WO2023047452A1 - 運転制御方法及び運転制御装置 - Google Patents
運転制御方法及び運転制御装置 Download PDFInfo
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- WO2023047452A1 WO2023047452A1 PCT/JP2021/034530 JP2021034530W WO2023047452A1 WO 2023047452 A1 WO2023047452 A1 WO 2023047452A1 JP 2021034530 W JP2021034530 W JP 2021034530W WO 2023047452 A1 WO2023047452 A1 WO 2023047452A1
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- vehicle
- driving assistance
- assistance level
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- 238000000034 method Methods 0.000 title claims description 23
- 230000007704 transition Effects 0.000 claims abstract description 147
- 238000011156 evaluation Methods 0.000 claims description 146
- 238000001514 detection method Methods 0.000 claims description 10
- 230000006870 function Effects 0.000 description 10
- 238000010586 diagram Methods 0.000 description 4
- 230000008859 change Effects 0.000 description 3
- 230000007423 decrease Effects 0.000 description 3
- 238000002485 combustion reaction Methods 0.000 description 2
- 230000004044 response Effects 0.000 description 2
- 230000001133 acceleration Effects 0.000 description 1
- 230000003247 decreasing effect Effects 0.000 description 1
- 230000004424 eye movement Effects 0.000 description 1
- 239000003550 marker Substances 0.000 description 1
- 230000007246 mechanism Effects 0.000 description 1
- 230000008520 organization Effects 0.000 description 1
- 238000003825 pressing Methods 0.000 description 1
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- 230000009467 reduction Effects 0.000 description 1
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Classifications
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60W—CONJOINT CONTROL OF VEHICLE SUB-UNITS OF DIFFERENT TYPE OR DIFFERENT FUNCTION; CONTROL SYSTEMS SPECIALLY ADAPTED FOR HYBRID VEHICLES; ROAD VEHICLE DRIVE CONTROL SYSTEMS FOR PURPOSES NOT RELATED TO THE CONTROL OF A PARTICULAR SUB-UNIT
- B60W50/00—Details of control systems for road vehicle drive control not related to the control of a particular sub-unit, e.g. process diagnostic or vehicle driver interfaces
- B60W50/08—Interaction between the driver and the control system
- B60W50/10—Interpretation of driver requests or demands
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60W—CONJOINT CONTROL OF VEHICLE SUB-UNITS OF DIFFERENT TYPE OR DIFFERENT FUNCTION; CONTROL SYSTEMS SPECIALLY ADAPTED FOR HYBRID VEHICLES; ROAD VEHICLE DRIVE CONTROL SYSTEMS FOR PURPOSES NOT RELATED TO THE CONTROL OF A PARTICULAR SUB-UNIT
- B60W30/00—Purposes of road vehicle drive control systems not related to the control of a particular sub-unit, e.g. of systems using conjoint control of vehicle sub-units
- B60W30/18—Propelling the vehicle
- B60W30/182—Selecting between different operative modes, e.g. comfort and performance modes
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B60—VEHICLES IN GENERAL
- B60W—CONJOINT CONTROL OF VEHICLE SUB-UNITS OF DIFFERENT TYPE OR DIFFERENT FUNCTION; CONTROL SYSTEMS SPECIALLY ADAPTED FOR HYBRID VEHICLES; ROAD VEHICLE DRIVE CONTROL SYSTEMS FOR PURPOSES NOT RELATED TO THE CONTROL OF A PARTICULAR SUB-UNIT
- B60W60/00—Drive control systems specially adapted for autonomous road vehicles
- B60W60/005—Handover processes
- B60W60/0053—Handover processes from vehicle to occupant
Definitions
- the present invention relates to an operation control method and an operation control device.
- the driving control method described in Patent Document 1 divides the target travel route of the own vehicle into a plurality of sections, and sets criteria for permitting driving support control for each section.
- the problem to be solved by the present invention is to provide a driving control method and a driving control device that make it easier to raise the driving support level when a transition request to raise the driving support level is input.
- the present invention determines whether or not a transition request requesting that a driving assistance level transition from a first driving assistance level to a second driving assistance level higher than the first driving assistance level is input, When the request is input, the above problem is solved by relaxing the transition condition for transitioning the driving assistance level from the first driving assistance level to the second driving assistance level.
- the transition condition is relaxed. Therefore, when a transition request for increasing the driving support level is input, the driving support level is likely to increase.
- FIG. 4 is a diagram showing an example of the relationship between the vehicle speed of the host vehicle and the vehicle speed threshold for changing the driving assistance level
- FIG. 4 is a diagram showing an example of the relationship between the vehicle speed of the host vehicle and the vehicle speed threshold for changing the driving assistance level, and showing an example in which the vehicle speed threshold shown in FIG. 3 is changed to a higher value
- 2 is a flow chart showing a procedure of an operation control method executed by the operation control device shown in FIG. 1;
- FIG. 1 is a block diagram showing the configuration of an own vehicle 1 and an operation control device 100 that controls the autonomous operation of the own vehicle 1.
