JP2010018184A - Direction indicator control device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a direction indicator control device capable of ending the direction indicating action of a direction indicator at proper timing. <P>SOLUTION: The direction indicator control device 11 determines whether operation of a steering wheel W to a direction indicated by the direction indicator 10 is completed or not based on a traveling state such as a traveling speed, a steering angle and a yaw rate of one's own vehicle. The direction indicating action by the direction indicator 10 is ended when turning right, turning left or lane change is completed. Further, a camera 16a for imaging the front of the own vehicle is connected to the direction indicator control device 11. The direction indicator control device 11 detects a road state ahead of the own vehicle from the taken image, and determines whether there is a possibility that the own vehicle takes the course to the direction indicated by the direction indicator 10 or not based on the road state. The completion determination based on the traveling state of the own vehicle is made invalidated when it is determined that there is the possibility. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a direction indicator control device that controls a direction indication operation of a direction indicator.

  Conventionally, when a turn lever provided near the steering wheel is operated on a vehicle to blink a turn lamp provided before and after the vehicle, for example, when turning right or left or changing lanes to adjacent lanes The direction indicator which shows the advancing direction of the own vehicle which a driver | operator intends around is provided.

  The direction indicator includes a turn switch that activates a turn lamp in a traveling direction when the turn lever is operated in a direction corresponding to the traveling direction of the host vehicle, and a steering wheel is set in a direction opposite to the operating direction of the turn lever. And a release mechanism for automatically releasing the direction indication by returning the turn lever to the original position when the angle is rotated by more than the angle and returned to the original position. When the turn lever is operated in the direction corresponding to the traveling direction of the host vehicle and the turn switch is activated, the turn lamp in the traveling direction flashes. Then, when the turn of the host vehicle is finished and the steering wheel is returned to the straight traveling position, the turn lever is returned to the original position by the release mechanism, and the turn lamp is turned off.

  However, with this configuration, if the steering angle of the steering wheel in the direction of operation of the turn lever is small, such as when the host vehicle changes lanes to an adjacent lane, the direction indication The direction indication operation of the container may not be completed.

  Therefore, in order to end the direction indicating operation of the direction indicator at an appropriate timing even when the lane change is completed in this way, a direction indicator control device as shown in Patent Document 1, for example, has been conventionally proposed. .

The direction indicator control device includes a camera that captures an image of the rear of the host vehicle and detects a traveling lane of the host vehicle, and detects a lane change of the host vehicle in the direction indicated by the direction indicator through the camera. The direction indicating operation of the indicator is terminated. In addition, a navigation device is connected to the direction indicator control device. The navigation device includes a GPS (Global Positioning System) receiver for detecting the current position of the host vehicle, and a map database that holds map data on a storage medium such as a hard disk. The map data held by the map database stores the number of lanes along with each road. When the turn lever is operated, the direction indicator control device blinks the turn lamp and requests the navigation device for road information around the host vehicle. And when it is determined that there is a possibility of further turning left and right after changing the lane from the acquired road information around the own vehicle, such as when an intersection is detected within a predetermined range in the traveling direction of the own vehicle The end determination process based on the change of the traveling lane described above is stopped, and the direction indicating operation of the direction indicator is continued.
JP 2007-223382 A

  However, in the conventional direction indicator control device, road information ahead of the host vehicle is acquired based on map information stored in a storage device such as a map database. If the map information being updated is not updated, it may not be possible to acquire appropriate road information that matches the current situation. In such a case, it becomes impossible to accurately grasp the road condition ahead of the host vehicle. For example, in the case of further turning right or left immediately after the lane change, the direction indicator operation of the direction indicator immediately follows the lane change. As a result, there is a possibility that the trouble of continuously operating the direction indicator in the same direction may occur.

  The present invention has been made in view of such circumstances, and its purpose is to accurately continue the direction indicating operation of the direction indicator according to the road condition ahead of the host vehicle, and to turn the direction indicator in the same direction. An object of the present invention is to provide a direction indicator control device that can save the trouble of continuous operation.

  According to the first aspect of the present invention, there is provided an operating state detecting means for detecting an operating state of a direction indicator provided in the host vehicle, and a direction indicating operation of the direction indicator detected by the operating state detecting means. A direction indicator for ending the direction indicating operation of the direction indicator, based on the end determination. A control device, which captures the front of the host vehicle, acquires road information in front of the host vehicle from the captured image, and the direction indication operation of the direction indicator by the operating state detection unit. If detected, based on the road information, it is determined whether or not the host vehicle may take a course in the direction indicated by the direction indicator immediately after the end determination is made by the end determination means. , Possible If it is determined that there is sexual, and its gist in that it comprises a disabling determination means for disabling said end determination by the end determining unit.

  According to the present invention, even when an end determination is made to end the direction indicating operation based on the traveling state of the host vehicle, the end determination unit performs the end determination based on the road information ahead of the host vehicle. Immediately after, when it is determined that the host vehicle may take a course in the direction indicated by the direction indicator, the end determination by the end determination means is invalidated. That is, the course of the host vehicle is predicted according to the road condition ahead of the host vehicle, and the direction indicator operation of the direction indicator is continued based on the prediction result. For this reason, for example, when changing lanes in the same direction, such as when changing lanes continuously in one direction, or when turning in the same direction immediately after changing lanes in one direction, etc. In the process, the direction indicating operation of the direction indicator is continued without being completed. Therefore, the trouble of operating the direction indicator continuously in the same direction can be saved. Here, for example, when acquiring road information ahead of the host vehicle based on the map information stored in the storage device, if the map information stored in the storage device has not been updated, it is appropriate for the current situation. May not be able to obtain accurate road information. In this regard, according to the present invention, road information ahead of the host vehicle can be acquired at any time based on the captured image, and thus the direction indication operation of the direction indicator is controlled based on appropriate road information in accordance with the current situation. be able to.

