Demo Abstract: Fast Feedback Control and Coordination with Mode Changes for Wireless Cyber-Physical Systems. Mager, F., Baumann, D., Jacob, R., Thiele, L., Trimpe, S., & Zimmerling, M. abstract bibtex This abstract describes the first public demonstration of feedback control and coordination of multiple physical systems over a dynamic multi-hop low-power wireless network with update intervals of tens of milliseconds. Our running system can dynamically change between different sets of application tasks (e.g., sensing, actuation, control) executing on the spatially distributed embedded devices, while closed-loop stability is provably guaranteed even across those so-called mode changes. Moreover, any subset of the devices can move freely, which does not affect closed-loop stability and control performance as long as the wireless network remains connected.
@article{mager_demo_nodate,
title = {Demo {Abstract}: {Fast} {Feedback} {Control} and {Coordination} with {Mode} {Changes} for {Wireless} {Cyber}-{Physical} {Systems}},
abstract = {This abstract describes the first public demonstration of feedback control and coordination of multiple physical systems over a dynamic multi-hop low-power wireless network with update intervals of tens of milliseconds. Our running system can dynamically change between different sets of application tasks (e.g., sensing, actuation, control) executing on the spatially distributed embedded devices, while closed-loop stability is provably guaranteed even across those so-called mode changes. Moreover, any subset of the devices can move freely, which does not affect closed-loop stability and control performance as long as the wireless network remains connected.},
language = {en},
author = {Mager, Fabian and Baumann, Dominik and Jacob, Romain and Thiele, Lothar and Trimpe, Sebastian and Zimmerling, Marco},
pages = {2}
}
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