- the vehicle 1 includes a driving control device 100 , a detection device 101 , a vehicle position acquisition unit 102 , a map database 103 , an in-vehicle device 104 , an input device 105 , a user interface 106 and a drive control device 107 .
- the operation control device 100 autonomously controls the vehicle speed and steering of the own vehicle 1 by executing the program stored in the ROM with the CPU, using the autonomous driving control function.
- the driving control device 100 can set a driving mode according to the driving assistance level, and can support the running of the own vehicle in the set driving mode.
- the driving support level is a level indicating the degree of intervention when the driving control device 100 supports the driving of the vehicle by the autonomous driving control function.
- the higher the driving assistance level the lower the driver's contribution to driving the vehicle.
- the driving assistance level can be set to levels 0 to 5 using definitions based on SAE J3016 of the Society of Automotive Engineers (SAE). At level 0, all driving operations of the host vehicle are performed manually by the driver.
- the driving operation of the own vehicle is mainly manual driving by the driver, but the driving control device 100 appropriately supports the manual driving of the driver by any of functions such as automatic braking, follow-up, and lane keeping.
- the driving operation of the own vehicle is mainly manual driving by the driver, but under certain conditions, the driving control device 100 combines multiple functions among functions such as automatic braking, following, and lane keeping. It is possible to execute driving assistance by
- the driving controller 100 performs all driving tasks, but the driver must be ready to take back control and manually drive when requested by the driving controller 100 .
- manual driving by the driver is not required, and the driving controller 100 can perform all driving tasks and monitor the surroundings of the vehicle under certain conditions.
- the driving control device 100 can perform all driving tasks under all conditions.
- the operation mode corresponding to level 2 is the eyes-on mode. That is, when the driving assistance level is set to level 2, the driver needs to visually monitor the surroundings of the vehicle 1 .
- the driving support level is set to level 2, the orientation of the driver's face and eye movements are monitored by an in-vehicle camera or the like, and when the driver is visually recognizing the front, the vehicle 1 is permitted to travel. be.
- the driving mode corresponding to level 2 is the hands-on mode.
- the hands-on mode is a mode in which the autonomous steering control by the processor 10 does not operate when the driver does not hold the steering wheel 14a.
- Whether or not the driver holds the steering wheel 14a is detected by a touch sensor (not shown) provided on the steering wheel 14a or a steering torque sensor (not shown) of the EPS. Note that “the driver is holding the steering wheel 14a” includes not only the state in which the driver is firmly gripping the steering wheel 14a, but also the state in which the driver is lightly holding the steering wheel 14a.
- the driving mode corresponding to level 3 is the eyes-off mode. That is, when the driving assistance level is set to level 3, the processor 10 controls driving of the vehicle 1 in an eyes-off mode that permits the vehicle 1 to run when the driver does not visually recognize the front. . At this time, the system of the operation control device 100 autonomously monitors the surrounding conditions of the own vehicle using a camera, radar, and the like. Moreover, the driving mode corresponding to level 3 is the hands-off mode.
- the hands-off mode is a mode in which the steering control by the processor 10 operates even if the driver releases the steering wheel 14a. That is, when the driving assistance level is set to level 3, the processor 10 allows the vehicle 1 to run in a hands-off mode in which the driver releases the steering wheel of the vehicle 1.
- the driving control device 100 can execute the driving mode corresponding to level 3 at least on the condition that the own vehicle 1 is traveling behind the preceding vehicle 2 as shown in FIG.
- “the own vehicle 1 runs behind the preceding vehicle 2” means not only that the own vehicle 1 is following the preceding vehicle 2, but also that the own vehicle 1 is following the preceding vehicle 2. It also includes traveling from the rear of the preceding vehicle 2 on the travel route on which the preceding vehicle 2 has already traveled.
- the operation control device 100 can control the operation of the own vehicle 1 by confirming that there is no obstacle on the travel route already traveled by the preceding vehicle 2, that is, in front of the own vehicle 1. .
- the classification of driving assistance level is not limited to the classification according to the definition of the Society of Automotive Engineers of America, and the driving assistance level is defined based on ISO/TC204 of the International Organization for Standardization (ISO). good too. Also, the driving support level classification may be defined by other criteria as long as the classification is appropriately performed according to the degree of intervention of the operation control device 100 .
- the detection device 101 has one or both of an in-vehicle camera that captures images of the surroundings of the own vehicle 1 and a radar that detects other vehicles and obstacles around the own vehicle.
- the detection result of the detection device 101 is output to the operation control device 100 at predetermined time intervals.