  In the invention according to claim 2, when the invalidity determining means determines whether there is an intersection ahead of the host vehicle based on the acquired road information, The gist of the present invention is that it is determined that the host vehicle may take a course in the direction indicated by the direction indicator immediately after the end determination is made by the end determination means.

  When there is an intersection ahead of the host vehicle, for example, when the intersection is turned right or left immediately after the lane change, the host vehicle immediately turns the direction indicator immediately after the end determination by the end determination means is made. There is a possibility of taking a course in the indicated direction. Therefore, when it is determined that there is an intersection ahead of the host vehicle based on the captured image as in the present invention, the ending change by the end determination unit is invalidated, for example, as described above, to change the lane. Even if the intersection turns right or left immediately after the intersection, the direction indicator operation of the direction indicator is continued, so that the trouble of continuously operating the direction indicator in the same direction can be saved.

  According to a third aspect of the present invention, the invalidity determination means is determined to be terminated by the termination determination means based on road marking information provided on the road surface ahead of the host vehicle acquired as the road information. The gist is to determine immediately after that whether or not the host vehicle may take a course in the direction indicated by the direction indicator.

  According to the present invention, the invalidity determining means determines that the own vehicle is a turn indicator immediately after the end determination is made by the end determining means based on the road marking provided on the road surface ahead of the own vehicle included in the captured image. It is determined whether or not there is a possibility of taking a course in the indicated direction. For this reason, for example, when the lane is changed to a right turn or left turn lane, the host vehicle gives a direction indication immediately after the end determination is made by the end determination means based on the display indicating the dedicated lane provided on the road surface. It can be determined that there is a possibility of taking a course in the direction indicated by the vessel. Therefore, even when a right turn or a left turn is made in this way and a right turn or a left turn is made along the exclusive lane immediately after the end determination is made by the end determination means, the direction indicating operation of the direction indicator is continued. Therefore, the trouble of repeatedly operating the direction indicator can be saved. In addition, for example, when a lane is changed to a lane with a sign indicating that a right / left turn is prohibited, immediately after the end determination is made by the end determination means based on the display indicating that a right / left turn is prohibited provided on the road surface. It can be determined that the host vehicle is unlikely to take a course in the direction indicated by the direction indicator. Therefore, when the lane is changed to a lane that indicates that right / left turn is prohibited, the direction indicating operation of the direction indicator can be accurately ended immediately after the end determination is made by the end determination means. .

  According to a fourth aspect of the present invention, the road information acquisition means includes imaging means for imaging the front of the host vehicle, and supplies driving power to the imaging means only during the direction indicating operation. Is the gist.

  According to the present invention, since driving power is supplied to the imaging means only while the direction indicator performs the direction indicating operation, it is possible to suitably suppress power consumption.

  ADVANTAGE OF THE INVENTION According to this invention, the direction indicator control apparatus which can complete | finish the direction indication operation | movement of a direction indicator at an appropriate timing can be obtained.

Hereinafter, an embodiment in which the present invention is embodied in a turn indicator for a four-wheeled vehicle will be described with reference to the drawings.
As shown in FIG. 1 (a), the direction indicator indicates the traveling direction of the host vehicle by driving the pair of left and right turn lamps 2a, 2b, 3a, 3b provided on the front and rear sides of the vehicle 1, respectively. A direction indicating operation to notify a person or the like is performed.

<Overview of direction indicator operation>
The direction indicator is operated through an operation lever 4 provided on the steering column C of the vehicle 1 as shown in FIG. The operation lever 4 is disposed on the back side of the steering wheel W indicated by a two-dot chain line in FIG. The base end portion of the operation lever 4 is cantilevered inside the steering column C, and the distal end portion of the operation lever 4 protrudes outside the steering column C. The base end portion of the operation lever 4 can be tilted with respect to the steering column C by a predetermined angle in a direction along the rotational direction of the steering wheel W around a rotation shaft (not shown) disposed inside the steering column C. It is supported.

  The central axis of the operation lever 4 is held at an operation neutral position P indicated by a one-dot chain line in FIG. When the operation lever 4 is held at the operation neutral position P and applied with an operation force in the counterclockwise direction indicated by the arrow AL, the operation lever 4 is centered on the rotation axis as shown in FIG. Tilt to the left turn operation position PL indicated by the chain line. As a result, the left turn lamps 2a and 2b (see FIG. 1A) provided on the front and rear sides of the vehicle 1 blink. When the operating force in the direction of the arrow AL is released, the operation lever 4 returns to the operation neutral position P by the action of a return mechanism (not shown). Even when the operation lever 4 returns to the operation neutral position P, the left turn lamps 2a and 2b continue to blink. Further, as shown in FIG. 1B, when the operation force in the clockwise direction indicated by the arrow AR is applied while the operation lever 4 is held at the operation neutral position P, the operation lever 4 is centered on the rotation axis. As shown in FIG. 1 (b), it tilts to the right turn operation position PR indicated by a one-dot chain line. As a result, the right turn lamps 3a and 3b (FIG. 1B) provided on the front and rear sides of the vehicle 1 blink. When the operation force in the direction of the arrow AR is released, the operation lever 4 returns to the operation neutral position P by the action of the return mechanism. Even when the operation lever 4 returns to the operation neutral position P, the right turn lamps 3a and 3b continue to flash.

