Abstract
Quality of service multicast routing is an important research topic in networks. Research has sought to obtain a multicast routing tree at the lowest cost that satisfies bandwidth, delay and delay jitter constraints. Due to its non-deterministic polynomial complete problem, many meta-heuristic algorithms have been adopted to solve this kind of problem. The paper presents a new hybrid algorithm, namely ACO&CM, to solve the problem. The primary innovative point is to combine the solution generation process of ant colony optimization (ACO) algorithm with the Cloud model (CM). Moreover, within the framework structure of the ACO, we embed the cloud model in the ACO algorithm to enhance the performance of the ACO algorithm by adjusting the pheromone trail on the edges. Although a high pheromone trail intensity on some edges may trap into local optimum, the pheromone updating strategy based on the CM is used to search for high-quality areas. In order to avoid the possibility of loop formation, we devise a memory detection search (MDS) strategy, and integrate it into the path construction process. Finally, computational results demonstrate that the hybrid algorithm has advantages of an efficient and excellent performance for the solution quality.
Highlights
At present, with the quick development of networking applications, and the exponentially growing requirement for high speed data transmission in communication networks, realizing network-routing in the field of network and distributed systems has gradually become an important research topic
1, we discover that the hybrid proposed algorithm can yield best conclude that the average cost of multicast tree obtained by ant colony optimization (ACO)&Cloud model (CM) is much less than that by basic
The average improvement gap is 2.78%, and the percentage shows that our proposed ACO&CM algorithm is much better and more efficient than ACO algorithm for the minimum cost objective to solve the quality of service (QoS) multicast routing problem
Summary
With the quick development of networking applications, and the exponentially growing requirement for high speed data transmission in communication networks, realizing network-routing in the field of network and distributed systems has gradually become an important research topic. Implementation of the unicast mode sends the information data from a data source node to a demanding destination. The demand occurs if the source is asked privately by the end-user. This is the most common, one-to-one transmission of unicast on the Internet. Implementations of broadcast and multicast refer to the transmission of the information data from a single source node to many destinations. A unicast system might be too expensive in scenarios when massive end-user destinations exist in the network since each end-user node demands a separate path and a source node, whereas broadcast and multicast modes should be more economical to meet demand. The goal of the multicast routing problem is to seek a tree spanning a source node and destinations
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