BDFS: A Real-Time Search Algorithm for Central Office (CO) Optimization

Central office (CO) maintenance is becoming a major overhead for backbone service providers. Trunk to switch assignment (TSA) problem is seen as a crucial problem in maintenance of a central office. In this paper we formulate the TSA problem as a set partitioning problem and present an efficient heu...

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Bibliographic Details
Main Authors: Sethuraman Janardhanan, Ambuj Mahanti, Debashis Saha, Sadhukhan, S.K.
Format: Conference Proceeding
Language:English
Subjects:
Asynchronous transfer mode
Capacity planning
Central office
Communication networks
Communication switching
Heuristic algorithms
Multiprotocol label switching
Optical switches
Partitioning algorithms
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Summary:Central office (CO) maintenance is becoming a major overhead for backbone service providers. Trunk to switch assignment (TSA) problem is seen as a crucial problem in maintenance of a central office. In this paper we formulate the TSA problem as a set partitioning problem and present an efficient heuristic search algorithm BDFS (block depth first search) for minimizing switching overhead in central offices. To guide this algorithm, we have developed a new lower bound function, based on relaxation of the problem of merging external trunks into switches. We used the lower bound admissible heuristic (H-III) along with the proposed technique to solve this problem. While comparing the performance of BDFS, we have found that BDFS outperforms IDA* on various performance metrics. We have also suggested a real-time version of BDFS algorithm that gives high quality sub-optimal or optimal solution with a user specified time. Real-time BDFS gives optimal solution within 50-60% of the total execution time for most of the problem instances. The real-time BDFS can be used to optimize the existing configurations with minimal changes and can also help service providers in taking quick decisions before making a detailed study regarding planning requirements
ISSN:2572-6862
DOI:10.1109/HICSS.2007.104