JP2885849B2 - Vehicle guidance system - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a travel guidance device for a vehicle.

(Prior Art) Considering a situation in which a driver is driving to a certain destination while driving a car, a driver maps a strange land on a map and a road in a lonely space independent of the outside world of a car. It can be said that he is simply stepping on the accelerator to his intended destination, relying on signs and landscape.

In other words, even today, when computers and data communication are developed and information is said to be excessive, the essence of driving a car is almost the same as at the time when the car was invented.

In view of such circumstances, recently, the development of a driving system as a vehicle travel guidance device called a so-called navigation system has been actively performed.

The navigation system detects, for example, a horizontal component of a geomagnetic vector and uses it as a direction parameter (hereinafter, referred to as a geomagnetic method) or a gas rate gyro using inertia of helium gas as a direction sensor. In addition to those that detect GPS (hereinafter referred to as the inertial navigation system), the GPS system (at least three circular orbiting satellites (referred to as navigation satellites) that can detect the exact position anywhere on the earth Various systems such as a global positioning system have been proposed. Each of these methods is a division based on a difference in how to detect and recognize the position of the own vehicle during traveling, and basically has many common parts except for that point.

In the navigation system, first, a CD-ROM that stores a large number of color map data as travel guide information of a vehicle.
A ROM having a destination setting means, a destination recognizing means for recognizing the destination set by the destination setting means, a vehicle position recognizing means by any one of the above methods, and the like; The optimal travel route to the destination is set and displayed on a CRT display in the form of a color image based on the relationship between the destination and the destination (see, for example,
No. 209216).

With the use of the vehicle guidance device having such a configuration,
The driver can safely reach the destination simply by driving along the route while watching the optimal route (road) in the map state that is constantly displayed on the display screen of the CRT. . Then, the own-vehicle position display mark moving as the vehicle travels is plotted and displayed on the traveling route on the screen.

In the above case, generally, the number of the navigation satellites may not be sufficient at present as a vehicle position recognition device that detects the vehicle position.For example, a recognition device using a geomagnetic method and a recognition device using a GPS method may be used. A configuration in which the own vehicle position is always properly recognized by using at least two sets of recognition devices in combination is adopted.

(Problems to be Solved by the Invention) However, as described above, the vehicle position recognition device using the GPS method has high accuracy, but at present, it is inoperable depending on the orbital position due to the small number of satellites. May occur. In such a case, for example, the recognition means is automatically switched to a geomagnetic type self-vehicle position recognition device using terrestrial magnetism, but in the case of the terrestrial magnetism, the accuracy is relatively lower than that of the GPS method. .

Therefore, it is preferable that the driver performs the driving after sufficiently recognizing the point.

However, since the switching on the recognition device side is automatically performed in the navigation control unit, it is a fact that the driver side cannot recognize it. For this reason, despite the fact that the system has been switched from the GPS system to the geomagnetic system, if the vehicle is confidently driven with the GPS system in mind, a considerable display error will occur over a long period of time, and the vehicle will leave the optimal route. Anxiety arises.

(Means for Solving the Problems) The inventions of the present application have been made for the purpose of solving the above-mentioned problems, and are each provided with the following problem solving means.

That is, first, the invention of claim 1 of the present application comprises a first vehicle position recognizing means for recognizing a vehicle position based on a traveling direction and a moving distance of a vehicle, and a second vehicle position recognizing device for recognizing a vehicle position based on a signal received from a satellite. Vehicle position recognizing means, position determining means for determining a vehicle position based on the vehicle positions recognized by the first and second vehicle position recognizing means, and the vehicle position determined by the position determining means. Control means for displaying the own vehicle position mark to be displayed together with the map on the display unit, and determining means for determining whether or not the vehicle position can be recognized by the second vehicle position recognition means; Display means for displaying on the display section in a predetermined display form of the vehicle position mark that the vehicle position can be recognized by the vehicle position recognition means, and the second vehicle position recognition means Of vehicle position by If it is not possible, so as to identify the driver that the is configured by a display form changing means for displaying by changing the display mode of the vehicle position mark.

