JP2007178182A - Device for determining one's own vehicle location - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a device for determining one's own vehicle location that can determine the one's own vehicle position accurately, and can appropriately guide the one's own vehicle to a destination in navigation by preventing mismatching. <P>SOLUTION: The device 14 includes an indoor determining means 28 for performing the indoor determination of the existence of the one's own vehicle in doors as the determination of the one's own vehicle location when the number of caught GPS satellites is a predetermined number or smaller. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to an own vehicle position determination device, and more particularly to an own vehicle position determination device suitable for determining an own vehicle position.

  Conventionally, in an in-vehicle navigation device, in order to properly guide the vehicle to the destination, a map matching process for correcting the vehicle position so as to match the position on the corresponding road on the map data has been performed. It was.

  In such a vehicle-mounted navigation device, conventionally, when the vehicle travels in a parking lot that does not exist on the map data, map matching (mismatching) is erroneously performed on a road near the parking lot. In order to prevent this, a method for determining that the vehicle is traveling in a parking lot has been proposed.

  As an example of such a method, for example, when the own vehicle repeats a sudden turn or when the GPS satellite cannot be captured (tracked), it is determined that the own vehicle is traveling in an indoor parking lot. A method has been proposed (see, for example, Patent Document 1).

JP 2000-310542 A JP-A-9-178502

  By the way, in areas such as Paris in France, there are many places where parking lots are provided underground along the ground road.

  In such a place, it is assumed that the own vehicle travels parallel to the ground road for several hundred meters in the underground parking lot.

In such a case, it is not possible to determine that the vehicle is traveling in the indoor parking lot even if the vehicle has repeatedly made a sudden turn as in the conventional case. As shown in FIG. 4, there is a case where mismatching occurs on the road R on the ground. In FIG. 4, at the point A as the entrance to the underground parking P, through the helical ingress path R _in after the vehicle has entered the underground parking P, drawing a running locus indicated by a broken line It shows that the vehicle is mismatched with the road R on the ground at the point B in the underground parking lot P while the vehicle is traveling in the underground parking lot P. Incidentally, R _out in FIG. 4 is a escape path from underground parking P, the point C is the outlet from the underground parking P.

  Recently, as a characteristic of GPS, so-called multi-channelization has progressed, and it is possible to capture dozens of GPS satellites at a time. Therefore, it is not uncommon for at least one GPS satellite to be captured even when the vehicle is traveling in an indoor parking lot.

  Under such circumstances, the vehicle has escaped from the indoor parking lot as a criterion for determining that the vehicle is traveling in the indoor parking lot simply by whether or not GPS satellites can be captured. Could not be determined reliably.

  As described above, conventionally, there has been a problem that the vehicle position cannot be determined with high accuracy.

  Therefore, the present invention has been made in view of such problems, and can determine the position of the own vehicle with high accuracy. As a result, it is possible to prevent mismatching and to determine the destination of the own vehicle during navigation. It is an object of the present invention to provide a host vehicle position determination device that can appropriately guide the vehicle.

  In order to achieve the above-described object, the vehicle position determination device according to the present invention determines that the vehicle is present indoors as the vehicle position determination when the number of captured GPS satellites is a predetermined number or less. It is characterized by having an indoor determination means for performing indoor determination. According to the vehicle position determination device configured as described above, the indoor determination unit can perform indoor determination based on the number of captured GPS satellites (hereinafter referred to as GPS capture number). .

  In addition, the own vehicle position determination device according to the present invention performs an indoor determination that is a determination that the own vehicle is present indoors as a determination of the own vehicle position when the elevation angle of the captured GPS satellite is equal to or less than a predetermined angle. It is characterized by having an indoor determination means for performing. According to the vehicle position determination device configured as described above, the indoor determination unit can perform indoor determination based on the elevation angle of the captured GPS satellite (hereinafter referred to as GPS elevation angle).

  Furthermore, the own vehicle position determination device according to the present invention includes a parking lot escape determination means for performing a parking lot escape determination that is a determination that the own vehicle has escaped from the parking lot as a determination of the own vehicle position. If the parking lot escapes, the parking lot escape judging means does not make or makes it difficult to make the parking lot escape judgment. Then, according to the vehicle position determination device configured as described above, it is possible to make the parking lot escape determination means not or difficult to perform the parking lot escape determination during the indoor determination.

