JP7251381B2 - Vehicle experience device - Google Patents

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vehicular experience device capable of providing a comfortable experience to a user in a vehicle while charging a power supply.

For example, Non-Patent Document 1 describes several examples of how to spend time while charging an electric vehicle or the like. That is, in Non-Patent Document 1,
・Have drinks and sweets at the dealer,
・reading magazines
・In the car, using a smartphone, SNS, games, e-mail, browsing the Internet, etc.
・Watch TV, DVD, music, etc.
・Shopping and eating at nearby shops,
・Alternatively, the contents such as taking a nap in the car are described.

“How to spend time while charging! Nissan Leaf Q&A” Searched on March 29, 2019, Internet <URL: https://ev1. nissan. co. jp/LEAF/RORA/QUESTIONS/DETAIL/1054>

However, the above contents are performed by the user (or the dealer's clerk), and are not provided by the vehicle. In addition, it is desirable to provide a pleasant experience in the vehicle, not only when the electric vehicle is charging, but also when the user is not driving the vehicle in general.

SUMMARY OF THE INVENTION An object of the present invention is to provide a vehicular experience device capable of providing a user with a comfortable experience inside a vehicle when the user is not driving.

The present invention adopts the following technical means in order to achieve the above objects.
In the present invention, an experience device (110, 202) mounted on a vehicle (10, MC) and capable of providing an experience to the user, and a control unit (130, 201) for controlling the operation of the experience device , wherein the control unit provides an experience that the user feels comfortable by controlling the operation of the experience device in a predetermined mode in the vehicle when the user is not driving. It is characterized by

According to the present invention, when the user is not driving, the experience device (110, 202) is operated and controlled in a predetermined mode by the control unit (130, 201), so that the user can , the experiential device (110, 202) provides a pleasurable experience.

It should be noted that the reference numerals in parentheses of the above means indicate the corresponding relationship with specific means described in the embodiments to be described later.

It is an explanatory surface showing the configuration in the vehicle. It is an explanatory view showing the composition of the experience device for vehicles in a 1st embodiment. FIG. 4 is an explanatory diagram showing how the display is unfolded; FIG. 4 is an explanatory diagram showing a handle housed in the instrument panel; It is an explanatory view showing the composition of the experience device for vehicles in a 2nd embodiment. 1 is a block diagram showing the configuration of a display system; FIG. It is a figure which shows the arrangement|positioning of the organic EL display in a vehicle interior. 7 is a flowchart showing display development processing; FIG. 10 is a diagram showing normal deployment length, double deployment length, and triple deployment length; It is a flow chart which shows attention calling display processing. It is a figure which shows the 1st specific example of a warning display. It is a figure which shows the 2nd specific example of an alert display.

A plurality of modes for carrying out the present invention will be described below with reference to the drawings. In each form, the same reference numerals may be given to the parts corresponding to the matters described in the preceding form, and overlapping explanations may be omitted. When only a part of the configuration is described in each form, the previously described other forms can be applied to other parts of the configuration. Not only combinations of parts that are explicitly stated that combinations are possible in each embodiment, but also partial combinations of embodiments even if they are not explicitly stated unless there is a particular problem with the combination. is also possible.

(First embodiment)
A vehicle experience device 100 of the first embodiment is shown in FIGS. 1 to 4. FIG. The vehicle experience device 100 is, for example, an electric vehicle (EV), a plug-in hybrid vehicle (PHV), or the like. ) is mounted on a vehicle 10 having a The battery 11 corresponds to the power supply section of the invention. In this embodiment, an example will be described in which the user is not driving, that is, the case where the battery 11 is charged while the vehicle is parked at the following charging station.

As shown in FIGS. 1 and 2, when the battery 11 is charged while the vehicle 10 is parked, the vehicle 10 can be parked at highway service areas, gas stations, car dealers, toll parking lots, or shopping centers. A charging lid 11a is provided for connecting a charging connector 1 of a charger in a charging station installed in a vehicle. The charging connector 1 is a power supply unit that supplies power in the charger to the battery 11 . The charging lid 11a is a receiving portion for the charging connector 1, and is connected to the battery 11 via the vehicle-side charger.

