WO2014115563A1 - 運転支援装置、運転支援方法、および運転支援プログラムを記憶する記録媒体 - Google Patents
運転支援装置、運転支援方法、および運転支援プログラムを記憶する記録媒体 Download PDFInfo
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- WO2014115563A1 WO2014115563A1 PCT/JP2014/000375 JP2014000375W WO2014115563A1 WO 2014115563 A1 WO2014115563 A1 WO 2014115563A1 JP 2014000375 W JP2014000375 W JP 2014000375W WO 2014115563 A1 WO2014115563 A1 WO 2014115563A1
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- WIPO (PCT)
- Prior art keywords
- sign
- road
- relative position
- map
- vehicle
- Prior art date
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Classifications
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01C—MEASURING DISTANCES, LEVELS OR BEARINGS; SURVEYING; NAVIGATION; GYROSCOPIC INSTRUMENTS; PHOTOGRAMMETRY OR VIDEOGRAMMETRY
- G01C21/00—Navigation; Navigational instruments not provided for in groups G01C1/00 - G01C19/00
- G01C21/26—Navigation; Navigational instruments not provided for in groups G01C1/00 - G01C19/00 specially adapted for navigation in a road network
- G01C21/34—Route searching; Route guidance
- G01C21/36—Input/output arrangements for on-board computers
- G01C21/3602—Input other than that of destination using image analysis, e.g. detection of road signs, lanes, buildings, real preceding vehicles using a camera
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60W—CONJOINT CONTROL OF VEHICLE SUB-UNITS OF DIFFERENT TYPE OR DIFFERENT FUNCTION; CONTROL SYSTEMS SPECIALLY ADAPTED FOR HYBRID VEHICLES; ROAD VEHICLE DRIVE CONTROL SYSTEMS FOR PURPOSES NOT RELATED TO THE CONTROL OF A PARTICULAR SUB-UNIT
- B60W50/00—Details of control systems for road vehicle drive control not related to the control of a particular sub-unit, e.g. process diagnostic or vehicle driver interfaces
- B60W50/08—Interaction between the driver and the control system
- B60W50/14—Means for informing the driver, warning the driver or prompting a driver intervention
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- G—PHYSICS
- G06—COMPUTING; CALCULATING OR COUNTING
- G06V—IMAGE OR VIDEO RECOGNITION OR UNDERSTANDING
- G06V20/00—Scenes; Scene-specific elements
- G06V20/50—Context or environment of the image
- G06V20/56—Context or environment of the image exterior to a vehicle by using sensors mounted on the vehicle
- G06V20/58—Recognition of moving objects or obstacles, e.g. vehicles or pedestrians; Recognition of traffic objects, e.g. traffic signs, traffic lights or roads
- G06V20/582—Recognition of moving objects or obstacles, e.g. vehicles or pedestrians; Recognition of traffic objects, e.g. traffic signs, traffic lights or roads of traffic signs
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60W—CONJOINT CONTROL OF VEHICLE SUB-UNITS OF DIFFERENT TYPE OR DIFFERENT FUNCTION; CONTROL SYSTEMS SPECIALLY ADAPTED FOR HYBRID VEHICLES; ROAD VEHICLE DRIVE CONTROL SYSTEMS FOR PURPOSES NOT RELATED TO THE CONTROL OF A PARTICULAR SUB-UNIT
- B60W50/00—Details of control systems for road vehicle drive control not related to the control of a particular sub-unit, e.g. process diagnostic or vehicle driver interfaces
- B60W50/08—Interaction between the driver and the control system
- B60W50/14—Means for informing the driver, warning the driver or prompting a driver intervention
- B60W2050/146—Display means
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60W—CONJOINT CONTROL OF VEHICLE SUB-UNITS OF DIFFERENT TYPE OR DIFFERENT FUNCTION; CONTROL SYSTEMS SPECIALLY ADAPTED FOR HYBRID VEHICLES; ROAD VEHICLE DRIVE CONTROL SYSTEMS FOR PURPOSES NOT RELATED TO THE CONTROL OF A PARTICULAR SUB-UNIT
- B60W2555/00—Input parameters relating to exterior conditions, not covered by groups B60W2552/00, B60W2554/00
- B60W2555/60—Traffic rules, e.g. speed limits or right of way
Definitions
- the present invention relates to a driving support device, a driving support method, and a recording medium for storing a driving support program.
- the present invention relates to a driving support device, a driving support method, and a recording medium that stores a driving support program in a vehicle equipped with an imaging device.
- Patent Documents 1 to 3 describe driving support devices that provide information on road signs installed on roads on which vehicles are traveling.
- Patent Document 1 recognizes a speed limit based on a road sign or a road sign included in an image in front of the vehicle taken by an in-vehicle camera. And the apparatus currently disclosed by patent document 1 outputs a warning, when the vehicle speed obtained from the vehicle exceeds the recognized speed limit.
- the navigation system described in Patent Document 2 estimates the road on which the vehicle is traveling based on the position of the vehicle detected using GPS (Global Positioning System) and the road data stored in the road data storage means.
- the road data storage means stores a speed limit for each road in addition to road position data.
- a navigation system reads the speed limit in the road where it was estimated that a vehicle drive
- the navigation system outputs an alarm when the speed output from the vehicle speed sensor exceeds the read speed limit.
- the navigation device disclosed in Patent Document 3 holds the coordinates of a feature such as a building for each user. And a navigation apparatus estimates the road where a vehicle drive
- Patent Document 4 discloses a map database update system that updates a map database by using a result of collation between the type and position of a road sign derived from an image of a camera mounted on a vehicle and a road sign on a map database. Is described.
- the navigation apparatus included in the map database update system recognizes the relative positional relationship such as the type of road sign and the distance and direction of the road sign relative to the camera based on the video of the camera mounted on the vehicle. Then, the navigation device calculates the position of the road sign based on the relative positional relationship of the road sign with respect to the camera and the position and direction of the vehicle measured using a GPS or a sensor.
- the map database update system changes the position of the road sign on the map database to the calculated position.
- JP 2005-128790 A Japanese Patent Laid-Open No. 9-073700 JP-A-10-185607 JP 2002-243469 A
- road signs that do not target at least one of the roads in the vicinity of multiple roads.
- a road sign for example, there is a road sign for only one road installed at a branch point of the road or at the center of two adjacent roads in the same direction.
- the apparatus disclosed in Patent Documents 1 to 4 distinguishes whether or not a road sign adjacent to a plurality of roads including a road on which the vehicle is traveling targets a road on which the vehicle is traveling. Can not. Therefore, in the case where the position of the vehicle and the position of the road sign are specified using the techniques of Patent Documents 1 to 4 and information on the road sign close to the vehicle is provided, the road sign that does not target the road on which the vehicle is traveling May be provided incorrectly.
- the devices disclosed in Patent Document 2 and Patent Document 3 estimate the road on which the vehicle travels based on the measurement result of the vehicle position and the map data. And the apparatus currently disclosed by patent document 2 outputs the speed limit of the road estimated that the vehicle drive
- the measurement result of the position of the vehicle includes an error. Therefore, when a plurality of roads are close to each other, the devices disclosed in Patent Document 2 and Patent Document 3 estimate that the vehicle is traveling on a road on which the vehicle is not actually traveling. there is a possibility. Therefore, the device disclosed in Patent Document 2 may output a speed limit for a road on which the vehicle is not traveling. In addition, the device disclosed in Patent Document 3 may output relative position information of a feature near a road where the vehicle is not traveling with respect to the road.
