A new paradigm for trusted systems
NSPW '92-93 Proceedings on the 1992-1993 workshop on New security paradigms
The right type of trust for distributed systems
NSPW '96 Proceedings of the 1996 workshop on New security paradigms
Incremental Trust in Grid Computing
CCGRID '07 Proceedings of the Seventh IEEE International Symposium on Cluster Computing and the Grid
An energy and trust-aware routing protocol for large wireless sensor networks
AIC'09 Proceedings of the 9th WSEAS international conference on Applied informatics and communications
Cognitive radio based hierarchical communications infrastructure for smart grid
IEEE Network: The Magazine of Global Internetworking
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Smart Grid is the trend of next generation electrical power system which makes the power grid intelligent and energy efficient. It requires high level of network reliability to support two-way communication among electrical services, electrical units such as smart meters, and applications. The wireless mesh network infrastructure can provide redundant routes for the smart grid communication network to ensure the network availability. Also due to its high level of flexibility and scalability features that make it become a promising solution for smart grid. However, wireless mesh network infrastructure are vulnerable to some cyber attacks which need to be addressed. In this paper, we proposed and implemented a new trust-based geographical routing protocol, named as Dynamic Trust Elective Geo Routing (DTEGR), which use the trust factor with a dynamic threshold value to generate a trust forwarding list, then it uses distance factor as routing metric to decide the next hop from the trust forwarding list. The simulation studies have confirmed our new DTEGR algorithm able to achieve better routing performance in different network scenarios, and also to achieve high level of reliable data transmission in smart grid communication network.