@thesis{lehninger_context-aware_2025,
	title = {Context-aware sensor data monitoring on {NEMS} technology},
	url = {https://repositum.tuwien.at/handle/20.500.12708/212819},
	abstract = {Monitoring the correct behavior of an arbitrary system can be costly if it the monitoring system has to betaylored to the system under observation. To ease the configuration of such a device health monitoringsystem, Confidence-based Context-Aware Monitoring ({CCAM}) was developed. Although it can beconsidered a lightweight algorithm on modern embedded computing systems, it was not designed for extremely hardware-constrained use cases. To further extend the field of possible applications, the algo-rithm has been simplified and implemented in hardware on a novel {NEMS} technology. Simultaneously,this work is a case study for logic design on {NEMS}. Therefore, it has been investigated how to leverage the potential of that technology and a trade-off analysis for two implementations has been performed.The insights allow for improvement of further circuit designs and hint towards potential improvements of synthesis targeting {NEMS}.},
	type = {phdthesis},
	author = {Lehninger, Philipp},
	editora = {Jantsch, Axel and Elahi, Ardavan},
	editoratype = {collaborator},
	urldate = {2025-04-01},
	date = {2025},
	langid = {english},
	note = {Artwork Size: 104 pages
Medium: application/pdf
Publisher: {TU} Wien},
	keywords = {Circuit Design, Monitoring, {NEMS}, Nanomechanische Devices},
}