What can the HYPSO-3 Hyperperspectral Cameras Observe?
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Project and Master Subjects 2025-2026
- Super-agile operation of small satellites
- Early warning fault detection for satellite operations based on telemetry
- Semi-controlled re-entry for a satellite using attitude control
- System identification of environmental effects for a satellite during re-entry
- Mu-analysis for agile satellite attitude control maneuvers
- Enabling high-accuracy HYPSO image georeferencing by high-accuracy satellite pose estimation through postprocessing of satelitte sensor data
- High-accuracy attitude determination of Earth observation satellites
- Starlink: Signals of Opportunity positioning, navigation and timing (PNT)
- GNSS-R: Simulator design of a GNSS-Reflectometry simulator
- GNSS-R: Payload and embedded SW design
- GNSS-R: GNSS jamming and spoofing source localization from space
- GNSS-R: Formation flying of small satellites
- GNSS-R: Novel ship-detection methods for GNSS-Reflectometry
- Automatic Satellite Telemetry Anomaly Detection and Trend Analysis
- Which works better, explainable AI or black-box AI?
- Integrating the HYPSO constellation with the Copernicus Suite
- Explainable AI on a GPU
- What can the HYPSO-3 Hyperperspectral Cameras Observe?
- Could a short-wave infrared hyperspectral imager characterize oil spills?
- Coordinated Planning between a satellite constellation and a Autonomous Surface Vehicle
- Calibration of Hyperspectral camera point-spread function
- Past Projects
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What can the HYPSO-3 Hyperperspectral Cameras Observe? (F25/S26)
Project Description
NTNU smallsat lab is planning a new satellite, HYPSO-3, which will have several payloads, including multiple hyperspectral cameras. This project will explore how the higher spatial resolution of HYPSO-3 could open up to imaging opportunities, such as monitoring inland water, characterizing ships, and locating forest fires. It will include analysis of the HYPSO-3 instrument, and numerical investigations of data from aircraft-based hyperspectral imagers.
Although the primary goal of HYPSO-3 is to image algal blooms, there are many secondary use cases for which it could also collect data: forestry, forest fires, agriculture, oil spills, etc.
Supervisor(s)
This project would be advised by Joe Garrett