Master Thesis: Lossy Compression Algorithms for Space-based Particle Detector Data
10.12.2024, Abschlussarbeiten, Bachelor- und Masterarbeiten
We are looking for a master's student at the interface between space-based particle physics and data processing. Our detector will measure the spectra of particles that are trapped in the Earth's magnetic field. Due to the limitations of our satellite platform, we want to investigate and evaluate lossy and lossless compression algorithms for our detector data. These can be based on simple, classic approaches or employ more complex, neural-network-based techniques.
High event rates are expected and resources are limited, so we are developing data acquisition, particle trigger, and compression algorithms based on an FPGA (Field-Programmable Gate Array). One approach is lossy compression of event data, e.g. by transformation to other bases or dimensionality reduction. There are numerous possibilities, including classical approaches, custom solutions, and neural networks (e.g. autoencoders). Research, comparison, design, and if possible Implementation of such algorithms will be your task in our team.
Your objectives include:
You will work at the interface between science and engineering. If successful, your own software could be part of missions, e.g. on the ISS or satellites. We expect a high degree of self-responsibility, motivation, structured way of working, creativity, and a good share of curiosity. We offer work in a small, interdisciplinary team, diverse topics and enough space for self-development and own ideas. Knowledge of one or more of the above-mentioned fields is strongly appreciated.
Available for: MSc. Physics (AEP, KTA), MSc. Engineering (Electrical, Aerospace or similar), MSc. Software Engineering
Kontakt: peter.hinderberger@tum.de
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