Satellites
Die ERWIN-Mission (Emission of Radiation based Wildfire INvestigation) ist ein Projekt des SeeSat e.V. mit dem Ziel, Waldbrände aus dem Orbit mittels eines CubeSats zu detektieren.
Development of a payload for the SOURCE-2 mission of the Institute of Space Systems (IRS) at the University of Stuttgart. The mission serves as a technology demonstrator for the central computing unit of the ERWIN mission. In addition, newly developed software algorithms will be tested and radiation measurements will be carried out in Low Earth Orbit (LEO).
Development of a payload for the SOURCE-2 mission of the Institute of Space Systems (IRS) at the University of Stuttgart. The mission serves as a technology demonstrator for the central computing unit of the ERWIN mission. In addition, newly developed software algorithms will be tested and radiation measurements will be carried out in Low Earth Orbit (LEO).
DORY (Deployable Orbital Radio assemblY) is a concept study for a compact AIS antenna for CubeSats. The Automatic Identification System (AIS) is used for ship monitoring. Optimized antenna size and high reception power in orbit are intended to improve the detection of AIS misuse, such as illegal fishing.
MOBeFuse (Monitoring Orbital Behavior of eFuse) is a mission to validate commercial eFuses under space conditions. Three different fuse circuits are analyzed with regard to their performance and correlated with environmental data such as radiation dose and temperature. SeeSat e.V. is using a 60×60 mm circuit board on a CubeSat from the start-up OroraTech.
MOBeFuse (Monitoring Orbital Behavior of eFuse) is a mission to validate commercial eFuses under space conditions. Three different fuse circuits are analyzed with regard to their performance and correlated with environmental data such as radiation dose and temperature. SeeSat e.V. is using a 60×60 mm circuit board on a CubeSat from the start-up OroraTech.
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Development of a concept for in-orbit image labeling as part of the ERWIN mission. The automatic marking of images with a high probability of fire is intended to enable prioritized transmission of relevant data to the ground station.
Research into expert systems for autonomy and error handling
