JP2019212188A - Road sign recognition device - Google Patents

Abstract

To provide a road sign recognition device that, even when a road sign cannot be recognized from an image obtained by capturing in front of a vehicle, can suppress inability to determine a road sign corresponding to a current location.SOLUTION: A road sign recognition device comprises: an imaging unit 2 that captures in front of a vehicle 1; a notification unit 3 that notifies a driver of each kind of information; a map information management unit 5 that manages static information or dynamic information to be acquired from a server device, a road-side communication device, or the like via a communication unit 4; and a control unit 6 that, when the recognized road sign is consistent with a road sign of map information stored in the map information management unit 5 upon recognizing the road sign from the image captured by the imaging unit 2, sets High to a reliability degree of the map information stored in the map information management unit 5, holds the reliability degree until the reliability degree is next determined, and when the reliability degree stands High, determines the road sign of the map information stored in the map information management unit 5 as the road sign corresponding to the current location.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a road sign recognition apparatus.

  Patent Document 1 includes information on whether or not a road sign recognized by a camera matches a road sign acquired from map data, a road sign acquired from map data at the previous road link, and a current sign. A road sign that determines whether or not the road sign obtained from the map data is the current final road sign based on the information whether the road sign obtained from the map data matches with the road link Judgment techniques are disclosed.

Japanese Patent No. 6170416

  The technique described in Patent Document 1 has an error in a road sign acquired from map data in order to solve the problem that the road sign cannot be determined while the road sign is not recognized by the camera. In view of whether the probability of non-existence is high, it is determined whether or not the current final road sign is used.

  The technique described in Patent Document 1 is a technique which is made on the premise that a road sign installed in principle can be acquired by a camera, and the road sign can be recognized by a camera for each road link.

  As an exception, the case where the camera cannot obtain a road sign on the previous road link is being considered. In such a case, the road sign obtained from the camera and the map data in the previous road link is the same, and the road sign obtained from the map data in the previous road link and the previous road link is not changed. In the case of satisfying the above, it is described that the road sign acquired from the map data is determined as the current final road sign.

  However, in reality, there is a possibility that the camera cannot acquire the road sign due to the image detection accuracy of the camera, the dirt of the road sign itself, and the camera cannot acquire the road sign with a plurality of continuous road links. . In such a case, the road sign determination technique described in Patent Document 1 has the following problems.

  The camera cannot obtain a road sign for either the previous road link or the previous road link, and when the road link changes from the previous road link to the previous road link, or from the previous road link to the current road link. In some cases, the road sign information obtained from the map data also changes.

  In such a case, in the technique described in Patent Document 1, the camera cannot acquire the road sign in the previous road link, and the road sign information acquired from the map data changes with the change of the road link. Therefore, the final road sign cannot be determined at least until the camera acquires the road sign next time.

  That is, in the technique described in Patent Document 1, in a situation where the camera cannot acquire a road sign for a long time, even if the road sign information acquired from the map data is correct, the final road sign is determined. I can't.

  In view of the above, an object of the present invention is to provide a road sign recognition device capable of suppressing the inability to determine a road sign corresponding to the current position even when the road sign cannot be recognized from an image captured in front of the vehicle. .

  In order to solve the above problems, the present invention provides an imaging unit that captures an image ahead of a vehicle, a recognition processing unit that recognizes a road sign from the image, and a sign that stores information on a road sign associated with position information. A road for determining a road sign corresponding to the current position based on one of an information storage part, a road sign recognized by at least the recognition processing part, and a road sign stored in the sign information storage part A sign determination unit, and a reliability determination unit that determines the reliability of the information stored in the sign information storage unit, and the reliability determination unit is configured to recognize the reliability when at least a road sign is recognized from the image. When the road sign recognized from the image matches the road sign stored in the sign information storage unit, the reliability is increased, and the reliability is determined next time , When the reliability determined by the reliability determination unit is greater than or equal to a predetermined value, the road sign determination unit corresponds the road sign stored in the sign information storage unit to the current position. This is a road sign.

  Thus, according to the present invention, it is possible to prevent the determination of the road sign corresponding to the current position even when the road sign cannot be recognized from the image captured in front of the vehicle.