  Furthermore, the own vehicle position determination device according to the present invention is configured such that the parking lot escape determination means performs the parking lot escape determination when the traveling speed of the own vehicle is equal to or higher than the threshold, and the indoor determination is performed. If it is, it is made difficult for the parking lot escape judging means to make the parking lot escape judgment by increasing the threshold of the traveling speed. Then, according to the vehicle position determination device configured as described above, during indoor determination, by increasing the threshold of the traveling speed of the vehicle that is the determination reference for parking lot escape determination, the parking lot escape determination means It is possible to make it difficult to determine whether to exit the parking lot.

  Further, in the own vehicle position determination device according to the present invention, the parking lot escape determination means calculates the parallel running distance with respect to the matching candidate road of the autonomous navigation position which is the own vehicle position acquired by the autonomous navigation, and changes the autonomous navigation position. When the parallel running distance calculated by the cumulative calculation is equal to or greater than a threshold value, the parking lot escape determination is performed, and when the indoor determination is performed, the parallel calculation is performed. It is characterized by making it difficult for the parking lot escape determination means to make the parking lot escape determination by increasing the threshold of the mileage. And according to the vehicle position determination device configured in this way, during the indoor determination, by increasing the threshold of the parallel running distance for the matching candidate road of the autonomous navigation position that is the determination criterion of the parking lot escape determination, It is possible to make it difficult for the parking lot escape determination means to make the parking lot escape determination.

  Furthermore, the vehicle position determination device according to the present invention has high GPS reliability even after the indoor determination is canceled, and the distance between the radio navigation position and the matching candidate road has a predetermined error in the road width. When the value is equal to or greater than the added value, the calculated value of the parallel running distance with respect to the matching candidate road of the autonomous navigation position is reset to make it difficult for the parking lot escape determination means to perform the parking lot escape determination. According to the vehicle position determination device configured as described above, even after the indoor determination is canceled, when the reliability of the GPS is high and the distance between the radio navigation position and the matching candidate road is large, It is possible to make it difficult for the parking lot escape determination means to make the parking lot escape determination.

  Furthermore, the own vehicle position determination device according to the present invention includes a parking lot entry determination means for performing a parking lot entry determination which is a determination that the own vehicle has entered the parking lot as a determination of the own vehicle position. The entry determination means is configured to make the parking lot entry determination using the determination result of the indoor determination means. And according to the own vehicle position determination apparatus comprised in this way, it becomes possible to perform the parking lot approach determination using the determination result of the indoor determination means by the parking lot approach determination means.

  Further, the own vehicle position determination device according to the present invention is such that when the parking lot approach determination means has a vehicle travel distance (hereinafter referred to as an unmatchable travel distance) in a state in which map matching is not possible, a threshold value or more. It is characterized by being formed so as to make a parking lot entry determination. And according to the own vehicle position determination apparatus comprised in this way, it becomes possible by a parking lot approach determination means to perform parking lot approach determination based on the unmatchable travel distance.

  Furthermore, the own vehicle position determining device according to the present invention is such that the parking lot approach determining means has an unmatchable travel distance equal to or greater than a threshold value, high GPS reliability, and a position determined by GPS. (Hereinafter referred to as a radio navigation position) and a matching candidate road are equal to or greater than a value obtained by adding a predetermined error to the road width, and the parking lot approach determination is performed when the vehicle is not turning. It is characterized by being formed. Then, according to the vehicle position determination device configured as described above, the parking lot approach determination means causes the unmatchable travel distance, the reliability of GPS, the distance between the radio navigation position and the matching candidate road, and the turn of the vehicle. Based on the state, it is possible to make a parking lot entry determination.

  According to the own vehicle position determination device according to the present invention, the indoor determination means can perform indoor determination based on the number of GPS captures. As a result, the determination of the own vehicle position can be performed with high accuracy, and as a result Matching can be prevented and the vehicle can be properly guided to the destination during navigation.

  Further, according to the own vehicle position determination device according to the present invention, the indoor determination means can perform indoor determination based on the GPS elevation angle, so that the determination of the own vehicle position can be performed with high accuracy. Mismatching can be prevented and the vehicle can be properly guided to the destination during navigation. In particular, the number of GPS captures may increase when the vehicle is in a high indoor space with no four-sided walls, such as a multilevel parking lot. Even in such a case, the GPS elevation angle is small. Therefore, it can be reliably detected that the vehicle is present indoors.

  Further, according to the own vehicle position determination device according to the present invention, during the indoor determination, the parking lot escape determination means may or may not make the parking lot escape determination difficult. It is possible to effectively prevent a mismatching with a nearby road when the vehicle is in a parking lot.

