Title of article :
Reference Tracking of Nonlinear Dynamic Systems over Additive White Gaussian Noise Channel
Author/Authors :
Dolatkhah Takloo ، Somayeh Faculty of Eelectrical Eengineering - K. N. Toosi University of Technology , Farhadi ، Alireza Department of Electrical Engineering - Sharif University of Technology , KHaki sedigh ، Ali Faculty of electrical engineering - K. N. Toosi University of Technology
From page :
359
To page :
368
Abstract :
This paper is concerned with state tracking as well as reference tracking of nonlinear dynamic systems with process and measurement noise over the Additive White Gaussian Noise (AWGN) channel which is subject to transmission noise and transmission power constraints. The AWGN channel is a continuous alphabet channel. Therefore, this channel is very suitable for controlling dynamic systems over wireless communication links. To address these problems, a novel encoder, decoder, and controller are proposed. This method compensates for communication imperfections and maintains real-time reference tracking at the end of the communication link. For identifying the time of linearization in the encoder and decoder, Monte-Carlo approximation is applied. Using the Monte Carlo approximator provides a possible approximation of the estimation error in the encoder and decoder at the same time. The linearization method is based on the variable (optimal) linearization rate. A proper encoder, decoder, and controller for real-time state estimation and reference tracking are proposed. The nonlinear dynamic system which was considered in this paper has process and measurement noises. Simulation results illustrate the satisfactory state tracking and reference tracking performances of the proposed technique; while the variable linearization technique is used.
Keywords :
Autonomous vehicle , telepresence , teleoperation , AWGN channel , the extended Kalman filter , Monte , Carlo approximation
Journal title :
AUT Journal of Modeling and Simulation
Journal title :
AUT Journal of Modeling and Simulation
Record number :
2769684
Link To Document :
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