- the own vehicle position acquisition unit 102 is composed of a GPS unit, a gyro sensor, a vehicle speed sensor, and the like.
- the own vehicle position acquisition unit 102 detects radio waves transmitted from a plurality of satellite communications by the GPS unit, periodically acquires the position information of the own vehicle 1, and acquires the acquired position information of the own vehicle 1 and the gyro sensor. and the vehicle speed acquired from the vehicle speed sensor, the current position of the vehicle 1 is detected.
- the position information of the own vehicle 1 detected by the own vehicle position acquisition unit 102 is output to the operation control device 100 at predetermined time intervals.
- the map database 103 is a memory that stores 3D high-precision map information including position information of various facilities and specific points, and is configured to be accessible from the operation control device 100 .
- the map database 103 stores high-precision digital map information (high-precision map, dynamic map).
- the high-definition map information includes identification information of multiple lanes on the road.
- the map information in the map database 103 includes three-dimensional position information about roads and/or lane curves and their curve sizes (e.g., curvature or radius of curvature), junctions, junctions, and lane reduction locations. .
- the high-definition map information also includes information on facilities such as service areas/parking areas.
- the in-vehicle device 104 is various devices mounted in the vehicle, and operates by being operated by the driver.
- the in-vehicle device 104 includes a steering wheel 104a.
- the other vehicle-mounted devices 104 include accelerator pedals, brake pedals, navigation devices, direction indicators, wipers, lights, horns, other specific switches, and the like.
- the information is output to the operation control device 100 .
- the input device 105 is, for example, a device such as a button switch that allows manual input by the driver, a touch panel arranged on the display screen, or a microphone that allows input by the driver's voice.
- the user interface 106 outputs information in the form of images, characters, or sounds.
- User interface 106 is, for example, a display or a microphone. Also, one touch panel display may function as the input device 105 and the user interface 106 .
- the drive control device 107 controls the operation of the own vehicle 1 based on the control commands from the operation control device 100 .
- the drive control device 107 uses the autonomous speed control function to control the operation of the drive mechanism for adjusting the acceleration/deceleration and the vehicle speed (the operation of the internal combustion engine in the case of an engine vehicle, the operation of the driving motor in the case of an electric vehicle). (including torque distribution between the internal combustion engine and the traction motor in a hybrid vehicle) and brake operation.
- the drive control device 107 performs steering control of the own vehicle by controlling the operation of the steering actuator using the autonomous steering control function.
- the drive control device 107 detects the lane marker of the lane in which the vehicle is traveling, and controls the traveling position (lateral position) of the vehicle in the width direction so that the vehicle travels in the center of the lane in which the vehicle is traveling. . Further, the drive control device 107 controls overtaking of the preceding vehicle of the host vehicle, change of the traveling direction, and the like. Further, the drive control device 107 controls traveling to turn right or left at an intersection or the like. Other known methods can also be used as the travel control method by the drive control device 107 .
- the first driving assistance level is level 2 and the second driving assistance level is level 3.
- the relationship between the first driving assistance level and the second driving assistance level should be such that the second driving assistance level is relatively higher than the first driving assistance level.
- Each driving assistance level is not limited to level 2 and level 3.
- the processor 10 can set driving modes according to other driving assistance levels other than level 2 and level 3.
- the operation control device 100 has a processor 10 .
- the processor 10 functions as a ROM (Read Only Memory) that stores a program for controlling the operation of the own vehicle, a CPU (Central Processing Unit) that executes the program stored in the ROM, and an accessible storage device. and a RAM (Random Access Memory).
- ROM Read Only Memory
- CPU Central Processing Unit
- RAM Random Access Memory
- the operation circuit instead of or together with the CPU (Central Processing Unit), MPU (Micro Processing Unit), DSP (Digital Signal Processor), ASIC (Application Specific Integrated Circuit), FPGA (Field Programmable Gate Array), etc. can be used.
- the processor 10 includes an evaluation value calculation unit 11 , a transition request determination unit 12 , a transition condition setting unit 13 , an evaluation value determination unit 14 and a vehicle control unit 15 .
- the evaluation value calculation unit 11 , the transition request determination unit 12 , the transition condition setting unit 13 , the evaluation value determination unit 14 and the vehicle control unit 15 execute programs for realizing each function of the processor 10 .
- the operation control device 100 is mounted on the own vehicle 1, but the present invention is not limited to this, and the operation control device 100 may be a device that operates the own vehicle 1 remotely.
- the evaluation value calculation unit 11 calculates an evaluation value indicating the degree of satisfaction of the transition condition for the driving assistance level to transition from the first driving assistance level to the second driving assistance level higher than the first driving assistance level. calculate.
- the transition condition is, for example, that the own vehicle 1 is traveling at a speed equal to or lower than a predetermined set speed.