- One of the objects of the present invention is to provide information on a sign for a road on which the vehicle is traveling when the vehicle approaches a sign installed close to a plurality of roads.
- An object of the present invention is to provide a driving support device that suppresses the provision of information on signs that are not intended for the vehicle.
- the driving support device detects a sign from an image acquired from a photographing device mounted on a vehicle traveling on a road, information represented by the detected sign that is the detected sign, and the detection for the road
- a sign recognition means for recognizing a first relative position as a relative position of the sign, a map data storage means for storing a second relative position as a relative position of the sign with respect to the road, and the second relative position; By determining that the first relative position is matched, a label for determining the match between the detection sign and the map sign that is the sign for the map data storage means to store the second relative position A position determination unit; and an output unit that outputs information represented by the detection sign when it is determined that the detection sign and the map sign match each other.
- the driving support method of the present invention acquires a video from a photographing device mounted on a vehicle traveling on a road, detects a sign from the video, information represented by the detected sign that is the detected sign, and the road
- a first relative position which is a relative position of the detection sign with respect to the road, a second relative position which is a relative position of the sign with respect to the road is stored in map data storage means, and the second relative position and the
- the detection mark and the map data storage means determine the match between the map sign that is the sign for storing the second relative position, and When it is determined that the detection sign matches the map sign, the information represented by the detection sign is output.
- the recording medium of the present invention detects a sign from a video acquired from a photographing device mounted on a vehicle traveling on a road, information represented by the detected sign that is the detected sign, and the road
- a sign recognition means for recognizing a first relative position as a relative position of the detection sign, a map data storage means for storing a second relative position as a relative position of the sign with respect to the road, and the second relative
- determining that the position matches the first relative position it is determined whether the detected sign matches the map sign that is the sign for which the map data storage means stores the second relative position.
- a driving support program that operates as an output unit that outputs information represented by the detected sign when it is determined that the detected sign matches the map sign.
- the present invention can also be realized by a driving support program stored in such a recording medium.
- the present invention has an effect that information on a sign for a traveling road can be selectively output when approaching a sign installed close to a plurality of roads.
- FIG. 1 is a diagram illustrating an example of a configuration of a driving support system 100 according to the first, second, and third embodiments.
- FIG. 2 is a diagram illustrating an example of a physical configuration of the driving support apparatus system 100.
- FIG. 3 is a flowchart showing an example of the operation of the driving support device 1 of the present embodiment.
- FIG. 4 is a diagram illustrating an example of the arrangement of roads and signs.
- FIG. 5 is a diagram illustrating an example of sign data stored in map data that is installed within a predetermined distance from the position measured by the position measurement unit 15.
- FIG. 6 is a diagram illustrating an example of extracted sign data.
- FIG. 7 is a diagram illustrating an example of the arrangement of roads and signs.
- FIG. 1 is a diagram illustrating an example of a configuration of a driving support system 100 according to the first, second, and third embodiments.
- FIG. 2 is a diagram illustrating an example of a physical configuration of the driving support apparatus system 100.
- FIG. 3
- FIG. 8 is a diagram illustrating an example of sign data stored in the map data storage unit 12.
- FIG. 9 is a flowchart illustrating an example of the operation of the driving support apparatus 1 according to the second embodiment.
- FIG. 10 is a diagram illustrating an example of a sign, a road, and a vehicle traveling on the road.
- FIG. 11 is a diagram illustrating an example of the relationship between the sign 601 and the imaging device 2.
- FIG. 12 is a diagram illustrating an example of the arrangement of roads and signs.
- FIG. 13 is a flowchart showing the operation of the driving support apparatus 1 of the third embodiment.
- FIG. 14 is a diagram illustrating an example of a configuration of the driving support device 1 ⁇ / b> A according to the fourth embodiment.
- FIG. 15 is a diagram illustrating an example of a configuration of a computer 1000 used for realizing the driving support device 1 and the driving support device 1A.
- FIG. 1 is a diagram illustrating an example of a configuration of a driving support system 100 according to the first embodiment of this invention.
- the driving support system 100 includes a driving support device 1, a photographing device 2, and an output device 3.
- the photographing device 2 is a camera mounted on the vehicle.
- the imaging device 2 captures an image in front of the vehicle.
- the imaging device 2 is attached to the vehicle so that the range including the roadside ahead of the vehicle is included in the imaging range.
- the photographing device 2 transmits the photographed video to the driving support device 1.
- the driving support device 1 and the imaging device 2 are mounted so that the video captured by the imaging device 2 can be transmitted to the driving support device 1.
- the driving support device 1 and the photographing device 2 may be connected by a cable, for example.
- the driving support device 1 and the photographing device 2 may be able to communicate by wireless communication.
- the output device 3 is, for example, a display device, a sound output device, or a display device provided with a speaker.
- the display device is a display that displays images and videos.
- the audio output device is a speaker that outputs audio.
- a display device including a speaker outputs sound in addition to images and videos.
- the driving support device 1 includes a video acquisition unit 10, a sign recognition unit 11, a map data storage unit 12, a sign position determination unit 13, an output unit 14, a position measurement unit 15, and a position estimation unit 16. .
- the video acquisition unit 10 acquires videos shot by the shooting device 2 from the shooting device 2. For example, the video acquisition unit 10 acquires digital data of a video captured by the imaging device 2 from the imaging device 2.
- the sign recognition unit 11 detects the sign in the video acquired from the video acquisition unit 10.
- the sign is, for example, a road sign.
- the road sign is represented by, for example, a character, a graphic, or a combination of a character and a graphic.
- the sign recognition unit 11 recognizes information represented by the detected sign.
- the sign detected in the video by the sign recognition unit 11 is also referred to as a detection sign.
- the information represented by the sign is, for example, the type of sign.
- the sign recognition unit 11 recognizes the relative position of the detection sign with respect to the road on which the vehicle on which the imaging device 2 is mounted is based on the video acquired from the video acquisition unit 10 (that is, the video captured by the imaging device 2). To do.
- the relative position of the sign with respect to the road indicates, for example, whether the sign exists on the right side or the left side of the road toward a predetermined direction of the road.
- the relative position of the detection sign with respect to the road is also referred to as a first relative position.
- the sign recognition unit 11 determines whether the detection sign is present on the right or left of the road on which the vehicle on which the photographing device 2 is mounted travels in the traveling direction of the vehicle on which the photographing device 2 is mounted. Recognized as the first relative position. Therefore, in the present embodiment, the first relative position is the detection sign on the right side of the road on which the vehicle on which the imaging device 2 is mounted travels in the traveling direction of the vehicle on which the imaging device 2 is mounted. Indicates whether it is present or left.
- the map data storage unit 12 stores road data including the shape and position of the road and sign data including the position and type of the sign.
- a road is represented by a combination of line segments, for example.
- a line segment is represented by two end points. These line segments may have directions. In that case, one of the two end points may be stored as the start point, and the other end point may be stored as the end point.
- the road data is data including the coordinates of the start point and the end point of each line segment, for example.
- the position of the road and the position of the sign stored in the map data storage unit 12 are expressed in a common coordinate system such as latitude and longitude.
- a position expressed in a common coordinate system such as latitude and longitude is also expressed as an absolute position.
- the coordinates representing the absolute position are also expressed as absolute coordinates.
- the sign data further includes a road identifier of a road targeted by the sign and a relative position between the sign and the road targeted by the sign.
- the road identifier is also expressed as a road ID (Identifier).