The vehicle experience device 100 includes an experience device 110, an input unit 120, a control unit 130, and the like.
The experience device 110 is a device capable of providing an experience to the user, and its operation is controlled by the control section 130, which will be described later. The experience device 110 can be set as, for example, a display 111, a light control film 112, a seat air conditioner 113, a low-resilience sheet 15, a handle 16, and the like.

The display 111 uses, for example, a thin organic EL display (OLED) and can be accommodated in the roof section 12 . The display 111 corresponds to the display section for displaying images of the present invention. During normal driving, the lower portion of the display 111 protrudes above the front window 13 in the form of a horizontally long band so as not to obstruct the user's field of vision during driving. During normal operation, the display 111 serves, for example, as an auxiliary display for various types of travel information (travel speed, travel mode, travel distance, cruising range, remaining battery charge, etc.) of the vehicle 10, or a purpose display by the car navigation system. It is designed to display location guidance information and the like.

Further, when the battery 11 is charged, as shown in FIG. 3, the display 111 as a whole protrudes further from the roof portion 12 based on the user's instruction (instruction signal) to form a large screen. there is That is, when the battery 11 is being charged, the display 111 is unfolded to reach an area that blocks the user's field of vision during normal driving. The display 111 can also display television, DVD (movies), games, chats, PC software, etc., in addition to the various travel information and destination guidance information described above. available when charging.

When the display 111 is expanded to a large screen as described above, for example, by connecting a controller, a keyboard, etc. to the display 111, games, chats, execution of personal computer software, etc. are possible.

The light control film 112 is provided, for example, on the front window 13 and the side window 14 of the vehicle 10, and controls transmission of external light into the vehicle interior (transmission and light shielding by varying the transmittance) based on user instructions (instruction signals). control). By setting the light control film 112 to the transmissive state, each of the windows 13 and 14 becomes like normal transparent glass, and the user's field of view to the outside is ensured. Further, by setting the light control film 112 to a light blocking state, it is as if blinds were formed on the windows 13 and 14, so that the interior of the vehicle cannot be visually recognized (peeped into) from the outside. ing.

The seat air conditioning unit 113 has, for example, a blower serving as a main body installed under the seat surface of the low-resilience seat 15, and based on the user's instruction (instruction signal), the seat surface and the backrest of the low-resilience seat 15 are cooled. It is an air conditioning unit that supplies part of the air that has been air-conditioned by the vehicle air conditioner to the user sitting on the seat 15 in a spot-like manner through the plurality of air passages. The seat air-conditioning unit 113 is equipped with, for example, AI (artificial intelligence), and does not air-condition the entire vehicle interior, but air-conditions so as to envelop the user.

The low-resilience seat 15 has a backrest with a reclining function that can be adjusted in a plurality of stages, and the seat surface and the backrest sink when receiving the user's weight, distributing the weight and releasing it. Since the low-resilience sheet 15 is less likely to cause repulsion due to the weight of the user, it is difficult for the user to feel his or her own weight (a sense of weightlessness can be obtained).

As shown in FIG. 4, the handle 16 can be stored on the side of the instrument panel 17 of the vehicle 10 based on a user's instruction (instruction signal). It is designed to be

The input unit 120 serves as a switch unit for the user to select which device among the experience devices 110 to operate during charging. The input unit 120 can be provided as, for example, a touch panel switch, a mechanical switch, or an audio input switch. A user instruction signal input to the input unit 120 is output to the control unit 130, which will be described later.

The control unit 130 serves as control means for controlling the operation of the experience equipment 110 (111, 112, 113, 15, 16, etc.) according to the instruction signal from the input unit 120. FIG. Further, the control unit 130 detects (recognizes) that the battery 11 is being charged while the charging connector 1 is connected to the charging lid 11a.

An example of the control unit 130 is a computer that includes a memory that stores at least a program and at least one processor that executes the program. In this case, the computer includes at least one processor core called CPU: Central Processing Unit or GPU: Graphics Processing Unit. Memory is also called a storage medium. A memory is a non-transitory and tangible storage medium that non-temporarily stores "programs and/or data" readable by a processor. A storage medium is provided by a semiconductor memory, a magnetic disk, an optical disk, or the like. The program may be distributed alone or as a storage medium storing the program.