- the evaluation value calculation unit 11 calculates the evaluation value so that the evaluation value corresponding to the second vehicle speed lower than the first vehicle speed is higher than the evaluation value corresponding to the first vehicle speed. . That is, the evaluation value calculation unit 11 calculates and sets a higher evaluation value as the vehicle speed of the own vehicle 1 decreases.
- the transition condition may be, for example, that the host vehicle 1 is traveling behind the preceding vehicle 2.
- the evaluation value calculation unit 11 based on the inter-vehicle distance D between the host vehicle 1 and the preceding vehicle 2, calculates the first The evaluation value is calculated so that the evaluation value corresponding to the second inter-vehicle distance, which is shorter than the inter-vehicle distance, becomes higher. That is, the evaluation value calculation unit 11 calculates and sets a higher evaluation value as the inter-vehicle distance D between the own vehicle 1 and the preceding vehicle 2 is shorter.
- the evaluation value calculation unit 11 calculates a second elapsed time shorter than the first elapsed time than the evaluation value corresponding to the first elapsed time based on the elapsed time since the preceding vehicle 2 was detected.
- the evaluation value may be calculated so that the evaluation value corresponding to is high. That is, the evaluation value calculation unit 11 calculates a higher evaluation value because the shorter the elapsed time from the detection of the preceding vehicle 2, the less likely there is an obstacle on the route already traveled by the preceding vehicle 2. to set.
- the transition condition may be, for example, that there is a traffic jam around the vehicle 1.
- the evaluation value calculation unit 11 calculates the evaluation value so that the evaluation value when traffic congestion occurs is higher than the evaluation value when traffic congestion does not occur. Note that the evaluation value calculation unit 11 calculates the speed of the vehicle 1 based on the vehicle speed V2 of the preceding vehicle 2 and the vehicle speed of another vehicle (not shown) traveling in another lane L2 adjacent to the driving lane L1 of the vehicle 1. It is determined whether or not there is a traffic jam around.
- the transition condition may be, for example, that a predetermined time has passed since the vehicle 1 passed through the branch road.
- the evaluation value calculation unit 11 may calculate and set a higher evaluation value the longer the predetermined time after the vehicle 1 has passed through the branch road.
- the transition conditions for raising the driving support level are that the own vehicle 1 is traveling on a road where the use of high-precision map information is effective, the global positioning satellite system: GNSS (Global Navigation Satellite System) signal is valid, the driver is visually recognizing the front, and the vicinity of the current position (for example, within about 800m ahead) is a tollgate, an exit of a motorway, a confluence, an intersection, and a point where the number of lanes decreases. or that there is no sharp curve of 100R or less in the vicinity of the current position (for example, within about 500m ahead).
- GNSS Global Navigation Satellite System
- the evaluation value calculation unit 11 determines the degree of sufficiency of the condition for the driving assistance level to transition from the first driving assistance level to the second driving assistance level based on one or more of the conditions described above. Calculate the evaluation value shown. For example, the evaluation value calculation unit 11 may calculate the degree of satisfaction for each of the plurality of conditions described above, and sum the calculated degrees of satisfaction to calculate the evaluation value.
- the transition request determination unit 12 shown in FIG. 1 determines whether or not a transition request requesting transition of the driving assistance level from the first driving assistance level to the second driving assistance level is input to the input device 105. judge. Specifically, the transition request determination unit 12 determines whether or not the driving environment of the vehicle 1 satisfies a predetermined transition enabling condition, and if the driving environment of the vehicle 1 satisfies the transition enabling condition, A notification is output to the user interface 106 asking whether to increase the driving assistance level. Based on the notification output to the user interface 106, the occupant of the own vehicle 1 determines whether or not to approve the transition of the driving assistance level. Enter 105.
- the transition request is input by the occupant of the own vehicle 1 operating the touch panel of the input device 105 or pressing a predetermined button switch. Also, the occupant of the own vehicle 1 may voice-input the transition request to the microphone of the input device 105 .
- the transition enabling condition is a necessary condition for allowing the driving assistance level of the vehicle 1 to transition from the first driving assistance level to the second driving assistance level. Further, the transition enabling condition is also a condition for notifying the occupant of the own vehicle 1 that the driving assistance level can be transitioned from the first driving assistance level to the second driving assistance level.
- the conditions for enabling the transition are, for example, that the vehicle speed of the own vehicle 1 has decreased below a predetermined speed, that a preceding vehicle has been detected in front of the own vehicle 1, and that the distance between the own vehicle 1 and the preceding vehicle has become less than or equal to a predetermined distance. and that there is a traffic jam within a predetermined distance in front of the vehicle 1 on the scheduled travel route of the vehicle 1, or any one or more conditions.
- the transition condition setting unit 13 also sets a transition condition for transitioning the driving assistance level from the first driving assistance level to the second driving assistance level. Note that the transition condition is set stricter than the transition possible condition set by the transition request determination unit 12 .