<Electrical configuration>
Next, the electrical configuration of the direction indicator operated through the operation lever 4 will be described. As shown in FIG. 2, the direction indicator 10 includes a direction indicator control device 11 as an end determination unit and an invalidity determination unit configured by a CPU, a ROM, a RAM, and the like (not shown). The ROM of the direction indicator control device 11 stores various control programs and data for comprehensively controlling the entire direction indicator 10. The control program includes a lighting control program for performing lighting control of the turn lamps 2a, 2b, 3a, 3b, for example. The RAM is a data storage area, that is, a work area for the microcomputer to execute various processes by developing a control program stored in the ROM.

A vehicle speed sensor 12, a steering angle sensor 13, and a yaw rate sensor 14 are connected to the direction indicator control device 11.
The vehicle speed sensor 12 detects the traveling speed of the vehicle 1 and outputs a vehicle speed detection signal SV corresponding to the detected speed to the direction indicator control device 11.

  When the steering wheel W is rotated by the driver, the steering angle sensor 13 detects a steering angle that is the rotation angle, and controls the steering angle detection signal Sθ according to the detected steering angle by a direction indicator. Output to the device 11. More specifically, the rudder angle sensor 13 detects whether the steering wheel W has been rotated in the left or right direction with respect to the rudder angle midpoint (steering angle when the vehicle 1 is traveling straight), and in either case. Steering angle information having a positive value with respect to the steering angle midpoint is output as the steering angle detection signal Sθ. Note that the steering angle information includes steering direction information indicating whether the steering wheel W is steered in the left or right direction.

  The yaw rate sensor 14 detects, for example, the yaw rate (behavior in the rotational direction of the vehicle 1) when the host vehicle turns right or left or changes lanes, and controls the yaw rate detection signal SY corresponding to the detected yaw rate with a direction indicator. Output to the device 11.

  Further, a body ECU (Electronic control unit) 15 is connected to the direction indicator control device 11. The body ECU 15 is connected with a turn switch 15a as an operation state detecting means that is turned on and off in conjunction with the operation of the operation lever 4. When the body ECU 15 detects that the operation lever 4 is tilted from the operation neutral position P to the left turn operation position PL through the turn switch 15a, the body ECU 15 outputs an operation position detection signal SP indicating that to the direction indicator control device 11. . When the body ECU 15 detects that the operation lever 4 is turned to the right turn operation position PR through the turn switch 15a, the body ECU 15 outputs an operation position detection signal SP indicating that to the direction indicator control device 11. The body ECU 15 is connected with two left turn lamps 2a and 2b and two right turn lamps 3a and 3b.

  When the direction indicator control device 11 detects an operation of the operation lever 4 to each of the operation positions PL and PR based on the operation position detection signal SP from the body ECU 15, the direction instruction device signals the traveling direction of the vehicle 1 to the periphery. An instruction start signal Ss for starting the operation is output to the body ECU 15. The body ECU 15 intermittently supplies drive current to the turn lamps 2a, 2b, 3a, 3b based on the instruction start signal Ss from the direction indicator control device 11, and blinks them. Specifically, when the direction indicator control device 11 detects that the operation lever 4 is tilted from the operation neutral position P to the left turn operation position PL based on the operation position detection signal SP from the body ECU 15, An instruction start signal Ss for flashing the two left turn lamps 2a and 2b is output to the ECU 15. Based on the instruction start signal Ss, the body ECU 15 intermittently supplies drive currents to the two left turn lamps 2a and 2b and blinks them. Further, when the direction indicator control device 11 detects that the operation lever 4 has been turned to the right turn operation position PR based on the operation position detection signal SP from the body ECU 15, the right turn control device 11 performs two right turn operations on the body ECU 15. An instruction start signal Ss for blinking the lamps 3a and 3b is output. Based on the instruction start signal Ss, the body ECU 15 intermittently supplies drive currents to the two right turn lamps 3a and 3b and causes them to blink.

  Further, the direction indicator control device 11 detects the traveling state of the host vehicle from the elapsed time from the starting time, the traveling speed of the host vehicle, the steering angle, the yaw rate, and the like when the direction instruction operation is started. Based on the running state, an end determination is made to end the direction indicating operation of the direction indicator 10. Then, based on the end determination, the direction indicating operation by the direction indicator 10 is ended.

  Specifically, when the direction indicator control device 11 starts a direction indication operation to signal the traveling direction of the vehicle 1 to the periphery through blinking of the left turn lamps 2a, 2b or the right turn lamps 3a, 3b, in other words, The elapsed time from when the instruction start signal Ss is output is counted by a timer provided therein. A certain amount of time has passed since the start of the direction indicating operation, in a state where the steering operation is not performed and the vehicle is traveling at a certain speed or more, exceeding the normally assumed duration of the direction indicating operation. In this case, the direction indicator control device 11 determines that a condition (end determination condition) for ending the direction indication operation is satisfied, and performs an end determination to end the direction indication operation of the direction indicator 10. Based on this end determination, the direction indicator control device 11 outputs to the body ECU 15 an instruction end signal Se for ending the direction indicating operation. The body ECU 15 stops the supply of drive current to the two left turn lamps 2a, 2b or the two right turn lamps 3a, 3b based on the instruction end signal Se, and turns them off.

