JP2016085326A - Vehicle driving simulation device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a vehicle driving simulation device capable of determining an occurrence in which, an accident may occur.SOLUTION: A vehicle driving simulation device comprises: an operation input part 14 for inputting an operation of a driver; a calculation part 11 for, based on the input operation amount, calculating motion of the vehicle which a driver drives with simulation, creating a landscape which is visible from a driver seat, and calculating motion of a moving object which moves in the landscape; and a display part 13 for displaying the moving object whose motion is calculated by the calculation part 11, and the landscape which is created by the calculation part 11. The calculation part 11 divides relative distance between a position of the moving object which moves in the landscape and a position of the vehicle which the driver drives with simulation, by relative speed determined based on the speed of the moving object and vehicle speed, thereby determines collision prediction time, and when the collision prediction time is equal to or less than a predetermined threshold, it is determined that it is a dangerous state, or, when the operation amount inputted from the operation input part 14 exceeds a permitted operation range, it is determined that it is a dangerous state.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a vehicle driving simulation device.

  2. Description of the Related Art Conventionally, a vehicle driving simulation device that simulates driving and traveling has been used for education / training and research of driving and traveling of a vehicle such as an automobile.

  The vehicle driving simulation device includes a driver's seat on which a driver is seated, an operation input unit such as a steering wheel, an accelerator pedal, and a brake pedal operated by the driver, and a display unit that displays a landscape that can be seen from the driver's seat.

  The driver sits on the driver's seat and operates a steering wheel, an accelerator pedal, a brake pedal, and the like disposed on the driver's seat.

  The vehicle driving simulation device calculates the movement of the vehicle that the driver drives in a simulated manner based on the operation of the driver, and generates a landscape that can be seen from the driver's seat. Further, the vehicle driving simulation device calculates the motion of a moving object such as a person or other vehicle moving in the landscape. The vehicle driving simulation device displays the generated landscape and moving object on the display unit.

  The landscape displayed on the display unit is generated based on simulated driving scenario data. The driver drives the vehicle while looking at the scenery and moving objects displayed on the display unit.

  The vehicle driving simulation device is used, for example, in a driving class or a training class for an automobile.

  In a driver's class or training, etc., education and training for actually preventing an accident are performed by having the driver experience a situation in which a traffic accident is likely to occur.

  The vehicle driving simulation device determines that an accident has occurred when an accident occurs that contacts a vehicle such as an automobile driven by the driver and a person or another vehicle. The training instructor uses the vehicle driving simulation device to reproduce the situation where the accident occurred on the display unit and reproduce the operation performed by the driver to prevent the accident and the reason for the accident. Means can be educated to the driver.

JP 2010-117668 A

  On the other hand, in the driving of a vehicle, although an accident that contacts a person or another vehicle has not occurred, there may be a situation where the person or the vehicle is likely to be contacted. This situation is called the driver's hi-hat experience.

  In the hi-hat experience, there is no contact between the vehicle operated by the driver and a person or other vehicle in the landscape, so the vehicle driving simulation device does not determine an accident.

  The reason why the driver's hi-hat experience has occurred is that the driver's operation of the vehicle may include improvements, but the vehicle driving simulator can recognize that the hi-hat experience has occurred. There wasn't.

  Therefore, an object of the present specification is to provide a vehicle driving simulation device that can determine a situation where an accident is likely to occur, that is, the occurrence of a driver's hi-hat experience.

  According to the vehicle driving simulation device disclosed in the present specification, an operation input unit that inputs a driver's operation, and a motion of the vehicle that the driver drives in a simulated manner based on the operation amount input from the operation input unit. And a calculation unit that generates a landscape that can be seen from the driver's seat where the driver is located and calculates a motion of a moving object that moves in the landscape, and a landscape generated by the calculation unit And a display unit that displays a moving object whose motion is calculated by the calculation unit, and the calculation unit includes a position of the moving object that moves in the landscape and a position of the vehicle that the driver drives in a simulated manner. The collision prediction time is obtained by dividing the relative distance between the two by the relative speed obtained based on the speed of the moving object and the speed of the vehicle. Judge that there is, or above The operation amount inputted from the operation input unit, when it exceeds the allowable operation range, it is determined that in the above risk.