- the sign represented by the sign data stored in the map data storage unit 12 is also referred to as a map sign.
- the relative position between the map sign and the road targeted by the map sign is, for example, whether the sign position is on the left side in the direction of the road specified by the start and end points of the line segment representing the road. Indicates whether it is on the right side.
- the relative position of the map sign with respect to the road is also expressed as a second relative position.
- the map data storage unit 12 may store the second relative position with respect to the plurality of roads with respect to the map sign.
- the map data storage unit 12 has, as the road data, for example, the coordinates of two end points of the line segment and the line for each line segment of the road approximated by a combination of a plurality of line segments. It is only necessary to store the combination with the minute identifier.
- the coordinates of the end points are, for example, latitude and longitude.
- the map data storage unit 12 only needs to store one of the two end points as the start point and the other as the end point.
- the direction of the line segment is the direction from the start point to the end point. The direction of the line segment may not be related to the traveling direction of the vehicle on the road represented by the line segment.
- the line segment identifier may be the above-described road identifier that is also described as, for example, a road ID.
- the map data storage unit 12 sets the sign identifier, the coordinates of the place where the sign is installed, the type of the sign, and the road ID of the road targeted by the sign.
- the combination of the sign and the relative position of the road targeted by the sign only needs to be stored.
- the coordinates of the place where the sign is installed are represented by latitude and longitude, for example.
- the relative position of the sign and the road targeted by the sign indicates, for example, whether the sign is installed on the left side or the right side in the direction of the line segment representing the road. Any data can be used.
- the position measuring unit 15 measures the absolute position of the vehicle using, for example, GPS. As described above, the absolute position is represented by latitude and longitude, for example. A position represented simply as “position” represents an absolute position. Various existing methods can be used as a method of measuring the position of the vehicle by the position measurement unit 15.
- the position measurement unit 15 may measure the position of the vehicle by a method that does not use GPS.
- the position measurement unit 15 may measure the position of the vehicle using, for example, the intensity of radio waves from a radio base station.
- the position estimation unit 16 estimates the road on which the vehicle travels based on the position of the vehicle measured by the position measurement unit 15 and the road data stored in the map data storage unit 12. The position estimation unit 16 estimates the position of the place where the vehicle exists on the road and the traveling direction of the vehicle.
- the sign position determination unit 13 extracts a sign whose distance from the position of the vehicle estimated by the position estimation unit 16 does not exceed a predetermined distance from the signs whose map data storage unit 12 stores the sign coordinates.
- the sign position determination unit 13 may further extract a sign of the same type as the type of the sign detected from the video from the extracted sign.
- the sign for which the map data storage unit 12 stores the sign coordinates is the aforementioned map sign.
- the relative position of the map sign relative to the road is also expressed as the second relative position of the map sign relative to the road.
- the sign position determination unit 13 specifies, for example, the second relative position of the map sign with respect to the road targeted by the extracted map sign.
- the sign position determination unit 13 may read the second relative position of the extracted map sign stored in the map data storage unit 12.
- the sign detected in the video by the sign recognition unit 11 is the detection sign.
- the relative position of the detection sign with respect to the road is also referred to as a first relative position.
- video in which a detection mark is detected is image
- the sign recognition unit 11 derives the first relative position of the road on which the vehicle on which the imaging device 2 that has captured the video from which the detection image is detected travels travels. .
- the sign position determination unit 13 determines whether or not the first relative position of the detected sign matches the second relative position of the extracted map sign. When the first relative position of the detection sign matches the second relative position of the map sign, the sign position determination unit 13 determines that the detection sign and the map sign match.
- the output unit 14 outputs information represented by the detection sign when there is a map sign that matches the detection sign.
- the output unit 14 is configured such that a difference between a location of a map sign suitable for the detection sign to a road targeted by the map sign and a distance from the location of the detection sign to a road on which the vehicle travels are as follows:
- information represented by the detection sign may be output.
- the sign recognition unit 11 may estimate a difference in distance from the place where the detection sign is installed to the road on which the vehicle travels.
- the sign recognition unit 11 may calculate, for example, the distance from the detection sign to the optical axis of the imaging device 2 as the distance from the place where the detection sign is installed to the road on which the vehicle travels.
- the output device 3 outputs information and other data represented by the sign received from the output unit 14 as sound, image, or video.
- FIG. 2 is a diagram illustrating an example of a physical configuration of the driving support apparatus system 100.
- the driving support device system 100 includes an ECU 901 (Electronic Control Unit), a GPS antenna 902, and a camera 903.
- the ECU 901 includes a CPU 904 (Central Processing Unit), a signal processing circuit 905, a RAM 906 (Random Access Memory), a ROM 907 (Read Only Memory), and a power supply circuit 908.
- the CPU 904 can access the signal processing circuit 905, the RAM 906, and the ROM 907.
- the camera 903 operates as the photographing device 2.
- the signal processing circuit 905 operates as the video acquisition unit 10.
- the GPS antenna 902 and the signal processing circuit 905 operate as the position measurement unit 15.
- At least one of the RAM 906 and the ROM 907 operates as the map data storage unit 12. Further, for example, by executing a program stored in the ROM 907, the CPU 904, the RAM 906, and the ROM 907 operate as the sign recognition unit 11, the sign position determination unit 13, the output unit 14, and the position estimation unit 16.
- FIG. 3 is a flowchart showing an example of the operation of the driving support device 1 of the present embodiment.
- the video acquisition unit 10 acquires a video from the imaging device 2 (step S101).
- the image acquisition unit 10 acquires, for example, digital data of an image captured by the image capturing device 2.
- the video acquisition unit 10 may acquire the frame of the video captured by the imaging device 2 from the imaging device 2 as a still image.
- the video acquisition unit 10 may acquire an analog signal of a video captured by the imaging device 2 from the imaging device 2. Then, the video acquisition unit 10 may convert the analog signal of the video into digital data.
- the sign recognition unit 11 detects the sign from the video acquired by the video acquisition unit 10 (step S102).
- the imaging device 2 captures an image in front of the vehicle.
- the imaging device 2 is attached to the vehicle so that the range including the roadside ahead of the vehicle is included in the imaging range. If a sign is installed at a location included in the shooting range on the road side in front of the vehicle, the image taken by the photographing device 2 includes the sign image.
- step S103 If no sign is detected from the video (No in step S103), the operation of the driving support device 1 returns to step S101.
- step S104 the sign recognition unit 11 recognizes the type of the detected sign and information represented by the sign (step S104).
- the sign recognition unit 11 may, for example, correct the shape of the detected sign area and then perform template matching to recognize the sign type.
- the label recognition unit 11 recognizes the types of all the detected labels.
- the type of sign is information indicating the type of sign such as a maximum speed sign for each speed, a stop sign, a parking prohibition sign, or the like, such as a maximum speed sign of 100 km / h (kilometer per hour).
- the type of sign may be expressed in advance by a code associated with the type of sign described above.
- the map data storage unit 12 holds information represented by the sign such as that the maximum speed is 100 km / h, that a temporary stop is required, and that parking is prohibited for each type of sign. Just do it.
- the sign recognizing unit 11 may read out the information represented by the sign corresponding to the recognized sign type from the map data storage unit 12. When the sign includes character information such as day of the week and time, the sign recognition unit 11 may recognize information represented by the sign by character recognition.
- the sign recognition unit 11 may perform sign recognition by a road sign recognition method described in, for example, Japanese Patent Laid-Open No. 62-108396.
