Decentralized Vibration Control with Networked Embedded SystemsT. Tao, K. Frampton
Citation
T. Tao, K. Frampton. "Decentralized Vibration Control with Networked Embedded Systems". ASME 2004 International Mechanical Engineering Congress and Exposition (IMECE2004), 41-46, March, 2003.
Abstract
The results of simulations to demonstrate decentralized vibration control with a networked embedded system are presented in this work. Conventional vibration control designs rest on centrality, and the central processor deals with information of the entire system. When large-scale systems are considered, decentralized vibration control system provides an alternative design. The simulated system in this work is a simply supported beam that is collocated with 50 localized processor nodes which can communicate with each other. Each node will calculate and apply the control force to control the beam vibration according to the shared sensor information among the nodes and an optimal direct velocity feedback algorithm. The simulation results demonstrate that decentralized vibration control can achieve a global control objective, making it suitable for large-scale systems. The effects of network communication delay and feedback architecture on control performance are demonstrated.
Electronic downloads
- HTML
T. Tao, K. Frampton. <a
href="http://chess.eecs.berkeley.edu/pubs/749.html"
>Decentralized Vibration Control with Networked Embedded
Systems</a>, ASME 2004 International Mechanical
Engineering Congress and Exposition (IMECE2004), 41-46,
March, 2003.
- Plain text
T. Tao, K. Frampton. "Decentralized Vibration Control
with Networked Embedded Systems". ASME 2004
International Mechanical Engineering Congress and Exposition
(IMECE2004), 41-46, March, 2003.
- BibTeX
@inproceedings{TaoFrampton03_DecentralizedVibrationControlWithNetworkedEmbeddedSystems,
author = {T. Tao and K. Frampton},
title = {Decentralized Vibration Control with Networked
Embedded Systems},
booktitle = {ASME 2004 International Mechanical Engineering
Congress and Exposition (IMECE2004)},
pages = {41-46},
month = {March},
year = {2003},
abstract = {The results of simulations to demonstrate
decentralized vibration control with a networked
embedded system are presented in this work.
Conventional vibration control designs rest on
centrality, and the central processor deals with
information of the entire system. When large-scale
systems are considered, decentralized vibration
control system provides an alternative design. The
simulated system in this work is a simply
supported beam that is collocated with 50
localized processor nodes which can communicate
with each other. Each node will calculate and
apply the control force to control the beam
vibration according to the shared sensor
information among the nodes and an optimal direct
velocity feedback algorithm. The simulation
results demonstrate that decentralized vibration
control can achieve a global control objective,
making it suitable for large-scale systems. The
effects of network communication delay and
feedback architecture on control performance are
demonstrated.},
URL = {http://chess.eecs.berkeley.edu/pubs/749.html}
}
Posted by Christopher Brooks on 4 Nov 2010.
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