Performance measurement and data base design
Alfonso P. Cardenas, Larry F. Bowman, et al.
ACM Annual Conference 1975
In this paper, we provide simple techniques for estimating the end-to-end jitter incurred by a periodic traffic in an asynchronous transfer mode (ATM) network. Our analysis is based on the careful examination of light and heavy traffic behavior of jitter incurred to a tagged renewal stream in a single node. Our results indicate that, in the heavy traffic as the number of nodes increases, the jitter distribution approaches to a limiting distribution which only depends on the behavior of the background traffic. We provide the functional equation satisfying this limit which bounds the moments of the jitter for arbitrary level of traffic. A simple approximation method based on the heavy and light traffic analysis of the jitter process is also provided and the results is supported by extensive simulation. © 1997 IEEE.
Alfonso P. Cardenas, Larry F. Bowman, et al.
ACM Annual Conference 1975
A. Gupta, R. Gross, et al.
SPIE Advances in Semiconductors and Superconductors 1990
Ohad Shamir, Sivan Sabato, et al.
Theoretical Computer Science
Maurice Hanan, Peter K. Wolff, et al.
DAC 1976