SatNOGS (Satellite Networked Open Ground Station) project is a free software and open source hardware platform aimed to create a satellite ground station network. The scope of the project is to create a full stack of open technologies based on open standards, and the construction of a full ground station as a showcase of the stack.[1][full citation needed][2][3]
History
The SatNOGS project was initiated during NASA SpaceApps Challenge in 2014 at Athens Hackerspace.[4] The project then took part in and won the first place of the Hackaday Prize 2014 competition.[5] SatNOGS is currently a project of the Libre Space Foundation.[6]
Overview
SatNOGS aims to provide a stack of technologies needed for a distributed network of low Earth orbit satellite ground stations. In order to implement such a stack the four following different sub-projects are developed[clarification needed]
Network
SatNOGS Network is a web application for scheduling observations across the network of ground stations.[7][8][full citation needed]
Database
SatNOGS Database is a crowd-sourced application allowing its users to suggest[vague] satellite transmitter information for currently active satellites. Its data is available via an API.[clarification needed][9]
Client
SatNOGS Client is the software to run on ground stations, usually on embedded systems, that receives the scheduled observations from the Network, receives the satellite transmission and sends it back to the Network web app.[10][11]
Ground Station
SatNOGS Ground Station is an open source hardware ground station instrumentation with a rotator,[12] antennas,[13] electronics[14][full citation needed] and connected to the Client. It is based on 3D printed components, readily available materials.[citation needed]
Operation
A November 2019 SatNOGS blog post summarizes total statistics since establishment:[15]
300+ operational ground-stations
12,000,000+ observations
380+ satellites with 810+ transmitters monitored
51,000,000+ data frames
Tracking
The global array of ground stations contribute to an effective network for monitoring orbital satellites.[16]
^Poblet, Marta; Fünfgeld, Hartmut; McShane, Ian (2014-11-30). "Telecommunications and disaster management". Australian Journal of Telecommunications and the Digital Economy. 2 (4). doi:10.7790/ajtde.v2n4.73.