  The ROM of the direction indicator control device 11 stores a cancel preparation angle θ1 and a cancel angle θ2 smaller than the cancel preparation angle θ1. When the direction indicator control device 11 starts the direction indication operation, it detects a change in the steering angle θ of the steering wheel W through the steering angle sensor 13. When the steering angle θ reaches the cancel preparation angle θ1 (θ> θ1) and falls within the range of the cancel angle θ2 (θ <θ2), the direction indicator control device 11 ends the direction indication operation. It is determined that the condition (end determination condition) is satisfied, and an end determination is made to end the direction indicating operation of the direction indicator 10. As a result, the steering wheel W reaches the cancel preparation angle θ1 in the direction indicated by the direction indicator 10 as in the case where the vehicle turns straight after turning right or left at an intersection or the like. Is returned to within the range, the end instruction of the direction indicating operation is determined based on the steering angle θ, and the direction indicating operation is automatically ended.

  Further, the direction indicator control device 11 starts changing the yaw rate based on the yaw rate detection signal SY when the direction start operation is started, in other words, from the time when the instruction start signal Ss is output (the turning direction of the host vehicle). Change amount of rotation angle per unit time). In the ROM of the direction indicator control device 11, a determination reference value serving as a determination reference for determining the end of the direction indicating operation is stored for each speed region of the host vehicle. Usually, the yaw rate changes so as to take a maximum value and a minimum value between the start and end of the course of the host vehicle such as turning left and right or changing lanes. The direction indicator control device 11 is configured to terminate the direction indicating operation when the yaw rate reaches a maximum value and then falls below the determination reference value, or exceeds the determination reference value after a minimum value (end) It is determined that (determination condition) is satisfied. Further, the direction indicator control device 11 detects (calculates) a change amount of the steering angle θ based on the steering angle detection signal Sθ. In the ROM of the direction indicator control device 11, a determination reference value serving as a determination reference for determining the end of the direction indicating operation is stored for each speed region of the host vehicle. Normally, the steering angle θ changes so as to take the maximum value and the minimum value during the period from when the own vehicle starts changing the course to when it ends, like the yaw rate. The direction indicator control device 11 terminates the direction indicating operation when the steering angle θ is below the determination reference value after taking the maximum value or when the steering angle θ exceeds the determination reference value after taking the minimum value. It is determined that (end determination condition) is satisfied. The direction indicator control device 11 performs an end determination to end the direction indicating operation of the direction indicator 10 when either one of the end determination condition based on the yaw rate and the end determination condition based on the steering angle θ is satisfied. Do. Accordingly, even when the steering angle θ of the steering wheel W in the direction indicated by the direction indicator 10 is small and the steering angle θ does not reach the cancel preparation angle θ1, for example, when the lane is changed to an adjacent lane. Then, the end of the direction indicating operation is determined based on the change in the yaw rate or the steering angle θ. That is, even if the above-described end determination condition based on the steering angle θ is not satisfied, if the end determination condition based on the yaw rate or the steering angle θ is satisfied, an end determination is made to end the direction indicating operation, and the right of an intersection or the like is determined. The direction indicating operation is automatically terminated not only when turning left but also when changing lanes to adjacent lanes, for example.

  The direction indicator control device 11 is connected to a road state detection ECU (Electronic control unit) 16 that constitutes road information acquisition means. The road state detection ECU 16 is connected to a camera 16a as an imaging unit that also constitutes a road information acquisition unit. The camera 16a is provided, for example, on the front portion of the vehicle 1 or on the back side of the rearview mirror, and images the front of the host vehicle. The direction indicator control device 11 demands that road conditions in front of the host vehicle be detected while the turn lamps 2a, 2b, 3a, 3b are blinking, that is, during the direction indication operation. The request signal Sr is output to the road condition detection ECU 16. The road condition detection ECU 16 supplies driving power to the camera 16a based on the road condition detection request signal Sr, and acquires a captured image in front of the host vehicle through the camera 16a. The road state detection ECU 16 detects the road state ahead of the host vehicle from the captured image captured by the camera 16a using pattern matching, a neural network, or the like from, for example, the density (luminance) or shape characteristics of the captured image. A road condition detection signal Sa including the detection result is output to the direction indicator control device 11. Based on the detection result (road condition detection signal Sa) from the road condition detection ECU 16, the direction indicator control device 11 determines that the host vehicle indicates the direction indicated by the direction indicator 10 immediately after the end determination is made based on the travel condition. It is determined whether there is a possibility of taking a course. When it is determined that there is such a possibility, the direction indicator control device 11 invalidates the end determination based on the traveling state of the host vehicle. Conversely, when it is determined that there is no such possibility, the direction indicator control device 11 validates the end determination based on the traveling state of the host vehicle.

  In the present embodiment, the road state detection ECU 16 detects an object indicating an intersection included in a captured image of the camera 16a. When the detection result indicating that there is an intersection in front of the host vehicle is output, the direction indicator control device 11 moves the host vehicle in the direction indicated by the direction indicator 10 immediately after the end determination based on the traveling state is made. Judge that there is a possibility of taking a course.

  For example, as shown in FIG. 3, when the captured image G1 of the camera 16a includes a road shape of the intersection itself, a pedestrian crossing, a traffic light, or the like indicating that there is an intersection ahead of the host vehicle, The detection ECU 16 determines that there is an intersection in front of the host vehicle, and outputs a detection result indicating that to the direction indicator control device 11. Based on the detection result, the direction indicator control device 11 determines that the host vehicle may take a course in the direction indicated by the direction indicator 10 immediately after the end determination based on the traveling state is made. The termination determination based on the running state of the vehicle is invalidated. On the other hand, for example, as shown in FIG. 4, when the captured image G2 of the camera 16a does not include the road shape of the intersection itself, a crosswalk, a traffic light, or the like indicating that there is an intersection ahead of the host vehicle, The road state detection ECU 16 determines that there is no intersection ahead of the host vehicle, and outputs a detection result indicating that to the direction indicator control device 11. Based on the detection result, the direction indicator control device 11 determines that there is no possibility that the host vehicle will take a course in the direction indicated by the direction indicator 10 immediately after the end determination based on the traveling state is made. The end determination based on the running state of the vehicle is validated.