- FIG. 4 is a diagram showing an example of the arrangement of roads and signs.
- a sign 203 is installed near the branch point between the road 201 and the road 202.
- the sign 203 is a sign for the road 201.
- the imaging device 2 mounted on the vehicle.
- the video acquired by the video acquisition unit 10 includes the image of the sign 203.
- the sign detection unit 11 detects an image area of the sign 203 from the video acquired by the video acquisition unit 10.
- the sign recognition unit 11 recognizes the type of the detected area, so that the sign type is “maximum speed 40 km / h”. h ”.
- the sign recognition unit 11 derives the relative position of the sign detected from the video based on the video (step S105).
- the relative position derived by the sign recognition unit 11 in step S105 is the relative position of the sign detected from the image with respect to the road on which the vehicle travels in the direction in which the vehicle on which the imaging device 2 that captures the image is mounted travels. Position. As described above, the relative position derived by the sign recognition unit 11 in step S105 is also expressed as the first relative position.
- the sign recognition unit 11 estimates the first relative position, for example, as follows.
- the sign recognition unit 11 may recognize, for example, as a relative position whether the place where the sign is detected is on the right side or the left side with respect to a predetermined reference set in the video.
- the predetermined reference may be, for example, a non-horizontal line set in advance in the video.
- the predetermined reference may be a line segment that corresponds to a vertical plane that is set in advance on the video and passes through the camera center of the photographing apparatus 2 and is parallel to the front direction of the vehicle.
- the predetermined reference may be, for example, a road area in the video recognized by the sign recognition unit 11 using any of the existing road area recognition methods.
- the sign position determination unit 13 acquires the position of the vehicle, for example, from the position estimation unit 16 (step S106).
- the vehicle position acquired by the sign position determination unit 13 is, for example, the latitude and longitude measured by the position measurement unit 15 using GPS.
- the sign position determination unit 13 may acquire the latitude and longitude after the position estimation unit 16 corrects the latitude and route measured by the position measurement unit 15. For example, the correction by the position estimation unit 16 estimates the road on which the vehicle travels using the map data stored in the map data storage unit 12 and changes the position of the traveling vehicle onto the estimated road. This is a correction performed by a normal navigation device.
- the position measurement unit 15 may measure the azimuth of the vehicle using, for example, an azimuth sensor.
- the marker position determination part 13 may acquire the latitude, the longitude, and a direction as a position of a vehicle.
- the sign position determination unit 13 extracts a sign whose installation location is close to the acquired vehicle position from the sign in which the map data storage unit 12 stores the sign data (step S107).
- the sign position determination unit 13 extracts, for example, signs installed within a predetermined distance from the acquired vehicle position.
- the predetermined distance described above may be a predetermined distance based on, for example, the accuracy of GPS or the camera parameters of the photographing apparatus 2.
- the sign position determination unit 13 is installed within a predetermined distance from the position represented by these latitude and longitude. The label that is being used is extracted.
- FIG. 5 is a diagram illustrating an example of sign data stored in map data that is installed within a predetermined distance from the position measured by the position measurement unit 15.
- the sign position determination unit 13 further extracts a sign of the same type as the type of the sign detected in the video from the sign extracted based on the sign data stored in the map data storage unit 12 (step S108).
- the sign position determination unit 13 further determines that the type is “maximum speed 40 km / h” from the extracted sign.
- the label “h” is extracted.
- FIG. 6 is a diagram showing extracted sign data.
- the marker position determination unit 13 extracts the marker data shown in FIG. 6 from the marker data shown in FIG. That is, the marker position determination unit 13 extracts a marker represented by the marker data shown in FIG.
- the sign position determination unit 13 determines whether the sign extracted based on the sign data includes a sign that matches the sign detected in the video (step S109).
- the sign extracted based on the sign data is the map sign extracted by the sign position determination unit 13 from the map sign represented by the sign data stored in the map data storage unit 12.
- the sign detected in the video is a detection sign detected by the sign recognition unit 11 in the video photographed by the photographing device 2.
- the sign position determination unit 13 compares the relative position of the sign detected by the sign recognition unit 11 with the road on which the vehicle travels and the relative position of the extracted sign with respect to the road targeted by the sign. May be determined.
- the sign data stored in the map data storage unit 12 includes the relative position of the sign with respect to any direction of the road.
- the relative position of the sign detected by the sign recognition unit 11 in the video is, for example, the relative position of the detected sign with respect to the road on which the vehicle travels in the direction in which the vehicle travels.
- the relative position of the sign detected by the sign recognizing unit 11 with respect to the road on which the vehicle travels is simply referred to as “the relative position of the detected sign”.
- the relative position of the sign extracted from the sign data with respect to the road targeted by the sign is simply referred to as “the relative position of the extracted sign”. If the relative position of the detected label matches the relative position of the extracted label, the label position determination unit 13 may determine that the detected label matches the extracted label.
- the map data storage unit 12 stores road data including the position of the start point and the position of the end point of the road.
- the map data storage unit 12 stores the relative position of the sign in the direction from the start point to the end point of the road with respect to the road targeted by the sign, for example, as at least part of the sign data.
- the sign position determination unit 13 determines the relative position included in the map data storage unit 12 when the angle between the direction from the start point to the end point of the road targeted by the sign and the traveling direction of the vehicle does not exceed 90 degrees.
- the relative position in the traveling direction may be set.
- the sign position determination unit 13 reverses the relative position included in the map data storage unit 12.
- the position may be a relative position in the direction in which the vehicle travels. In this case, if the relative position of a certain sign stored in the map data storage unit 12 is “left”, for example, the relative position in the direction in which the vehicle travels is set to “right”.
- the sign position determination unit 13 of the present embodiment reads the map coordinates extracted in Step S107 and Step S108 from the map data storage unit 12 relative to the road targeted by the map coordinates. Then, the sign position determination unit 13 determines that the relative position of the detection sign relative to the road on which the vehicle travels matches the map sign whose relative position matches the detection sign.
- the map sign extracted by the sign detection unit 11 in step S107 is a map sign installed at a location within a predetermined distance from the measured vehicle position.
- the map sign extracted by the sign detection unit 11 in step S108 is the same type of map sign as the detection sign detected by the sign recognition unit 11 among the signs extracted in step S107.
- the sign position determination unit 13 displays the map sign on the side where the detection sign is present on the road on which the vehicle on which the imaging device 2 that captures the image is mounted and on the road targeted by the map sign.
- the existing side is the same, it is determined that the detection mark and the map mark are matched.
- the sign position determination unit 13 determines whether the sign from which the data has been read from the map data storage unit 12 matches the detected sign, so that the detected sign is targeted for the road on which the vehicle is traveling. It is determined whether or not it is a sign to be used. That is, when the sign from which the data is read from the map data storage unit 12 matches the detected sign, the sign position determination unit 13 is a sign that targets the road on which the vehicle travels. judge. In addition, the sign position determination unit 13 determines that the detected sign is not a sign for a road on which the vehicle travels when the sign read from the map data storage unit 12 does not match the detected sign. judge.
- step S110 If there is no sign that matches the detected sign (No in step S110), the process of the driving support device 1 returns to step S101.
- the relative position included in the sign data represents the relative position in the traveling direction of the vehicle with respect to the road targeted by the sign data.
- the relative position of the sign with respect to the road targeted by the sign is “right”.
- the sign represented by the sign data in FIG. 6 is placed on the right side of the road targeted by this sign.
- the relative position of the sign to the road on which the vehicle travels is “left”.