  Furthermore, according to the own vehicle position determination device according to the present invention, during indoor determination, the vehicle parking speed is determined by increasing the threshold of the traveling speed of the own vehicle, which is the determination criterion for the parking lot escape determination. As a result of making it difficult to make the vehicle exit determination, it is possible to easily prevent the vehicle from being mismatched with a nearby road when the vehicle is in the indoor parking lot.

  Further, according to the own vehicle position determination device according to the present invention, during indoor determination, the parking lot is increased by increasing the threshold of the parallel running distance with respect to the matching candidate road of the autonomous navigation position serving as the determination criterion of the parking lot escape determination. As a result of making it difficult for the escape determining means to make the parking lot escape determination, it is possible to easily prevent the vehicle from being mismatched with a nearby road when the vehicle is in the indoor parking lot.

  Furthermore, according to the own vehicle position determination device according to the present invention, even after the indoor determination is canceled, if the GPS reliability is high and the distance between the radio navigation position and the matching candidate road is large, the parking lot As a result of making it difficult for the escape determination means to make a parking lot escape determination, for example, when the vehicle is traveling in an outdoor parking lot linked to an indoor parking lot, it is effective to be mismatched with a nearby road Can be prevented.

  Furthermore, according to the own vehicle position determination device according to the present invention, the parking lot entry determination unit can perform the parking lot entry determination using the determination result of the indoor determination unit, so that the parking lot entry determination is reliably performed. It can be carried out.

  In addition, according to the own vehicle position determination device according to the present invention, the parking lot entry determination means can perform the parking lot entry determination based on the unmatchable travel distance, thereby further reliably performing the parking lot entry determination. be able to.

  Further, according to the own vehicle position determination device according to the present invention, the parking lot approach determination means determines the unmatchable travel distance, the reliability of GPS, the distance between the radio navigation position and the matching candidate road, and the turning state of the own vehicle. As a result of being able to make a parking lot approach determination based on this, it is possible to more reliably make a parking lot entry decision.

  Hereinafter, an embodiment of a host vehicle position determination device according to the present invention will be described with reference to FIGS. 1 to 3.

  FIG. 1 shows an in-vehicle navigation device 1 to which the present invention is applied. The in-vehicle navigation device 1 performs a main control for navigation for guiding a host vehicle from a current location to a destination. Unit 2 is included.

  A GPS receiver 3 is connected to the input side of the navigation main unit 2. The GPS receiver 3 captures the GPS satellite 6, and information including the orbit and time from the captured GPS satellite 6 (hereinafter referred to as GPS information). Is called). The GPS receiver 3 outputs the GPS information received from the GPS satellite 6 to the inside of the navigation main unit 2.

  In the present embodiment, the GPS receiver 3 can capture a plurality of GPS satellites 6.

  Further, an azimuth sensor 5 such as a gyro sensor, a disk reader 7 and an input operation unit 8 are connected to the input side of the navigation main unit 2. The disc reader 7 is equipped with a disc 10 in which information necessary for navigation such as map data is stored. Further, a vehicle speed pulse is input to the navigation main unit 2.

  As the input operation unit 8, various means such as a remote controller, a touch panel, and a linear encoder can be used.

  On the other hand, a display 11 and a speaker 12 are connected to the output side of the navigation main unit 2.

  The navigation main unit 2 will be described in detail. The navigation main unit 2 includes a vehicle position calculation unit 14 that calculates the current position of the vehicle (hereinafter referred to as the vehicle position). The unit 14 has a function as the own vehicle position determination device according to the present invention.

  The GPS receiver 3 described above is connected to the input side of the vehicle position calculation unit 14. The GPS information output from the GPS receiver 3 is input to the own vehicle position calculation unit 14.

  And the own vehicle position calculation part 14 calculates a radio navigation position (absolute position) based on GPS information input from the GPS receiver 3 side (radio navigation).

  The direction sensor 5 described above is connected to the input side of the vehicle position calculation unit 14. Further, the vehicle speed pulse is input to the vehicle position calculation unit 14.

  The own vehicle position calculation unit 14 calculates an autonomous navigation position (relative position) based on the vehicle speed pulse and the direction information of the own vehicle input from the direction sensor 5 (autonomous navigation).

  If the calculated vehicle position (radio navigation position or autonomous navigation position) is not on the road in the map data, the vehicle position calculation unit 14 sets the vehicle position to the position on the corresponding road in the map data. The map matching process to be corrected is started.

  A map reading control unit 15 is connected to the own vehicle position calculation unit 14 and the input operation unit 8, and the above-described disk reading device 7 is connected to the map reading control unit 15.