Further, the invention of claim 2 of the present application provides a first vehicle position recognizing means for recognizing a vehicle position without using a satellite, and a second vehicle position recognizing means for recognizing a vehicle position using a satellite. Control means for displaying a vehicle position mark on a predetermined map display based on the vehicle position recognized by the first and second vehicle position recognition means; and the first and second vehicle position recognition A determination means for determining whether or not the vehicle position can be recognized by the second vehicle position recognition means; and a vehicle position recognition by the second vehicle position recognition means. The display means for displaying a predetermined mark indicating the state on the map display unit, and when the vehicle position cannot be recognized by the second vehicle position recognition means, the driver informs the driver of the fact. Change the display form of the predetermined mark so that it can be identified In the vehicle provided with the indicating form changing means, the control means includes a detecting means for detecting whether the first own vehicle position recognizing means is normal, and the second own vehicle position recognizing means. In a case where the vehicle position cannot be recognized by the means, the driver can distinguish between a case where the first vehicle position recognition means is normal and a case where the first vehicle position recognition means is not normal. Thus, the first vehicle position recognizing means is provided with a notifying means for displaying on the display part that the first vehicle position recognizing means is not normal.

(Operation) As described above, in the configuration of the vehicle travel guidance apparatus according to the first aspect of the present invention, first, the satellite is used by the first vehicle position recognition means from the traveling direction of the vehicle and the travel distance of the vehicle. While recognizing the position of the own vehicle without performing, the second own vehicle position recognizing means recognizes the position of the own vehicle based on a signal received from a satellite. Then, the vehicle position is determined based on the vehicle position recognized by the first vehicle position recognition means and the vehicle position recognized by the second vehicle position recognition means. Then, the vehicle position mark indicating the vehicle position determined by the position determining means is displayed on the display unit together with the map by the control means.

Then, in that case, it is determined by the determination means whether the vehicle position can be recognized by the second vehicle position recognition means, and the vehicle position can be recognized by the second vehicle position recognition means. In the case of, the display means displays the own vehicle position mark on the display section in a predetermined display form. On the other hand, when the vehicle position cannot be recognized by the second vehicle position recognizing means, the display form of the vehicle position mark displayed on the display unit so that the driving vehicle can be identified. Is displayed by being changed by the display form changing means.

Therefore, in the configuration of the travel guidance device according to the first aspect of the present invention, when the vehicle position can be recognized by the second vehicle position recognition means based on the satellite data as described above, or when the vehicle position cannot be recognized, Accordingly, the driver can accurately identify these states from the difference in the display form of the own vehicle position mark on the display unit.

Therefore, the driver can recognize the vehicle position by the second vehicle position recognizing means by seeing the change in the display form of the vehicle position mark on the display that is constantly checked. , Can be easily and accurately identified without moving the line of sight. Therefore, visibility can be improved and complexity of the display content on the screen can be avoided.

Further, in the configuration of the vehicle travel guidance device according to the second aspect of the present invention, the first vehicle position recognizing means for recognizing the vehicle position without using the satellite, and the first vehicle recognizing means for recognizing the vehicle position using the satellite. (2) own vehicle position recognizing means, control means for displaying an own vehicle position mark on a predetermined map display unit based on the vehicle position recognized by the first and second own vehicle position recognizing means,
Determining means for determining whether the vehicle position can be recognized by the second vehicle position recognition means among the first and second vehicle position recognition means, and the second vehicle Display means for displaying a predetermined mark on the map display unit indicating that the vehicle position can be recognized by the position recognition means, and the vehicle position cannot be recognized by the second vehicle position recognition means In the case where the vehicle is provided with a display form changing means for changing a display form of the predetermined mark so that a driver can identify the first mark, Detecting means for detecting whether or not the recognizing means is normal; and when the vehicle position cannot be recognized by the second vehicle position recognizing means, the first vehicle position recognition is performed. If the means is normal, the first Notifying means for displaying on the display unit that the first vehicle position recognizing means is not normal is provided so that the driver can identify the case where the vehicle position recognizing means is not normal. By looking at the display on the display means, it is possible to easily recognize whether or not the first vehicle position recognition means can detect a normal vehicle position.

