The present disclosure relates to a display control device and a display control method.
Patent Literature 1 below discloses a brake lamp display device that displays characters “brake” in a dedicated display region on an instrument panel of a vehicle when an operation of a brake pedal by a driver of the vehicle is detected.
The brake lamp display device disclosed in Patent Literature 1 has a problem that the dedicated display region for displaying the characters “brake” needs to be provided on the instrument panel of the vehicle.
The present disclosure is achieved for solving the above-described problem, and an object thereof is to obtain a display control device and a display control method capable of notifying a driver of whether or not a pedal operation is performed by the driver of a vehicle without providing a dedicated display region on an instrument panel of the vehicle.
A display control device according to the present disclosure includes processing circuitry to perform detection of a pedal operation of a vehicle including a brake pedal operation and an accelerator pedal operation, and to switch a type of a figure representing a meter, out of meters displayed on an instrument panel of the vehicle, whose presentation information is related to the pedal operation depending on a result of the detection of the pedal operation indicating that whether the brake pedal operation is detected, the accelerator pedal operation is detected, or neither the brake pedal operation nor the accelerator pedal operation is detected.
According to the present disclosure, it is possible to notify a driver of whether or not a pedal operation is performed by the driver of a vehicle without providing a dedicated display region on an instrument panel of the vehicle.
Hereinafter, some embodiment for carrying out the present disclosure will be described with reference to the attached drawings in order to describe the present disclosure in further detail.
A brake pedal sensor 1 monitors an operation of a brake pedal of a vehicle, and outputs brake pedal operation information indicating whether or not a driver is performing a depression operation of the brake pedal to the display control device 3.
An accelerator pedal sensor 2 monitors an operation of an accelerator pedal of the vehicle, and outputs accelerator pedal operation information indicating whether or not the driver is performing a depression operation of the accelerator pedal to the display control device 3.
The display control device 3 makes an instrument panel 4 of the vehicle display a speed meter, a tachometer, a fuel gauge, a water thermometer, a distance meter or the like on an instrument panel 4.
The display control device 3 notifies the driver of whether or not a pedal operation is performed by the driver of the vehicle without providing a dedicated display region on the instrument panel 4 of the vehicle.
In a case where a display area of the instrument panel 4 is limited, when the dedicated display region for displaying characters “brake”, for example, is provided on the instrument panel 4 of the vehicle, a region for displaying other information becomes relatively narrow, and the driver might have difficulty in checking other information. Since the display control device 3 does not need to provide the dedicated display region on the instrument panel 4 of the vehicle, the region for displaying other information does not become relatively narrow.
The instrument panel 4 is a dashboard provided in front of a driver's seat of the vehicle, on which the speed meter, the tachometer, the fuel gauge, the water thermometer, the distance meter or the like are displayed.
In the display control device 3 illustrated in
The display control device 3 illustrated in
The pedal operation detecting unit 11 is implemented by a pedal operation detecting circuit 21 illustrated in
The pedal operation detecting unit 11 acquires the brake pedal operation information from the brake pedal sensor 1 and acquires the accelerator pedal operation information from the accelerator pedal sensor 2.
The pedal operation detecting unit 11 detects the pedal operation of the vehicle.
That is, the pedal operation detecting unit 11 detects the operation of the brake pedal when the brake pedal operation information indicates that the driver is performing the depression operation of the brake pedal.
The pedal operation detecting unit 11 detects the operation of the accelerator pedal when the accelerator pedal operation information indicates that the driver is performing the depression operation of the accelerator pedal.
The pedal operation detecting unit 11 outputs a detection result of the pedal operation to the display mode switching unit 12.
The display mode switching unit 12 is implemented by a display mode switching circuit 22 illustrated in
The display mode switching unit 12 makes the instrument panel 4 display the speed meter, the tachometer, the fuel gauge, the water thermometer, the distance meter or the like.
The display mode switching unit 12 switches a display mode of a meter whose presentation information is related to the pedal operation out of the meters displayed on the instrument panel 4 depending on the detection result of the pedal operation by the pedal operation detecting unit 11.
The speed meter or the tachometer is conceivable as the meter whose presentation information is related to the pedal operation.
Therefore, the display mode switching unit 12 switches the display mode of the speed meter or the display mode of the tachometer depending on the detection result of the pedal operation by the pedal operation detecting unit 11.
In
Each of the pedal operation detecting circuit 21 and the display mode switching circuit 22 corresponds to, for example, a single circuit, a composite circuit, a programmed processor, a parallel-programmed processor, an application specific integrated circuit (ASIC), a field-programmable gate array (FPGA), or a combination thereof.