  In the present embodiment, the road condition detection ECU 16 detects a road marking on the road surface ahead of the host vehicle included in the captured image. The direction indicator control device 11 determines whether or not the own vehicle may take a course in the direction indicated by the direction indicator 10 immediately after the end determination based on the traveling state is made based on the detection result of the road marking. Judging.

  For example, as shown in FIG. 5, when the captured image G3 of the camera 16a includes a road marking indicating a right turn or left turn lane (in this case, a left turn lane), the road condition detection ECU 16 A detection result indicating that is output to the direction indicator control device 11. Based on the detection result, the direction indicator control device 11 determines that the host vehicle may take a course in the direction indicated by the direction indicator 10 immediately after the end determination based on the traveling state is made. This determination is made when the captured image G3 of the camera 16a that captures the front of the host vehicle includes a road marking indicating a right turn or left turn lane (in this case, the right turn or left turn lane (in this case, This is based on the assumption that a right turn or a left turn is usually made immediately after that. Then, the direction indicator control device 11 invalidates the end determination based on the traveling state of the host vehicle. On the other hand, as shown in FIG. 6, for example, the captured image G4 of the camera 16a includes a road sign (in this case, a straight lane display) indicating that the lane is a straight lane, such as a straight-ahead display or a turn prohibition display. If there is, the road condition detection ECU 16 outputs a detection result indicating that to the direction indicator control device 11. Based on this detection result, the direction indicator control device 11 determines that there is no possibility that the host vehicle will take a course in the direction indicated by the direction indicator 10 immediately after the end determination based on the traveling state is made. This determination is made when the captured image G4 of the camera 16a that captures the front of the host vehicle includes a road marking indicating such a straight-ahead lane, the host vehicle is positioned in the straight-ahead lane. Usually, it is based on the assumption that a right turn or a left turn is not performed immediately after that. Then, the direction indicator control device 11 validates the end determination based on the traveling state of the host vehicle. That is, the direction indicator control device 11 predicts the course of the host vehicle based on the road markings included in the captured images G1 to G4, and enables or disables the end determination based on the running state based on the prediction result. Or

  Next, the processing procedure of the end indicator end determination process configured as described above will be described with reference to the flowchart shown in FIG. The processing of this flowchart is repeatedly executed at a predetermined cycle by the direction indicator control device 11 according to the lighting control program stored in the ROM.

  As shown in the flowchart of FIG. 7, first, in step 101, the direction indicator control device 11 determines whether or not the turn lamps 2a, 2b, 3a, 3b are in an operating state. If it is determined in step 101 that the turn lamps 2a, 2b, 3a, 3b are not in the operating state, the direction indicator control device 11 ends this process. On the other hand, if it is determined in step 101 that the turn lamps 2a, 2b, 3a, 3b are in the operating state, the direction indicator control device 11 detects the road condition detection request signal Sr for detecting the road condition ahead of the host vehicle. Is output to the road condition detection ECU 16, and the process proceeds to step 102. That is, when the direction indicating operation is started, driving power is supplied to the camera 16a, and detection of a road condition ahead of the host vehicle is started.

  In the next step 102, the direction indicator control device 11 determines whether or not a certain time has elapsed since the start of the direction indication operation. In other words, after starting the direction indicating operation in Step 102, in other words, when it is determined that a certain time has elapsed since the output of the instruction start signal Ss, the direction indicator control device 11 proceeds to Step 103. In step 103, the direction indicator control device 11 outputs an instruction end signal Se for ending the direction indicating operation to the body ECU 15 and stops outputting the road condition detection request signal Sr to the road condition detection ECU 16. Then, this process ends. That is, when a predetermined time has elapsed since the start of the direction indicating operation, the direction indicating operation and detection of the road condition ahead of the host vehicle are automatically terminated based on the determination in step 102.

  On the other hand, in step 102, in other words, when it is determined that a certain time has not elapsed since the instruction start signal Ss was output, the direction indicator control device 11 proceeds to step 104. To do. In step 104, the direction indicator control device 11 determines whether or not an end determination condition at the time of lane change based on the yaw rate or the steering angle θ is satisfied.

  If it is determined in step 104 that the end determination condition at the time of lane change based on the yaw rate or the steering angle θ is not satisfied, the direction indicator control device 11 proceeds to step 105. In step 105, the direction indicator control device 11 determines whether or not an end determination condition for a right / left turn based on a change in the steering angle θ of the steering wheel W is satisfied. If it is determined in step 105 that the right / left turn end determination condition is satisfied, the direction indicator control device 11 proceeds to step 103. In step 103, the direction indicator control device 11 outputs an instruction end signal Se for ending the direction indicating operation to the body ECU 15 and outputs the road condition detection request signal Sr to the road condition detection ECU 16. Stop and end this process. That is, when the steering wheel W is operated beyond the cancel preparation angle θ1 at the time of lane change or right / left turn (particularly right / left turn), based on the determination in step 105, the direction indicating operation and the front of the host vehicle The detection of the road condition is automatically terminated. On the other hand, if it is determined in step 105 that the right / left turn end determination condition is not satisfied, the direction indicator control device 11 does not output the instruction end signal Se to end the direction indicating operation, or The present process is terminated without stopping the output of the road condition detection request signal Sr. That is, the direction indicating operation of the direction indicator 10 and the detection of the road condition ahead of the host vehicle are continued.