- the transition condition setting section 13 also has an evaluation threshold setting section 13a.
- the evaluation threshold setting unit 13a sets an evaluation threshold that serves as a criterion for determining whether the driving assistance level transitions from the first driving assistance level to the second driving assistance level. That is, the evaluation threshold setting unit 13a sets a value corresponding to a transition condition for the driving assistance level to transition from the first driving assistance level to the second driving assistance level as the evaluation threshold.
- the evaluation threshold setting unit 13a selects a preset first evaluation threshold and a second evaluation threshold which are lower than the first evaluation threshold when the transition request is not input. A second evaluation threshold is selected and set as the evaluation threshold. That is, when the transition request is input, the evaluation threshold setting unit 13a sets the transition threshold for transitioning the driving assistance level from the first driving assistance level to the second driving assistance level more than when the transition request is not input. relax the conditions.
- the evaluation value determination unit 14 compares the evaluation value calculated by the evaluation value calculation unit 11 and the evaluation threshold set by the evaluation threshold setting unit 13a, and determines whether or not the evaluation value is higher than the evaluation threshold. do. Specifically, when the transition conditions are "the own vehicle 1 is running behind the preceding vehicle 2" and "the vehicle speed V1 of the own vehicle 1 is equal to or lower than the predetermined set speeds Vx1, Vx2". 3 and 4 show a comparison between the vehicle speed V1 and the set speeds Vx1 and Vx2. In the examples shown in FIGS. 3 and 4, the evaluation threshold value setting unit 13a sets the speed Vx1 (for example, 60 km/h) when the transition request is input, while the threshold value setting unit 13a sets the speed when the transition request is input.
- Vx1 for example, 60 km/h
- the set speed Vx2 (for example, 60 km/h) is set high. That is, the evaluation value determination unit 14 determines that the evaluation value is higher than the evaluation threshold when the vehicle speed V1 of the own vehicle 1 becomes equal to or lower than the set speeds Vx1 and Vx2 after timing T1 when the preceding vehicle 2 is detected.
- the evaluation value determination unit 14 determines whether or not the inter-vehicle distance D between the host vehicle 1 and the preceding vehicle 2 is equal to or less than a predetermined inter-vehicle distance. It may be determined that the value is higher than the evaluation threshold. Note that the evaluation threshold value setting unit 13a sets the inter-vehicle distance set when the transition request is input longer than the inter-vehicle distance set when the transition request is not input.
- the evaluation value determination unit 14 determines whether or not the elapsed time from the detection of the preceding vehicle 2 by the detection device 101 is longer than a predetermined set elapsed time, and if the elapsed time is longer than the set elapsed time, It may be determined that the evaluation value is higher than the evaluation threshold. Note that the evaluation threshold value setting unit 13a sets the set elapsed time when the transition request is input to be shorter than the set elapsed time when the transition request is not input.
- the evaluation value determination unit 14 may determine that the evaluation value is higher than the evaluation threshold on the condition that the other vehicle traveling in the adjacent lane L2 has a vehicle speed equal to or lower than a predetermined vehicle speed.
- the evaluation value determination unit 14 determines whether the vehicle speed of the preceding vehicle 2 traveling in the lane L1 is equal to or lower than a predetermined vehicle speed. may determine that the evaluation value is higher than the evaluation threshold.
- the evaluation value determination unit 14 determines whether or not the passage time after the vehicle 1 has passed through the branch road is longer than a predetermined set passage time. It may be determined that the value is higher than the evaluation threshold. Note that the evaluation threshold value setting unit 13a sets the set passage time to be shorter when the transition request is input than the set passage time when the transition request is not input.
- the processor 10 may set the transition condition according to whether or not the transition request is input, without setting the evaluation threshold. Alternatively, the processor 10 may determine whether the running environment of the host vehicle 1 satisfies the transition condition without calculating the evaluation value.
- the vehicle control unit 15 shown in FIG. 1 controls the own vehicle 1 at the first driving assistance level when the evaluation value determination unit 14 determines that the evaluation value is higher than the evaluation threshold value.
- the driving of the own vehicle 1 is controlled so that the driving assistance level transitions from the first driving assistance level to the second driving assistance level.
- the vehicle control unit 15 sets the driving assistance level to the first driving assistance level at the transition timing T11 when the vehicle speed V1 becomes equal to or lower than the set speed Vx1. A transition is made from the assistance level to the second driving assistance level. on the other hand.
- the vehicle control unit 15 changes the driving assistance level from the first driving assistance level to the second driving assistance level at the transition timing T21 when the vehicle speed V2 becomes equal to or lower than the set speed Vx2. Transition to the driving assistance level.
- the transition timing T21 when the transition request is input is earlier than the transition timing T11 when the transition request is not input. Further, as shown in FIG.
