Patent ID: 9020741
Filing Date: 2015-04-28
Classification: G08G

Abstract:
1. A driving support system comprising: a UHF (Ultra High Frequency) roadside apparatus and an in-vehicle unit mounted in a vehicle, wherein the UHF roadside apparatus includes, a UHF transmission part which transmits traffic information for a circular region centering on the UHF roadside apparatus, traffic information for a first doughnut-shaped region surrounding the circular region, and traffic information for a second doughnut-shaped region surrounding the first doughnut-shaped region, in a time-division manner using UHF waves having the same frequency, and wherein the in-vehicle unit mounted in the vehicle includes, a UHF reception part which receives the UHF waves transmitted by the UHF roadside apparatus, a position specifying part which specifies a position of the vehicle, a region specifying part which specifies a vehicle region where the vehicle is located, of the circular region and the first doughnut-shaped region and the second doughnut-shaped region, based on the position of the vehicle specified by the position specifying part, a UHF selection part which selects, of the UHF waves received by the UHF reception part, a UHF wave received during a time assigned to the vehicle region specified by the region specifying part, and a traffic information acquiring part which acquires traffic information from the UHF wave selected by the UHF selection part, wherein the UHF transmission part of the UHF roadside apparatus, for each transmission cycle where the traffic information for the circular region, the first doughnut-shaped region, and the second doughnut-shaped region are respectively transmitted, assigns to the circular region a time allocation within the transmission cycle which is longer than each of the time allocations respectively assigned to the second doughnut-shaped region and the first doughnut-shaped region, and transmits the traffic information for the respective regions in a time-division manner using the UHF waves having the same frequency.