Title :
Achievable multiplexing gains for wireless PCS with packetized speech
Author_Institution :
Chinese Univ. of Hong Kong, Shatin, Hong Kong
fDate :
28 Nov- 2 Dec 1994
Abstract :
While there have been various proposals to approach the statistical multiplexing limit of 2.35 for packetized speech, the system capacity of wireless PCS under the constraints of maximum packet delay and loss probability has not been determined. The TDMA system is modeled as a ./D/1/K queue where the input process is an superposition of on-off sources. We then describe an imbedded Markov chain approximation and demonstrate its accuracy by simulation. The effects of allowable packet delay and TDMA frame size on system capacity are studied. We show, for example, that for 1% loss probability and maximum delay of two TDMA frame periods, the achievable multiplexing gain is only 2.05 for a 20-slot system. The bounds are useful for establishing limits on any multiple access schemes for different combinations of packet delay and loss constraints
Keywords :
Markov processes; approximation theory; delays; land mobile radio; packet switching; personal communication networks; queueing theory; time division multiple access; voice communication; Markov chain approximation; TDMA frame size; TDMA system; accuracy; input process; loss constraints; maximum loss probability; maximum packet delay; multiple access schemes; multiplexing gains; on-off sources superposition; packet delay constraints; packetized speech; personal communication systems; queue; simulation; statistical multiplexing limit; system capacity; wireless PCS; Circuits; Delay effects; Detectors; Frequency division multiaccess; Multiaccess communication; Multiplexing; Personal communication networks; Probability; Speech; Time division multiple access;
Conference_Titel :
Global Telecommunications Conference, 1994. GLOBECOM '94. Communications: The Global Bridge., IEEE
Conference_Location :
San Francisco, CA
Print_ISBN :
0-7803-1820-X
DOI :
10.1109/GLOCOM.1994.512993
