Title :
Table of contents
Abstract :
The following topics are dealt with: dynamic optimization; modern printing systems control; sliding mode control; nonlinear systems stability; networked process systems control; distributed process systems control; vibration suppression; fault detection; iterative learning control; nanopositioning systems control; SPM systems control; biological systems; optimal control; computational methods; vehicle systems; linear systems; actuator saturation control; robust adaptive control; cooperative control; vehicle chassis control; Markov models; decision processes; nonlinear systems; distributed parameter systems; distributed control systems; bioinspired systems; switched systems; vehicle diagnostics; vehicle safety; linear control; robotic applications; automotive systems; applied fractional calculus; motion control; mobile robots; quantum control; communication networks control; feedforward control; systems biology; mobile systems; linear systems stability; agent-based systems; automotive engine control; wind turbines control; information theory; information control; networked systems; path planning; hypersonic vehicles; adaptive systems; fuel cell systems control; information fusion; information networks; large scale systems; neural networks; multi-vehicle control; path following; LPV control systems; Kalman filtering; automotive traction control; industrial control design; mechatronic systems; decentralized control; fuzzy systems; marine vehicles; HVAC systems; control education; autonomous systems; civil infrastructure systems; hybrid electric vehicles; energy management; networked control systems; time-varying systems; piezo actuators; micro actuators; stochastic systems; observers; PID control; mathematical modeling; discrete event systems; materials processing applications; spacecraft applications; aerospace applications; model predictive control; delay systems; Petri nets; systems identification; structural engineering; vision-based control; output regulation; ai- vehicles; fault tolerant systems; manufacturing control; stochastic adaptive control; reduced order modeling and multi-agent systems.
Keywords :
HVAC; Kalman filters; Markov processes; Petri nets; actuators; adaptive control; biocontrol; control engineering education; control system synthesis; decentralised control; delay systems; discrete event systems; distributed control; distributed parameter systems; engines; fault diagnosis; feedforward; fuzzy systems; hybrid electric vehicles; industrial control; iterative methods; learning systems; linear systems; marine vehicles; microactuators; mobile robots; motion control; multi-agent systems; nanopositioning; neurocontrollers; nonlinear control systems; observers; optimal control; optimisation; path planning; piezoelectric actuators; power generation control; power systems; predictive control; printing; process control; reduced order systems; robust control; space vehicles; stability; stochastic systems; structural engineering; telecommunication control; three-term control; time-varying systems; variable structure systems; vibration control; wind turbines; HVAC systems; Kalman filtering; LPV control systems; Markov models; PID control; Petri nets; SPM systems control; actuator saturation control; adaptive systems; aerospace applications; agent-based systems; air vehicles; applied fractional calculus; automotive engine control; automotive systems; automotive traction control; autonomous systems; bioinspired systems; biological systems; civil infrastructure systems; communication networks control; computational methods; control education; cooperative control; decentralized control; decision processes; delay systems; discrete event systems; distributed control systems; distributed parameter systems; distributed process systems control; dynamic optimization; energy management; fault detection; fault tolerant systems; feedforward control; fuel cell systems control; fuzzy systems; hybrid electric vehicles; hypersonic vehicles; industrial control design; information control; information fusion; information networks; information theory; iterative learning control; large scale systems; linear control; linear systems; linear systems stability; manufacturing control; marine vehicles; materials processing applications; mathematical modeling; mechatronic systems; micro actuators; mobile robots; mobile systems; model predictive control; modern printing systems control; motion control; multi-agent systems; multi-vehicle control; nanopositioning systems control; networked control systems; networked process systems control; networked systems; neural networks; nonlinear systems; nonlinear systems stability; observers; optimal control; output regulation; path following; path planning; piezo actuators; quantum control; reduced order modeling; robotic applications; robust adaptive control; sliding mode control; spacecraft applications; stochastic adaptive control; stochastic systems; structural engineering; switched systems; systems biology; systems identification; time-varying systems; vehicle chassis control; vehicle diagnostics; vehicle safety; vehicle systems; vibration suppression; vision-based control; wind turbines control;
Conference_Titel :
American Control Conference, 2009. ACC '09.
Conference_Location :
St. Louis, MO
Print_ISBN :
978-1-4244-4523-3
DOI :
10.1109/ACC.2009.5159765
