Fachbereich Elektrotechnik und Informationstechnik
Refine
Year of publication
- 2022 (19) (remove)
Institute
- Fachbereich Elektrotechnik und Informationstechnik (19)
- ECSM European Center for Sustainable Mobility (4)
- MASKOR Institut für Mobile Autonome Systeme und Kognitive Robotik (2)
- Fachbereich Bauingenieurwesen (1)
- Fachbereich Energietechnik (1)
- Fachbereich Luft- und Raumfahrttechnik (1)
- Fachbereich Wirtschaftswissenschaften (1)
Has Fulltext
- no (19)
Document Type
- Conference Proceeding (7)
- Article (5)
- Part of a Book (5)
- Conference Poster (1)
- Patent (1)
Keywords
- Angle Sensor (1)
- Artificial Intelligence (1)
- Automated driving (1)
- Automotive application (1)
- Benchmark (1)
- CAV (1)
- Conpot (1)
- Cybersecurity (1)
- Cybersicherheit (1)
- Digital Twin Evolution (1)
- FPGA (1)
- ICS (1)
- IT-Sicherheit (1)
- Incremental Encoder (1)
- Informationssicherheit (1)
- Informationssicherheitsmanagement (1)
- Lidar (1)
- Machine Learning (1)
- Position Encoder (1)
- Quantum Computing (1)
- Quantum Machine Learning (1)
- Rotational Encoder (1)
- Self-driving (1)
- Wiegand Effect (1)
- automated vehicles (1)
- batteries and fuel cells (1)
- body imaging at 7 T MRI (1)
- competence developing games (1)
- connected automated vehicles (1)
- cybersecurity (1)
- electrospinning (1)
- experimental evaluation (1)
- fibers (1)
- honeynet (1)
- honeypot (1)
- ignition (1)
- irradiation (1)
- metrological characterization (1)
- microplasma (1)
- microwave (MW) plasma (1)
- passive inter-modulation (1)
- plasma jet (1)
- porous materials (1)
- power integrity (1)
- requirements (1)
- signal integrity (1)
- software engineering (1)
- systematic literature review (1)
- thermal dose (1)
- tissue temperature (1)
- transmit antenna arrays (1)
In this article we describe an Internet-of-Things sensing device with a wireless interface which is powered by the oftenoverlooked harvesting method of the Wiegand effect. The sensor can determine position, temperature or other resistively measurable quantities and can transmit the data via an ultra-low power ultra-wideband (UWB) data transmitter. With this approach we can energy-self-sufficiently acquire, process, and wirelessly transmit data in a pulsed operation. A proof-of-concept system was built up to prove the feasibility of the approach. The energy consumption of the system is analyzed and traced back in detail to the individual components, compared to the generated energy and processed to identify further optimization options. Based on the proof-of-concept, an application demonstrator was developed. Finally, we point out possible use cases.