Title :
Near-optimum control of multiple-access collision channels
Author :
Paris, Bernd-Peter ; Aazhang, Behnaam
fDate :
8/1/1992 12:00:00 AM
Abstract :
A method based on recursive computation of the expected number of attempts and successes during the collision resolution phase of an access control algorithm is introduced for the design of near-optimum control strategies for multiple access collision channels with ternary and binary feedback. With this approach it is possible to circumvent the extremely difficult and still unsolved problem of finding the access control algorithm which achieves the highest throughput by settling for a near-optimum solution. The key to the design of the algorithms is to approximate the originally infinite-dimensional optimization problem by a one-dimensional optimization problem. In the ternary feedback case, the proposed algorithm achieves a throughput virtually identical to the highest throughput reported. Several forms of binary feedback are considered, and algorithms are introduced that achieve the highest throughput reported
Keywords :
feedback; multi-access systems; optimal control; telecommunication channels; telecommunications control; access control algorithm; binary feedback; collision resolution phase; multiple-access collision channels; near-optimum control; one-dimensional optimization problem; recursive computation; ternary feedback; throughput; Access control; Algorithm design and analysis; Communication networks; Communication system control; Communications Society; Computer science education; Control engineering education; Design optimization; Feedback; Throughput;
Journal_Title :
Communications, IEEE Transactions on
