Learning channel allocation strategies in real time

Author

Franklin, Judy A. ; Smith, Michael D. ; Yun, Jay C.

Author_Institution

GTE Laboratories Inc., Waltham, MA, USA

fYear

1992

fDate

10-13 May 1992

Firstpage

768

Abstract

Preliminary investigations into using connectionist machine learning for dynamic channel allocation in real time are described. The algorithms were implemented on a simple radio testbed. It consists of a channel allocator and two channel requesters. The channel allocator is a computer that communicates via a transceiver. It learns to model the time-dependent behavior of the two channel requesters, and thereby learns to allocate channels dynamically. Channels are requested by two different transceivers run by small processors. The learning criterion is to minimize a cost function of channel use. The results show that models of channel activity can be learned and that controllers can learn to use these models to allocate channels. A comparison indicates that such controllers perform better than a fixed controller that does not learn

Keywords

learning (artificial intelligence); neural nets; real-time systems; telecommunications computer control; transceivers; algorithms; channel activity; channel allocator; channel requesters; connectionist machine learning; controllers; cost function minimisation; dynamic channel allocation; neural networks; processors; radio testbed; real time channel allocation; time-dependent behavior; transceiver; Channel allocation; Communication system control; Cost function; Frequency conversion; Hardware; Laboratories; Machine learning algorithms; Radio spectrum management; Testing; Transceivers;

fLanguage

English

Publisher

ieee

Conference_Titel

Vehicular Technology Conference, 1992, IEEE 42nd

Conference_Location

Denver, CO

ISSN

1090-3038

Print_ISBN

0-7803-0673-2

Type

conf

DOI

10.1109/VETEC.1992.245311

Filename

245311