(Effects of the Invention) As a result, according to the vehicle travel guidance device of each of the above-mentioned inventions, the driver can easily and accurately recognize the reliability of the route guidance according to the situation, and the route guidance can be performed. It is possible to prevent blind beliefs and to take advantage of the initiative.
In addition, since the display contents on the screen are simple and easy to see, the visibility is improved, and the reliability of route guidance is further improved.

(Embodiment) FIGS. 1 to 6 show a configuration and an operation of a traveling guidance device for a vehicle according to an embodiment of the present invention.

First, FIG. 2 shows a system structure of a vehicle travel guidance device according to the embodiment. Reference numeral 10 denotes a navigation control unit which is a center of a control unit, and the navigation control unit 10 is a central information processing unit. A device (hereinafter, simply referred to as CPU) 11, a read-only memory (hereinafter, referred to as ROM) 12 containing a control program, a random access memory (hereinafter, simply referred to as RAM) 13, which stores various control data as needed, which will be described later. It comprises an interface circuit 14 for inputting / outputting data between various external devices and the CPU 11 and the like.

And the above navigation control unit 10
As an external device to be combined with a vehicle, first, a car-mounted device for reading out the map information from a CD-ROM (compact disk type read-only memory) 1 storing a large number of the above-described map-type travel guidance information at a plurality of different scales. CD player 2, operation switch section 3 for performing operations such as setting, changing, resetting, and changing the optimum route of the destination, and the current position _{Pn of the} vehicle.
A vehicle position recognizing means 4 for detecting an image signal, a display control circuit 5 for inputting an image signal output from the CPU 11 and displaying the image signal output on a screen of a CRT display 6 of a meter cluster unit, and a video attached to the display control circuit 5 A memory 7 and the like are provided.

The CD-player 2 drives the CD-ROM 1 and
Information of a required predetermined area in the map information stored in the ROM 1 is output in accordance with a specified address (designated by east, west, north and south), and is input to the CPU 11 via the decoder 8 and the interface circuit 14. . These read information are temporarily stored in the RAM 13. The output of the CD player 2 decoded via the decoder 8 is also output to the side of an ordinary in-vehicle audio device (AMP, equalizer, speaker, etc.) 9.

The CD-ROM 1 stores about 30,000 pieces of map information of color still images. For example, in the case of the present embodiment, at least three types of scales are facilitated. It is configured so that information can be expanded or reduced in eight steps.

Next, the operation switch 3 is formed of, for example, a screen touch type, and includes (1) menu, (2) information, and (3)
Various operation switches for resetting, (4) enlargement, (5) reduction, (6) correction, and the like are provided. Of the operation switch 3
The ON output is input to the CPU 11 via the interface circuit 14 after being encoded by the encoder 16. CPU11
Performs a predetermined calculation (program processing) in response to the input of the operation switch 3, activates the display control circuit 5 for driving the CRT, and displays an image corresponding to the instruction content.

In the case of the present embodiment, for example, as shown in FIG. 3, the own-vehicle position recognizing device 4 includes a first own-vehicle position recognizing means 4A using a geomagnetic method and a second own-vehicle position recognizing means 4B using a GPS method.
The two sets of own vehicle position recognizing means are combined, and their respective outputs are input to the CPU 11 via the switching circuit 20.

