Research on Anti-Windup Controller of Autonomous Navigation Vehicle Based on Improved Adaptive Filter
p.1119
p.1119
Experimental Investigation of Thermoelectric Power Generation Using Radiative Heat Exchange
p.1125
p.1125
Product Data Management Systems as a Tool in Engineering Change Management
p.1134
p.1134
Modeling Interior Environment of Historical Building and Determination of Critical Places for Application of Nanotextiles Protection
p.1141
p.1141
Augmented Reality Aided Control of Industrial Robots
p.1145
p.1145
Researches on the Chaotic Characteristics of Fluctuating Pressure in Slit-Type Energy Dissipater
p.1150
p.1150
A Study on Proposal of Environmental Assessment Method in Materials and Resource Category of Korea Green Building Certification
p.1160
p.1160
Control Instability Applied to a Micro Electro Mechanical Actuator System (MEMS)
p.1164
p.1164
Advanced Methods of Three Dimensional Data Obtaining for Virtual and Augmented Reality
p.1168
p.1168
Control Instability Applied to a Micro Electro Mechanical Actuator System (MEMS)
Abstract:
MicroElectroMechanical Systems (MEMS) are devices what have been considered the technology of the future, being used in too many areas. MEMS are a combination of microstructures, micro sensors and micro actuators. The purpose of this work is to reduce the chaotic movement of the micro-actuator electrostatic to a small periodic orbit using the linear optimal control technique. The simulation results show that this technical is very effective.
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Info:
Periodical:
Advanced Materials Research (Volumes 1025-1026)
Pages:
1164-1167
Citation:
Online since:
September 2014
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