Adaptive protocols for information dissemination in wireless sensor networks
MobiCom '99 Proceedings of the 5th annual ACM/IEEE international conference on Mobile computing and networking
Wireless integrated network sensors
Communications of the ACM
Minimum energy paths for reliable communication in multi-hop wireless networks
Proceedings of the 3rd ACM international symposium on Mobile ad hoc networking & computing
A taxonomy of wireless micro-sensor network models
ACM SIGMOBILE Mobile Computing and Communications Review
Mobile and wireless networks: services, evolution and issues
International Journal of Mobile Communications
Using wireless technologies in healthcare
International Journal of Mobile Communications
Emergency preparation and mobile notification through cluster computing
International Journal of Mobile Communications
Security model for Intra-Domain Mobility Management Protocol
International Journal of Mobile Communications
Maximum battery life routing to support ubiquitous mobile computing in wireless ad hoc networks
IEEE Communications Magazine
IEEE Communications Magazine
Link longevity and mobility in self-dependent multi-hop mobile environments
International Journal of Mobile Communications
A realistic mobility model for wireless networks of scale-free node connectivity
International Journal of Mobile Communications
| Hi-index | 0.00 |
In this paper, we introduce a new routing scheme for mobile ad hoc sensor networks, which effectively transports the information from source to sink by curbing the energy requirements, both at node and system level. The proposed approach, termed as Reliable Multipath-Information Dissemination via Label Forwarding (RM-IDLF), is both resource awareness and data centric. We integrate the power economics by using the local information within a sensor cloud and coordinating with the neighbouring nodes to disseminate the information. The nodes carrying the information over the decentralised network use metadata descriptors in the form of 'label', which communicates with other nodes. Actual information is then seeped through the path generated by trading labels. We study the performance of RM-IDLF for different node densities under faulty nodes to study the reliability and compare it with the current data dissemination routing schemes. We evaluate RM-IDLF over a C++ simulator. The experimental analyses show that we can save significant amount of energy as compared to the prior methods.