  The map readout control unit 15 outputs a request for reading out the vehicle position calculated by the vehicle position calculation unit 14 and map data around the vehicle position to the disk reader 7.

  In addition, the map reading control unit 15 outputs a request for reading map data at a point specified by the operation of the input operation unit 8 and its surroundings to the disk reading device 7.

  Then, the disk reader 7 reads the map data corresponding to the read request from the map read controller 15 from the disk 10.

  The navigation main unit 2 has a map buffer 16 connected to the disk reader 7, and map data read by the disk reader 7 is temporarily stored in the map buffer 16. ing.

  A map drawing unit 18 is connected to the map buffer 16, and map data stored in the map buffer 16 is input to the map drawing unit 18.

  Then, based on the map data input from the map buffer 16, the map drawing unit 18 is a map of the vehicle position and its surroundings, a point designated by the user by the operation of the input operation unit 8 and the surrounding map. Map drawing data for displaying the image is generated.

  A display processing unit 19 is connected to the map drawing unit 18, and the display 11 described above is connected to the display processing unit 19.

  Map display data generated by the map drawing unit 18 is input to the display processing unit 19.

  The display processing unit 19 performs processing for displaying the map drawing data input from the map drawing unit 18 on the display screen of the display 11.

  A host vehicle position drawing unit 20 is connected to the host vehicle position calculation unit 14, and the display processing unit 19 described above is connected to the host vehicle position drawing unit 20.

  Information about the vehicle position calculated by the vehicle position calculation unit 14 is input to the vehicle position drawing unit 20. Note that the information on the vehicle position is information on the vehicle position after the map matching process when the map matching process is performed to the end by the vehicle position calculation unit 14 (when completed). On the other hand, the information on the own vehicle position becomes information on the radio navigation position or the autonomous navigation position when the map matching process is not performed to the end.

  The vehicle position drawing unit 20 generates vehicle position drawing data for displaying the vehicle position mark based on the vehicle position information input from the vehicle position calculation unit 14. .

  The vehicle position drawing data generated by the vehicle position drawing unit 20 is input to the display processing unit 19.

  Then, based on the vehicle position drawing data input from the vehicle position drawing unit 20, the display processing unit 19 displays the vehicle position mark superimposed on the vehicle position and the surrounding map images described above. Process to do.

  A route calculation unit 22 is connected to the input operation unit 8, the vehicle position calculation unit 14, the map read control unit 15, and the map buffer 16.

  The route calculation unit 22 performs route calculation for calculating a recommended route from the vehicle position calculated by the vehicle position calculation unit 14 to the destination specified by the input operation of the input operation unit 8. Yes.

  The route calculation unit 22 causes the disk reader 7 to read map data (road network data or the like) via the map read control unit 15 during route calculation, and uses the read map data for route calculation. It has become.

  A guide image drawing unit 23 is connected to the route calculation unit 22 and the map buffer 16, and a display processing unit 19 is connected to the guide image drawing unit 23.

  The guide image drawing unit 23 generates guide image drawing data for displaying a guide image such as an image of a recommended route or an enlarged intersection image based on the recommended route calculated by the route calculation unit 22. .

  The map data stored in the map buffer 16 is used to generate the guide image drawing data as necessary.

  The guide image drawing data generated by the guide image drawing unit 23 is input to the display processing unit 19.

  The display processing unit 19 performs a process of displaying a guide image on the display 11 based on the guide image drawing data input from the guide image drawing unit 23 side.

  A voice guide unit 24 is connected to the route calculation unit 22, and the above-described speaker 12 is connected to the voice guide unit 24.

  Based on the recommended route calculated by the route calculation unit 22, the voice guidance unit 24 generates guidance voice data for performing voice guidance such as intersection right / left turn guidance, and the generated guidance voice data is transmitted to the speaker 12. It is designed to output.

  The speaker 12 outputs the guidance voice data generated by the voice guidance unit 24 by voice.

  The own vehicle position calculation unit 14 will be described in detail. As shown in FIG. 2, the own vehicle position calculation unit 14 includes a GPS capture number detection unit 26. The GPS receiver 3 is connected.

  The GPS information output from the GPS receiver 3 is input to the GPS capture number detection unit 26.

  And the GPS capture number detection part 26 detects a GPS capture number based on the GPS information input from the GPS receiver 3 side, and outputs a detection result.

  The own vehicle position calculation unit 14 has a GPS elevation angle detection unit 27, and the GPS receiver 3 is connected to the input side of the GPS elevation angle detection unit 27.

  GPS information output from the GPS receiver 3 is input to the GPS elevation angle detector 27.

