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“Vehicle-to-grid” (V2G) power will be a new green energy scheme in which electric or plug-in hybrid vehicles communicate with the smart grid to sell demand response services by either delivering electricity into the grid or by throttling their charging rate. Due to high vehicular speed, sporadic connection, limited communication range, and(More)
Vehicular Ad-hoc Network (VANET) is an emerging new technology to enable communications among vehicles and nearby roadside infrastructures to provide intelligent transportation applications. In order to provide stable connections between vehicles, a reliable routing protocol is needed. Currently, there are several routing protocols designed for MANETs could(More)
"Vehicle to Grid" power or V2G will be a new green energy scheme that allows electricity to flow from Electric Vehicles (EVs) to power lines. The objective of this paper is to design and develop a secure wireless communication platform for V2G research, with the aim to develop a suitable wireless test bed for the V2G in Singapore. First, this paper presents(More)
The rise in the number of vehicles on the streets today has led to an increasing need for traffic safety on roads. The emerging vehicular ad hoc networks (VANETs) are fast becoming a reality and will enable a variety of applications for safety, traffic efficiency, driver assistance, as well as infotainment. In order to provide stable communication linkages(More)
The emerging vehicular networks in the forms of intra-car, car-to-car, and car-to-infrastructure communications will enable a variety of applications for safety, traffic efficiency, driver assistance, as well as infotainment to be incorporated into future automotive designs. However, the availability of these exciting automotive applications can also lead(More)
Vehicular networks are gaining popularity because vehicularcommunications are able to help minimize accidents, improvetraffic conditions and provide infotainment services. Security and privacy are important challenges in the deployment of vehicular networks. Authentication, key exchange and pseudonym delivery protocols can be used to provide security and(More)
The emerging vehicular communications will enable a variety of applications for safety, traffic efficiency, driver assistance and infotainment. Due to high vehicular speed, sporadic connection, limited communication range, and large volume of data that need to be transmitted, vehicular communications have the stringent requirement of real-time vehicular(More)
Efficient communications among computers participating in Peer-to-Peer (P2P) computing remains a problem when they are geographically distributed across multiple network domains. In this paper, we propose DINCast to support group communications required in P2P computing. DINCast is built on top of an existing P2P multicast tree and results in a hop(More)
The emerging vehicular networks will enable a variety of applications for safety, traffic efficiency and driver assistance. However, the highly dynamic connectivity between vehicles makes the vehicular ad-hoc communication especially challenging. Networked Electronic Control Units (ECUs) are increasingly being deployed in automobiles to realize various(More)
Networked Electronic Control Units (ECUs) are increasingly being deployed in automobiles to realize various functions and Controller Area Network (CAN) is deployed for the communications among ECUs. Our primary objective is to build both hardware and software that interface and communicate directly with CAN network and extract CAN messages for reliable car(More)