  According to the vehicle driving simulation device disclosed in the present specification described above, it is possible to determine the situation where an accident is likely to occur, that is, the occurrence of a so-called driver's hi-hat experience.

It is a figure showing one embodiment of a vehicle operation simulation device indicated to this specification. It is a figure which shows an apparatus main body. It is a figure explaining collision prediction time. It is FIG. (1) explaining a dangerous state. It is FIG. (2) explaining a dangerous state. It is FIG. (The 3) explaining a dangerous state. It is FIG. (4) explaining a dangerous state. It is a flowchart explaining operation | movement of a vehicle driving simulation apparatus.

  Hereinafter, a preferred embodiment of a vehicle driving simulation device disclosed in the present specification will be described with reference to the drawings. However, the technical scope of the present invention is not limited to these embodiments, but extends to the invention described in the claims and equivalents thereof.

  FIG. 1 is a diagram illustrating an embodiment of a vehicle driving simulation device disclosed in this specification. FIG. 2 is a diagram illustrating the apparatus main body.

  The vehicle driving simulation device 1 according to the present embodiment includes a driver seat 2 on which a driver is seated, a device main body 10, and a monitoring device 20 that monitors the operation of the device main body 10. In the present embodiment, the vehicle that the driver drives in a simulated manner is an automobile.

  The apparatus main body 10 includes a calculation unit 11, a storage unit 12, a display unit 13, an operation input unit 14, and a communication unit 15.

  The operation input unit 14 inputs a driver's operation. The operation input unit 14 includes operation input means such as a steering wheel 14a, an accelerator pedal 14b, and a brake pedal 14c. The driver changes the traveling direction of the vehicle by operating the steering wheel 14a, accelerates the vehicle by operating the accelerator pedal 14b with the foot, and operates the brake pedal 14c with the foot. To slow down.

  The calculation unit 11 performs each process of the vehicle driving simulation device by executing a predetermined program stored in the storage unit 12. The calculation unit 11 controls operations of the storage unit 12, the display unit 13, the operation input unit 14, and the communication unit 15.

  Specifically, based on the operation amount input from the operation input unit 14, the calculation unit 11 calculates a simulated motion of the vehicle that the driver drives in a simulated manner. Moreover, the calculating part 11 produces | generates the image data of the scenery which can be seen from the driver's seat 2 where a driver | operator is located. Further, the calculation unit 11 calculates the motion of the moving object that moves in the landscape.

  The storage unit 12 stores a predetermined program for executing a simulated operation and scenario data of the simulated operation. The scenario data includes road data including information on a road on which the vehicle travels in simulated driving and landscape data including information for generating a landscape used in the simulated driving.

  A plurality of midway start positions are set in the scenario data, and it is possible to start a simulated operation not from the beginning of the scenario but from each midway start position.

  The road data is associated with a plurality of dangerous areas for facilitating the occurrence of an accident, that is, a driver's hi-hat experience. When a vehicle driven by a driver enters a dangerous area, a moving object such as a person or another vehicle is generated in the landscape. By causing a moving object to appear in the landscape in the dangerous area, it is possible to generate a dangerous state while reproducing a natural driving environment.

  The storage unit 12 stores the vehicle motion data of the vehicle motion and the moving object motion data of the motion of the moving object calculated by the calculation unit 11.

  The display unit 13 displays a landscape based on the landscape image data generated by the calculation unit 11. The display unit 13 displays the moving object whose motion has been calculated by the calculation unit 11.

  The communication unit 15 is controlled by the calculation unit 11 and performs communication with the monitoring device 20. Further, the apparatus body 10 can communicate with an external network (not shown) via the communication unit 15.

