Different Approximation Algorithms for Channel Scheduling in Wireless Networks

• Main Authors: Qiufen Ni, Chuanhe Huang, Panos M. Pardalos, Jia Ye, Bin Fu
• Format: Article
• Language: English
• Published: Hindawi Limited 2020-01-01
• Series: Mobile Information Systems
• Online Access: http://dx.doi.org/10.1155/2020/8836517
• ISSN: 1574-017X; 1875-905X

We introduce a new two-side approximation method for the channel scheduling problem, which controls the accuracy of approximation in two sides by a pair of parameters f,g. We present a series of simple and practical-for-implementation greedy algorithms which give constant factor approximation in both sides. First, we propose four approximation algorithms for the weighted channel allocation problem: 1. a greedy algorithm for the multichannel with fixed interference radius scheduling problem is proposed and an one side O1-IS-approximation is obtained; 2. a greedy O1,O1-approximation algorithm for single channel with fixed interference radius scheduling problem is presented; 3. we improve the existing algorithm for the multichannel scheduling and show an EOd/ε time 1−ϵ-approximation algorithm; 4. we speed up the polynomial time approximation scheme for single-channel scheduling through merging two algorithms and show a 1−ϵ,O1-approximation algorithm. Next, we study two polynomial time constant factor greedy approximation algorithms for the unweighted channel allocation with variate interference radius. A greedy O1-approximation algorithm for the multichannel scheduling problem and an O1,O1-approximation algorithm for single-channel scheduling problem are developed. At last, we do some experiments to verify the effectiveness of our proposed methods.