FIG. 1 is a block diagram of a road sign recognition apparatus according to a first embodiment of the present invention. FIG. 2 is a flowchart showing the procedure of the reliability determination process of the road sign recognition apparatus according to the first embodiment of the present invention. FIG. 3 is a flowchart showing the procedure of the road sign notification process of the road sign recognition apparatus according to the first embodiment of the present invention. FIG. 4 is a diagram showing a first example of a change in the display of the road sign by the reliability determination process and the road sign notification process of the road sign recognition apparatus according to the first embodiment of the present invention. FIG. 5 is a diagram illustrating a second example of a change in the display of the road sign by the reliability determination process and the road sign notification process of the road sign recognition apparatus according to the first embodiment of the present invention. FIG. 6 is a diagram showing a third example of a change in the display of the road sign by the reliability determination process and the road sign notification process of the road sign recognition apparatus according to the first embodiment of the present invention. FIG. 7 is a diagram showing a fourth example of a change in the display of the road sign by the reliability determination process and the road sign notification process of the road sign recognition apparatus according to the first embodiment of the present invention. FIG. 8 is a block diagram of a road sign recognition apparatus according to the second embodiment of the present invention. FIG. 9 is a diagram illustrating an estimation method based on sensor information corresponding to a warning sign of map information of the road sign recognition apparatus according to the second embodiment of the present invention. FIG. 10 is a flowchart showing the procedure of the reliability determination process of the road sign recognition apparatus according to the second embodiment of the present invention.

  A road sign recognition device according to an embodiment of the present invention includes an imaging unit that captures an image ahead of a vehicle, a recognition processing unit that recognizes a road sign from the image, and road sign information associated with position information. The road sign corresponding to the current position is determined based on one of a sign information storage unit that stores the road sign, a road sign recognized by at least the recognition processing unit, and a road sign stored in the sign information storage unit A road sign determination unit, and a reliability determination unit that determines the reliability of the information stored in the sign information storage unit. The reliability determination unit determines the reliability when at least the road sign is recognized from the image. If the road sign recognized from the image matches the road sign stored in the sign information storage unit, the reliability is increased and the reliability is maintained until the next determination of the reliability. The road sign judgment unit If reliability determined by degrees determining unit is a predetermined value or more, is configured to determine that the road sign corresponding road signs stored in the target information storing section to the current position.

  As a result, the road sign recognition device according to the embodiment of the present invention can prevent the road sign corresponding to the current position from being determined even when the road sign cannot be recognized from the image captured in front of the vehicle. .

Hereinafter, a road sign recognition apparatus according to an embodiment of the present invention will be described in detail with reference to the drawings.
(First embodiment)
In FIG. 1, a vehicle 1 equipped with a road sign recognition apparatus according to a first embodiment of the present invention includes an imaging unit 2, a notification unit 3, a communication unit 4, a map information management unit 5, and a control unit 6. It is comprised including.

  The imaging unit 2 is configured by a camera or the like, for example, and images the front of the vehicle 1. The imaging unit 2 outputs the captured image to the control unit 6.

  The alerting | reporting part 3 is comprised by a monitor apparatus, a speaker, a lamp | ramp, a meter, a buzzer, etc., for example, and alert | reports various information to a driver | operator through vision, hearing, etc.

  The communication unit 4 communicates with a server device outside the vehicle, a roadside communication device installed near the road, and the like to transmit and receive information.

  The map information management unit 5 is a computer having a CPU (Central Processing Unit), a RAM (Random Access Memory), a ROM (Read Only Memory), a flash memory, a hard disk device, an input port, and an output port. It is composed of units.

  The ROM of the map information management unit 5 stores a program for causing the computer unit to function as the map information management unit 5 along with various control constants and various maps. That is, the computer unit functions as the map information management unit 5 when the CPU executes a program stored in the ROM.

  Various sensors including a GNSS (Global Navigation Satellite System) receiver 53 and an acceleration sensor (not shown) are connected to the input port of the map information management unit 5.

  The GNSS receiving device 53 receives radio waves from a GNSS satellite via a GNSS antenna (not shown), and acquires the latitude and longitude of the current position from information included in the received radio waves. The acceleration sensor detects the acceleration of the vehicle 1.

  The map information management unit 5 and the control unit 6 mutually transmit and receive signals such as control signals via an in-vehicle LAN (Local Area Network) compliant with a standard such as CAN (Controller Area Network).

  The map information management unit 5 functions as a static information storage unit 51 that manages, for example, static map information stored in a hard disk device, including road sign information, traffic signal information, road lane information, and the like.

  The static information storage unit 51 functions as, for example, a sign information storage unit 54 that stores information on road signs installed on the road links for each road link.

  The static information storage unit 51 functions as, for example, a road information storage unit 55 that stores road type information, road attribute information, and the like for each road link.

  The road type includes, for example, information such as general roads, automobile-only roads, highways, and one-way sections.

  The road attribute includes, for example, information such as the curvature of the traveling lane, the slope of the road surface, the number of lanes, and the road width.

  The road link represents, for example, a road section between two nodes such as an intersection or a node of a road.

  The map information management unit 5 is provided with road traffic information, road regulation information, road construction information, traffic jam information, accident information, ITS (Intelligent Transport Systems) information, weather information from the server device or roadside communication device via the communication unit 4. It functions as a dynamic information acquisition unit 52 that acquires dynamic information such as.