The components of the display control device 3 are not limited to those implemented by dedicated hardware, and the display control device 3 may also be implemented by software, firmware, or a combination of software and firmware.
The software or firmware is stored as a program in a memory of a computer. The computer means hardware that executes programs, and corresponds to, for example, a central processing unit (CPU), a central processor, a processing unit, an arithmetic unit, a microprocessor, a microcomputer, a processor, a digital signal processor (DSP) or the like.
In a case where the display control device 3 is implemented by software, firmware or the like, a program for causing the computer to execute each procedure performed by the pedal operation detecting unit 11 and the display mode switching unit 12 is stored in a memory 31. A processor 32 of the computer executes the program stored in the memory 31.
Next, an operation of the display control device 3 illustrated in
The brake pedal sensor 1 monitors the operation of the brake pedal of the vehicle.
The brake pedal sensor 1 outputs the brake pedal operation information indicating that the depression operation is being performed to the pedal operation detecting unit 11 of the display control device 3 when the driver is performing the depression operation of the brake pedal.
The brake pedal sensor 1 outputs the brake pedal operation information indicating that the depression operation is not being performed to the pedal operation detecting unit 11 when the driver is not performing the depression operation of the brake pedal.
The accelerator pedal sensor 2 monitors the operation of the accelerator pedal of the vehicle.
The accelerator pedal sensor 2 outputs the accelerator pedal operation information indicating that the depression operation is being performed to the pedal operation detecting unit 11 when the driver is performing the depression operation of the accelerator pedal.
The accelerator pedal sensor 2 outputs the accelerator pedal operation information indicating that the depression operation is not being performed to the pedal operation detecting unit 11 when the driver is not performing the depression operation of the accelerator pedal.
The pedal operation detecting unit 11 acquires the brake pedal operation information from the brake pedal sensor 1 and acquires the accelerator pedal operation information from the accelerator pedal sensor 2 (step ST1 in
The pedal operation detecting unit 11 detects the operation of the brake pedal when the brake pedal operation information indicates that the driver is performing the depression operation of the brake pedal (YES at step ST2 in
The pedal operation detecting unit 11 does not detect the operation of the brake pedal when the brake pedal operation information indicates that the driver is not performing the depression operation of the brake pedal (NO at step ST2 in
The pedal operation detecting unit 11 detects the operation of the accelerator pedal when the accelerator pedal operation information indicates that the driver is performing the depression operation of the accelerator pedal (YES at step ST4 in
The pedal operation detecting unit 11 does not detect the operation of the accelerator pedal when it is indicated that the driver is not performing the depression operation of the accelerator pedal (NO at step ST4 in
The pedal operation detecting unit 11 outputs a detection result of the pedal operation to the display mode switching unit 12.
In the display control device 3 illustrated in
The display mode switching unit 12 makes the instrument panel 4 display the speed meter, the tachometer, the fuel gauge, the water thermometer, the distance meter or the like.
The display mode switching unit 12 switches the display mode of the meter whose presentation information is related to the pedal operation out of the meters displayed on the instrument panel 4 depending on the detection result of the pedal operation by the pedal operation detecting unit 11 (step ST7 in
Hereinafter, switch processing of the display mode performed by the display mode switching unit 12 is specifically described.
The display mode switching unit 12 acquires the detection result of the pedal operation from the pedal operation detecting unit 11.
When the detection result of the pedal operation indicates that the operation of the brake pedal is detected, the display mode switching unit 12 makes the instrument panel 4 display the speed meter as illustrated in
On the instrument panel 4 illustrated in
On the instrument panel 4 illustrated in
A plurality of dot figures displayed in an arc shape around “50 km/h” is a first speed display graphic indicating that the speed of the vehicle is “50 km/h”.
The first speed display graphic, which is a set of the plurality of dot figures, indicates that the driver is performing the operation of the brake pedal. In other words, when the driver is performing the operation of the brake pedal, the display mode switching unit 12 makes the instrument panel 4 display the first speed display graphic.
When the detection result of the pedal operation indicates that the operation of the accelerator pedal is detected, the display mode switching unit 12 makes the instrument panel 4 display the speed meter as illustrated in
On the instrument panel 4 illustrated in
On the instrument panel 4 illustrated in
A plurality of rod-shaped figures displayed in an arc shape around “50 km/h” is a second speed display graphic indicating that the speed of the vehicle is “50 km/h”.
The second speed display graphic, which is a set of the plurality of rod-shaped figures, indicates that the driver is performing the operation of the accelerator pedal. In other words, when the driver is performing the operation of the accelerator pedal, the display mode switching unit 12 makes the instrument panel 4 display the second speed display graphic.