  Here, when it is determined in step 104 that the end determination condition at the time of lane change based on the yaw rate or the steering angle θ is satisfied, the direction indicator control device 11 proceeds to step 106. In step 106, the direction indicator control device 11 determines whether or not the host vehicle may take a course in the direction indicated by the direction indicator 10 based on the captured images G1 to G4 of the camera 16a. .

  If it is determined in step 106 that the host vehicle has no possibility of taking a course in the direction indicated by the direction indicator 10, the direction indicator control device 11 proceeds to step 103. In step 103, the direction indicator control device 11 outputs an instruction end signal Se for ending the direction indicating operation to the body ECU 15 and stops outputting the road condition detection request signal Sr to the road condition detection ECU 16. Then, this process ends. That is, when there is no intersection or the like ahead of the host vehicle, when the lane change is completed, the end determination at the time of the lane change based on the yaw rate or the steering angle θ is valid based on the determination in step 106, and the direction indication operation and the Detection of the road condition ahead of the vehicle is automatically terminated. Note that the processing order of steps 104 and 106 may be reversed.

  On the other hand, if it is determined in step 106 that the host vehicle may take a course in the direction indicated by the direction indicator 10, the direction indicator control device 11 proceeds to step 105. That is, when there is an intersection or the like ahead of the host vehicle, the end determination at the time of the lane change based on the yaw rate or the steering angle θ in step 104 is invalidated based on the determination in step 106, and the direction indication operation and Detection of the road condition ahead of the vehicle is continued.

<Operation of direction indicator>
Next, the operation of the direction indicator configured as described above will be described.
Normally, the operation lever 4 is held at the operation neutral position P, and the left turn lamps 2a, 2b and the right turn lamps 3a, 3b are kept in the extinguished state. When turning right or left or changing lanes, the driver tilts the operation lever 4 in a direction corresponding to the direction of the vehicle's path to signal the fact to the surroundings, and the left turn lamps 2a and 2b. Alternatively, the right turn lamps 3a and 3b are blinked.

  Here, for example, as shown in FIG. 8A, a case is assumed in which a lane is changed to an adjacent lane on a straight road. In this case, when the operation lever 4 is tilted at time t0, the direction indicator control device 11 starts a direction indicating operation through the turn lamps 2a, 2b, 3a, 3b (FIG. 8B, turn lamp). = ON), detection of the road condition ahead of the host vehicle is started. When a lane change to an adjacent lane is started at time t1, the yaw rate or steering angle θ of the host vehicle increases, and the yaw rate or steering angle θ decreases as the vehicle moves straight ahead. Based on the change in the yaw rate or the steering angle θ, the direction indicator control device 11 determines that the end determination condition at the time of lane change is satisfied at time t2 (FIG. 8 (b) end determination at the time of lane change = ON). At this time, since there is no intersection in front of the host vehicle, the captured image of the camera 16a indicates that there is an intersection in front of the host vehicle, such as the road shape of the intersection itself, a pedestrian crossing, and a traffic light. Is not included (see FIG. 4). Therefore, the direction indicator control device 11 determines that there is no possibility that the host vehicle will take a course in the direction indicated by the direction indicator 10 (in this case, the left direction in this case), and makes an end determination based on this lane change. Valid (FIG. 8 (b) Valid / invalid determination = valid). Therefore, in this case, the end determination is made based on the fact that the end determination condition at the time of lane change is satisfied (FIG. 8 (b) end determination = ON), and the direction indicating operation is performed at the timing when the end determination based on the lane change is made. Is automatically terminated (FIG. 8 (b) turn lamp = OFF).

  Next, for example, as shown in FIG. 9A, a case is assumed in which a left turn is made immediately after a lane change to the left lane. In this case, the captured image of the camera 16a is displayed between time t0 when detection of the road condition ahead of the host vehicle is started and time t3 when the left turn of the intersection is completed (in this case, between time t1 ′ and time t3). Includes that there is an intersection in front of the vehicle (see FIG. 3). Therefore, immediately after the end determination is made, the direction indicator control device 11 determines that the host vehicle may take a course in the left direction that is the instruction direction of the direction indicator 10, and while the determination is made The termination determination based on the lane change is invalidated (FIG. 9B valid / invalid determination = invalid). When the host vehicle turns left at the intersection, the direction indicator control device 11 performs an end determination to end the direction indicating operation of the direction indicator 10 based on a change in the traveling state of the host vehicle accompanying the left turn. . Accordingly, in this case, the end determination is made based on the fact that the end determination condition for the left turn is satisfied (FIG. 9B, end determination = ON), and the timing at which the end determination is made based on the lane change (in this case, time t2 ), The direction indicating operation is automatically ended at the timing when the end determination based on the left turn is made (in this case, time t3) (FIG. 9B, turn lamp = OFF).

  Thus, by grasping the road condition ahead of the host vehicle based on the captured images G1 to G4 of the camera 16a, it becomes possible to predict the course of the host vehicle, and immediately after the end determination is made, It can be determined whether or not there is a possibility of taking a course in the direction indicated by the direction indicator 10. Then, when it is determined that there is such a possibility, the direction determination operation of the direction indicator 10 is accurately continued according to the road condition ahead of the host vehicle by invalidating the end determination based on the traveling state of the host vehicle. Can be made. For this reason, in the case of turning left at the intersection immediately after the lane change to the left lane in this way, the direction indicating operation is continued even after the end determination condition at the time of the lane change is satisfied, and the direction indicator 10 It can be avoided that the operation is terminated unnecessarily. Therefore, in such a case, it is possible to save the trouble of operating the operation lever 4 when changing the lane and when turning left.