  The map information management unit 5 can detect the current position of the host vehicle by using the above-described GNSS receiver 53, an acceleration sensor, or the like.

  The map information management unit 5 acquires the road link of the current position from the current position, and stores map information such as road sign information, traffic signal information, road type information, road attribute information, etc. stored in association with the road link To get.

  The map information management unit 5 acquires traffic information such as traffic jam information and accident information around the current position, weather information, and the like.

  The map information management unit 5 transmits the acquired map information, traffic information, weather information, and the like to the control unit 6. The map information management unit 5 transmits, for example, map information, traffic information, weather information, and the like acquired when a road link is changed or when information is acquired from a server device or a roadside communication device to the control unit 6. .

  The control unit 6 is configured by a computer unit including a CPU, a RAM, a ROM, a flash memory, an input port, and an output port.

  The ROM of the control unit 6 stores a program for causing the computer unit to function as the control unit 6 along with various control constants and various maps. That is, the computer unit functions as the control unit 6 when the CPU executes a program stored in the ROM.

  Various sensors including the imaging unit 2 are connected to the input port of the control unit 6. Various control objects including the notification unit 3 are connected to the output port of the control unit 6.

  The control unit 6 functions as an image reading unit 61 that reads image data captured by the imaging unit 2. The control unit 6 functions as an image processing unit 62 that performs predetermined image processing on the image data read by the image reading unit 61.

  The control unit 6 functions as a detection processing unit 63 that performs setting of an object to be recognized and the like when performing a predetermined recognition process from the image data image-processed by the image processing unit 62.

  Based on the setting of the detection processing unit 63, the control unit 6 uses the image data processed by the image processing unit 62 to perform road signs, characters, signboards, people, cars, traffic lights for cars, traffic lights for pedestrians, gates for toll gates It functions as a recognition processing unit 64 that recognizes road lanes and the like.

  The control unit 6 functions as an output processing unit 65 that causes the notification unit 3 to notify the driver of a road sign, road type, road attribute, and the like corresponding to the current position.

  The control unit 6 functions as a reliability determination unit 66 that determines the reliability of the map information stored in the map information management unit 5.

  The control unit 6 determines a road sign corresponding to the current position based on the road sign recognized by the recognition processing unit 64 and the road sign of the map information stored in the map information management unit 5. It functions as 67.

  When the road sign is recognized by the recognition processing unit 64, the control unit 6 determines the reliability of the map information stored in the map information management unit 5.

  The control unit 6 sets the reliability to “high” when the initial value of the reliability of the map information stored in the map information management unit 5, that is, in a state where the reliability is not held.

  When the road sign recognized by the recognition processing unit 64 matches the road sign of the map information stored in the map information management unit 5, the control unit 6 determines the reliability of the map information stored in the map information management unit 5. Set to “High”.

  When the road sign recognized by the recognition processing unit 64 and the road sign of the map information stored in the map information management unit 5 do not match, the control unit 6 displays the map information stored in the map information management unit 5. Set the confidence level to low.

  The control unit 6 holds the reliability of the map information stored in the map information management unit 5 until the reliability of the map information stored in the map information management unit 5 is next determined.

  When the road sign of the map information stored in the map information management unit 5 changes, the control unit 6 sets the reliability of the map information stored in the map information management unit 5 to “high”. Here, the change in the road sign includes, for example, a change in the road sign type unit such as a speed limit sign and a vehicle entry prohibition sign, or a change in the content of the road sign such that the restriction speed changes in the speed limit sign.

  When the reliability of the map information stored in the map information management unit 5 is “high”, the control unit 6 uses the road sign of the map information stored in the map information management unit 5 as a road sign corresponding to the current position. To do.

  The reliability determination process performed by the road sign recognition apparatus according to the present embodiment configured as described above will be described with reference to FIG. The reliability determination process described below is started when the control unit 6 starts the process, and is executed at a preset time interval.

  In step S <b> 1, the control unit 6 determines whether or not the road sign has been recognized by the image recognition processing by the recognition processing unit 64. If it is determined that the road sign is recognized by the image recognition process, the control unit 6 does not match the road sign recognized by the image recognition process with the road sign of the map information stored in the map information management unit 5 in step S2. It is determined whether or not.

  When it is determined that the road sign recognized by the image recognition process and the road sign of the map information stored in the map information management unit 5 do not match, the control unit 6 stores the map information in the map information management unit 5 in step S3. The reliability of the obtained map information is set to “low”, and the process is terminated.

  When it is determined in step S1 that the road sign is not recognized by the image recognition process, in step S4, the control unit 6 changes the road sign of the map information stored in the map information management unit 5 or the road. Determine whether the link has changed. When it is determined that the road sign of the map information stored in the map information management unit 5 has not changed and the road link has not changed, the control unit 6 is stored in the map information management unit 5 in step S6. It is determined whether or not the reliability of the map information is in the initial state.