First, as shown in FIG. 3, the first vehicle position recognizing means 4A receives a vehicle speed sensor 42 for detecting a vehicle speed, a terrestrial magnetism sensor 41 composed of a magnetic compass, and detection signals of both sensors 42, 41. And a signal processing circuit 43 for detecting the current traveling position of the vehicle by detecting the traveling direction of the vehicle and the relative distance from the reference value. The second vehicle position recognizing means 4B utilizes a global positioning satellite system, for example, as shown in FIG. 4, and as shown in FIG. Control station 76,
Four navigation satellites (GPS) 77A to 77D each receiving a radio wave from the ground antenna 75, and a deterioration coefficient indicating the degree of the positioning error of the radio waves received from the respective satellites 77A to 77D are calculated. For a system including a monitor local unit 85 for superimposing the deterioration coefficient on the radio wave from the ground antenna 75,
As shown in the figure, a GPS receiver 44 for receiving radio waves from the four satellites 77A to 77D, and four satellites 77A to 77D based on the reception timing between the radio waves received by the GPS receiver 44.
A signal processing circuit 45 for grasping the distance between the vehicle A and the vehicle A, and absolutely detecting the current position of the vehicle A, and a deterioration coefficient determining circuit 46 for determining the deterioration coefficient of the radio wave. The deterioration coefficient determination circuit 46 determines whether the deterioration coefficient (attenuation coefficient) included in the radio wave received by the CPS receiver 44 is equal to or higher than a predetermined value and when the intensity of the radio wave is equal to or lower than a predetermined value (for example, when the vehicle is in a tunnel). It outputs a positioning error increase signal when a radio wave cannot be received, such as when traveling. Further, the current vehicle position recognizing device 4 of FIG. 3 includes a switching circuit 20 for selectively switching the respective vehicle position recognizing means 4A and 4B of the geomagnetic type and the satellite type. When the positioning error increase signal is not output from the deterioration coefficient determination circuit 46, the satellite-based second vehicle position recognition means 4B is selected, whereas when the positioning error increase signal is output, the geomagnetic-based first vehicle is used. It selects the position recognizing means 4A and outputs the current vehicle position signal from the selected recognizing means to the CPU 11 of the navigation control unit 10.

Next, the details of the control performed by the navigation control unit 10 to change the display form of the vehicle position mark will be described with reference to the flowchart of FIG.

That is, first in step S _1, reads the first and second individual vehicle position recognizing section 4A, and 4B the output V _1, V ₂ and various inputs.

Next, setting a destination by operating the operation switch 3 in step S _2. Then, the relationship between the vehicle position recognizing means 4A or recognized position P and the set destination by zero 4B, setting an optimal route for the meantime the road information in step S _3.

Then, then the display control circuit 5 proceeds to step S ₄
To display the optimum route and the current vehicle position mark MA on the optimum route on the screen of the CRT display 6 as shown in FIG.

In this way, navigation traveling is started.
When the navigation running is started, subsequently the process proceeds to step S _5, S _6, first the second self operating state of the vehicle position recognition means GPS receiver 44 4B constituting a normal (deterioration degree is small) Is determined, and if the determination result is NO, it is further determined whether the geomagnetic sensor 41 included in the first vehicle position recognizing means 4A is normal.

Then, YES is determined in step S _5, that is, when the operating state of the GPS receiver 44 is a navigation traveling state can be recognized with high accuracy automatic position P by the GPS system is normal, step S ₇ as opposed to the To display the color (display form) of the vehicle position mark MA on the screen of the CRT display 6 in red (reliable).

On the other hand, when it proceeds to step S _6, at least the geomagnetic sensor 41 is normal, the current navigation traveling state in the case of YES where it is determined to be due to the geomagnetic sensor 41, the process proceeds to step S ₈ The self-vehicle position mark MA on the screen of the CRT display 6 is changed from a blue (cautious) display, which is a display mode different from that in the navigation traveling state in which the self-vehicle position P can be accurately recognized by the GPS method. As a result, the driver recognizes that the current guided driving state is not as accurate as under the GPS system, and switches to careful driving while referring to changes in external scenery and route data.

On the other hand, a determination results NO of step S _6, when the recognition of the inherent accurate vehicle position is in a state not possible, the color of the vehicle position mark MA proceeds to step S ₉ The display mode is changed to yellow (caution), which is a display mode different from any of the above cases, and the driver is notified that navigation traveling is disabled.