- the label of FIG. 6 and the label detected by the label recognition unit 11 do not match.
- step S110 If there is a sign that matches the detected sign (Yes in step S110), the output unit 14 outputs information represented by the detected sign (step S111).
- the output unit 14 converts voice data associated with the detected sign type into voice and outputs it to the output device 3 which is a voice output device such as a speaker mounted on the vehicle, for example. Or the output part 14 may display the image
- the output unit 14 may output the output device 3 by combining audio and video or images.
- a storage unit (not shown) of the driving support device 1 only needs to store audio data associated with the type of the sign, video or image data.
- the output unit 14 transmits information represented by the detected sign to the driver of the vehicle by outputting information represented by the detected sign.
- the output unit 14 may further output a road ID of a road targeted by a sign that matches the detected sign.
- the output unit 14 may output a map of the road represented by the road ID instead of the road ID.
- the relative position is, for example, the sign installation position represented by “right” or “left” with respect to the road in the traveling direction of the vehicle.
- the relative position may be a position represented by another method.
- the relative position may be the direction of the sign installation position with respect to the road.
- the direction in this case is, for example, the direction of the normal of the road from the road toward the installation position of the sign.
- the azimuth only needs to be represented by a finite number of azimuths divided within a predetermined angle range.
- the direction can be expressed in any of east, west, south, and north.
- the position measurement unit 15 further measures, for example, the front direction of the vehicle as the direction of the road on which the vehicle travels.
- the sign recognition unit 11 further calculates an angle of the detected sign with respect to the front of the vehicle.
- the sign recognition unit 11 determines, for example, from the photographing apparatus 2 to the sign from the diameter when the detected sign is a standard size, the diameter of the sign in the image, and the camera parameters of the photographing apparatus 2. Calculate the distance.
- the sign position determination unit 13 detects the direction of the detected sign relative to the position of the vehicle based on the front direction of the vehicle, the detected sign angle with respect to the front of the vehicle, and the distance from the imaging device 2 to the sign. Is calculated.
- the map data storage part 12 should just memorize
- the embodiment described above has an effect that information on a sign for a traveling road can be selectively output when approaching a sign installed close to a plurality of roads.
- the sign position determination unit 13 determines that the sign detected from the image captured by the photographing device 2, the relative position with respect to the road on which the vehicle is traveling, and the sign stored in the map data storage unit 12 are This is because the matching of the relative position with respect to the target road is determined.
- the relative position of the sign to the road indicates, for example, whether the sign is installed on the right side or the left side of the road with respect to the traveling direction of the vehicle traveling on the road. Then, when it is determined that the two relative positions are matched, the output unit 14 outputs information represented by the sign detected from the video.
- the sign position determination unit 13 determines whether there is a map sign whose relative position matches the detected sign.
- the output part 14 of this embodiment outputs the information which a sign
- the output unit 14 of the present embodiment does not output information represented by the detected sign when there is no map sign whose relative position matches the detected sign.
- the driving assistance apparatus 1 of this embodiment can suppress the output of the information of the sign which is not the road where a vehicle drive
- the driving assistance apparatus 1 of this embodiment can selectively output the information of the label
- FIG. 1 is a diagram showing the configuration of the driving support system 100 of the present embodiment.
- the configuration of the driving support system 100 of the present embodiment is the same as the configuration of the driving support system 100 of the first embodiment. Below, the difference of this embodiment with respect to 1st Embodiment is mainly demonstrated.
- the relative position includes the distance between the sign and the road in addition to the relative position of the first embodiment.
- the distance between the sign and the road is, for example, the shortest distance between the sign and the center line of the road.
- the distance between the sign and the road may be, for example, the shortest distance between the sign and the road area.
- the distance between the sign and the road may be a value representing the proximity between the sign and the road, measured by other methods.
- FIG. 7 is a diagram showing an example of the arrangement of roads and signs.
- FIG. 7 there are a road 602 and a road 603.
- a sign 601 for the road 603 is installed on the left side of the road 603.
- the distance between the road 603 and the sign 601 is a distance 604.
- the sign recognition unit 11 of the present embodiment recognizes the distance between the road on which the vehicle travels and the sign as the relative position of the detected sign with respect to the road on which the vehicle travels. Is calculated.
- the sign recognition unit 11 calculates, for example, the distance between the center line of the road on which the vehicle travels and the sign installation position as the distance between the road on which the vehicle travels and the sign.
- the sign recognition unit 11 uses the optical axis of the photographing apparatus 2 and the sign installation position as an approximate value of the distance between the center line of the road on which the vehicle travels and the sign installation position. Calculate the distance between them.
- the sign recognition unit 11 calculates the distance included in the detected relative position of the sign, that is, the distance between the road on which the vehicle travels and the sign, and the optical axis of the imaging device 2 and the sign installation position. Calculate the distance between them.
- the sign recognition unit 11 may calculate another value indicating the proximity between the road on which the vehicle travels and the sign as the distance between the road on which the vehicle travels and the sign.
- the map data storage unit 12 of the present embodiment is configured so that the relative position of the sign with respect to the road targeted by the sign includes the road and sign targeted by the sign in addition to the relative position of the first embodiment.
- the distance As described above, the distance between the road and the sign is, for example, the distance between the center line of the road and the sign.
- the map data storage unit 12 may store all the distances to the roads that are the target of the sign for each sign.
- FIG. 8 is a diagram illustrating an example of the sign data stored in the map data storage unit 12.
- the map data storage unit 12 of the present embodiment uses the “direction” corresponding to the relative position of the first embodiment as a relative position, and the distance between the sign and the road targeted by the sign. The “distance” to be expressed is stored.
- FIG. 9 is a flowchart showing the operation of the driving support device 1 of the present embodiment.
- step S101 to step S105 of the driving support device 1 of the present embodiment is the same as the operation of the steps with the same reference numerals of the driving support device 1 of the first embodiment.
- the sign recognition unit 11 calculates the distance between the optical axis of the photographing apparatus 2 and the sign installation position (step S201).
- the distance between the optical axis of the photographing apparatus 2 and the sign installation position is the shortest distance between the optical axis of the photographing apparatus 2 and the sign installation position.
- FIG. 10 is a diagram illustrating an example of a sign, a road, and a vehicle traveling on the road.
- the vehicle 700 is traveling on the road 603. Further, a sign 601 is installed on the left side of the road 602 branched from the road 603. The distance between the sign 601 and the road 602 is a distance 604. A distance between the optical axis 701 of the photographing apparatus 2 mounted on the vehicle 700 and the sign 601 is a distance 702.
- FIG. 11 is a diagram illustrating an example of the relationship between the sign 601 and the imaging device 2.
- a distance between a plane that passes through the sign 601 and is perpendicular to the optical axis 701 of the photographing apparatus 2 and the camera center 704 is a distance 705.
- An angle between the optical axis 701 of the photographing apparatus 2 and a straight line passing through the camera center 704 and the marker 601 is an angle 706.
- An image of the sign 601 exists on the image plane 703 of the photographing apparatus 2.
- the imaging device 2 of the present embodiment may include a stereo camera whose internal parameters are known.
- the sign recognition unit 11 calculates the three-dimensional position of the sign in the camera coordinate system from the image of the stereo camera by any existing method based on the principle of stereoscopic vision. .
- Various existing methods can be applied to calculate the three-dimensional position of the sign in the camera coordinate system.
- the sign recognition unit 11 calculates the distance from the optical axis of the camera to the sign from the calculated position of the sign in the camera coordinate system.
