Silicon detectors for monitoring neutron beams in n-TOF beamlines

This paper presents a design technique for feedforward tracking control targeting predictable embedded platforms. An embedded control implementation experiences sensor-to-actuator delay which in turn changes the location of the system zeros. In this work, we show that such delay changes the number of unstable zeros which influences the tracking performance. We propose a zero loci analysis with respect to the delay and identify delay regions which potentially improve tracking performance. We utilize the analysis results to improve tracking performance of implementations targeting modern predictable embedded architectures where the delay can be precisely regulated. We validate our results by simulation and hardware-in-the-loop (HIL) implementation considering a real-life motion system.

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Delay-based Design of Feedforward Tracking Control for Predictable Embedded Platforms

Haghi

Wenguang

Goswami

et al. 2019

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Feng Wenguang

Delay-based Design of Feedforward Tracking Control for Predictable Embedded Platforms

Delay-based Design of Feedforward Tracking Control for Predictable Embedded Platforms

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