Title :
Optimal control for dynamic bandwidth allocation in communication networks: a neural approach
Author :
Maryni, Piergiulio ; Parisini, Thomas
Author_Institution :
Dept. of Commun., Comput. & Syst. Sci., Genoa Univ., Italy
Abstract :
In an access node to a hybrid-switching network (e.g. a base station handling the downlink in a cellular wireless network), the output link bandwidth is dynamically shared between isochronous (guaranteed bandwidth) and asynchronous traffic types. The bandwidth allocation is effected by an admission controller, whose goal is to minimize the refusal rate of connection requests as well as the loss probability of packets queued in a finite buffer. Optimal admission control strategies are approximated by means of backpropagation feedforward neural networks, acting on the embedded Markov chain of the connection dynamics. The case of unknown, slowly varying, input rates is explicitly considered. Numerical results are presented, comparing the approximation with the optimal solution obtained by dynamic programming, showing the effectiveness of the proposed methodology
Keywords :
Markov processes; backpropagation; feedforward neural nets; optimal control; telecommunication congestion control; access node; admission controller; asynchronous traffic; backpropagation feedforward neural networks; communication networks; dynamic bandwidth allocation; dynamic programming; embedded Markov chain; hybrid-switching network; isochronous traffic; loss probability; neural approach; optimal control; refusal rate; Bandwidth; Base stations; Cellular networks; Channel allocation; Communication system control; Communication system traffic control; Downlink; Optimal control; Traffic control; Wireless networks;
Conference_Titel :
Intelligent Control, 1996., Proceedings of the 1996 IEEE International Symposium on
Conference_Location :
Dearborn, MI
Print_ISBN :
0-7803-2978-3
DOI :
10.1109/ISIC.1996.556192