When the detection result of the pedal operation indicates that neither the operation of the brake pedal nor the operation of the accelerator pedal is detected, the display mode switching unit 12 makes the instrument panel 4 display the speed meter as illustrated in
On the instrument panel 4 illustrated in
On the instrument panel 4 illustrated in
A curved line figure displayed in an arc shape around “50 km/h” is a third speed display graphic indicating that the speed of the vehicle is “50 km/h”.
The third speed display graphic, which is the curved line figure, indicates that the driver is performing neither the operation of the brake pedal nor the operation of the accelerator pedal. In other words, when the driver is performing neither the operation of the brake pedal nor the operation of the accelerator pedal, the display mode switching unit 12 makes the instrument panel 4 display the third speed display graphic.
In the display control device 3 illustrated in
In the display control device 3 illustrated in
On the instrument panel 4 illustrated in
A plurality of dot figures displayed in an arc shape around “3500 rpm” is a first rotation speed display graphic indicating that the engine rotation speed is “3500 rpm”.
The first rotation speed display graphic, which is a set of the plurality of dot figures, indicates that the driver is performing the operation of the brake pedal. In other words, when the driver is performing the operation of the brake pedal, the display mode switching unit 12 makes the instrument panel 4 display the first rotation speed display graphic.
On the instrument panel 4 illustrated in
A plurality of rod-shaped figures displayed in an arc shape around “3500 rpm” is a second rotation speed display graphic indicating that the engine rotation speed is “3500 rpm”.
The second rotation speed display graphic, which is a set of the plurality of rod-shaped figures, indicates that the driver is performing the operation of the accelerator pedal. In other words, when the driver is performing the operation of the accelerator pedal, the display mode switching unit 12 makes the instrument panel 4 display the second rotation speed display graphic.
On the instrument panel 4 illustrated in
A curved line figure displayed in an arc shape around “3500 rpm” is a third rotation speed display graphic indicating that the engine rotation speed is “3500 rpm”.
The third rotation speed display graphic, which is the curved line figure, indicates that the driver is performing neither the operation of the brake pedal nor the operation of the accelerator pedal. In other words, when the driver perform is performing neither the operation of the brake pedal nor the operation of the accelerator pedal, the display mode switching unit 12 makes the instrument panel 4 display the third rotation speed display graphic.
In the first embodiment described above, the display control device 3 is configured to be provided with the pedal operation detecting unit 11 that detects the pedal operation of the vehicle, and the display mode switching unit 12 that switches the display mode of the meter whose presentation information is related to the pedal operation out of the meters displayed on the instrument panel 4 of the vehicle depending on the detection result of the pedal operation by the pedal operation detecting unit 11. Therefore, the display control device 3 can notify the driver of whether or not the pedal operation is performed by the driver of the vehicle without providing the dedicated display region on the instrument panel 4 of the vehicle.
In a second embodiment, a display control device 3 is described that displays, when the detection result of a pedal operation by a pedal operation detecting unit 11 changes, animation indicating a transition between display modes at the time when a display mode switching unit 13 switches from a display mode before a detection result changes to a display mode after the detection result changes.
The display mode switching unit 13 is implemented by a display mode switching circuit 23 illustrated in
The display mode switching unit 13 makes an instrument panel 4 display a speed meter, a tachometer, a fuel gauge, a water thermometer, a distance meter or the like as is the case with the display mode switching unit 12 illustrated in
The display mode switching unit 13 switches a display mode of a meter whose presentation information is related to a pedal operation out of the meters displayed on the instrument panel 4 depending on the detection result of the pedal operation by the pedal operation detecting unit 11 as is the case with the display mode switching unit 12 illustrated in
The display mode switching unit 13 displays, unlike the display mode switching unit 12 illustrated in
In
Each of the pedal operation detecting circuit 21 and the display mode switching circuit 23 corresponds to, for example, a single circuit, a composite circuit, a programmed processor, a parallel-programmed processor, an ASIC, a FPGA, or a combination thereof.
The components of the display control device 3 are not limited to those implemented by dedicated hardware, and the display control device 3 may also be implemented by software, firmware, or a combination of software and firmware.
In a case where the display control device 3 is implemented by software, firmware or the like, a program for causing a computer to execute each procedure performed by the pedal operation detecting unit 11 and the display mode switching unit 13 is stored in the memory 31 illustrated in
Next, an operation of the display control device 3 illustrated in
However, it is similar to the display control device 3 illustrated in
The pedal operation detecting unit 11 repeatedly performs detection processing of the pedal operation of the vehicle, and repeatedly outputs the detection result of the pedal operation to the display mode switching unit 13.
