DE19828161B4 - Navigation device for a motor vehicle - Google Patents

Abstract

Navigation device for a motor vehicle, comprising a digital road map (7), a position determination device (4), an input and an output unit (3, 8), a route calculation unit (6), a reception unit (6) assigned to the route calculation unit (6). 2), a traffic flow evaluation device (9) and a transmission unit (2), wherein the reception and transmission unit (2) is designed as a vehicle-vehicle communication system, characterized in that a rating unit (5) with the route calculation unit (6) With the help of traffic information received from other motor vehicles, it is possible to check whether any traffic occurrences have occurred on the route route previously calculated, wherein the evaluation unit (5) is designed as fuzzy logic and / or as a neural network.

Description

The invention relates to a navigation device for a motor vehicle and to a method for evaluating and passing on traffic information. In order to assist a motor vehicle driver to reach a desired destination point, navigation devices are known, which essentially comprise a digital road map and a position device. If the motor vehicle driver now wishes to be directed to a destination point, the latter enters the destination point via an input unit into the navigation device 1. By means of the position determination device, which is embodied, for example, as a GPS receiver, the navigation device knows the current position and calculates a route to the destination point the route to be traveled is then communicated acoustically and / or visually to the motor vehicle driver. One problem with such navigation devices is that the optimal route may be timed by current traffic events such as congestion, fog, and the like.

From the DE 33 36 092 A1 a method for detecting danger spots in a guidance and information system for motor vehicles is known, in which a navigation device with a terminal for input of location coordinates and display for a route guidance and an information transmission device are arranged in the vehicle, and in which stationary in the area of the roadway Beacons are arranged, which transmit guidance and location information from a central control center to passing vehicles and receive messages from the vehicles and transmitted to the control center. In addition, it is proposed to associate the terminal with a message button for accidents and hazards which, when actuated, sends a warning message to the beacons, which forwards the message to the control center, which in turn forwards the information to beacons in front of the accident or danger point. A disadvantage of the known system is its complex implementation, in particular the setting up of the necessary Leitbaken.

Due to the associated considerable investment costs, such systems have not been able to prevail.

From the DE 40 08 460 A1 is a navigation system for motor vehicles with a location system for determining the position of the motor vehicle, an input device for the target point of the motor vehicle and means for determining the route for the motor vehicle known from the standpoint, wherein a receiver is provided for receiving and evaluation of traffic news received Traffic messages are transmitted to the navigation system, which determines a new route for the motor vehicle, taking into account the information contained in the traffic news, such as road closures or traffic jams. A disadvantage of the known navigation system is that a central control station only receives the relevant traffic information with a certain delay, for example from a helicopter, so that a route change is made too late. On the other hand, these central control stations, which are usually operated by the broadcasters, require a not inconsiderable organizational effort.

From the DE 44 38 662 A1 For example, there is known an automotive intercommunication system that includes an evaluation mechanism for detecting whether a vehicle is turning in the direction of travel based on outputs from a navigation mechanism and a map information outputting mechanism in a navigation system. It is evaluated whether the driving speed of a vehicle is too high to safely pass through the detected curve can. If the vehicle speed of the one vehicle is too high, the speed of that vehicle is reduced by an automatic vehicle speed control mechanism and / or an alarm that notifies the vehicle driver of the excessive speed condition. Further, a mechanism is provided for detecting whether another motor vehicle is making or approaching a detected curve. When the other vehicle is detected and the vehicle reaches a position which is a predetermined distance short of the curve, the intercommunication between the one vehicle and the cornering vehicle is initiated by the communication means and includes the vehicle speed, the direction of travel and such that the one vehicle can safely and reliably pass by the other vehicle.

From the DE 40 34 681 C2 For example, a vehicle-to-vehicle communication system is known in which an oncoming vehicle is used to exchange traffic information between consecutive vehicles.

From the DE 44 10 406 C2 An opto-electronic device for monitoring the surroundings of a vehicle is known in which the distance to an object located around the vehicle is determined by means of two optical systems.

The invention is therefore based on the technical problem of providing a navigation device for a motor vehicle and a method for the evaluation and transfer of traffic information, which allows a faster supply of traffic information without major investment in construction.

The solution of the technical problem results from the features of claims 1 and 3. By assigning a traffic flow evaluation device and a transmitting unit, wherein the transmitting and receiving unit is designed as a vehicle-vehicle communication system, a dynamic navigation system is created without central control centers. Each motor vehicle receives traffic information transmitted by other motor vehicles and takes this into account in its route planning. At the same time, each motor vehicle transmits traffic information about its current position, which it has determined by means of the traffic flow assessment unit or has received from other motor vehicles. Further, a rating unit is connected to the route calculation unit, with which traffic information obtained from other vehicles can be used to check whether any traffic events have occurred on the previously calculated route. This results in the advantage that an alternative route can be calculated bypassing a fault. Finally, the evaluation unit is designed as a fuzzy logic and / or as a neural network, whereby a more complex evaluation of the traffic flow is possible without higher circuit complexity. Further advantageous embodiments of the invention will become apparent from the dependent claims.

