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DS-OLSR – Disaster Scenario Optimized Link State Routing Protocol

Aliyu, Umar; Takruri, Haifa; Hope, Martin; Halilu, Abubakar Gidado

Authors

Umar Aliyu

Martin Hope

Abubakar Gidado Halilu



Abstract

The success of disaster recovery and rescue operations depends largely on effective communication between rescue teams (RT) and victims. Unfortunately, certain disasters go beyond crippling/impairing communication infrastructures as it equally cripples power grids, which make it impossible for survivors to recharge mobile communication devices. On the other hand, proactive Mobile Ad hoc Networks (MANETs) tend not to scale well in dense networks, thus the number of victims that can connect to the network may not represent the totality of victims in the disaster zone. Therefore, this paper examines MANET's popular Optimized Link State Routing (OLSR) protocol by identifying current energy and overhead challenges and proffering a new pragmatic energy and overhead friendly OLSR protocol called Disaster Scenario Optimized Link State Routing Protocol (DS-OLSR). DS-OLSR introduces the concept of Time Slices (TSs) which confines OLSR messages, and of course ALERT message (a new message type created specifically for DS-OLSR) into their respective TSs. The proposed routing protocol (DS-OLSR) was implemented in NS-3 and compared with OLSRv1. The simulation results indicated DS-OLSR performs better than OLSRv1 as it achieves tremendous energy saving, improved packet delivery, reduced routing overhead in both sparse and dense network simulation scenarios.

Citation

Aliyu, U., Takruri, H., Hope, M., & Halilu, A. G. (2020). DS-OLSR – Disaster Scenario Optimized Link State Routing Protocol. . https://doi.org/10.1109/csndsp49049.2020.9249639

Conference Name 2020 12th International Symposium on Communication Systems, Networks and Digital Signal Processing (CSNDSP)
Conference Location Porto, Portugal
Start Date Jul 20, 2020
End Date Jul 22, 2020
Publication Date Jul 20, 2020
Deposit Date Oct 5, 2023
Publisher Institute of Electrical and Electronics Engineers
DOI https://doi.org/10.1109/csndsp49049.2020.9249639