- the vehicle control unit 15 maintains the set speed at the speed Vx2 until the predetermined time Ta has passed since the transition request was input. That is, the vehicle control unit 15 maintains the evaluation threshold at the first evaluation threshold when the transition request is input until the predetermined time Ta elapses after the transition request is input. As a result, when the transition request is input, until the predetermined time Ta elapses, the driving assistance level is lowered to the first driving assistance level and then again to the second driving assistance level. Also at timing T22, the set speed is maintained at speed Vx2.
- the vehicle control unit 15 transitions the driving assistance level from the first driving assistance level to the second driving assistance level after a predetermined transition time Tb has elapsed since the evaluation value became a value higher than the evaluation threshold.
- the vehicle control unit 15 controls the second transition time Tb2 (see FIG. 4) when the transition request is input so that the second transition time Tb2 (see FIG. 4) is shorter than the first transition time Tb1 (see FIG. 3) when the transition request is not input. set to That is, when the transition request is input, the vehicle control unit 15 quickly transitions the driving assistance level from the first driving assistance level to the second driving assistance level.
- step S1 the processor 10 determines whether or not the driving of the host vehicle 1 is being controlled at the first driving assistance level. If the driving assistance level is the second driving assistance level, processor 10 ends the process.
- step S2 the processor 10 determines the degree of satisfaction of the transition condition for the driving assistance level to transition from the first driving assistance level to the second driving assistance level. Calculates an evaluation value indicating
- step S3 the processor 10 determines whether or not a transition request has been input to the input device 105. If no transition request has been input, processor 10 selects and sets the first evaluation threshold as the evaluation threshold in step S4. On the other hand, when the transition request is input, in step S5, the processor 10 selects and sets the second evaluation threshold lower than the first evaluation threshold as the evaluation threshold. That is, when a transition request is input, processor 10 relaxes transition conditions compared to when no transition request is input.
- step S6 the processor 10 determines whether the evaluation value is higher than the evaluation threshold set in step S4 or S5. If the evaluation value is higher than the evaluation threshold, in step S7 the processor 10 raises the driving assistance level to change from the first driving assistance level to the second driving assistance level. On the other hand, if the evaluation value is equal to or less than the evaluation threshold, processor 10 maintains the driving assistance level at the first driving assistance level in step S8.
- the processor 10 of the driving control device 100 in the present embodiment determines whether or not a transition request requesting that the driving assistance level transition from the first driving assistance level to the second driving assistance level has been input. do.
- the processor 10 relaxes the transition conditions for transitioning the driving assistance level from the first driving assistance level to the second driving assistance level.
- the driving control device 100 can facilitate raising the driving assistance level when a transition request to raise the driving assistance level of the own vehicle 1 is input. Therefore, in response to a passenger's request to raise the driving assistance level from the first driving assistance level to the second driving assistance level, the driving control device 100 changes the driving assistance level to the first driving assistance level as shown in FIG.
- the transition timing T21 at which the driving assistance level transitions to the second driving assistance level can be advanced. Further, as shown in FIG. 4, when a transition request is input, the transition condition for raising the driving assistance level is relaxed, so the driving assistance level is lower than when the transition request is not input as shown in FIG. is switched less frequently, making it easier for the occupant of the own vehicle 1 to grasp the timing at which the driving support level switches.
- the processor 10 of the operation control device 100 calculates an evaluation value indicating the degree of satisfaction of the transition condition.
- the operation control device 100 selects the second evaluation threshold lower than the first evaluation threshold when the transition request is not input as the evaluation threshold. Then, when the evaluation value is higher than the evaluation threshold and the own vehicle 1 is controlled at the first driving assistance level, the driving control device 100 changes the driving assistance level from the first driving assistance level to the first driving assistance level. The driving of the own vehicle 1 is controlled so as to transition to the driving assistance level of 2.
- the operation control device 100 sets the evaluation threshold so that the second evaluation threshold when the transition request is input is lower than the first evaluation threshold when the transition request is not input.
- the transition condition when the request is input can be relaxed more than the transition condition when the transition request is not input. Further, the driving control device 100 can determine whether to increase the driving assistance level based on the comparison between the specific evaluation value and the evaluation threshold.
- the processor 10 of the operation control device 100 maintains the evaluation threshold at the second evaluation threshold until the predetermined time Ta has passed since the transition request was input. As a result, even if the driving assistance level returns from the second driving assistance level to the first driving assistance level for the predetermined time Ta after the transition request is input, the driving control device 100 will not change to the second driving assistance level. , the driving assistance level can be changed again from the first driving assistance level to the second driving assistance level.
- the processor 10 of the driving control device 100 sets a transition time Tb from when the evaluation value becomes higher than the evaluation threshold to when the driving assistance level transitions from the first driving assistance level to the second driving assistance level.
