Physical layer driven protocol and algorithm design for energy-efficient wireless sensor networks
Proceedings of the 7th annual international conference on Mobile computing and networking
Dynamic Power Management in Wireless Sensor Networks
IEEE Design & Test
Simulation of large ad hoc networks
MSWIM '03 Proceedings of the 6th ACM international workshop on Modeling analysis and simulation of wireless and mobile systems
Design Considerations for Ultra-Low Energy Wireless Microsensor Nodes
IEEE Transactions on Computers
Ad hoc on-demand multipath distance vector routing: Research Articles
Wireless Communications & Mobile Computing - Wireless Ad Hoc Networks: Technologies and Challenges
Journal of Network and Computer Applications
AHS '08 Proceedings of the 2008 NASA/ESA Conference on Adaptive Hardware and Systems
Joint range assignment and routing to conserve energy in wireless ad hoc networks
Computer Networks: The International Journal of Computer and Telecommunications Networking
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Energy-efficient is a challenging issue in Wireless Sensor Network, which is a promising technology being widely used in the planetary exploration. Considering the rechargeable solar batteries equipped in the planetary surface sensor system, this paper presents a novel and special dual-mode energy-driven (DMED) routing protocol for the planetary exploration. According to the charging and sleeping states of the solar battery, the dual modes (i.e. day mode and night mode) of the node are obtained. Differential theory is adopted in the DMED weighted average of reciprocals consultation mechanism to choose the optimal value of $$p$$ which can be adjusted dynamically under dual modes. The experimental results indicate that DMED is superior to ad hoc on-demand distance vector in the performance of energy balancing, and it prolongs the network lifetime effectively. The research of this work is benefit to the planetary exploration, and the research results provide reference value to the special routing protocol design.