- the camera coordinate system may be a coordinate system based on any camera constituting the stereo camera.
- the optical axis of the camera may be the optical axis of any camera constituting the stereo camera.
- the photographing device 2 may include a single camera whose camera internal parameters are known.
- the sign recognition unit 11 includes the standard size of the detected sign, the size of the detected sign on the image, and the internal parameters of the camera of the photographing apparatus 2. From this, the distance between the optical axis of the camera and the sign is calculated.
- the method of calculating the distance between the optical axis of the camera and the sign by the sign recognition unit 11 may be any existing method based on the principle of figure similarity, for example.
- the sign recognition unit 11 determines from the standard size of the detected sign, the size of the detected sign on the image, and the internal parameters of the camera of the photographing apparatus 2 to the road sign from the camera.
- the distance 705 is estimated. Further, the sign recognition unit 11 calculates the tangent of the angle 706 from the horizontal position of the detected sign on the image. Then, the sign recognition unit 11 multiplies the tangent of the angle 706 and the distance 705 to estimate the distance 702 from the optical axis 701 to the sign 601.
- step S106 to step S110 of the driving support device 1 of the present embodiment are the same as the operations of the steps with the same reference numerals of the driving support device 1 of the first embodiment.
- the output unit 14 determines the distance between the detected label and the optical axis of the imaging device 2 and the label that matches the detected label. Compare the distance to the target road.
- step S202 When the difference between the distance between the detected sign and the optical axis of the imaging device 2 and the distance from the sign suitable for the detected sign to the road targeted by the sign is greater than or equal to a predetermined value (No in step S202) ), The operation of the driving support device 1 returns to step S101.
- the output unit 14 outputs information represented by the detected sign (step S111).
- the above-mentioned predetermined value is a threshold value for the difference between the distance between the detected sign and the optical axis of the imaging device 2 and the distance from the sign that matches the detected sign to the road targeted by the sign.
- the predetermined value that is, the threshold value described above may not be a constant value.
- the map data storage unit 12 may store a distance to a road closest to the sign and a threshold value for each sign. This threshold value may be a value equal to or greater than the difference between the distance between the road closest to the sign and the distance of the sign farthest from the sign among the roads targeted by the sign.
- the output part 14 should just read the threshold value corresponding to a label
- the present embodiment described above has the same effect as the first embodiment.
- the reason is the same as the reason for the effect of the first embodiment.
- the output unit 14 further targets the sign from the distance between the detected sign and the optical axis of the imaging device 2 and the sign that matches the detected sign. This is because the distance to the road is compared. This is because the output unit 14 outputs information represented by the detected sign when the difference between the two distances compared is smaller than a predetermined value.
- the driving support apparatus 1 may detect the sign 601 from the image of the photographing apparatus 2.
- the sign 601 is installed on the left side of the road 602 that is the target of the sign 601.
- the sign 601 is installed on the left side of the road 603 on which the vehicle travels. Therefore, in such a case, the driving support apparatus 1 according to the first embodiment outputs the information of the sign 601 even when the vehicle is traveling on the road 603 that is not the target of the sign 601.
- the output unit 14 outputs the information represented by the detected sign, so that the driving support device 1 of the present embodiment is traveling. It is possible to suppress the output of the information of the sign that does not target the other road with higher accuracy.
- This predetermined value may be set in advance so that the difference between the two distances described above and the case where the vehicle is traveling on the road that is the target of the sign and the other case can be discriminated.
- the map data storage unit 12 may store the predetermined value as the aforementioned threshold value for each sign.
- FIG. 1 is a diagram showing the configuration of the driving support system 100 of the present embodiment.
- the configuration of the driving support system 100 of the present embodiment is the same as the configuration of the driving support system 100 of the first embodiment. Below, the difference of this embodiment with respect to 1st Embodiment is mainly demonstrated.
- the sign recognition unit 11 of the present embodiment further calculates the distance between the detected sign and the imaging device 2.
- the map data storage unit 12 of the present embodiment further includes a branch of the road targeted by the sign for each sign in which a branch point whose distance from the sign is within a predetermined distance exists on the road targeted by the sign.
- a branch point whose distance from the sign is within a predetermined distance exists on the road targeted by the sign.
- the map data storage unit 12 may store the distance to the branch point closest to the sign among those branch points.
- the map data storage unit 12 may store the coordinates of the branch point in addition to the distance between the branch point and the sign.
- the map data storage unit 12 determines the coordinates of the branch point closest to the sign in each direction of the road centered on the sign.
- the distance from the branch point to the sign may be stored.
- the map data storage unit 12 stores road data as a separate road for each vehicle traveling direction with respect to a road that is not one-way, the map data storage unit 12 exists in a direction in which the vehicle approaches the sign. It is only necessary to store the distance between the branch point and the sign and the coordinates of the branch point.
- FIG. 12 is a diagram showing an example of the arrangement of roads and signs.
- the road 201 and the road 202 are branched at a branch point 1102.
- the distance from the branch point 1102 to the sign 203 is a distance 1103.
- FIG. 13 is a flowchart showing the operation of the driving support device 1 of the present embodiment.
- step S101 to step S105 of the driving support device 1 of the present embodiment is the same as the operation of the steps with the same reference numerals of the driving support device 1 of the first embodiment.
- step S105 the sign recognition unit 11 calculates the distance between the photographing device 2 and the sign installation position (step S301).
- the sign recognition unit 11 may calculate the distance between the camera center of the photographing apparatus 2 and the sign installation position as the distance between the photographing apparatus 2 and the sign installation position.
- the sign recognition unit 11 calculates the distance between the imaging device 2 and the sign installation position by the same method as the operation in step S201 of the second embodiment.
- step S106 to step S110 of the driving support device 1 of the present embodiment are the same as the operations of the steps with the same reference numerals of the driving support device 1 of the first embodiment.
- step S110 If there is a sign that matches the detected sign (Yes in step S110), the output unit 14 determines whether there is a branch point on the road targeted by the sign that matches the detected sign (step S302).
- the output unit 14 displays the road that is targeted by the sign that matches the detected sign. What is necessary is just to determine with a branch point.
- the output unit 14 applies the sign that matches the detected sign to the target road. What is necessary is just to determine that there is no branch point.
- the output unit 14 determines that the branch point is farther from the sign than the position of the vehicle, based on the position of the sign that matches the detected sign, the position of the branch point, and the position of the vehicle measured by the position measurement unit 15. It may be determined whether or not there is. In this case, the output unit 14 may determine that a branch point exists when the branch point is closer to the vehicle position than the sign.
- step S302 If there is no branch point on the road targeted by the sign that matches the detected sign (No in step S302), the operation of the driving support device 1 proceeds to step S111.
- step S302 If there is no branch point on the road targeted by the sign that matches the detected sign (Yes in step S302), the operation of the driving support device 1 proceeds to step S303.
- the output unit 14 compares the distance between the detected sign and the imaging device 2 and the distance between the sign that matches the detected sign and the branch point of the road targeted by the sign (step S303).
- step S303 When the distance between the detected sign and the photographing apparatus 2 is larger than the distance between the sign that matches the detected sign and the branch point of the road that is the target (No in step S303), the operation of the driving support apparatus 1 Returns to step S101.
- the output unit 14 Information represented by the detected sign is output (step S111).
- the relative position may further include the distance between the sign and the road, as in the second embodiment.
- the distance between the sign and the road is, for example, the shortest distance between the sign and the center line of the road.