As described above, in the configuration of the vehicle travel guidance device according to the embodiment of the present invention, the first and second vehicle position recognition means are provided.
The display form (color) of the vehicle position mark MA displayed on the display screen changes depending on whether both 4A and 4B are operating normally, only on one side, or on either side. It is supposed to be.

Therefore, the driver looks at the display form (display color) of the vehicle position mark MA itself, which is always recognized,
It is possible to easily and accurately recognize which vehicle position recognizing means is performing the detection of the vehicle position without moving the line of sight to another place on the screen.

As a result, according to the vehicle guidance apparatus of the embodiment of the present invention, the display content on the screen is complicated, such as when another mark is displayed on the screen separately from the own vehicle position mark and in another place. The driver can recognize the reliability of the route guidance according to the situation without any inconvenience, so the blindness of the route guidance can be prevented and independent use can be achieved. .

[Brief description of the drawings]

FIG. 1 is a diagram corresponding to the claims of the present invention, FIG. 2 is a system configuration diagram of an entire traveling guidance device for a vehicle according to an embodiment of the present invention, and FIG. 3 is a vehicle position in the system of FIG. FIG. 4 is a block diagram showing a specific configuration of the recognition device, FIG. 4 is an explanatory diagram showing the principle of position recognition by the GPS receiver of FIG. 3, and FIG. 5 is a diagram of the navigation control unit in the system of FIG. FIG. 6 is a flowchart showing the operation of the CPU, and FIG. 6 is an explanatory diagram showing a display screen corresponding thereto. DESCRIPTION OF SYMBOLS 1 ... CD-ROM 2 ... CD player 3 ... Operation switch 4 ... Local vehicle position recognition device 4A ... First vehicle position recognition means 4B ... Second vehicle position recognition means 6 ... CRT Display 10 Navigation control unit 11 CPU 12 ROM 13 RAM 41 Geomagnetic sensor 42 Vehicle speed sensor 44 GPS receiver

Claims (2)

(57) [Claims] A first vehicle position recognizing means for recognizing a vehicle position based on a traveling direction and a moving distance of a vehicle, and a second vehicle position recognizing means for recognizing a vehicle position based on a signal received from a satellite. Position determining means for determining a vehicle position based on the vehicle position recognized by the first and second vehicle position recognizing means; and a vehicle position mark indicating the vehicle position determined by the position determining means. Control means for displaying on the display unit together with the map; determining means for determining whether or not the vehicle position can be recognized by the second vehicle position recognizing means; and the second vehicle position recognizing means. A display means for displaying on the display unit that the vehicle position can be recognized by the vehicle in a predetermined display form of the vehicle position mark, and a vehicle position recognition by the second vehicle position recognition means. If not possible, And a display mode changing means for changing the display mode of the vehicle position mark so as to enable the driver to identify the driving mode. 2. A first method for recognizing a vehicle position without using a satellite.
Vehicle position recognizing means, a second vehicle position recognizing means for recognizing a vehicle position using a satellite, and a predetermined vehicle position based on the vehicle positions recognized by the first and second vehicle position recognizing means. A control means for displaying a vehicle position mark on the map display unit; and a second means among the first and second vehicle position recognition means.
Means for determining whether or not the vehicle position can be recognized by the own vehicle position recognizing means, and indicating that the vehicle position can be recognized by the second vehicle position recognizing means. A display unit for displaying a predetermined mark on the map display unit; and, if the vehicle position cannot be recognized by the second vehicle position recognition unit, the driver can identify the vehicle position. In a vehicle comprising: a display form changing means for changing a display form of a predetermined mark, the control means comprises a detecting means for detecting whether or not the first vehicle position recognizing means is normal. When the vehicle position cannot be recognized by the second vehicle position recognition means, the first vehicle position recognition means is normal and the first vehicle position recognition means is not normal. And the driver can identify Thus, there is provided a notifying means for displaying on the display unit that the first vehicle position recognizing means is not normal.