The invention will be explained in more detail below with reference to a preferred embodiment. The single FIGURE shows a schematic block diagram of a navigation device for a motor vehicle.

The navigation device 1 includes a transmitting and receiving unit 2 , an input unit 3 , a position determination device 4 , a valuation unit 5 , a route calculation unit 6 , a digital road map 7 , an output unit 8th and a traffic flow evaluation device 9 ,

About the input unit 3 is alphanumeric, voice or graphically controlled input a desired destination and to the route calculation unit 6 forwarded. Furthermore, the route calculation unit receives 6 the current location of the position-determining device 4 , which is designed for example as a GPS receiver. By means of algorithms known in principle, the travel route calculation unit calculates 6 using the digital road map data 7 a route between the current location and the desired destination The calculated route is sent to the output unit 8th handed over and graphed. Preferably, the output unit 8th Moreover, it is formed with a voice output device, so that the motor vehicle driver receives acoustic instructions to start the calculated route. About the receiving unit 2 receives the navigation device 1 constantly traffic information from other motor vehicles. The traffic information includes a location and direction, a time and a description of the traffic information. On the basis of this detailed traffic information, the valuation unit checks 5 whether any traffic events occurred on the previously calculated route. Contains a traffic information relevant data regarding the calculated route, so this is the route calculation unit 6 reported, which then calculates an alternative route bypassing the fault. Regardless of the relevance to your own route, incoming traffic information from the receiving unit 2 prepared and via the transmitting unit 2 again emitted omnidirectionally. Furthermore, the navigation device generates 1 even traffic information. This is done by means of the traffic assessment unit 9 the traffic flow at the current position is analyzed, such as vehicle speed, surrounding vehicle selection, weather conditions, and the like. This data can be determined for example by an on-board engine control unit and a distance sensor or camera with associated Bilddatenauswerteeinheit. The analysis result is then encoded accordingly, provided with a location direction and time and also via the transmitting unit 2 radiated. In the simplest case, the analysis result consists of very simple information such as road clear or clogged or weather conditions good or bad. This is completely sufficient for most motor vehicle drivers, as they only want to avoid extreme traffic congestion, but they are not looking for the optimized route from all points of view. Another advantage of the very simple analysis is a low effort in the evaluation and forwarding of traffic information. It is easy to see that a more complex evaluation of the traffic flow, for example with 10 different classifications, involves a greater amount of circuitry in terms of sensing the information, transmitting the information and taking into account the rating unit 5 or the route calculation unit 6 In particular, the valuation is critical, which is why the valuation unit 5 is designed as a fuzzy logic and / or as a neural network. The transceiver unit 2 is preferably designed as an electromagnetic radio system. Preferably, the range of the transmitting unit 2 limited to a few hundred meters or a few kilometers. On the one hand, this reduces the required electrical energy and, on the other hand, the number of received traffic flow information. Here is a compromise to look for that the relevant information, for example, before a turn on the road a few kilometers further accident has occurred, already exist, on the other hand, the number of received information due to the limited computing power is limited.

Claims (3)

Navigation device for a motor vehicle, comprising a digital road map ( 7 ), a position determining device ( 4 ), an input and an output unit ( 3 . 8th ), a route calculation unit ( 6 ), one of the route calculation unit ( 6 ) associated receiving unit ( 2 ), a traffic flow assessment facility ( 9 ) and a transmitting unit ( 2 ), wherein the receiving and transmitting unit ( 2 ) is designed as a vehicle-vehicle communication system, characterized in that a valuation unit ( 5 ) with the route calculation unit ( 6 ), with the help of traffic information received from other motor vehicles, it is possible to check whether any traffic incidents have occurred on the previously calculated route, the evaluation unit ( 5 ) is designed as a fuzzy logic and / or as a neural network. Navigation device according to claim 1, characterized in that the traffic flow assessment device ( 9 ) comprises a distance sensor. Method for the dynamic route guidance of a motor vehicle by means of a navigation device according to Claim 1, comprising the following method steps a) inputting a desired destination point via the input unit ( 3 b) determining the current position of the motor vehicle by means of the position determining device ( 4 c) calculating a travel route between the ascertained current position and the desired destination point by the route calculation unit (FIG. 6 ) based on the data of the digital road map ( 7 ), d) outputting the calculated route via the output unit ( 8th e) receiving traffic flow information from other motor vehicles, wherein the traffic flow information comprises at least one location and direction indication, f) determining whether the received traffic flow information relates to the calculated according to step c) route by means of a fuzzy logic and / or a neural network, g) evaluating the relevant traffic flow information determined according to method step f), h) calculating a new travel route taking into account the relevant traffic flow information according to method step g) and i) transmitting traffic flow information which is detected or received at the respective current position via the transmitting unit ( 2 ) for other motor vehicles.

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