Title :
Convergence of synchronous and asynchronous greedy algorithms in a multiclass telecommunications environment
Author :
Zhang, Zhensheng ; Douligeris, Christos
Author_Institution :
Center for Telecommun. Res., Columbia Univ., New York, NY, USA
fDate :
8/1/1992 12:00:00 AM
Abstract :
The Nash equilibrium point for optimum flow control in a noncooperative multiclass environment is studied. Convergence properties of synchronous and asynchronous greedy algorithms are investigated in the case where several users compete for the resources of a single queue using power as their performance criterion. A proof of the convergence of a synchronous greedy algorithm for the n users case is given, and the necessary and sufficient conditions for the convergence of asynchronous greedy algorithms are obtained. Another important contribution is the introduction to the literature and the extension of a not very widely known theorem for the convergence of Gauss-Seidel algorithms in the linear systems theory
Keywords :
convergence of numerical methods; queueing theory; telecommunication networks; Gauss-Seidel algorithms; Nash equilibrium point; asynchronous greedy algorithms; convergence; multiclass telecommunications environment; noncooperative multiclass environment; optimum flow control; single queue; synchronous greedy algorithm; Convergence; Delay; Equations; Gaussian processes; Greedy algorithms; Iterative algorithms; Linear systems; Nash equilibrium; Telecommunication control; Throughput;
Journal_Title :
Communications, IEEE Transactions on