  For example, as shown by a two-dot chain line in FIG. 9A, when the vehicle moves straight after crossing the lane, the normally directed direction indicating operation is continued after the operation lever 4 is tilted. The direction indicating operation is automatically ended based on the elapse of a certain time exceeding the time.

  Here, for example, as shown by a two-dot chain line in FIG. 9A, it is assumed that the intersection is turned left immediately after the lane change to the left turn exclusive lane. In this case, the captured image of the camera 16a is displayed between time t0 when detection of the road condition ahead of the host vehicle is started and time t3 when the left turn of the intersection is completed (in this case, between time t1 ′ and time t3). Includes a road sign indicating that there is an intersection in front of the host vehicle and a left turn lane provided on the road surface in front of the host vehicle (see FIG. 5). Therefore, the direction indicator control device 11 determines that the host vehicle may take a course in the left direction that is the indication direction of the direction indicator 10 immediately after the end determination is made, and determines the end determination based on the lane change. Is invalidated (FIG. 9B valid / invalid judgment). In this case, immediately after the end determination is made, the determination that the host vehicle may take a course in the left direction that is the direction indicated by the direction indicator 10 is made based on the road marking provided on the road surface. This judgment is more certain.

  Also, for example, when going straight through an intersection immediately after changing to a lane dedicated to a straight-ahead lane, from the time t0 when the detection of the road condition ahead of the host vehicle is started to the time t3 when the left turn of the intersection is completed (in this case, the time (From t1 ′ to time t3), the captured image of the camera 16a includes a road sign indicating that there is an intersection ahead of the host vehicle and a straight lane (see FIG. 6). Therefore, the direction indicator control device 11 determines that the host vehicle has no possibility of taking a course in the direction indicated by the direction indicator 10 (in this case, leftward), and determines that the end determination based on the lane change is valid. To do. Therefore, in this case, the direction indicating operation is automatically terminated at the timing when the lane change is completed. In this case, immediately after the end determination is made, the determination that the host vehicle is unlikely to take a course in the left direction, which is the direction indicated by the direction indicator 10, is made based on the road marking provided on the road surface. This judgment is more certain.

  Incidentally, in the above-described prior art, road information ahead of the host vehicle is acquired based on the map information stored in the storage device. For example, the map information stored in the storage device is updated. If not, it may not be possible to obtain appropriate road information in accordance with the current situation. In this regard, according to the present embodiment, road information ahead of the host vehicle can be acquired at any time based on the captured image of the camera 16a. The direction indicating operation can be controlled.

Next, the operational effects of the above embodiment will be described below.
(1) When it is determined that the host vehicle may take a course in the direction indicated by the direction indicator 10 based on the captured images G1 to G4 ahead of the host vehicle captured by the camera 16a, the direction indicating operation is performed. The termination determination to the effect of termination is invalidated. That is, the course of the host vehicle is predicted according to the road condition ahead of the host vehicle, and the direction indicating operation of the direction indicator 10 is continued based on the prediction result. For this reason, for example, when changing lanes in the same direction, such as when changing lanes continuously in one direction, or when turning in the same direction immediately after changing lanes in one direction, etc. In the middle, the direction indicating operation of the direction indicator 10 is continued without being ended. Therefore, the trouble of continuously operating the direction indicator 10 in the same direction can be saved. Here, for example, when acquiring road information ahead of the host vehicle based on the map information stored in the storage device, if the map information stored in the storage device has not been updated, it is appropriate for the current situation. May not be able to obtain accurate road information. In this regard, according to the present invention, the road information ahead of the host vehicle can be acquired at any time based on the captured images G1 to G4. Therefore, the direction indication of the direction indicator 10 is based on the appropriate road information according to the current situation. The operation can be controlled.

  (2) When there is an intersection in front of the host vehicle, for example, when the vehicle turns right or left immediately after changing the lane, the host vehicle immediately turns the turn indicator immediately after the end determination is made by changing the lane. There is a possibility of taking a course in 10 directions. In the present embodiment, the direction indicator control device 11 determines whether or not there is an intersection ahead of the host vehicle based on the captured images G1 to G4. It is determined that there is a possibility of taking a course in the direction indicated by the container 10. For this reason, for example, even when the intersection is turned right or left immediately after changing the lane, the direction indicating operation of the direction indicator 10 is continued, so that the trouble of continuously operating the direction indicator 10 in the same direction is reduced. It can be omitted.

  (3) The direction indicator control device 11 starts immediately after the end determination is made to end the direction indicating operation based on the road marking provided on the road surface ahead of the host vehicle included in the captured images G3 and G4. It is determined whether or not the vehicle may take a course in the direction indicated by the direction indicator 10. For this reason, for example, when the lane is changed to a right turn or left turn exclusive lane, the host vehicle immediately follows the direction indicator 10 immediately after the end determination is made based on the display indicating the exclusive lane provided on the road surface. It can be determined that there is a possibility of taking a course in the indicated direction. Therefore, even when a right turn or a left turn is made along the dedicated lane immediately after the lane change to the right or left turn lane and the end determination is made in this way, the direction indicating operation of the direction indicator 10 is continued. The trouble of repeatedly operating the direction indicator 10 can be saved. Further, for example, when the lane is changed to a lane with a sign indicating that right / left turn is prohibited, the host vehicle immediately follows the end determination based on the display indicating that right / left turn is prohibited provided on the road surface. It can be determined that there is no possibility of taking a course in the direction indicated by the direction indicator 10. Therefore, when the lane is changed to a lane with a display indicating prohibition of turning left and right in this way, the direction indicating operation of the direction indicator 10 can be accurately terminated.