  And the GPS elevation angle detection part 27 detects a GPS elevation angle based on the GPS information input from the GPS receiver 3 side, and outputs a detection result.

  An indoor determination unit 28 as an indoor determination unit is connected to the output sides of the GPS capture number detection unit 26 and the GPS elevation angle detection unit 27, and the indoor determination unit 28 outputs the GPS capture number detection unit 26. The detection result and the detection result output from the GPS elevation angle detection unit 27 are respectively input.

  Then, the indoor determination unit 28 determines the vehicle position as the determination of the vehicle position when the GPS capture number is equal to or less than a predetermined number based on the detection result (GPS capture number) input from the GPS capture number detection unit 26 side. The indoor judgment which is a judgment that there exists indoors is performed. Various values (for example, one) can be set as the number of GPS captures (the predetermined number) that serves as a determination criterion for indoor determination.

  In this way, by making an indoor determination based on the number of GPS captures, it is possible to prevent the vehicle from being erroneously determined to have gone out of the air immediately after the capture of GPS under the current situation of multi-channelization. It becomes possible to do.

  Further, the indoor determination unit 28 performs indoor determination when the GPS elevation angle is equal to or smaller than the predetermined angle even when the GPS capture number exceeds the predetermined number. Various values (for example, 30 °) can be set for the predetermined angle.

  As described above, by performing indoor determination based on the GPS elevation angle, for example, when the vehicle is present in a high indoor room with no walls in four directions such as a multilevel parking lot, the number of GPS captures exceeds the predetermined number. However, when the GPS elevation angle is equal to or smaller than the predetermined angle, it is possible to reliably detect that the vehicle is present indoors.

  Furthermore, the own vehicle position calculation unit 14 includes a parking lot determination unit 30, and the parking lot determination unit 30 functions as a parking lot entry determination unit and a parking lot escape determination unit.

  A map matching control unit 31 that performs map matching processing and control thereof is connected to the parking lot determination unit 30.

  After starting the map matching process, the map matching control unit 31 acquires map data around the radio navigation position or the autonomous navigation position from the disk 10, and uses a plurality of matching candidate roads from the road shape data in the acquired map data. It is supposed to be listed.

  Then, the map matching control unit 31 compares the plurality of matching candidate roads, and if there is an appropriate matching candidate road among them, by correcting the vehicle position on the matching candidate road, The map matching process is completed.

  Even if a plurality of matching candidate roads are listed, the map matching process is not performed to the end (not completed) unless the matching candidate roads are appropriate.

  The result of the processing by the map matching control unit 31 is output to the vehicle position drawing unit 20 and the route calculation unit 22 as the vehicle position (calculation result) calculated by the vehicle position calculation unit 14, and the vehicle position mark Used for drawing or calculating recommended routes. As described above, when the map matching process is performed to the end, the own vehicle position after the map matching process is the calculation result of the own vehicle position calculation unit 14, and the map matching process is not performed to the end. In this case, the radio navigation position or the autonomous navigation position is the calculation result of the own vehicle position calculation unit 14.

  The GPS information output from the GPS receiver 3, the detection result of the direction sensor, the vehicle speed pulse, and the information on the matching candidate roads cited by the map matching control unit 31 are input to the parking lot determination unit 30 as necessary. It has become.

  The parking lot determination unit 30 uses these information as appropriate to make a parking lot entry determination according to a predetermined determination criterion. In addition, the criteria for determining parking lot entry will be described later.

  As a preferable specific method of parking lot entry determination (hereinafter referred to as a first entry determination method), first, as a premise, the parking lot determination unit 30 performs unmatchable travel distance, GPS reliability, radio navigation position. And the distance from the matching candidate road and the turning state of the vehicle.

  The unmatchable travel distance can be detected by using the result of the map matching process by the map matching control unit 31, the amount of change in the radio navigation position or the autonomous navigation position, and the like.

  As for the reliability of GPS, for example, as disclosed in Japanese Patent Application Laid-Open No. 2003-279362, the travel distance of a section obtained by autonomous navigation (autonomous navigation travel distance) and the section obtained by GPS May be detected according to the magnitude of the difference between the autonomous navigation travel distance and the distance between GPS positioning points.

  Further, the distance between the radio navigation position and the matching candidate road can be detected based on GPS information, information on the matching candidate road obtained from the map matching control unit 31, and the like.

  Furthermore, the turning state of the GPS can be detected based on the detection result of the direction sensor 5 or the like.

