Title :
Dynamic priority protocols for packet voice
Author :
Chen, Thomas M. ; Walrand, Jean ; Messerschmitt, David G.
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., California Univ., Berkeley, CA, USA
fDate :
6/1/1989 12:00:00 AM
Abstract :
Since the reconstruction of continuous speech from voice packets is complicated by the variable delays of the packets through the network, a dynamic priority protocol is proposed to minimize the variability of packet delays. The protocol allows the priority of a packet to vary with time. After a discussion of the concept of dynamic priorities, two examples of dynamic priorities are studied through queueing analysis and simulations. Optimal properties of the oldest customer first (OCF) and earliest deadline first (EDF) disciplines are proven, suggesting that they may be theoretically effective in reducing the variability of packet delays. Simulation results of the OCF discipline indicate that the OCF discipline is most effective under conditions of long routes and heavy traffic, i.e., the conditions when delay variability is most likely to be significant. Under OCF, the delays of packets along long routes are improved at the expense of packets along short routes. It is noted that more complex and realistic simulations, including simulations of the EDF discipline, are needed
Keywords :
ISDN; packet switching; protocols; queueing theory; voice communication; EDF discipline; ISDN; OCF discipline; continuous speech reconstruction; delay variability; dynamic priority protocol; earliest deadline first; heavy traffic; long routes; oldest customer first; packet delays; packet voice communication; queueing analysis; short routes; simulations; voice packets; Analytical models; Circuit simulation; Delay; ISDN; Packet switching; Protocols; Queueing analysis; Speech; Telephony; Traffic control;
Journal_Title :
Selected Areas in Communications, IEEE Journal on
