Abstract
Discrete sliding mode control (DSMC) has been investigated since last three decades. It has reached to point wherein a well-established theory as well as implementation reports is available in the literature. Advances in computer communication network with wired and wireless configurations have imposed a challenging problem for control community. The paper explores the utilization of DSMC approach for the admission control (AC) in communication network. To provide better QoS, communication networks require proper admission, congestion traffic, and collision and power control mechanisms. For the past several years, many feedback control methods have been used for the control of various parameters of communication networks. The work presented here proposes a new application of sliding mode control for AC in communication network. Proper AC mechanism may avoid uncertain congestion and traffic access in the network which may reduce power wastage. As computer communication networks deal with digital data and are inherently discrete in nature, the DSMC has been applied to discrete time system. AC mechanism restricts the number of users in the network to maintain better QoS by considering available bandwidth, congestion indicator, and buffer size as feedback.
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Acknowledgments
Author would like to acknowledge Sophisticated Instrumentation Centre for Applied Research and Testing (SICART), Vallabh Vidyanagar, Gujarat, and ECE Department, A.D. Patel Institute of Technology, new Vallabh Vidyanagar where this work has been carried out. Author would also like to thank reference no. 6 and 10 from which mathematical parameters have been used for simulation.
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Joshi, R.C., Thakar, V.K. (2015). Admission Control in Communication Networks Using Discrete Time Sliding Mode Control. In: Vijay, V., Yadav, S., Adhikari, B., Seshadri, H., Fulwani, D. (eds) Systems Thinking Approach for Social Problems. Lecture Notes in Electrical Engineering, vol 327. Springer, New Delhi. https://doi.org/10.1007/978-81-322-2141-8_34
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DOI: https://doi.org/10.1007/978-81-322-2141-8_34
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