  (4) Based on the road condition detection request signal Sr from the direction indicator control device 11, the body ECU 15 images the front of the host vehicle only while the direction indicator 10 is performing the direction indication operation. Is supplied to the camera 16a. For this reason, power consumption can be suitably suppressed.

In addition, you may change this Embodiment as follows.
In the above embodiment, the intersection in front of the host vehicle is detected from the density (brightness) and shape characteristics of the captured image. Thus, an intersection may be detected.

  In the above embodiment, the end determination at the time of lane change is performed based on the change in the yaw rate and the steering angle θ. However, the present invention is not limited to such a mode, and the end determination is performed based on only one of them. It may be.

  In the above embodiment, the end determination condition is the change in the yaw rate and the steering angle θ so that the end determination is made at the time of lane change in addition to the end determination at the time of right / left turn. However, the present invention is not limited to this mode. . For example, the direction determination operation end determination may be made based only on the end determination condition based on the steering angle θ of the steering wheel W, that is, the end determination condition at the time of right / left turn. Even in such a case, it is possible to save time and effort to continuously operate the direction indicator in the same direction when turning right or left in the same direction immediately after turning right or left at the intersection, for example.

  In the above embodiment, the road condition detection ECU 16 indicates that there is an intersection ahead of the host vehicle, such as the road shape of the intersection itself, a pedestrian crossing, and a traffic light from the captured images G1 to G4 of the camera 16a. Although the road marking on the road surface ahead of the vehicle is detected, the present invention is not limited to such a mode. For example, either one indicating an intersection or a road marking may be detected as a road state.

  In the above embodiment, the driving power is supplied to the camera 16a only while the direction indicator 10 is performing the direction indicating operation. However, the present invention is not limited to such a mode. Regardless, drive power may always be supplied. Note that an in-vehicle system that monitors the front of the host vehicle based on the captured image of the camera 16a is mounted on the vehicle 1, such as an in-vehicle system that detects an obstacle ahead of the host vehicle and notifies the driver of the obstacle. In such a case, the captured image (image information) of the camera 16a may be shared with this in-vehicle system.

  In the above embodiment, the road condition detection ECU 16 as the road information acquisition means is provided separately from the direction indicator control device 11 as the end determination means and the invalidity determination means, but these are provided as one control device. Also good. Further, the end determination ECU as an end determination means for determining whether or not to end the direction indicating operation of the direction indicator 10 based on the traveling state of the host vehicle, and the end determination based on the captured images G1 to G4 are invalidated. The direction indicator control device may be configured from an invalidity determination ECU serving as an invalidity determination means for determining whether or not In this case, for example, if the end determination is made while the valid / invalid determination signal is input from the invalidity determination ECU to validate the end determination, the end determination ECU ends the direction indicating operation. May be.

  In the above embodiment, the automatic return type operation lever 4 that returns to the operation neutral position P when the operation force is released is used. However, the operation lever having a structure that is held at each operation position PL, PR is used. Also good.

(A) is the schematic when the vehicle is seen from the top, (b) is the schematic around the steering wheel. The block diagram which shows the electrical structure of a direction indicator. Explanatory drawing which shows an example of the captured image of a camera. Explanatory drawing which shows an example of the captured image of a camera. Explanatory drawing which shows an example of the captured image of a camera. Explanatory drawing which shows an example of the captured image of a camera. The flowchart which shows the process sequence of a direction indicator. (A) is explanatory drawing for demonstrating the course of the own vehicle, (b) is a timing chart for demonstrating the effect | action of a direction indicator. (A) is explanatory drawing for demonstrating the course of the own vehicle, (b) is a timing chart for demonstrating the effect | action of a direction indicator.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 10 ... Direction indicator, 11 ... Direction indicator control apparatus as completion | finish determination means and invalidity determination means, 15a ... Turn switch as operation state detection means, 16 ... Road state detection ECU as road information acquisition means, 16a ... Imaging Camera as means, W ... steering wheel, G1-G4 ... captured image.

Claims (4)

An operating state detecting means for detecting an operating state of a direction indicator provided in the host vehicle;
An end determination means for performing an end determination to end the direction indicating operation based on a traveling state of the host vehicle when the direction indicating operation of the direction indicator is detected by the operation state detecting unit; A direction indicator control device for ending the direction indicating operation of the direction indicator based on the end determination,
Road information acquisition means for imaging the front of the host vehicle and acquiring road information ahead of the host vehicle from the captured image;
When the operation state detecting means detects a direction indicating operation of the direction indicator, the host vehicle instructs the direction indicator immediately after the end determination is made by the end determining means based on the road information. A direction, comprising: determining whether or not there is a possibility of taking a course in a direction, and invalid determination means for invalidating the end determination by the end determination means when it is determined that there is the possibility Indicator control device.   The invalidity determining means determines whether or not there is an intersection ahead of the host vehicle based on the acquired road information, and when determining that there is the intersection, an end determination is made by the end determining means. 2. The direction indicator control device according to claim 1, wherein immediately after that, it is determined that the host vehicle may take a course in a direction indicated by the direction indicator.   The invalidity determining means is configured to indicate the direction of the vehicle immediately after the end determination is made by the end determining means based on road marking information provided on the road surface ahead of the own vehicle acquired as the road information. 3. The direction indicator control device according to claim 1, wherein it is determined whether or not there is a possibility of taking a course in a direction indicated by the indicator.   The said road information acquisition means is provided with the imaging means which images the front of the said own vehicle, and supplies drive electric power to the said imaging means only during performing the said direction instruction | indication operation | movement. The direction indicator control device according to any one of the above.

Images