Title :
Resource sharing for book-ahead and instantaneous-request calls
Author :
Greenberg, Albert G. ; Srikant, R. ; Whitt, Ward
Author_Institution :
Shannon Lab., AT&T Labs., Florham Park, NJ, USA
fDate :
2/1/1999 12:00:00 AM
Abstract :
In order to provide an adequate quality of service to large-bandwidth calls, such as video conference calls, service providers of integrated services networks may want to allow some customers to book their calls ahead, i.e., make advance reservations. We propose a scheme for sharing resources among book-ahead (BA) calls (that announce their call holding times as well as their call initiation times upon arrival) and non-BA calls (that do not announce their holding times). It is possible to share resources without allowing any calls in progress to be interrupted, but in order to achieve a more efficient use of resources, we think that it may be desirable to occasionally allow a call in progress to be interrupted. (In practice, it may be possible to substitute service degradation, such as bit dropping or coarser encoding of video, for interruption.) Thus, we propose an admission control algorithm in which a call is admitted if an approximate interrupt probability (computed in real time) is below a threshold. Simulation experiments show that the proposed admission control algorithm can be better (i.e., yield higher total utilization or higher revenue) than alternative schemes that do not allow interruption, such as a strict partitioning of resources
Keywords :
approximation theory; probability; quality of service; telecommunication congestion control; telecommunication networks; telecommunication traffic; admission control algorithm; advance reservations; approximate interrupt probability; bit dropping; book-ahead calls; call holding times; call initiation times; holding times; instantaneous-request calls; integrated services networks; large-bandwidth calls; quality of service; resource sharing; revenue; service degradation; service providers; simulation experiments; traffic model; video conference calls; video encoding; Admission control; Books; Call conference; Degradation; Encoding; Intserv networks; Quality of service; Resource management; Video sharing; Videoconference;
Journal_Title :
Networking, IEEE/ACM Transactions on