Abstract
It has been discussed in the literature that the medium-access control (MAC) protocols, which schedule periodic sleep-active states of sensor nodes, can increase the longevity of sensor networks. However, these protocols suffer from very low end-to-end throughput and increased end-to-end packet delay. How to design an energy-efficient MAC protocol that greatly minimizes the packet delay while maximizing the achievable data delivery rate, however, remains unanswered. In this paper, motivated by the many-to-one multihop traffic pattern of sensor networks and the heterogeneity in required data packet rates of different events, we propose an aggregated traffic flow weight controlled hierarchical MAC protocol (ATW-HMAC). We find that ATW-HMAC significantly decreases the packet losses due to collisions and buffer drops (i.e., mitigates the congestion), which helps to improve network throughput, energy efficiency, and end-to-end packet delay. ATW-HMAC is designed to work with both single-path and multipath routing. Our analytical analysis shows that ATW-HMAC provides weighted fair rate allocation and energy efficiency. The results of our extensive simulation, done in ns-2.30, show that ATW-HMAC outperforms S-MAC; traffic-adaptive medium access; and SC-HMAC.
Original language | English |
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Pages (from-to) | 705-721 |
Number of pages | 17 |
Journal | Annales des Telecommunications/Annals of Telecommunications |
Volume | 64 |
Issue number | 11-12 |
DOIs | |
Publication status | Published - Dec 2009 |
Bibliographical note
Funding Information:Acknowledgements The authors thank the anonymous reviewers for their thoughtful comments and suggestions that helped to clarify this work’s presentation. This research was supported by the MKE, Korea, under the ITRC support program supervised by the IITA (IITA-2009-(C1090-0902-0002)). Dr. C. S. Hong is the corresponding author.
Keywords
- Energy efficiency
- Medium-access control
- Multipath routing
- Weighted fair rate allocation
- Wireless sensor network