  The monitoring device 20 monitors the operation of the device body 10. The apparatus body 10 outputs operation amount data and the like input from the operation input unit to the monitoring apparatus 20. In addition, when an accident occurs in the simulated driving of the driver, the apparatus main body 10 outputs a signal indicating the occurrence of the accident to the monitoring apparatus 20. The monitoring device 20 includes a display unit 20a, and information input from the device main body 10 is displayed on the display unit 20a. A leader who operates the monitoring device 20 can monitor the driving situation of the driver using the monitoring device 20. A plurality of device main bodies 10 may be connected to the monitoring device 20 so as to be communicable.

  The vehicle driving simulation apparatus 1 according to the present embodiment determines a situation where an accident is likely to occur during driving by the driver, that is, occurrence of a so-called driver's hi-hat experience.

  The vehicle driving simulation device 1 has two criteria for determining occurrence of a driver's hi-hat experience.

  In the first standard, as shown in FIG. 3, the calculation unit 11 calculates the relative distance L between the position of the moving object that moves in the landscape and the position of the vehicle that the driver drives in a simulated manner, The collision prediction time is obtained by dividing by the relative speed (V1f + V2f) obtained based on the speed V2 of the moving object and the speed V1 of the vehicle that the driver drives in a simulated manner, and the collision prediction time is less than a predetermined threshold value. In some cases, it is determined that the state is in danger.

  FIG. 3 shows a situation in which the vehicle 30 that the driver drives in a simulated manner and a person 31 as a moving object are likely to collide.

  The vehicle 30 is moving forward at a speed V1, and the person 31 is moving at a speed V2 in the traveling direction of the vehicle 30. The length of the straight line A connecting the person 31 and the vehicle 30 is the relative distance L. A component obtained by projecting the speed V1 of the vehicle 30 onto the straight line A is a speed component V1f, and a component obtained by projecting the speed V2 of the person 31 onto the straight line A is a speed component V2f. The relative speed is the sum of the speed component V1f and the speed component V2f.

  The predetermined threshold can be appropriately set according to the purpose and the like. For example, the predetermined threshold can be set to 3 seconds.

  The above is the description of the first standard.

  According to the second criterion, the calculation unit 11 determines that the state is in a dangerous state when the operation amount input from the operation input unit 14 exceeds the allowable operation range. Specifically, the operation amounts input from the operation input unit 14 are the operation amount of the steering wheel 14a, the operation amount of the accelerator pedal 14b, and the operation amount of the brake pedal 14c.

  The allowable operation range is set for each operation means included in the operation input unit 14. The allowable operation range is set in association with road data for each position of the vehicle that the driver drives in a simulated manner.

  The above is the description of the second standard.

  Next, a specific dangerous state will be described below with reference to the drawings.

  FIG. 4 shows a situation in which a person 31 has jumped out ahead of a vehicle (hereinafter also referred to as the own vehicle) that the driver drives in a simulated manner at a T-shaped intersection.

  The vehicle driving simulation device 1 obtains a predicted collision time between the person 31 and the own vehicle, and determines that it is in a dangerous state when the predicted collision time is equal to or less than a predetermined threshold. This is because when the collision prediction time is equal to or less than a predetermined threshold, the person 31 and the own vehicle may come into contact with each other and an accident may occur.

  Further, the vehicle driving simulation device 1 determines that the vehicle is in a dangerous state when the operation amount of the steering wheel 14a exceeds the allowable operation range. When the driver is surprised at the appearance of the person 31 and operates the steering wheel 14a greatly and the amount of operation exceeds the allowable operation range, the vehicle whose direction of travel has been changed becomes a wall next to the road or the like. This is because an accident may occur due to contact.

  The vehicle driving simulation device 1 determines that the vehicle is in a dangerous state when the operation amount of the accelerator pedal 14b exceeds the allowable operation range. When the driver is surprised at the appearance of the person 31 and operates the accelerator pedal 14b greatly and the operation amount is larger than the allowable operation range, the accelerated own vehicle contacts the person 31 and an accident occurs. It is because there is a possibility of generating.

