The battery is the backbone of electric vehicles, comprising hundreds to thousands of cells. Achieving climate neutrality in mobility necessitates large scale battery production, which in turn demands efficient, safe transportation and storage. As dangerous goods (Class9), battery cells require meticulous handling and continuous monitoring of their State-of-Health. In collaboration with Lokistix—a pioneer in intelligent logistics solutions - this thesis/project tackles the multifaceted challenges of battery cell logistics.
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Student Target Groups:
- Computer Science (CS)
- Information and Computer Engineering (ICE)
- Electrical Engineering (EE)
Thesis Type:
- Master Thesis / Master Project
Goal and Tasks:
- Sensor Data Acquisition: Develop firmware with advanced condition monitoring.
- System Interface: Implement an interface for data exchange with production/logistics systems.
- Robust Communication: Enable reliable multiprotocol connectivity (field to edge to cloud).
- Hardware Integration: Design an efficient embedded system for scalable quality control.
Requirements:
- Embedded Systems and Firmware Development (e.g., C, MicroPython)
- Communication Protocols and Sensor Networks(e.g., BLE, WiFi, LTE)
- Industrial Interface Standards (e.g., OPC UA)
- PCB Design and Prototyping
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