  When it is determined that the reliability of the map information stored in the map information management unit 5 is in the initial state, the control unit 6 holds the reliability of the map information stored in the map information management unit 5 in step S7. To end the process.

  It is determined in step S2 that the road sign recognized by the image recognition process and the road sign of the map information stored in the map information management unit 5 do not match, or the map information stored in the map information management unit 5 in step S4 If it is determined that the road sign has changed or the road link has changed, or if the reliability of the map information stored in the map information management unit 5 in step S6 is not in the initial state, the control unit 6 in step S5. Sets the reliability of the map information stored in the map information management unit 5 to “high”, and ends the process.

  The road sign notification process by the road sign recognition apparatus according to the present embodiment will be described with reference to FIG. In addition, the road sign alerting | reporting process demonstrated below is started when the control part 6 starts a process, and is performed at the preset time interval.

  In step S <b> 11, the control unit 6 determines whether or not the reliability of the map information stored in the map information management unit 5 is “high”. If it is determined that the reliability of the map information stored in the map information management unit 5 is “high”, the control unit 6 displays the road sign of the map information stored in the map information management unit 5 at present in step S12. Road sign.

  In step S13, the control part 6 displays the present road sign by the alerting | reporting part 3, and complete | finishes a process.

  When it is determined in step S11 that the reliability of the map information stored in the map information management unit 5 is not “high”, in step S14, the control unit 6 recognizes the road sign recognized by the image recognition processing by the recognition processing unit 64. The current road sign.

  In step S15, the control unit 6 determines whether or not a predetermined time has elapsed since the road sign recognized by the image recognition process was displayed. If it is determined that a predetermined time has elapsed since the display of the road sign recognized by the image recognition process, the control unit 6 hides the display of the road sign by the notification unit 3 and ends the process in step S16.

  If it is determined in step S15 that the predetermined time has not elapsed since the road sign recognized by the image recognition process is displayed, in step S13, the control unit 6 causes the notification unit 3 to display the current road sign, and the process is performed. finish.

  Operations by such reliability determination processing and road sign notification processing will be described with reference to FIGS.

  As shown in FIG. 4, at timing T1, since there is no road sign information in the map information stored in the map information management unit 5, it is determined that the road sign recognized by the image recognition process does not match, and the reliability Is set to “low”, and a road sign recognized by the image recognition processing is displayed. In addition, the display of the road sign recognized by the image recognition process is not displayed after a predetermined time has elapsed.

  At the timing T2, since the road sign recognized by the image recognition process and the road sign of the map information stored in the map information management unit 5 match, the reliability remains “high” and the map information management The road sign of the map information stored in the part 5 is displayed.

  At timing T3, the road link changes from L + 1 to L + 2, the road sign of the map information stored in the map information management unit 5 changes, and the road sign recognized by the previous image recognition process does not match. Here, it is inconsistent with the road sign recognized by the previous image recognition process, but the road sign has not been recognized by the image recognition process and the road link has changed, so the reliability is “high” and the map information management The road sign of the map information stored in the part 5 is displayed.

  When the road sign is recognized by the image recognition process at the timing T4, the road sign of the map information stored in the map information management unit 5 matches the road sign, so the reliability is “high” and stored in the map information management unit 5 A road sign of the map information is displayed.

  Thus, even when the road sign is not recognized by the image recognition processing, the reliability can be set to “high” due to the change of the road link, and the road sign of the map information stored in the map information management unit 5 can be displayed. it can.

  As shown in FIG. 5, at timing T <b> 5, “high” is set as the reliability of the map information stored in the map information management unit 5 as an initial value, and the map information stored in the map information management unit 5 The road sign is displayed.

  At timing T6, the road sign is recognized by the image recognition process. However, since the road sign of the map information stored in the map information management unit 5 does not match, the reliability of the map information is set to “low”, and the image recognition process is performed. The road sign recognized by is displayed.

  At timing T7, the road link changes from L to L + 1, and the road sign of the map information stored in the map information management unit 5 does not change, but the reliability of the map information is set to “high”, and the map information management unit The road sign of the map information stored in 5 is displayed.

  At timing T8, the road sign is recognized by the image recognition process and does not match the road sign of the map information stored in the map information management unit 5, so the reliability of the map information is set to “low” and is recognized by the image recognition process. The displayed road sign is displayed. In addition, the display of the road sign recognized by the image recognition process is not displayed after a predetermined time has elapsed.

  At timing T9, the road link changes from L + 1 to L + 2, and the road sign of the map information stored in the map information management unit 5 does not change, but the reliability of the map information is set to “high”, and the map information management unit The road sign of the map information stored in 5 is displayed.