  Furthermore, the vehicle driving simulation device 1 determines that the vehicle is in a dangerous state when the operation amount of the brake pedal 14c exceeds the allowable operation range. When the driver is surprised at the appearance of the person 31 and is not operated by removing his / her foot from the brake pedal 14c, if the operation amount is small beyond the allowable operation range, the own vehicle not decelerating is This may cause an accident due to contact with

  FIG. 5 shows a situation in which the scooter 32 has jumped out ahead of the host vehicle that the driver drives in a simulated manner at a T-shaped intersection.

  The vehicle driving simulation apparatus 1 determines whether the vehicle is in a dangerous state based on the predicted collision time and the operation amount input from the operation input unit 14 in the same manner as when a person jumps out.

  FIG. 6 shows a situation in which the distance from another vehicle traveling in front of the traveling lane in which the host vehicle is traveling is approaching. In the danger area, a moving object such as a person or other vehicle is generated in the landscape, and a sign such as temporary stop or slowing is generated so that the speed of the own vehicle or other vehicle suddenly changes. Has been made. Due to the failure to comply with the instructions of these signs, the distance between other vehicles traveling in front of the traveling lane on which the vehicle travels may approach suddenly.

  The vehicle driving simulation device 1 obtains a predicted collision time between another vehicle 33 and the host vehicle, and determines that the vehicle is in a dangerous state when the predicted collision time is equal to or less than a predetermined threshold. This is because, when the predicted collision time is less than or equal to a predetermined threshold, another vehicle 33 and the host vehicle may come into contact with each other and an accident may occur.

  Further, the vehicle driving simulation device 1 determines that the vehicle is in a dangerous state when the operation amount of the steering wheel 14a exceeds the allowable operation range. If the driver is surprised that the other vehicle 33 has suddenly approached and the steering wheel 14a is operated to a large extent and the amount of operation exceeds the allowable operation range, the vehicle whose direction of travel has been changed is This is because an accident may occur due to contact with a wall beside the road.

  The vehicle driving simulation device 1 determines that the vehicle is in a dangerous state when the operation amount of the accelerator pedal 14b exceeds the allowable operation range. When the driver is surprised that the other vehicle 33 has suddenly approached and operates the accelerator pedal 14b greatly, and the amount of operation exceeds the allowable operation range, the accelerated vehicle is This is because an accident may occur due to contact with the vehicle 33.

  Furthermore, the vehicle driving simulation device 1 determines that the vehicle is in a dangerous state when the operation amount of the brake pedal 14c exceeds the allowable operation range. If the driver was surprised that another vehicle 33 approached suddenly and was not operated by taking his foot off the brake pedal 14c, the driver would not decelerate if the amount of operation exceeds the allowable operation range. This is because the own vehicle may come into contact with another vehicle 33 to cause an accident.

  FIG. 7 shows a situation in which another vehicle travels from the front in the opposite lane facing the travel lane on which the host vehicle travels and approaches the host vehicle.

  The vehicle driving simulation device 1 is based on the collision prediction time and the operation amount input from the operation input unit 14 in the same manner as when the distance between the vehicle and another vehicle traveling in front of the traveling lane in which the vehicle travels is approaching. To determine if it is in danger.

  Next, the operation of the vehicle driving simulation device described above will be described below with reference to a flowchart.

  First, in step S10, when the position of the host vehicle enters the danger area, the vehicle driving simulation apparatus 1 displays a moving object on the display unit 13 and makes it appear in the landscape.

  Next, in step S12, the vehicle driving simulation device 1 determines whether or not the vehicle is in a dangerous state based on the two criteria described above. If it is determined that it is in a dangerous state, the process proceeds to step S14. On the other hand, if it is not determined that there is a dangerous state, the process proceeds to step S16.

  When it progresses to step S14, the vehicle driving simulation apparatus 1 displays the screen of the display part 13 in yellow, and makes a driver | operator recognize that the dangerous state generate | occur | produced. In addition, the apparatus main body 10 outputs a signal indicating that a dangerous state has occurred to the monitoring apparatus 20. Other information may be output to the display unit as long as the driver can recognize that a dangerous state has occurred.