Next, as the next step of the first approach determination method, the parking lot determination unit 30 determines whether or not the following determination criteria (a) to (d) are satisfied.
(A) The detected unmatched travel distance is equal to or greater than a threshold value.
(B) The reliability of the detected GPS is high.
(C) The distance between the detected radio navigation position and the matching candidate road is not less than a value obtained by adding a predetermined error to the road width.
(D) The vehicle is not turning.

  In addition, various values (for example, 20 m) can be set as the threshold value in the determination criterion (a).

  Whether or not the determination criterion (b) is satisfied is determined based on whether or not the magnitude of the difference between the above-described autonomous navigation travel distance and the distance between GPS positioning points is smaller than a predetermined magnitude, for example. Can be judged.

  Further, the error in the criterion (c) may be a GPS average error or a road digitizing error. As the road width, when the road width information is included in the map data, the road width information can be used as it is. Alternatively, when the road width acquired from the road width information is ambiguous indicating that the road width is within a range of 5 m to 13 m, for example, the average value (9 m) may be used as the road width. Even when there is no road width information, if there is lane number information and road type information, a value obtained by multiplying the number of lanes by the lane width for each road type can be used as the road width. As for the lane width for each road type, uniform lane width information (intercity highway: 4.5 m, city highway: 4 m, national road: 3.5 m, prefectural road: 3 m, etc.) is used. be able to. Or, if there is road type information, the average width of each road type (intercity expressway: 30m, city expressway: 25m, national highway: 20m, prefectural road: 15m, etc.) It is good also as width. In the case of a dual road, the road width may be a half value of the road width obtained by using road width information or the like, or a value obtained by further subtracting the width of the median strip from this value.

  Furthermore, in the determination of the determination criteria of (d), for example, when the angular velocity is 20 deg / s or more, or the traveling distance in the state where the angular velocity is 20 deg or more is within 20 m, the determination of (d) It may be determined that the standard is satisfied.

  Next, as the last step of the first entry determination method, when all the determination criteria (a) to (d) are satisfied, the parking lot determination unit 30 performs the parking lot entry determination.

  If such a 1st approach determination method is employ | adopted, the parking lot determination part 30 will be based on the unmatchable travel distance, the reliability of GPS, the distance between a radio navigation position and a matching candidate road, and the turning state of the own vehicle. Since the parking lot entry determination can be performed, the parking lot entry determination can be reliably performed.

  As a preferable specific method of parking lot entry determination other than the first entry determination method (hereinafter referred to as second entry determination method), the parking lot determination unit 30 detects the unmatchable travel distance, and the detected matching The parking lot determination unit 30 performs the parking lot entry determination when the impossible state travel distance is a value equal to or higher than a predetermined threshold (for example, 30 m) higher than the case of the first entry determination method as the determination criterion.

  If such a 2nd approach determination method is employ | adopted, since a parking lot approach determination can be performed by the parking lot determination part 30 based on a matching impossible state travel distance, a parking lot approach is carried out similarly to a 1st approach determination method. The determination can be made reliably.

  As a more preferable specific method for determining the entrance to the parking lot, it is added to the determination criterion in the first entry determination method or the second entry determination method that the indoor determination is performed by the indoor determination unit 28 as a determination criterion. Then, the parking lot approach determination is performed (third approach determination method).

  If such a 3rd approach determination method is employ | adopted, since the parking lot approach determination can be performed using the determination result of the indoor determination part 28, a parking lot approach determination can be performed more reliably.

  As a specific method of parking lot entry determination other than the first to third entry determination methods, for example, the parking lot entry determination may be performed using the area entry detection conditions disclosed in Japanese Patent Application Laid-Open No. 09-178502. Good.

  Furthermore, in this embodiment, the parking lot determination part 30 performs parking lot escape determination according to a predetermined determination criterion.

  As a specific method for determining whether to exit the parking lot (hereinafter referred to as the first escape determination method), the parking lot determining unit 30 detects the traveling speed of the host vehicle based on the vehicle speed pulse, and detects the detected When the traveling speed of the vehicle becomes a traveling speed equal to or higher than a threshold (for example, 32 km / h) as a determination criterion, the parking lot determination unit 30 performs the parking lot escape determination.

