Software Development for Optical CubeSat Payload
- Project and Master Subjects 2025-2026
-
Past Projects
- Project and Master Subjects 2024-2025
- Project and Master Subjects 2023-2024
-
Project and master assignments 2022
- Ocean Color Data Analysis
- Software Development for Optical CubeSat Payload
- Ensemble Biomass Estimation
- Topics on Hyperspectral Image Encoding
- Atmospheric Correction of HYPSO-1
- Remote sensing data fusion for algae detection
- HYPSO hyperspectral satellite data fusion with in-situ sensors
- HYPSO-1 data georectification using direct and indirect methods
- Generation and calibration of HYPSO-1 data products
- Sentinel satellite multispectral data to aid HYPSO-1 imaging
- Verification and validation of HYPSO-2 optical payload
- HYPSO-2: Designing a Software-defined-radio (SDR) application experiment for communication between on-ground sensor systems
- HYPSO-2: Designing experiment for channel characterization using the Software-defined-radio (SDR) payload in HYPSO-2
- HYPSO - Space environment effects on hyperspectral imager: performing thermal experiments and modelling
- Software Development for Optical CubeSat Payload
- Re-design and re-configuration for hardware-software test-bench for HYPSO-1 and HYPSO-2 (FlatSat)
- Automation of operations for the HYPSO-1 satellite
- HYPSO - Georeferencing, operations - Incorporating ADCS telemetry into the OPU
MENU
Software Development for Optical CubeSat Payload
The next generation of satellites will utilize the same source code that the HYPSO-1 payload uses today. We want to make incremental, but important improvements to that software. In this project you will identify the needs for future generation satellites that employ optical sensors, familiarize with the operational environment, and suggest and implement improvements for the payload software.
The current core of the HYPSO-1 satellite has some legacy code and programming strategies that could benefit from your help. For more information, contact Sivert.