  When the process proceeds to step S16, the vehicle driving simulation apparatus 1 determines whether an accident has occurred. The determination of the occurrence of the accident is made based on whether the own vehicle and a moving object are in contact with each other, or whether the own vehicle is in contact with a stationary object such as a wall. In step S14, after a dangerous state occurs, an accident may occur if the driver does not perform an operation to avoid the dangerous state. In step S14, even if it is not determined that the vehicle is in a dangerous state, if a large operation amount is input from the operation input unit during the calculation interval of each step of the simulated driving, an accident occurs. May occur.

  If it is determined that an accident has occurred, the process proceeds to step S18. On the other hand, if it is not determined that an accident has occurred, the process proceeds to step S12. When it progresses to step S12, the process of step S12-step S16 is repeated while the own vehicle is located in a danger area.

  When it progresses to step S18, the vehicle driving simulation apparatus 1 displays a screen of the display part 13 in red, and makes a driver recognize that the accident has occurred. In addition, the apparatus main body 10 outputs a signal indicating that an accident has occurred to the monitoring apparatus 20. Then, the apparatus main body 10 ends the simulated operation.

  When a dangerous state occurs, in step S14, the screen of the display unit 13 is displayed in yellow to make the driver recognize that the dangerous state has occurred, and then the simulated driving is terminated. You may do it.

  The vehicle driving simulation device 1 has a function of reproducing a landscape when the dangerous state occurs on the display unit when the dangerous state occurs.

  Specifically, the calculation unit 11 calculates the scenery when the dangerous state occurs based on the vehicle movement data and the moving object movement data stored in the storage unit 12 including the state determined to be in the dangerous state. The image and the moving object are reproduced and displayed on the display unit 13. The calculation unit 11 generates landscape image data based on the vehicle position, road data, and landscape data included in the vehicle motion data.

  As a result, the driver can understand the reason why the dangerous state has occurred by looking at the movement of the moving object and the operation of the steering wheel 14a, the accelerator pedal 14b, the brake pedal 14c, etc. It is possible to consider an operation for avoiding the occurrence of this.

  Further, the vehicle driving simulation apparatus 1 calculates the motion of the vehicle, generates the image data of the landscape, and generates the moving object from the midway start position immediately before the time when it is determined that the dangerous state occurs when the dangerous state occurs. It is possible to start the calculation of the movement and allow the driver to re-experience the situation determined to be in a dangerous state. The driver can practice the operation for the operation for avoiding the occurrence of the dangerous state.

  Similarly, the vehicle driving simulation device 1 has a function of reproducing a landscape when an accident occurs on the display unit when an accident occurs. In addition, the vehicle driving simulation apparatus 1 starts the calculation of vehicle motion, generation of landscape image data, and calculation of motion of a moving object from the midway start position immediately before determining that an accident has occurred. It is possible to let the driver re-experience the situation where it is determined that the problem has occurred.

  According to the vehicle driving simulation apparatus 1 of the present embodiment described above, it is possible to determine the situation where an accident is likely to occur, that is, the occurrence of a so-called driver's hi-hat experience.

  Moreover, the following effects are produced, for example, by performing a class for the driver using the vehicle driving simulation apparatus 1 of the present embodiment.

  When driving a vehicle, an accident that comes into contact with a person or another vehicle has not occurred, but a situation may occur where contact with the person or the vehicle is likely to occur. As a reason why such a driver's hi-hat experience occurs, the driver's operation of the vehicle may include improvements. In the conventional vehicle driving simulation device, if an accident does not occur, the driver's hi-hat experience could not be recognized, but according to the vehicle driving simulation device 1 of the present embodiment, The driver's ability to operate the vehicle can be improved by judging the occurrence of the driver's hi-hat experience.

  Further, in the driver training using the vehicle driving simulation device, the driver has a tendency to operate the vehicle more carefully than usual, and therefore, it may be considered that the driver does not perform driving that causes an accident. For example, there may be a case where no one accident occurs in a course for a plurality of lecturers. In such a state, it is difficult to find and educate improvement points in the driver's operation of the vehicle and improve the operation ability.

