Title :
Robust Measurement-Based Admission Control Using Markov´s Theory of Canonical Distributions
Author :
Pandit, Charuhas ; Meyn, Sean
Author_Institution :
Morgan Stanley & Co, New York, NY
Abstract :
This paper presents models, algorithms and analysis for measurement-based admission control in network applications in which there is high uncertainty concerning source statistics. In the process it extends and unifies several recent approaches to admission control. A new class of algorithms is introduced based on results concerning Markov´s canonical distributions. In addition, a new model is developed for the evolution of the number of flows in the admission control system. Performance evaluation is done through both analysis and simulation. Results show that the proposed algorithms minimize buffer-overflow probability among the class of all moment-consistent algorithms
Keywords :
Internet; Markov processes; statistical distributions; telecommunication congestion control; Markov canonical distribution; buffer-overflow probability; measurement-based admission control; moment-consistent algorithm; network application; source statistics; Admission control; Algorithm design and analysis; Analytical models; Computational modeling; Particle measurements; Performance analysis; Quality of service; Robust control; Statistical analysis; Statistical distributions; Canonical distributions; measurement-based admission control; robust estimation; worst case source models;
Journal_Title :
Information Theory, IEEE Transactions on
DOI :
10.1109/TIT.2006.881757
