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  1. NTNU SmallSat Lab For Students Past Projects
  2. Project and Master Subjects 2023-2024
  3. Automation of operations for the HYPSO-1 satellite

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Automation of operations for the HYPSO-1 satellite

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  • Project and Master Subjects 2025-2026
  • Past Projects
    • Project and Master Subjects 2024-2025
    • Project and Master Subjects 2023-2024
      • Multi-satellite data fusion for ocean color remote sensing
      • Multimodal ocean color imaging with UAVs
      • Hyperspectral super-resolution for ecosystem monitoring in fjords
      • Semisupervised algae monitoring from hyperspectral satellites
      • Prediction of algal bloom dynamics using ocean simulations
      • Sharpening Hyperspectral Remote Sensing Data from Miniaturized Imagers
      • MIMO model for water constituents using HYPSO-1 data
      • Detection of Large Ships using HYPSO-1 Hyperspectral Remote Sensing Satellite Data
      • Unsupervised learning for hyperspectral image segmentation
      • Optimal Data Reduction in Miniaturized Hyperspectral Imaging Sensor
      • HYPSO-2: Software-defined-radio (SDR) payload integration for HYPSO-2
      • Automation of operations for the HYPSO-1 satellite
      • Designing a Software-defined-radio (SDR) application experiment for communication between on-ground sensor systems
      • HYPSO-3 Mission analysis
      • Software Development for CubeSat Payloads for HYPSO-3
    • Project and master assignments 2022
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Automation of operations for the HYPSO-1 satellite

Do you want to improve the operating environment for HYPSO-1? After the successful launch of HYPSO-1 in January 2022, we now want to improve the workflows for mission planning and image distribution and analysis. As the number of data sets increase (we have around 1000 now!), automation is key. And with the launch of HYPSO-2 next year, the amount of data may increase ten-fold. 

The student(s) will design and develop pipelines for mission planning, scheduling, execution and evaluation (including distribution of data from the HYPSO-1 satellite). A main part of the project will be to integrate (and further develop and improve) the operational tools already existing. This is a collection of web-based tools, 3.rd party programs and simulators, Python and Matlab scripts. It may be possible to have this as a group assignment. 

The assignment can be tailored to either work with mission/capture planning or post-processing and distribution of aquired data.

Contact: Roger Birkeland

NTNU – Norwegian University of Science and Technology

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