The display mode switching unit 13 switches, each time the detection result of the pedal operation is received from the pedal operation detecting unit 11, the display mode of the meter whose presentation information is related to the pedal operation depending on the detection result of the pedal operation by the pedal operation detecting unit 11.
The display mode switching unit 13 displays, unlike the display mode switching unit 12 illustrated in
Hereinafter, switch processing of the display mode performed by the display mode switching unit 13 is specifically described.
The display mode switching unit 13 determines whether or not the detection result of the pedal operation changes by comparing the detection results of the pedal operation repeatedly output from the pedal operation detecting unit 11 with each other.
When the detection result of the pedal operation changes, the display mode switching unit 13 specifies a mode of the change in the detection result.
As the mode of the change in the detection result of the pedal operation, for example, the following modes (1) to (6) are conceivable.
(1) Change from brake pedal operation “present” to pedal operation “absent”
(2) Change from pedal operation “absent” to brake pedal operation “present”
(3) Change from accelerator pedal operation “present” to pedal operation “absent”
(4) Change from pedal operation “absent” to accelerator pedal operation “present”
(5) Change from brake pedal operation “present” to accelerator pedal operation “present”
(6) Change from accelerator pedal operation “present” to brake pedal operation “present”
Pedal operation “absent” means that neither the operation of the brake pedal nor the operation of the accelerator pedal is detected.
When the mode of the change in the detection result is specified, the display mode switching unit 13 displays animation indicating a transition between the display modes at the time of switching from the display mode before the detection result changes to the display mode after the detection result changes.
That is, when the mode of the change in the detection result is, for example, mode (1), the display mode switching unit 13 displays the animation indicating the transition between the display modes by displaying the display mode of the speed meter illustrated in
A broken line figure displayed in an arc shape around “50 km/h” in the display mode of the speed meter illustrated in
When a dot figure is extended in a circumferential direction, the broken line figure is obtained, and when the broken line figure is extended in the circumferential direction, a curved line figure is obtained. Therefore, an appearance of the fourth speed display graphic, which is a set of a plurality of broken line figures, is between an appearance of the first speed display graphic, which is a set of a plurality of dot figures, and an appearance of the third speed display graphic, which is a curved line figure. Therefore, by displaying each of the first speed display graphic, the fourth speed display graphic, and the third speed display graphic in this order by the display mode switching unit 13, the display form appears to be drawn in animation.
When the mode of the change in the detection result is, for example, mode (4), the display mode switching unit 13 displays the animation indicating the transition between the display modes by displaying the display mode of the speed meter illustrated in
A plurality of rod-shaped figures displayed in an arc shape around “50 km/h” in the display mode of the speed meter illustrated in
A line width of the plurality of rod-shaped figures included in the fifth speed display graphic is larger than a line width of a plurality of rod-shaped figures included in the second speed display graphic. Therefore, an appearance of the fifth speed display graphic, which is a set of the rod-shaped figures with the large line width, is between the appearance of the third speed display graphic, which is the curved line figure, and an appearance of the second speed display graphic, which is a set of the rod-shaped figures with a small line width. Therefore, by displaying each of the third speed display graphic, the fifth speed display graphic, and the second speed display graphic in this order by the display mode switching unit 13, the display mode appears to be drawn in animation.
In the second embodiment described above, the display control device 3 is configured so that the display mode switching unit 13 displays the animation indicating the transition between the display modes at the time when the display mode switching unit 13 switches from the display mode before the detection result changes to the display mode after the detection result changes when the detection result of the pedal operation by the pedal operation detecting unit 11 changes. Therefore, in addition to notifying the driver of whether or not the pedal operation is performed by the driver of the vehicle, the display control device 3 can notify the driver of the transition of the pedal operation without providing the dedicated display region on the instrument panel 4 of the vehicle.
Note that, in the present disclosure, the embodiments can be freely combined, any component of each embodiment can be modified, or any component can be omitted in each embodiment.
The present disclosure is suitable for the display control device and the display control method.
1: brake pedal sensor, 2: accelerator pedal sensor, 3: display control device, 4: instrument panel, 11: pedal operation detecting unit, 12, 13: display mode switching unit, 21: pedal operation detecting circuit, 22, 23: display mode switching circuit, 31: memory, 32: processor
The present application is a continuation of International Patent Application PCT/JP2020/028137, filed Jul. 20, 2020, the entire contents of which are incorporated herein by reference.
Number | Date | Country | |
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Parent | PCT/JP2020/028137 | Jul 2020 | US |
Child | 18071641 | US |