MACRO+: a network coding driven integrated MAC/routing protocol for multihop wireless networks
Proceedings of the 1st international conference on MOBILe Wireless MiddleWARE, Operating Systems, and Applications
An Efficient Self Routing Scheme by Using Parent-Child Association for WSNs
ISICA '08 Proceedings of the 3rd International Symposium on Advances in Computation and Intelligence
An improved self routing scheme by using parent-child relationship and beacon-only period for WSNs
International Journal of Information and Communication Technology
GEographic multicast (GEM) for dense wireless networks: protocol design and performance analysis
IEEE/ACM Transactions on Networking (TON)
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Over the past decade, wireless multihop ad hoc networks have received a tremendous amount of research focus, at the core of which lies the design problem for efficient routing algorithms to meet various scenarios and applications. The axiom, "one size doesn't fit all," continues to stand firmly to this day. In light of this, we introduce a new routing design concept - the component approach. We examine existing routing protocols and break them down into smaller building blocks, namely, routing components. The component analysis and classification results show that most routing protocols can be functionally decomposed into several basic routing components. This fact indicates that it is feasible to design a component-based routing (CBR) protocol. With a different realization for each basic routing component, it is expected that the routing behavior of CBR can be tailored to different application profiles and time-varying environment parameters at a reasonable cost