Abstract
Two efficient heuristic time slot assignment (TSA) algorithms, called the 2-Phase algorithm for the non-hierarchical and the 3-Phase algorithm for the hierarchical TDM switching systems, are proposed. Their time complexities are O(LN/sup 2/) and O(LM/sup 2/) respectively, where L is the frame length, N is the switch size and M is the number of input/output sources connected to a hierarchical TDM switch. The simple idea behind these two algorithms is to schedule the traffic on the critical lines/trunks of a traffic matrix first. Extensive simulations reveal that the two proposed algorithms are very efficient. For non-hierarchical TDM switching systems, P/sub F/ the probability that the 2-Phase algorithm failed to generate optimal TSAs is found to be 3/spl times/10/sup -5/ and independent of switch size. For hierarchical switching systems, the percentage increase in frame length as a result of non-optimal TSA by the 3-Phase algorithm is about 0.1%. That means on the average only one extra time slot is required for a frame of 1000 time slots.
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