Abstract
The broadcast scheduling is of fundamental importance and practical concern for ad hoc network performance measures such as the communication delay and the throughput. The scheduling problem on hand involves determination of a collision-free broadcast schedule with the minimum length TDMA frame and the maximum slot utilization by efficient distribution of slots among stations. The problem is widely known as NP-complete, and diverse heuristic algorithms were reported to solve this problem recently. The intractable nature of the broadcast scheduling problem and its importance in ad hoc TDMA networks necessitates development of more efficient heuristic algorithms. In this paper, we developed a new heuristic approach which employs a tight lower bound derived from the maximal incompatibles and generates a search space from the set of maximal compatibles. The developed algorithm is very efficient and effective in conquering the intractable nature of the broadcast scheduling problem in the sense that it explores complex solution space in smaller CPU time. A comparison with existing techniques for the test examples reported in the literature shows that our algorithm achieves a collision-free broadcast with minimum frame length and the maximum slot utilization in relatively shorter time.
Highlights
Ad hoc networks have attracted a lot of attention in the recent years because of their flexible structure and useful applications in areas such as mobile commerce, combat search, and rescue, to name a few
The broadcast scheduling problem in ad hoc networks involves the determination of a collision-free broadcast schedule with the minimum length Time division multiple access (TDMA) frame and the way to distribute the slots among stations for maximum slot utilization
A new heuristic algorithm based on concepts from the field of finite state machine synthesis [19, 20] is presented for the broadcast scheduling problem which determines the minimum frame length with the maximum slot utilization
Summary
Ad hoc networks have attracted a lot of attention in the recent years because of their flexible structure and useful applications in areas such as mobile commerce, combat search, and rescue, to name a few. It should be ensured that all the stations must be allocated at least one time slot in every TDMA frame This is one Journal of Computer Systems, Networks, and Communications of the constraints of scheduling problem and the other being the collision-free transmission. The broadcast scheduling problem in ad hoc networks involves the determination of a collision-free broadcast schedule with the minimum length TDMA frame and the way to distribute the slots among stations for maximum slot utilization. A new heuristic algorithm based on concepts from the field of finite state machine synthesis [19, 20] is presented for the broadcast scheduling problem which determines the minimum frame length with the maximum slot utilization.
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