- the sign recognition unit 11 of the present embodiment adds the detected sign relative position to the road on which the vehicle travels in addition to the relative position of the first embodiment.
- the distance between the center line of the road on which the vehicle travels and the sign installation position may be calculated.
- map data storage unit 12 of the present embodiment is similar to the map data storage unit 12 of the second embodiment in that the relative position of the sign relative to the road targeted by the sign is relative to that of the first embodiment. In addition to the position, the distance between the center line of the road targeted by the sign and the sign may be stored.
- the sign recognition unit 11 may perform the operation of step S201 of FIG. 9 including the operation of step S301 instead of step S301 of FIG.
- the output unit 14 of the present embodiment may perform the operation of Step S202 of FIG. 9 between Step S110 and Step S302 of FIG.
- the present embodiment described above has the same effect as the first embodiment.
- the reason is the same as the reason for the effect of the first embodiment.
- the reason is that the output unit 14 is detected when the distance between the detected sign and the imaging device 2 is equal to or less than the distance between the sign that matches the detected sign and the branch point of the road targeted by the sign. This is because the information represented by the sign is output.
- the driving support device 1 cannot determine which of the branched road the vehicle travels until the vehicle passes the branch point.
- the information represented by the detected sign is output before the vehicle passes the branch point, the information on the sign for a road on which the vehicle does not travel may be output.
- the driving support device 1 cannot determine whether the vehicle 1101 travels on the road 201 or the road 202 until the vehicle 1101 passes the branch point 1102.
- the sign 203 may be detected from the image of the imaging device 2 mounted on the vehicle 1101.
- the output unit 14 outputs the information of the sign 203 detected before the vehicle 1101 passes the branch point 1102
- the output unit 14 gives the sign of the sign 203 to the vehicle 1101 traveling on the road 201 that is not the target of the sign 203. There is a possibility to output information.
- the driving support device 1 targets the traveling road when outputting the information of the sign for the traveling road when approaching the sign installed close to the plurality of roads. It is possible to more accurately suppress the output of information on signs that are not.
- FIG. 14 is a diagram illustrating the configuration of the driving support device 1 of the present embodiment.
- the driving support device 1 of the present embodiment includes a video acquisition unit 10, a sign recognition unit 11, a map data storage unit 12, a sign position determination unit 13, and an output unit 14.
- the video acquisition unit 10 acquires a video from the imaging device 2 mounted on a vehicle traveling on the road.
- the sign recognition unit 11 detects a sign from the video, and recognizes information represented by the detected sign that is the detected sign and a first relative position that is a relative position of the detected sign with respect to the road.
- the map data storage unit 12 stores a second relative position that is a relative position of the sign with respect to the road.
- the sign position determination unit 13 determines that the second relative position matches the first relative position, so that the detection sign and the map data storage unit 12 determine the second relative position. A match with the map sign that is the sign to be stored is determined.
- the output unit 14 outputs information represented by the detection sign when it is determined that the detection sign matches the map sign.
- the present embodiment described above has the same effect as that of the first embodiment.
- the reason is the same as the reason for the effect of the first embodiment.
- the driving support device 1 and the driving support device 1A can be realized by a computer and a program for controlling the computer, dedicated hardware, or a combination of a program for controlling the computer and the computer and dedicated hardware, respectively.
- FIG. 15 is a diagram illustrating an example of a configuration of a computer 1000 used to realize the driving support device 1 and the driving support device 1A.
- a computer 1000 includes a processor 1001, a memory 1002, a storage device 1003, and an I / O (Input / Output) interface 1004.
- the computer 1000 can access the recording medium 1005.
- the memory 1002 and the storage device 1003 are storage devices such as a RAM (Random Access Memory) and a hard disk, for example.
- the recording medium 1005 is, for example, a storage device such as a RAM or a hard disk, a ROM (Read Only Memory), or a portable recording medium.
- the storage device 1003 may be the recording medium 1005.
- the processor 1001 can read and write data and programs from and to the memory 1002 and the storage device 1003.
- the processor 1001 can access, for example, the imaging device 2 and the output device 3 via the I / O interface 1004.
- the processor 1001 can access the recording medium 1005.
- the recording medium 1005 stores a program that causes the computer 1000 to operate as the driving support device 1 or the driving support device 1A.
- the processor 1001 loads a program stored in the recording medium 1005 to cause the computer 1000 to operate as the driving support device 1 or the driving support device 1A into the memory 1002. Then, when the processor 1001 executes the program loaded in the memory 1002, the computer 1000 operates as the driving support device 1 or the driving support device 1A.
- the video acquisition unit 10 can be realized by, for example, a dedicated program for realizing the function of each unit, which is read into a memory from a recording medium that stores the program, and a processor that executes the program.
- the sign recognition unit 11 can be realized by, for example, a dedicated program for realizing the function of each unit read into a memory from a recording medium that stores the program, and a processor that executes the program.
- the marker position determination unit 13 can be realized by, for example, a dedicated program for realizing the function of each unit read into a memory from a recording medium that stores the program, and a processor that executes the program.
- the output unit 14 can be realized by, for example, a dedicated program for realizing the function of each unit read into a memory from a recording medium that stores the program, and a processor that executes the program.
- the position measurement unit 15 can be realized by, for example, a dedicated program for realizing the function of each unit, which is read from a recording medium storing the program into the memory, and a processor that executes the program.
- the position estimation unit 16 can be realized by, for example, a dedicated program for realizing the function of each unit read into a memory from a recording medium that stores the program, and a processor that executes the program.
- the map data storage unit 12 can be realized by a memory or a hard disk device included in the computer. Alternatively, some or all of the video acquisition unit 10, the sign recognition unit 11, the map data storage unit 12, the sign position determination unit 13, the output unit 14, the position measurement unit 15, and the position estimation unit 16 realize the function of each unit. It can also be realized by a dedicated circuit.
