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Prof. Dr. Daniel Treyer

Prof. Dr. Daniel Treyer

Activities at FHNW

Lecturer for measurement and control engineering at the FHNW Institute of Automation

Teaching

Control Systems
Machine Learning
Automation laboratory

Research

Modelling, control, and optimization of dynamic mechatronic systems
Measurement and sensor technology

Publications

Only peer reviewed

No peer reviewed content available
[1]
D. Treyer, “Modellbasierte Optimierung des Diamantdrahtsägeprozesses für die Fertigung von Siliziumwafern,” Technische Universität Bergakademie Freiberg, Freiberg, 2020. Available: https://irf.fhnw.ch/handle/11654/39512
Peer reviewed

[2]
D. Treyer, S. Gaulocher, S. Niederberger, H. Rafael, G. Frech, and A. Ams, “Diamond wire wafering. A model-based evaluation of different control strategies,” in Proc. 35th European Photovoltaic Solar Energy Conf. and Exhibition EUPVSEC, P. Verlinden, R. Kenny, and P. Helm, Eds., Brüssel: Wip, 2018, pp. 331–336. Available: https://irf.fhnw.ch/handle/11654/39510
Peer reviewed

[3]
D. Treyer, S. Gaulocher, S. Niederberger, H. Rafael, and A. Ams, “Application of multi-parametric quadratic programming to simulation of deflected wires in a wire saw,” in Proc. in Applied Mathematics and Mechanics PAMM, C. Könke and C. Trunk, Eds., Weimar: Wiley, 2017, pp. 779–780. doi: 10.1002/pamm.201710357.
Peer reviewed

[4]
D. Treyer, S. Gaulocher, S. Niederberger, H. Rafael, and A. Ams, “A comprehensive dynamic model of the diamond wire sawing process,” in Proc. 33rd European Photovoltaic Solar Energy Conf. and Exhibition EUPVSEC, A. Smets, P. Helm, and N. Taylor, Eds., Amsterdam: WIP, 2017, pp. 517–522. Available: https://irf.fhnw.ch/handle/11654/39509
[5]
D. Treyer, T. Moser, and R. Anderegg, “Optimale, digitalisierte mechanische Fertigung,” Hochschule für Technik FHNW, 2017. doi: 10.26041/fhnw-1323.
Peer reviewed

[6]
D. Treyer, S. Gaulocher, S. Germann, and M. Siegenthaler, “Silence is golden. Implementation of a noise cancelling office chair,” in INTER-NOISE and NOISE-CON Congress and Conference Proceedings, Institute of Noise Control Engineering, Ed., Hamburg: Institute of Noise Control Engineering, 2016, pp. 6880–6891. Available: https://irf.fhnw.ch/handle/11654/39501
[7]
D. Treyer, S. Gaulocher, and S. Germann, “Aktive Schallauslöschung für Bürostühle,” Lärmbekämpfung, vol. 11, no. 6, VDI Fachmedien, Düsseldorf, pp. 241–245, 2016. Available: https://irf.fhnw.ch/handle/11654/39506
Peer reviewed

[8]
D. Treyer, S. Gaulocher, S. Germann, and E. Curiger, “Towards the implementation of the noise cancelling office chair. Algorithms and practical aspects,” in From ancient to modern acoustics. 23rd International Congress on Sound and Vibration 2016 (ICSV 23), International Institute of Acoustics and Vibration (IIAV), Ed., New York: Curran Associates, 2016. Available: https://irf.fhnw.ch/handle/11654/39503
Peer reviewed

[9]
M. Engeler, D. Treyer, D. Zogg, A. Kunz, and K. Wegener, “Condition-based maintenance. Model vs. statistics a performance comparison,” in 49th CIRP conference on manufacturing systems (CIRP-CMS 2016). Factories of the future in the digital environment, E. Westkämper and T. Bauernhansl, Eds., in Procedia CIRP, no. 57. Stuttgart: Curran, 2016, pp. 253–258. doi: 10.26041/fhnw-6238.
Peer reviewed

[10]
D. Treyer and D. Zogg, “Model and Expert Knowledge Based Fault Diagnosis for a Heat Exchanger,” in 2nd IEEE International Conference on Control and Fault-Tolerant Systems (SysTol), Nizza: IEEE, 2013, pp. 680–685. doi: 10.1109/SysTol.2013.6693909.

School

FHNW School of Engineering

The school offers degree programmes in Engineering, Computer Science, Leadership and Optometry. In research, we generate knowledge and solutions for industry and business.

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