  As a specific method of parking lot escape determination other than the first escape determination method (hereinafter referred to as the second escape determination method), the parallel running distance of the autonomous navigation position with respect to the matching candidate road is determined by the parking lot determination unit 30. When the parallel running distance calculated by the cumulative calculation is greater than or equal to a threshold value (for example, 50 m), the parking lot determination unit 30 determines whether to exit the parking lot. In this case, the threshold of the parallel running distance may be different depending on the distance from the autonomous navigation position to the matching candidate road (hereinafter referred to as a separation distance). For example, when the separation distance is within the road width, the threshold of the parallel running distance is 20 m, when the separation distance is within 20 m, the threshold is 30 m, and when the separation distance is within 30 m, the threshold When the separation distance is within 50 m, the threshold value may be 100 m.

  As shown in FIG. 2, a determination control unit 32 is connected to the output side of the indoor determination unit 28 and to the input side of the parking lot determination unit 30, and the determination control unit 32 includes an indoor determination unit. 28 determination results are input.

  And when the indoor determination is performed based on the determination result input from the indoor determination part 28 side (during indoor determination), the determination control part 32 makes the parking lot escape determination to the parking lot determination part 30. The parking lot determination unit 30 is controlled so as not to be performed or difficult to perform.

  As a specific example, for example, when the first escape determination method is adopted as a parking lot escape determination method, the determination control unit 32 performs the first escape determination by the parking lot determination unit 30 during indoor determination. The parking lot determination unit 30 may be controlled to prohibit any parking lot escape determination using the method.

  Alternatively, the determination control unit 32 increases the threshold of the traveling speed of the host vehicle, which is a determination criterion in the first escape determination method (for example, from 32 km / h (when indoor determination is not performed) to 48 km / h). Thus, the parking lot determination unit 30 may be controlled so that the parking lot escape determination using the first escape determination method by the parking lot determination unit 30 is difficult to be performed.

  Moreover, when employ | adopting a 2nd escape determination method as a parking lot escape determination method, the determination control part 32 uses the 2nd escape determination method by the parking lot determination part 30 during indoor determination. You may control the parking lot determination part 30 so that determination may be prohibited at all.

  Alternatively, the determination control unit 32 increases the threshold of the parallel running distance that is a determination criterion in the second escape determination method (for example, from 50 m (when indoor determination is not performed) to 100 m), The parking lot determination unit 30 may be controlled so that the parking lot escape determination using the second escape determination method by the parking lot determination unit 30 is difficult to be performed.

  As described above, in the present embodiment, during the indoor determination, the parking lot determination unit 30 may or may not make the parking lot escape determination, so that the vehicle is a three-dimensional parking lot or an underground parking lot. When the vehicle is present in an indoor parking lot, it is possible to prevent the vehicle from being erroneously determined to have escaped from the indoor parking lot.

  As a result, the map matching control unit 31 does not match the own vehicle position with the road near the indoor parking lot unless the parking lot determination unit 30 determines that the parking lot escapes. Can be prevented.

  When the second escape determination method is employed, the GPS reliability is high even after the indoor determination is canceled, and the distance between the radio navigation position and the matching candidate road is a predetermined error in the road width. When the value is equal to or greater than a value obtained by adding (GPS average error or road digitizing error, etc.), the determination control unit 32 may reset the calculated value of the translation distance calculated by the parking lot determination unit 30 through cumulative calculation. Good.

  If it does in this way, since it will become difficult to perform the parking lot escape determination by the parking lot determination part 30, for example, immediately after the own vehicle leaves the indoor parking lot, the vehicle runs in an outdoor parking lot connected to the indoor parking lot. In this case, it is possible to effectively prevent mismatching with a nearby road.

  Next, an example of the operation of the present embodiment will be described using a specific example.

As shown in FIG. 3, in this embodiment, when the own vehicle enters the underground parking lot P through the spiral approach road R _in from the point A that becomes the entrance to the underground parking lot P, GPS capture is performed. The number of GPS captures detected by the number detector 26 is equal to or less than a predetermined number.

  Thereby, the indoor determination unit 28 performs the indoor determination unit 28. In the underground parking lot P, indoor determination is continued.

  In addition, when the own vehicle enters the underground parking lot P, the parking lot determination unit 30 uses a specific method for determining parking lot entry such as the first to third approach determination methods described above. Make an entry decision.

  Next, the indoor determination is continued while the vehicle is traveling in the underground parking lot P by drawing a travel locus indicated by a broken line in FIG. 3. Therefore, the parking control is performed by the control of the determination control unit 32 based on the indoor determination. It is possible to make the parking lot determination unit 30 not or difficult to perform the parking lot escape determination. Making the parking lot determination difficult, for example, as described above, raises the determination criterion (threshold speed threshold) in the first escape determination method or the determination criterion (threshold value of parallel running distance) in the second escape determination method. Execute by (raising).