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Abstract
Description
図1は、本発明の第1の実施形態の運転支援システム100の構成の例を表す図である。
次に、本発明の第2の実施形態について、図面を参照して詳細に説明する。
次に、本発明の第3の実施形態について、図面を参照して詳細に説明する。
次に、本発明の第4の実施形態について、図面を参照して詳細に説明する。
Claims (13)
- 道路を走行する車両に搭載された撮影装置から取得された映像から、標識を検出し、検出された前記標識である検出標識が表す情報と、前記道路に対する前記検出標識の相対位置である第1の相対位置を認識する標識認識手段と、
前記道路に対する前記標識の相対位置である第2の相対位置を記憶する地図データ記憶手段と、
前記第2の相対位置と前記第1の相対位置とが適合することを判定することにより、前記検出標識と、前記地図データ記憶手段が前記第2の相対位置を記憶する前記標識である地図標識との適合を判定する標識位置判定手段と、
前記検出標識と前記地図標識が適合すると判定された場合、前記検出標識が表す情報を出力する出力手段と
を含む運転支援装置。 - 前記地図データ記憶手段は、道路の位置を表す道路データと、複数の前記地図標識に対して、当該地図標識の位置を表す座標である標識座標と、前記地図標識の対象である前記道路の各々に対する前記第2の相対位置とを記憶し、
前記運転支援装置は、
前記車両の位置を表す座標である車両座標を測定する位置測定手段と、
測定された前記車両座標から、前記道路データに含まれるいずれの前記道路を前記車両が走行するかを推定する位置推定手段と
を含み、
前記標識位置判定手段は、前記車両が走行すると推定された前記道路が対象である前記地図標識の各々に対して、当該地図標識の前記標識座標と前記車両座標との距離が所定距離を超えないことを判定することにより、前記検出標識と前記地図標識との適合を判定し
前記出力手段は、前記検出標識といずれかの前記地図標識とが適合すると判定された場合、前記検出標識が表す情報を出力する
請求項1に記載の運転支援装置。 - 前記地図データ記憶手段は、前記地図標識の各々に対して、さらに、前記地図標識の種別を記憶し、
前記標識認識手段は、前記映像から、さらに、前記検出標識の種別を判定し、
前記標識位置判定手段は、前記車両が走行すると推定された前記道路が対象である前記地図標識の各々に対して、前記地図標識の種別と前記検出標識の種別が合致することを判定することにより、前記検出標識と前記地図標識との適合を判定する
請求項1又は2に記載の運転支援装置。 - 前記標識認識手段は、前記検出標識の前記映像上の位置が、前記映像上に設定された所定の基準の右側であるか左側であるかを判定し、当該判定の結果を、前記第1の相対位置として導出し、
前記地図データ記憶手段は、前記地図標識の前記標識座標で表される位置が、前記地図標識の対象である前記道路のどちら側であるかを表す情報を、前記第2の相対位置として記憶し、
前記標識位置判定手段は、前記車両の進行方向を推定し、前記第2の相対位置から、前記地図標識が推定された進行方向に対して前記道路のどちら側にあるのかを判定し、当該判定の結果が、前記第1の相対位置と一致する場合、前記第2の相対位置と前記第1の相対位置とが適合すると判定する
請求項1乃至3のいずれかに記載の運転支援装置。 - 前記第2の相対位置は、前記地図標識の前記標識座標と、前記地図標識の対象である前記道路との間の最短距離である第2の距離を含み、
前記標識認識手段は、前記映像から、さらに、前記撮影装置の光軸と前記検出標識との間の最短距離である第1の距離を推定し、
前記出力手段は、前記検出標識と適合する前記地図標識の前記第2の距離と、前記第1の距離との差が所定値以下である場合に、前記検出標識が表す情報を出力する
請求項1乃至4のいずれかに記載の運転支援装置。 - 前記地図データ記憶手段は、前記道路の分岐点の位置をさらに記憶し、
前記出力手段は、さらに、前記検出標識と適合する前記地図標識の前記標識座標と前記分岐点との間の距離が、当該標識座標と前記車両座標との距離である標識距離以下である前記分岐点が存在する場合、前記検出標識が表す情報を出力せず、前記標識座標と前記分岐点と間の距離が、前記標識距離以下である前記分岐点が存在しない場合、前記検出標識が表す情報を出力する
請求項1乃至5のいずれかに記載の運転支援装置。 - 道路を走行する車両に搭載された撮影装置から映像を取得し、
前記映像から、標識を検出し、検出された前記標識である検出標識が表す情報と、前記道路に対する前記検出標識の相対位置である第1の相対位置を認識し、
前記道路に対する前記標識の相対位置である第2の相対位置を地図データ記憶手段に記憶し、
前記第2の相対位置と前記第1の相対位置とが適合することを判定することにより、前記検出標識と、前記地図データ記憶手段が前記第2の相対位置を記憶する前記標識である地図標識との適合を判定し、
前記検出標識と前記地図標識が適合すると判定された場合、前記検出標識が表す情報を出力する
運転支援方法。 - 道路の位置を表す道路データと、複数の前記地図標識に対して、当該地図標識の位置を表す座標である標識座標と、前記地図標識の対象である前記道路の各々に対する前記第2の相対位置とを前記地図データ記憶手段に記憶し、
前記車両の位置を表す座標である車両座標を測定し、
測定された前記車両座標から、前記道路データに含まれるいずれの前記道路を前記車両が走行するかを推定し、
前記車両が走行すると推定された前記道路が対象である前記地図標識の各々に対して、当該地図標識の前記標識座標と前記車両座標との距離が所定距離を超えないことを判定することにより、前記検出標識と前記地図標識との適合を判定し
前記検出標識といずれかの前記地図標識とが適合すると判定された場合、前記検出標識が表す情報を出力する
請求項7に記載の運転支援方法。 - コンピュータを、
道路を走行する車両に搭載された撮影装置から取得された映像から、標識を検出し、検出された前記標識である検出標識が表す情報と、前記道路に対する前記検出標識の相対位置である第1の相対位置を認識する標識認識手段と、
前記道路に対する前記標識の相対位置である第2の相対位置を記憶する地図データ記憶手段と、
前記第2の相対位置と前記第1の相対位置とが適合することを判定することにより、前記検出標識と、前記地図データ記憶手段が前記第2の相対位置を記憶する前記標識である地図標識との適合を判定する標識位置判定手段と、
前記検出標識と前記地図標識が適合すると判定された場合、前記検出標識が表す情報を出力する出力手段と
して動作させる運転支援プログラムを記憶する記録媒体。 - コンピュータを、
道路の位置を表す道路データと、複数の前記地図標識に対して、当該地図標識の位置を表す座標である標識座標と、前記地図標識の対象である前記道路の各々に対する前記第2の相対位置とを記憶する前記地図データ記憶手段と、
前記車両の位置を表す座標である車両座標を測定する位置測定手段と、
測定された前記車両座標から、前記道路データに含まれるいずれの前記道路を前記車両が走行するかを推定する位置推定手段と、
前記車両が走行すると推定された前記道路が対象である前記地図標識の各々に対して、当該地図標識の前記標識座標と前記車両座標との距離が所定距離を超えないことを判定することにより、前記検出標識と前記地図標識との適合を判定する前記標識位置判定手段と、
前記検出標識といずれかの前記地図標識とが適合すると判定された場合、前記検出標識が表す情報を出力する前記出力手段と
して動作させる前記運転支援プログラムを記憶する請求項9に記載の記録媒体。 - 道路を走行する車両に搭載された撮影装置から取得された映像に含まれる標識の前記道路に対する第1の相対位置を認識する標識認識手段と、
道路に対する標識の相対位置である第2の相対位置を記憶する地図データ記憶手段と、
前記第1の相対位置と、前記地図データ記憶手段に記憶されている、前記映像に含まれる標識及び前記車両の位置情報により特定される第2の相対位置とが適合すると判定された場合、前記映像に含まれる標識が表す情報を出力する出力手段と
を含む情報処理装置。 - 道路に対する標識の相対位置である第2の相対位置を記憶する地図データ記憶手段を含む情報処理装置によって実行される方法であって、
道路を走行する車両に搭載された撮影装置から取得された映像に含まれる標識の前記道路に対する第1の相対位置を認識し、
前記第1の相対位置と、前記地図データ記憶手段に記憶されている、前記映像に含まれる標識及び前記車両の位置情報により特定される第2の相対位置とが適合すると判定された場合、前記映像に含まれる標識が表す情報を出力する、
方法。 - 道路に対する標識の相対位置である第2の相対位置を記憶するメモリを含むコンピュータを、
道路を走行する車両に搭載された撮影装置から取得された映像に含まれる標識の前記道路に対する第1の相対位置を認識する標識認識手段と、
前記第1の相対位置と、前記メモリに記憶されている、前記映像に含まれる標識及び前記車両の位置情報により特定される第2の相対位置とが適合すると判定された場合、前記映像に含まれる標識が表す情報を出力する出力手段と
して動作させるプログラムを記憶する記録媒体。
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US9651393B2 (en) | 2017-05-16 |
EP2950292A1 (en) | 2015-12-02 |
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