t make it easy. A highly constrained spacecraft can push the engineering, push the ingenuity of the team in a way that, in every way, is comparable to some of these big missions that we’re doing." - Dr. Thomas Zurbuchen, NASA Associate Administrator

SOURCES

Updates every 3-4 months. Doing the best to keep track when information is accessible. Always attempting to find and link the original sources.

• Launch schedules and manifests such as Gunter's Space Page.
• Websites IARU, Space-Track, NASA Spaceflight, Libre Space.
• Jonathan McDowell's Space Reports and Master Satellite List.
• Official websites, news articles and social media posts.
• Presentations and proceedings from relevant conferences.
• Radio amateurs such as DK3WN, JA0CAW, SatNOGS, TinyGS.
• Databases SPOON (parts on orbit) and PMPedia (radiation tested).
• Other databases such as M. A. Swartwout for some cross-checking.

TERMS OF USE

You are very welcome to use the figures. Please credit the author and source, e.g. "Erik Kulu, Nanosats Database, www.nanosats.eu". Open to collaboration in win-win scenarios, please reach out.