  At timing T10, the road sign is recognized by the image recognition process and matches the road sign of the map information stored in the map information management unit 5, so that the reliability of the map information is set to “high”, and the map information management unit 5 The road sign of the map information stored in is displayed.

  Thus, the reliability of the map information stored in the map information management unit 5 is set to “high” due to the change of the road link, and the road sign of the map information stored in the map information management unit 5 is displayed. When a road sign is recognized by the image recognition process, the content can be displayed with priority.

  As shown in FIG. 6, at the timing T11, since the road sign recognized by the image recognition process matches the road sign of the map information stored in the map information management unit 5, the reliability is “high”, and the map A road sign of map information stored in the information management unit 5 is displayed.

  When the road link changes from L to L + 1 at timing T12, “high” is set to the reliability of the map information stored in the map information management unit 5, and the road sign of the map information stored in the map information management unit 5 However, the road sign of the map information stored in the map information management unit 5 is displayed.

  When the road link changes from L + 1 to L + 2 at timing T13, “high” is set to the reliability of the map information stored in the map information management unit 5, and the road sign of the map information stored in the map information management unit 5 Is displayed.

  Thus, even if the road sign is not recognized by the image recognition processing, the road sign can be displayed by the map information stored in the map information management unit 5.

  As shown in FIG. 7, at timing T <b> 14, the road sign is recognized by the image recognition process, but the map information does not match the road sign stored in the map information management unit 5, so the reliability of the map information is “low”. Is set, and a road sign recognized by the image recognition process is displayed.

  When the road link changes from L to L + 1 at timing T15, “high” is set to the reliability of the map information stored in the map information management unit 5, and the road sign of the map information stored in the map information management unit 5 However, the road sign of the map information stored in the map information management unit 5 is displayed.

  Thus, even if the road sign is not recognized by the image recognition processing, the road sign can be displayed by the map information stored in the map information management unit 5.

(Second embodiment)
Next, a second embodiment of the present invention will be described. Here, since the present embodiment is configured in substantially the same manner as the first embodiment described above, the same components are denoted by the same reference numerals and the characteristic portions will be described.

  In FIG. 8, a steering angle sensor 101, a vehicle speed sensor 102, an angular velocity sensor 103, and a blinker sensor 104 are connected to the input ports of the control unit 6 of the road sign recognition apparatus according to the second embodiment of the present invention.

  The steering angle sensor 101 detects the steering angle of a handle (not shown) operated by the driver. The vehicle speed sensor 102 detects the speed of the vehicle 1.

  The angular velocity sensor 103 detects the angular velocity of the vehicle 1. The control unit 6 can detect the yaw direction motion, the roll direction motion, and the pitch direction motion of the vehicle 1 based on the detection result of the angular velocity sensor 103.

  The turn signal sensor 104 detects the operation of the driver's turn signal (direction indicator). The control unit 6 sets the turn signal information “ON” when the operation position of the turn signal is “right instruction position” or “left instruction position” based on the detection result of the turn signal sensor 104. Based on the detection result of the turn signal sensor 104, the control unit 6 sets the turn signal information to “OFF” when the operation position of the turn signal is “non-operation position”.

  The control unit 6 estimates the road type and road attribute of the currently traveling road based on the recognition result by the recognition processing unit 64 and the state of the vehicle 1 detected by the vehicle state detection unit 69. Function as.

  The control unit 6 functions as a vehicle state detection unit 69 that detects the state of the vehicle 1 based on detection results of various sensors such as the steering angle sensor 101, the vehicle speed sensor 102, the angular velocity sensor 103, and the turn signal sensor 104.

  When receiving information such as map information, traffic information, and weather information from the map information management unit 5, the control unit 6 determines the reliability of the map information stored in the map information management unit 5.

  The control unit 6 sets the reliability to “high” when the initial value of the reliability of the map information stored in the map information management unit 5, that is, in a state where the reliability is not held.

  When the road type and road attribute estimated by the road information estimation unit 68 based on the recognition result by the recognition processing unit 64 matches the road type and road attribute stored in the map information management unit 5, The reliability of the map information stored in the map information management unit 5 is set to “high”.

  The control unit 6 uses the road type and the road attribute estimated by the road information estimation unit 68 based on the state of the vehicle 1 detected from the detection results of various sensors, and the road type and road stored in the map information management unit 5. When the attribute matches, the reliability of the map information stored in the map information management unit 5 is set to “high”.

  The control unit 6 does not match the road type or road attribute estimated by the road information estimation unit 68 based on the recognition result by the recognition processing unit 64 with the road type or road attribute stored in the map information management unit 5. In this case, the reliability of the map information stored in the map information management unit 5 is set to “low”.