  Thus, in a state where parking lot escape determination is not performed, the map matching control unit 31 determines the vehicle position even if a plurality of matching candidate roads including the road R exist on the ground. There is no matching with roads on the ground.

  Therefore, unlike the conventional case (see FIG. 4), it is possible to effectively prevent mismatching with the ground road R at the point B in the underground parking lot P.

Next, after the vehicle is released from the underground parking lot P through the escape route _Rout and the exit (point C) and the indoor determination is canceled, the determination control unit 32 uses the parking lot determination unit 30 to park. The parking lot escape determination is allowed, and the parking lot determination unit 30 is caused to make a parking lot escape determination under a normal determination criterion.

  As described above, according to the present embodiment, the indoor determination unit 28 can perform indoor determination based on the number of GPS captures and the GPS elevation angle. As a result, the vehicle position can be determined with high accuracy. It is possible to prevent mismatching and properly guide the vehicle to the destination during navigation.

  In addition, this invention is not limited to embodiment mentioned above, A various change is possible as needed.

The block diagram which shows the navigation apparatus by which the own vehicle position determination apparatus was mounted in embodiment of the own vehicle position determination apparatus which concerns on this invention. The block diagram which shows embodiment of the own vehicle position determination apparatus which concerns on this invention Explanatory drawing which shows the effect | action of embodiment of the own vehicle position determination apparatus which concerns on this invention Explanatory diagram showing conventional problems

Explanation of symbols

14 Self-vehicle position calculation unit 28 Indoor determination unit 30 Parking lot determination unit

Claims (9)

A vehicle position determination device for determining the position of the vehicle,
When the number of GPS satellites captured is equal to or less than a predetermined number, the vehicle is provided with an indoor determination means for performing indoor determination as a determination that the vehicle is present indoors as the determination of the vehicle position. Car position determination device. A vehicle position determination device for determining the position of the vehicle,
When the elevation angle of the captured GPS satellite is equal to or smaller than a predetermined angle, the vehicle is provided with an indoor determination means for performing an indoor determination as a determination that the own vehicle is present indoors as the determination of the position of the own vehicle. Self-vehicle position determination device. A parking lot escape judging means for performing a parking lot escape judgment which is a judgment that the own vehicle has escaped from the parking lot as a judgment of the own vehicle position;
The self-determination according to claim 1 or 2, wherein when the indoor determination is made, the parking lot escape judging means does not make or makes it difficult to make the parking lot escape judgment. Car position determination device. The parking lot escape determining means is configured to make the parking lot escape determination when the traveling speed of the host vehicle is equal to or higher than a threshold.
The said parking lot escape determination part makes it difficult to make the said parking lot escape determination means perform the said parking lot escape determination means by making the threshold value of the said traveling speed high when the said indoor determination is performed. Vehicle position determination device. The parking lot escape determining means cumulatively calculates the parallel running distance with respect to the matching candidate road of the autonomous navigation position which is the own vehicle position acquired by autonomous navigation according to the variation of the autonomous navigation position, and is calculated by this cumulative calculation. When the parallel running distance is greater than or equal to a threshold, the parking lot escape determination is performed,
The said parking lot escape determination means makes it difficult to make the said parking lot escape determination means by raising the threshold value of the said parallel running distance when the said indoor determination is performed. The own vehicle position determination device described. Even after the indoor determination is canceled, the reliability of the GPS is high, and the distance between the vehicle position measured by the GPS and the matching candidate road is not less than a value obtained by adding a predetermined error to the road width. The host vehicle position determination device according to claim 5, further comprising: resetting the calculated value of the parallel running distance to make it difficult for the parking lot escape determination means to perform the parking lot escape determination. A parking lot entry determination means for performing a parking lot entry determination that is a determination that the own vehicle has entered a parking lot as the determination of the vehicle position,
The said parking lot approach determination means is formed so that the said parking lot approach determination may be performed using the determination result of the said indoor determination means. The any one of Claims 1 thru | or 6 characterized by the above-mentioned. Vehicle position determination device. The said parking lot approach determination means is formed so that the said parking lot approach determination may be performed when the travel distance of the said vehicle in the state in which map matching is impossible becomes more than a threshold value. The own vehicle position determination device described. The parking lot approach determining means is configured such that the travel distance of the vehicle in a state where map matching is impossible is equal to or greater than a threshold, the GPS reliability is high, and the vehicle position and the matching candidate road measured by GPS The parking lot entry determination is performed when the distance is equal to or greater than a value obtained by adding a predetermined error to a road width, and the vehicle is not turning. The vehicle position determination device according to claim 1.