Traffic information management system

Abstract

A management center analyzes probe information uploaded from an in-vehicle terminal mounted in each of multiple probe cars to thereby generate road traffic information allowing specification of a unit road segment in a congested state. The generated road traffic information is transmitted via a broadcasting station and terrestrial digital broadcasting. Each in-vehicle terminal includes a navigation device. The navigation device determines traffic congestion state relative to multiple unit road segments successively in accordance to traveling of the relevant probe car. Only when confirming a predetermined difference relative to each unit road segment between the determined traffic congestion state and the traffic congestion state indicated in the road traffic information received from the management center, the navigation device uploads to the management center the probe information collected with respect to the corresponding unit road segment by using a mobile communications terminal.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

The above and other objects, features, and advantages of the present invention will become more apparent from the following detailed description made with reference to the accompanying drawings. In the drawings:

FIG. 1 is a functional block diagram illustrating an overall structure of a system of an embodiment according to the present invention;

FIGS. 2, 3, and 4 are flowchart diagrams illustrating operations in a navigation device; and

FIGS. 5 and 6 are flowchart diagrams illustrating operations in a management center.

Claims

1. A traffic information management system comprising: a plurality of probe cars, each probe car having an in-vehicle terminal for collecting probe information including a current position and a speed of the each probe car, the in-vehicle terminal including a transmitter configured to upload the collected probe information anda receiver configured to receive information broadcasted by a broadcasting system; anda center configured to communicate with the each probe car to receive the probe information transmitted from the in-vehicle terminal of the each probe car,generate road traffic information for specifying a road state by analyzing the received probe information, andtransmit the generated road traffic information to the each probe car via the broadcasting system,wherein the in-vehicle terminal further includes a determining unit configured to determine a road state, with respect to each unit road segment included in a plurality of unit road segments traveled by the each probe car, successively in accordance with traveling of the each probe car, anda communications control unit configured to allow the transmitter to transmit, to the center, probe information collected in the each unit road segment, only when a predetermined difference is present in the each unit road segment between (i) the determined road state and (ii) a road state indicated by the traffic information, which is received by the receiver via the broadcasting system.

2. The traffic management system of claim 1, wherein the center generates, as the road traffic information, amendment travel information used for amending at least one of a travel speed and a travel time in a unit road segment in a congested state,the in-vehicle terminal includes a storage unit for storing, with respect to the each unit road segment, first segment travel data indicating at least one of an average travel speed and an average travel time,the determining unit estimates a travel speed in the unit road segment in the congested state based on the stored first segment travel data and the received amendment travel information, andthe communications control unit allows the transmitter to transmit probe information with respect to the unit road segment in the congested state to the center only when a difference exceeding a predetermined threshold value is present between (i) the estimated travel speed and (ii) an actual travel speed undergone by the vehicle.

3. The traffic management system of claim 2, further comprising: a short range communications system provided in each of a plurality of local service stations for performing a short range data communications with the in-vehicle terminal, whereinthe in-vehicle terminal successively accumulates, with respect to each unit road segment undergone by the each probe car, travel record information including (i) information specifying the each unit road segment and (ii) a travel speed undergone by the each probe car,the center collects the travel record information via the short range communications system and statistically processes the collected travel record information to compute and store second segment travel data indicating at least one of an average travel speed and an average travel time with respect to each unit road segment, andthe first segment travel data stored in the storage unit in the in-vehicle terminal is constructed by transporting as needed the second segment travel data stored in the center.

4. The traffic management system of claim 1, wherein the communications control unit allows the transmitter to transmit, to the center, probe information to the center only when a difference at a border between adjacent unit road segments is present in road states determined by the determining unit.

5. A traffic information management system comprising: a plurality of probe cars, each probe car having an in-vehicle terminal for collecting probe information including a current position and a speed of the each probe car;a center configured to collect the probe information from the probe cars,generate road traffic information for specifying a road state by analyzing the collected probe information, andprovide the road traffic information to the probe cars;a first wireless data communications system for performing a data communications between the in-vehicle terminal and the center using a cell phone network; anda second wireless data communications system for performing a data communications from the center to the in-vehicle terminal using a broadcasting means, via which the in-vehicle terminal receives the road traffic information from the center, whereinthe in-vehicle terminal further includes a determining unit configured to determine a road state, with respect to each unit road segment included in a plurality of unit road segments traveled by the each probe car, successively in accordance with traveling of the each probe car, anda communications control unit configured to allow the first wireless data communications system to transmit, to the center, probe information collected in the each unit road segment, only when a predetermined difference is present in the each unit road segment between (i) the determined road state and (ii) a road state indicated by the traffic information received from the center.

6. The traffic management system of claim 5, wherein the center generates, as the road traffic information, amendment travel information used for amending at least one of a travel speed and a travel time in a unit road segment in a congested state,the in-vehicle terminal includes a storage unit for storing, with respect to the each unit road segment, first segment travel data indicating at least one of an average travel speed and an average travel time,the determining unit estimates a travel speed in the unit road segment in the congested state based on the stored first segment travel data and the received amendment travel information, andthe communications control unit allows the first wireless data communications system to transmit probe information with respect to the unit road segment in the congested state to the center only when a difference exceeding a predetermined threshold value is present between (i) the estimated travel speed and (ii) an actual travel speed undergone by the vehicle.

7. The traffic information management system of claim 5, further comprising: a third wireless data communications system for performing a data communications between the in-vehicle terminal and the center using a plurality of short range communications stations for performing a short range data communications with the in-vehicle terminal, whereinthe in-vehicle terminal successively accumulates, with respect to each unit road segment undergone by the each probe car, travel record information including (i) information specifying the each unit road segment and (ii) a travel speed undergone by the each probe car,the center collects the travel record information via the short range communications stations and statistically processes the collected travel record information from the plurality of probe cars to compute and store segment travel data indicating at least one of an average travel speed and an average travel time with respect to each unit road segment, andthe segment travel data stored in the center are transported and stored to the in-vehicle terminal via at least one of (i) the third wireless data communications system and (ii) another data communications system excluding the first, the second, and the third wireless data communications systems.

8. The traffic information management system of claim 5, wherein the first wireless data communications system is used in a real-time basis.

9. The traffic information management system of claim 5, wherein the second wireless data communications system is used in a real-time basis.

10. The traffic information management system of claim 7, wherein the third wireless data communications system is used in a batch-wise basis.

11. The traffic information management system of claim 7, wherein the another data communications system is performed such that data is transported from the center to the in-vehicle terminal using a storage medium.