  The control unit 6 uses the road type and the road attribute estimated by the road information estimation unit 68 based on the state of the vehicle 1 detected from the detection results of various sensors, and the road type and road stored in the map information management unit 5. If the attribute does not match, the reliability of the map information stored in the map information management unit 5 is set to “low”.

  The control unit 6 holds the reliability of the map information stored in the map information management unit 5 until the reliability of the map information stored in the map information management unit 5 is next determined.

  When the reliability of the map information stored in the map information management unit 5 is “high”, the control unit 6 corresponds the road sign, road type, and road attribute stored in the map information management unit 5 to the current position. Road signs, road types, and road attributes.

  As shown in the table of FIG. 9, the control unit 6 determines whether the road type and road attribute information included in the map information stored in the map information management unit 5 is the recognition result of the image recognition process and the various sensors. It is determined whether the road type or the road attribute estimated based on the state of the vehicle 1 detected from the detection result matches the road type.

  In FIG. 9, when the curvature of the travel lane of the map information stored in the map information management unit 5 is equal to or greater than a predetermined value, the control unit 6 recognizes a road sign with a bend by image recognition processing as described in item 1. If so, it is determined that the road attribute of the map information stored in the map information management unit 5 matches the road attribute estimated based on the recognized road sign. For example, the control unit 6 calculates the estimated curvature R ′ from the lateral G and the vehicle speed, and if a <R ′ <b and yaw rate> c and the turn signal information is “OFF” by a predetermined threshold value a <b, c. It is determined that the road attribute of the map information stored in the map information management unit 5 matches the road attribute estimated based on the state of the vehicle 1.

  The control unit 6 recognizes the road sign with refraction by the image recognition process when there is refraction information in the travel lane information of the map information stored in the map information management unit 5 as described in the item 2. For example, it is determined that the road attribute of the map information stored in the map information management unit 5 matches the road attribute estimated based on the recognized road sign. For example, the control unit 6 calculates the estimated curvature R ′ from the lateral G and the vehicle speed, and a ′ <R ′ <b ′ and yaw rate> c ′ and the turn signal information is obtained based on predetermined threshold values a ′ <b ′ and c ′. If “OFF”, it is determined that the road attribute of the map information stored in the map information management unit 5 matches the road attribute estimated based on the state of the vehicle 1.

  Note that the predetermined threshold values a ′, b ′, and c ′ in this section and a, b, and c in the first section are set to independent values, and may be the same value or different values. For example, a curved path such as 1 term has an acute curve and an obtuse angle curve, and it is considered that the range of the curvature value is wider than that of the 2nd refractive path. Therefore, a <a ′, b ′ < It may be set so that the width of the curvature threshold value determined to be a refractive path is narrower. In addition, in order to discriminate the difference between the first term curve path and the second term refraction path with higher accuracy, the yaw rate differential value and the threshold value may be compared. Since the slope of the yaw rate tends to be larger on the refractive path than on the curved road, it is determined as a curved road when the differential value of the yaw rate exceeds the threshold value. It may be configured to determine that there is. In addition, a function of calculating the curvature of the road surface ahead by image recognition processing may be provided, and a case where the curvature cannot be calculated may be determined as a refractive path. By having such a configuration, determination according to the difference between the curved path and the refractive path can be performed, and the curved path and the refractive path can be accurately distinguished.

  When the map information stored in the map information management unit 5 includes information that the number of lanes ahead in the traveling direction of the vehicle 1 is smaller than the current number of lanes, as described in item 3, the control unit 6 performs lane detection by image recognition processing. If the number of road signs is recognized, it is determined that the road attributes of the map information stored in the map information management unit 5 match the road attributes estimated based on the recognized road signs. . For example, if the control unit 6 recognizes that the number of white lines decreases from the recognition result by the image recognition process, the road attribute of the map information stored in the map information management unit 5 and the recognition result of the image recognition process It is determined that the road attribute estimated based on

  Further, for example, if the controller 6 recognizes the lane decrease arrow on the road as shown in FIG. 9 from the recognition result by the image recognition process, the map information stored in the map information management unit 5 is stored. It is determined that the road attribute matches the road attribute estimated based on the recognition result of the image recognition process.

  If the map information stored in the map information management unit 5 has gradient information as described in item 4, the control unit 6 manages the map information if it recognizes a road sign with a steep gradient by image recognition processing. It is determined that the road attribute of the map information stored in the unit 5 matches the road attribute estimated based on the recognized road sign. When the percentage information of the gradient is obtained from the map information stored in the map information management section 5, the control section 6 manages the map information management when it matches the percentage of the road sign gradient recognized by the image recognition processing. It may be determined that the road attribute of the map information stored in the unit 5 matches the road attribute estimated based on the recognized road sign. For example, the control unit 6 calculates an estimated road gradient α based on the detection result of the angular velocity sensor 103 and the acceleration / deceleration of the vehicle 1, and is stored in the map information management unit 5 if a <α with a predetermined threshold value a. It is determined that the road attribute of the map information matches the road attribute estimated based on the state of the vehicle 1. Note that α is an absolute value, and it is possible to uniformly determine both uphill and downhill.