- the second transition time Tb2 when the transition request is input is set to be shorter than the first transition time Tb1 when the transition request is not input.
- the driving control device 100 changes the driving support level in response to the driver's request to raise the driving support level from the first driving support level to the second driving support level.
- the transition time can be shortened.
- the processor 10 of the operation control device 100 makes the evaluation value corresponding to the second vehicle speed lower than the first vehicle speed higher than the evaluation value corresponding to the first vehicle speed of the own vehicle 1. Calculate the evaluation value as follows. As a result, the lower the vehicle speed V1 of the host vehicle 1, the easier it is for the driving control device 100 to raise the driving assistance level from the first driving assistance level to the second driving assistance level.
- the processor 10 of the operation control device 100 calculates a second distance shorter than the first distance between the vehicles than the evaluation value according to the first distance between the vehicles, based on the distance D between the host vehicle 1 and the preceding vehicle 2 .
- the evaluation value may be calculated so that the evaluation value corresponding to the vehicle-to-vehicle distance is high.
- the operation control device 100 makes it easier for the own vehicle 1 to travel behind the preceding vehicle 2 as the inter-vehicle distance D between the own vehicle 1 and the preceding vehicle 2 decreases, and Since the possibility that an obstacle exists between them is low, the driving assistance level can be easily increased from the first driving assistance level to the second driving assistance level.
- the processor 10 of the operation control device 100 determines the first distance from the first inter-vehicle distance rather than the evaluation value according to the first inter-vehicle distance based on the elapsed time from the detection of the preceding vehicle 2 in front of the own vehicle 1.
- the evaluation value may be calculated so that the evaluation value corresponding to the second inter-vehicle distance, which is shorter than the inter-vehicle distance, becomes higher.
- the processor 10 of the operation control device 100 determines whether or not there is traffic congestion around the vehicle 1, and the evaluation value when there is traffic congestion is the evaluation value when there is no traffic congestion. You may calculate an evaluation value so that it may become higher than a value. As a result, the operation control device 100 drives behind the preceding vehicle 2 while following the preceding vehicle 2 when there is a traffic jam around the own vehicle 1, compared to when there is no traffic jam. Therefore, the driving assistance level can be easily increased from the first driving assistance level to the second driving assistance level.
- the processor 10 of the operation control device 100 permits the vehicle 1 to travel while the driver releases the steering wheel of the vehicle 1 when the operation of the vehicle 1 is controlled at the second driving assistance level.
- the operation of the own vehicle 1 is controlled by the hands-off mode.
- the operation control device 100 controls the operation of the own vehicle 1 in the hands-off mode when the operation of the own vehicle 1 is controlled at the second driving assistance level, thereby reducing the driving burden on the driver. be able to.
