Title :
Mutual decentralized synchronization for intervehicle communications
Author :
Sourour, Essam ; Nakagawa, Masao
Author_Institution :
Ericsson Inc., Research Triangle Park, NC, USA
fDate :
11/1/1999 12:00:00 AM
Abstract :
Data exchange among vehicles can improve road safety and capacity. Most of the proposed intervehicle data communication systems require intervehicle synchronization. Synchronization must be done in a decentralized manner. We propose a new mutual decentralized synchronization system. Using a devoted carrier frequency, each vehicle transmits a continuous periodic train of pulses. The aim of the synchronization system is to make these periodic pulses synchronous to indicate the start of data slots in slotted ALOHA types of media access protocol. Each vehicle measures the power of pulses of other vehicles as well as the time difference between other pulses and its own pulse. Using this information, each vehicle shifts its own pulse transmission time toward a weighted average of other pulse transmission times. Eventually, all periodic pulse trains are synchronized. The system performance is evaluated in nonfading and fading channels
Keywords :
AWGN channels; Rician channels; access protocols; automated highways; data communication; fading channels; microcellular radio; multipath channels; packet radio networks; road vehicles; safety; synchronisation; AWGN channel; IVHS; Rician multipath fading channel; carrier frequency; data exchange; fading channels; intelligent vehicle highway system; intervehicle data communication systems; intervehicle synchronization; media access protocol; microcellular system base stations; mutual decentralized synchronization system; nonfading channels; packet communications; periodic pulse trains; periodic pulse transmission; pulse power measurement; pulse transmission time; road capacity; road safety; slotted ALOHA; system performance; time difference; weighted average; Data communication; Frequency synchronization; Media Access Protocol; Power measurement; Pulse measurements; Road safety; Road vehicles; System performance; Time measurement; Vehicle safety;
Journal_Title :
Vehicular Technology, IEEE Transactions on