  When the map information stored in the map information management unit 5 includes school zone information as described in the section 5, the control unit 6 recognizes a road sign indicating a school, kindergarten, nursery school, etc. by image recognition processing. Then, it is determined that the road attribute of the map information stored in the map information management unit 5 matches the road attribute estimated based on the recognized road sign. For example, the control unit 6 recognizes a white line and a green pattern indicating a school zone on the road surface from the recognition result obtained by the image recognition process, or recognizes the characters “school zone” as illustrated in FIG. 9 on the road surface. Then, it is determined that the road attribute of the map information stored in the map information management unit 5 matches the road attribute estimated based on the recognition result of the image recognition process.

  If the map information stored in the map information management unit 5 includes information on road construction as described in item 6, the control unit 6 recognizes a road sign during road construction by image recognition processing. It is determined that the road attribute of the map information stored in the information management unit 5 matches the road attribute estimated based on the recognized road sign. For example, the control unit 6 may recognize from the recognition result obtained by the image recognition process that a plurality of signboards or arrow signboards arranged at a construction section as shown in FIG. 9 are arranged at regular intervals. For example, it is determined that the road attribute of the map information stored in the map information management unit 5 matches the road attribute estimated based on the recognition result of the image recognition process.

  If the map information stored in the map information management unit 5 includes traffic signal information as described in item 7, the control unit 6 recognizes a traffic sign with a traffic signal by image recognition processing. It is determined that the road attribute of the map information stored in 5 matches the road attribute estimated based on the recognized road sign. For example, if the control unit 6 recognizes a traffic signal including a warning signal as shown in FIG. 9 from the recognition result of the image recognition process, the road attribute of the map information stored in the map information management unit 5; It is determined that the road attribute estimated based on the recognition result of the image recognition process matches. In addition, when the map information management part 5 can acquire the present lighting color of a traffic light from a roadside communication apparatus etc., you may determine a match also about a lighting color.

  When the map information stored in the map information management unit 5 includes information that the road width ahead of the vehicle 1 in the traveling direction is smaller than the current road width as described in the item 8, the control unit 6 uses the image recognition process to reduce the width. If the reduced road sign is recognized, it is determined that the road attribute of the map information stored in the map information management unit 5 matches the road attribute estimated based on the recognized road sign. For example, from the image shown in FIG. 9, the control unit 6 measures the lane width based on the white line or the road edge by image recognition processing, and measures the decrease in the lane width exceeding a predetermined threshold. It determines with the road attribute of the map information memorize | stored in the map information management part 5 and the road attribute estimated based on the recognition result of an image recognition process corresponding.

  When the map information stored in the map information management unit 5 includes information that the road that is currently traveling or the road ahead in the traveling direction is a highway as described in item 9, the control unit 6 performs image recognition processing. If the road sign of the car road is recognized, it is determined that the road type of the map information stored in the map information management unit 5 matches the road type estimated based on the recognized road sign To do. In addition, the information in this section can be similarly applied to a high-speed automobile national road and a car-only road even if it is not a highway.

  As described above, the road attribute and road type are estimated based on the road sign recognized by the image recognition processing, and the reliability of the map information is determined based on the estimated road attribute and road type. The reliability of the map information can be determined, and the map information can be used with high accuracy.

  The road type and road attribute are estimated based on the road surface white line, road surface pattern, signboard, etc. based on the recognition result of the image recognition process, and the reliability of the map information is determined based on the estimated road type and road attribute. Therefore, even if the road sign cannot be recognized, the reliability of the map information can be determined with high accuracy, and the map information can be used with high accuracy.

  Since the road type and road attribute are estimated based on the state of the vehicle 1 detected from the detection results of various sensors, and the reliability of the map information is determined based on the estimated road type and road attribute, the road sign Even if it is not possible to recognize, the reliability of the map information can be determined with high accuracy, and the map information can be used with high accuracy.

  A reliability determination process by the road sign recognition apparatus according to the second embodiment configured as described above will be described with reference to FIG. The reliability determination process described below is started when information such as map information, traffic information, and weather information is received from the map information management unit 5.

  In step S21, the control unit 6 acquires road information such as a road sign, a road type, and a road attribute from the received information.

  In step S22, the control unit 6 determines whether or not there is a warning sign from the recognition result obtained by the image recognition process. When it is determined that there is a warning sign, in step S23, the control unit 6 determines whether the road type or road attribute estimated based on the warning sign of the recognition result by the image recognition process and the road type or road attribute of the road information. It is determined whether or not they match.

