Author_Institution :
AT&T Bell Lab., Murray Hill, NJ, USA
Abstract :
The basic mechanism of sliding windows for the congestion control of virtual circuits is examined. A problem concerning the optimal design of windows is formulated and formulas for basic quantities of interest, such as throughput, delay and moments of packet queues, in the optimal operating regime as well as in other regimes, are obtained. All results are asymptotic, in which the main parameter is λ, the delay-bandwidth product. It is shown that K*~λ+O(√λ), where K* is the optimum window size. Also, in the optimal operating regime, the steady-state mean and standard deviation of the queued packets at individual nodes O(√/λ). The design consequences are examined in the contexts of adaptive dynamic windowing, buffer sizing, and shared versus separate buffers in the case of multiple virtual circuits
Keywords :
data communication systems; queueing theory; telecommunications control; adaptive dynamic windowing; asymptotic optimal design; buffer sizing; congestion control; delay-bandwidth product; high speed data networks; multiple virtual circuits; optimum window size; packet queue moments; sliding windows; standard deviation; steady-state mean; throughput; Circuits; Helium; Optimal control; Physics computing; Propagation delay; Sliding mode control; Statistics; Steady-state; Throughput; Traffic control;