- the processor 10 of the driving control device 100 operates in an eyes-off mode in which the driver permits the vehicle 1 to travel while the driver is not visually recognizing the front when the vehicle 1 is being controlled at the second driving assistance level. to control the operation of the own vehicle 1 .
- the driving control device 100 controls the driving of the own vehicle 1 in the eyes-off mode when controlling the driving of the own vehicle 1 at the second driving assistance level, thereby reducing the driver's driving burden. be able to.
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Abstract
Description
図1は、自車両1及び自車両1の自律運転を制御する運転制御装置100の構成を示すブロック図である。自車両1は、運転制御装置100、検出装置101、自車両位置取得部102、地図データベース103、車載機器104、入力装置105、ユーザインターフェース106及び駆動制御装置107を備える。
なお、「ドライバがステアリングホイール14aを持っていること」には、ドライバがステアリングホイール14aをしっかりと握っている状態のみならず、ドライバがステアリングホイール14aに軽く手を添えている状態も含まれる。
ここで、「自車両1が先行車両2の後方を走行する」には、自車両1が先行車両2に追従して走行していることのみならず、自車両1が先行車両2に追従せずに、先行車両2が既に走行した走行経路上を、先行車両2の後方から走行することも含まれる。これにより、運転制御装置100は、先行車両2が既に走行した走行経路上、すなわち、自車両1の前方に障害物が存在しないことを確認して、自車両1の運転を制御することができる。また、「自車両1が先行車両2に追従して走行する」とは、運転制御装置100が、先行車両2の動きに連動させるように自車両1の運転を制御し、かつ、自車両1と先行車両2とが一定の間隔を保つように自車両1の車速V1を制御した状態で、自車両1が走行することである。
なお、以下の説明において、第1の運転支援レベルはレベル2とし、第2の運転支援レベルはレベル3とする。なお、第1の運転支援レベルと第2の運転支援レベルとの関係は、第2の運転支援レベルが第1の運転支援レベルよりも相対的に高ければよい。各々の運転支援レベルは、レベル2及びレベル3に限定されない。また、プロセッサ10は、レベル2及びレベル3以外にも、他の運転支援レベルに応じた運転モードを設定することができる。
なお、図1において、運転制御装置100は自車両1に搭載されているが、これに限定されず、運転制御装置100は、自車両1を遠隔で操作する装置であってもよい。
図5に示すように、ステップS1において、プロセッサ10は、第1の運転支援レベルで自車両1の運転を制御しているか否かを判定する。運転支援レベルが第2の運転支援レベルである場合は、プロセッサ10は、処理を終了する。
2…先行車両
100…運転制御装置
10…プロセッサ
11…評価値算出部
12…遷移要求判定部
13…遷移条件設定部
15…車両制御部
Claims (11)
- プロセッサを用いて、所定の運転支援レベルで自車両の運転を制御する運転制御方法であって、
前記プロセッサは、
前記運転支援レベルが、第1の運転支援レベルから、前記第1の運転支援レベルよりも高い第2の運転支援レベルに遷移することを要求する遷移要求が入力されたか否かを判定し、
前記遷移要求が入力された場合は、前記運転支援レベルが前記第1の運転支援レベルから前記第2の運転支援レベルに遷移するための遷移条件を緩和する、運転制御方法。 - 前記プロセッサは、
前記遷移条件の充足度を示す評価値を算出し、
前記遷移要求が入力された場合は、前記遷移要求が入力されない場合の第1の評価閾値よりも低い第2の評価閾値を評価閾値として選択し、
前記評価値が前記評価閾値より高い場合であって、前記自車両を前記第1の運転支援レベルで制御している場合は、前記運転支援レベルが前記第1の運転支援レベルから前記第2の運転支援レベルに遷移するように前記自車両の運転を制御する、請求項1に記載の運転制御方法。 - 前記プロセッサは、
前記遷移要求が入力されてから所定時間が経過するまでは、前記評価閾値を前記第2の評価閾値に維持する、請求項2に記載の運転制御方法。 - 前記プロセッサは、前記評価値が前記評価閾値より高い値となってから、前記運転支援レベルが前記第1の運転支援レベルから前記第2の運転支援レベルに遷移するまでの遷移時間を、前記遷移要求が入力されない場合の第1の遷移時間よりも、前記遷移要求が入力された場合の第2の遷移時間が短くなるように設定する、請求項2又は3に記載の運転制御方法。
- 前記プロセッサは、前記自車両の第1の車速に応じた前記評価値よりも、前記第1の車速よりも低い前記自車両の第2の車速に応じた前記評価値が高くなるように、前記評価値を算出する、請求項2~4のいずれか一項に記載の運転制御方法。
- 前記プロセッサは、前記自車両と前記自車両の前方を走行する先行車両との車間距離に基づいて、第1の車間距離に応じた前記評価値よりも、前記第1の車間距離よりも短い第2の車間距離に応じた前記評価値が高くなるように、前記評価値を算出する、請求項2~4のいずれか一項に記載の運転制御方法。
- 前記プロセッサは、前記自車両の前方を走行する先行車両が検出された場合は、前記先行車両が検出されてからの経過時間に基づいて、第1の経過時間に応じた前記評価値よりも、前記第1の経過時間よりも短い第2の経過時間に応じた前記評価値が高くなるように、前記評価値を算出する、請求項2~4のいずれか一項に記載の運転制御方法。
- 前記プロセッサは、
前記自車両の周囲に渋滞が発生しているか否かを判定し、
渋滞が発生している場合の前記評価値は、渋滞が発生していない場合の前記評価値よりも高くなるように、前記評価値を算出する、請求項2~4のいずれか一項に記載の運転制御方法。 - 前記プロセッサは、前記自車両の運転を前記第2の運転支援レベルで制御しているときは、ドライバが前記自車両のステアリングから手を放した状態において前記自車両の走行を許可するハンズオフモードにより、前記自車両の運転を制御する、請求項1~7のいずれか一項に記載の運転制御方法。
- 前記プロセッサは、前記自車両の運転を前記第2の運転支援レベルで制御しているときは、ドライバが前方を視認していない状態において前記自車両の走行を許可するアイズオフモードにより、前記自車両の運転を制御する、請求項1~8のいずれか一項に記載の運転制御方法。
- プロセッサを用いて、所定の運転支援レベルで自車両の自律運転を制御する運転制御装置であって、
前記運転支援レベルが、第1の運転支援レベルから、前記第1の運転支援レベルよりも高い第2の運転支援レベルに遷移することを要求する遷移要求が入力されたか否かを判定する遷移要求判定部と、
前記遷移要求が入力された場合は、前記運転支援レベルが前記第1の運転支援レベルから前記第2の運転支援レベルに遷移するための遷移条件を緩和する遷移条件設定部とを備える、運転制御装置。
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