  When it is determined that the road type or road attribute estimated based on the warning sign of the recognition result by the image recognition process matches the road type or road attribute of the road information, in step S24, the control unit 6 The reliability of the map information stored in the map information management unit 5 is set to “high”.

  If it is determined in step S23 that the road type or road attribute estimated based on the warning sign of the recognition result by the image recognition process does not match the road type or road attribute of the road information, the control unit in step S25 6 sets the reliability of the map information stored in the map information management unit 5 to “low”.

  When it determines with there being no warning sign in step S22, the control part 6 estimates a road classification or a road attribute from the detection result of various sensors in step S26.

  In step S27, the control unit 6 determines whether the estimated road type or road attribute matches the road type or road attribute of the road information. When it is determined that the estimated road type or road attribute matches the road type or road attribute of the road information, the control unit 6 trusts the map information stored in the map information management unit 5 in step S28. Set the degree to High.

  When it is determined that the road type or road attribute estimated in step S27 does not match the road type or road attribute of the road information, the control unit 6 stores the map stored in the map information management unit 5 in step S29. Set information reliability to low.

  In step S30, according to the reliability of the map information, if the reliability of the map information is “high”, the control unit 6 causes the notification unit 3 to output the information of the map information received from the map information management unit 5, The process ends.

  In the first embodiment, the reliability of the map information is determined according to whether or not the road sign information included in the map information matches the road sign recognized by the image recognition process. In the second embodiment, The reliability of map information is determined according to whether the road type and road attribute information included in the map information matches the estimated road type and road attribute, but these are independent of each other. Not necessarily. That is, as in the second embodiment, the reliability of the map information is determined according to the recognized road sign and the road sign of the map information stored in association with the road link, as in the first embodiment. In addition, a configuration may be added in which the reliability of the map information is further updated according to the estimated road type and road attribute and road type and road attribute information included in the map information.

  According to such a configuration, even when the road sign cannot be recognized from the captured image, the reliability of the map information is increased according to information other than the road sign included in the map information while determining the road sign corresponding to the current location. Because it is updated, the accuracy of the reliability of the map information can be improved.

  In the first embodiment and the second embodiment, the case where the reliability has two values of “high” and “low” has been shown. However, the reliability is set to a plurality of levels and is determined by the determination of the reliability. The level of reliability may be raised or lowered by a certain level, and processing may be changed according to the level of reliability.

  In 1st Example and 2nd Example, although alerting | reporting part 3 alert | reported based on the reliability of map information, the reliability of map information is transmitted to each control part of the vehicle 1, and it is reliable in each control part. You may make it utilize map information based on a degree.

  In the first and second embodiments, the example in which the control unit 6 performs various determinations and calculations based on various sensor information has been described. However, the present invention is not limited to this, and detection information of various sensors transmitted from the communication unit 4. Based on the above, various determinations and calculations may be performed by the vehicle exterior device, and the determination results and calculation results may be received by the communication unit 4 and various controls may be performed using the received determination results and calculation results.

  While embodiments of the invention have been disclosed, it will be apparent to those skilled in the art that changes may be made without departing from the scope of the invention. All such modifications and equivalents are intended to be included in the following claims.

DESCRIPTION OF SYMBOLS 1 Vehicle 2 Imaging part 3 Notification part 5 Map information management part 6 Control part 53 GNSS receiver 54 Sign information storage part 64 Recognition processing part 65 Output processing part 66 Reliability determination part 67 Road sign judgment part

Claims (3)

An imaging unit that captures an image in front of the vehicle;
A recognition processing unit for recognizing a road sign from the image;
A sign information storage unit for storing information of road signs associated with the position information;
A road sign determination unit that determines a road sign corresponding to the current position based on at least one of the road sign recognized by the recognition processing unit and the road sign stored in the sign information storage unit;
A reliability determination unit that determines the reliability of the information stored in the sign information storage unit,
The reliability determination unit determines the reliability when a road sign is recognized from at least the image, and the road sign recognized from the image matches the road sign stored in the sign information storage unit , Increasing the reliability and holding the reliability until the reliability is next determined,
The road sign determination unit determines that the road sign stored in the sign information storage unit is a road sign corresponding to the current position when the reliability determined by the reliability determination unit is equal to or greater than a predetermined value. Road sign recognition device.   The road sign recognition according to claim 1, wherein the reliability determination unit increases the reliability when a road sign stored in the sign information storage unit changes or a road link on which the vehicle travels changes. apparatus.   The road sign recognition apparatus according to claim 1, wherein the reliability determination unit determines that the reliability is equal to or higher than the predetermined value when the reliability is not maintained.

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