A New Approach for DSRC Architecture for Vehicular Safety and Non Safety Applications
Abstract
A Flexible Dedicated Short Distance Communication “DSRC” protocol is discussed in this paper which is for intelligent transportation system. The DSRC modules are based on IEEE 802.11p which is a standard for VANET (Vehicular AD-Hoc network). The architecture is designed such that it can adopt other encoding and modulation techniques, therefore, it is a flexible. DSRC is a multi-layered architecture. DSRC is used for vehicular safety and non-safety applications. A different methodology for MAC (Medium Access control) is used in this architecture which has set of service values which are used to communicate with other vehicles and infrastructures. This architecture provides full duplex communication between vehicles for safety applications and vehicle to infrastructure for various set of non-safety applications. The layers considered are designed with the help of ISE (Integrated Software Environment) design suite and the results are simulated and verified with expected outputs in ISim.
Full Text:
PDFReferences
Christian Cseh. Architecture of the dedicated short range communication (DSRC) protocol. IEEE VTC. 98.
Hiro Onishi, Fumio Watanabe, Fanny Mlinarsky, Carlos Velasquez. DSRC performance assessment for crash warning applications. IEEE Conference on Connected Vehicles and Expo.
Nabih Jaber, Kazi Atiqur Rahman, Esam Abdel-Raheem, Kemal E. Tepe. Quantitative analysis of improved DSRC system using repitition based broadcast safety messaging with hidden terminals. IEEE.
Yu-Hsuan Lee, Cheng-Wei Pan. Fully resused VLSI architecture of FM0/manchester encoding using SOLS technique for DSRC applications. IEEE Transactions On Very Large Scale Integration (Vlsi) Systems.2015; 23(1).
N. Fernando B. Bautista, Joel Joseph S. Marciano Jr. Enhanced FM0 decoder for UHF passive RFID readers using duty cycle estimations.IEEE International Conference on RFID-Technologies and Applications.
Markarian G., Honary B., King D., Kissaka M. Integrated circuit design and implementation for a new optimum manchester decoder.IEEE.
Refbacks
- There are currently no refbacks.