  In the vehicle driving simulation apparatus 1 of the present embodiment, even when the driver is driving carefully, simulated driving scenario data including a situation in which contact with a person in the landscape or another vehicle is likely to occur is generated. It is possible to create. According to the vehicle driving simulation device 1, when the driver generates a hi-hat experience, the driver's ability to operate the vehicle can be improved by reproducing or re-experiencing the situation.

  In the present invention, the vehicle driving simulation device of the above-described embodiment can be appropriately changed without departing from the gist of the present invention. In addition, the configuration requirements of one embodiment can be applied to other embodiments as appropriate.

  In the present specification, the vehicle is meant to include railway vehicles such as automobiles, motorbikes, light vehicles and trolley buses, trains, trains, and trains, and military vehicles such as tanks, armored vehicles, and self-propelled artillery.

DESCRIPTION OF SYMBOLS 1 Vehicle driving | operation simulation apparatus 2 Driver's seat 10 Apparatus main body 11 Calculation part 12 Storage part 13 Display part 14 Operation input part 14a Steering 14b Accelerator pedal 15 Communication part 20 Monitoring apparatus 20a Display part 30 Vehicle 31 Person 32 Scooter 33 Vehicle 34 Vehicle

Claims (8)

An operation input unit for inputting a driver's operation;
Based on the operation amount input from the operation input unit, the movement of the vehicle that the driver drives in a simulated manner is calculated, and a landscape that can be seen from the driver's seat where the driver is located is generated. An arithmetic unit for calculating the motion of a moving object moving in
A display unit for displaying a landscape generated by the calculation unit and a moving object whose motion is calculated by the calculation unit;
With
The computing unit is
By dividing the relative distance between the position of the moving object moving in the landscape and the position of the vehicle that the driver simulates by the relative speed obtained based on the speed of the moving object and the speed of the vehicle. A collision prediction time is obtained, and when the collision prediction time is equal to or less than a predetermined threshold value, it is determined that there is a dangerous state, or when the operation amount input from the operation input unit exceeds an allowable operation range. A vehicle driving simulation device that determines that the vehicle is in the dangerous state. A storage unit for storing the vehicle motion data of the vehicle motion calculated by the arithmetic unit and the moving object motion data of the motion of the moving object;
When it is determined that the dangerous state is present, the calculation unit reproduces the landscape and the moving object when the dangerous state occurs based on the vehicle motion data and the moving object motion data stored in the storage unit. The vehicle driving simulation device according to claim 1, wherein the vehicle driving simulation device is displayed on the display unit. The computing unit is
Based on the scenario data, the landscape is generated,
In the scenario data, a plurality of midway start positions are set,
The computing unit is
From the midway start position immediately before the time when it is determined that the vehicle is in the dangerous state, the calculation of the motion of the vehicle and the generation of the landscape and the calculation of the motion of the moving object are started, and the situation determined to be in the dangerous state The vehicle driving simulation device according to claim 1, wherein the vehicle driving simulation device can be re-experienced by a driver. The computing unit is
The vehicle driving simulation device according to any one of claims 1 to 3, wherein when it is determined that the vehicle is in a dangerous state, information recognizable by a driver is output to the display unit. A monitoring device for monitoring the automated driving simulation device;
The computing unit is
The vehicle driving simulation device according to any one of claims 1 to 4, wherein when the vehicle is determined to be in the dangerous state, a signal indicating that the dangerous state has occurred is output to the monitoring device. The operation input unit has an accelerator pedal,
The vehicle operation simulation apparatus according to claim 1, wherein the operation amount is an operation amount of an accelerator pedal. The operation input unit has a brake pedal,
The vehicle operation simulation apparatus according to claim 1, wherein the operation amount is an operation amount of a brake pedal. The operation input unit has a steering wheel,
The vehicle operation simulation device according to claim 1, wherein the operation amount is a steering operation amount.

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