The structure of the experience apparatus 100 for vehicles is as mentioned above, Next, the operation|movement and effect of the experience apparatus 100 for vehicles are demonstrated.
First, when charging the battery 11 at the charging station, the user connects the charging connector 1 to the charging lid 11a. Control unit 130 detects that charging is started by connecting charging connector 1 to charging lid 11a. Further, the control unit 130 detects that the charging is terminated by disconnecting the charging connector 1 from the charging lid 11a.

Then, when the user inputs to the input unit 120 which of the experience devices 110 to operate during charging, the input instruction signal is output to the control unit 130 . The control unit 130 controls the operation of the experience device 110 in a predetermined mode based on the instruction signal.

For example, when the user wishes to broadcast a television program using the display 111 or reproduce a DVD (movie), the control unit 130 expands the display 111 within the area of the front window 13 (broken line in FIG. 3). Then, the control unit 130 performs desired television broadcasting or DVD playback. The user can fully enjoy (experience) TV or DVD on a powerful large screen that cannot be seen in a normal vehicle 10. - 特許庁If the user's instruction is a game, chat, personal computer software, or the like, the control unit 130 displays the game, chat, personal computer software, or the like. The user can enjoy games, chats, etc. while charging, or can work (create sentences, explanatory materials, etc.) by executing personal computer software.

When the user requests that the windows 13 and 14 be shaded using the light control film 112, the control unit 130 puts the light control film 112 into a light blocking state. This makes it possible to enhance the sense of privacy in the passenger compartment. Furthermore, it is possible to prevent the interior of the vehicle from being easily seen from the outside. For example, if a charging station is located in a dark place deep in a parking lot and an outsider suddenly looks into the vehicle interior, the user feels extremely uneasy. As described above, by shielding the windows 13 and 14 with the light control film 112, the user can spend the time during charging without anxiety.

Further, when the user requests spot air conditioning, the control unit 130 activates the seat air conditioning unit 113 . The seat air-conditioning unit 113 adjusts the comfortable temperature by air-conditioning so as to envelop the user. The seat air conditioning unit 113 is operated by AI (artificial intelligence) according to the current user's characteristics (sensitivity to cold, sensitivity to heat, cold feet, etc.), so that comfortable air conditioning can be realized for the user.

Further, when the user requests to recline the low-resilience seat 15, the control unit 130 reclines the backrest to the angle desired by the user. This allows the user to maintain a relaxed posture. In addition, since the low-resilience sheet 15 is less likely to rebound due to the weight of the user, the user is less likely to feel their own weight (a sense of weightlessness can be obtained), so that they can relax as if they were floating. can spend

Further, when the user instructs to store the handle 16 , the control unit 130 stores the handle 16 inside the instrument panel 17 . As a result, the space around the user's knees is enlarged, and the relaxing posture in the passenger compartment is not disturbed.

As described above, according to the present embodiment, the experience device 110 is operated and controlled in a predetermined mode by the control unit 130 in response to an instruction from the user during the charging time. The device 110 provides a comfortable experience while waiting for charging.

(Second embodiment)
FIG. 5 shows a vehicle experience device 100A of the second embodiment. The vehicular experience device 100A of the second embodiment is obtained by adding a state detection unit 140 for detecting the state of the user to the vehicular experience device 100 of the first embodiment.

The state detection unit 140 is, for example, detection means for detecting the posture of the user or the physical condition of the user, and can use the camera 141, the sheet sensor 142, the biosensor 143, and the like.

The camera 141 acquires data related to the user's posture (sitting posture, reclining posture, face orientation, etc.) mainly by photographing the user, and outputs the acquired data to the control unit 130 . there is For the camera 141, for example, if the vehicle 10 is equipped with a DSM (Driver Status Monitor) system, the camera of the DSM system can be used.

A plurality of seat sensors 142 are provided so as to be distributed on the seat surface and the backrest of the low-resilience seat 15, and are sensors for acquiring the weight distribution data of the user, and output the acquired data to the control unit . there is

The biosensor 143 is provided, for example, on the seating surface of the low-resilience sheet 15 so as to be in contact with the user. The biological sensor 143 measures, for example, the user's body temperature, pulse rate (heart rate), etc., and outputs the measurement results to the control unit 130 . The biosensor 143 may measure other biometric information such as blood pressure, electroencephalogram, and perspiration amount.

The control unit 130 predicts the user's request from the state of the user detected by the state detection unit 140 and controls the operation of the experience device 110 .
For example, with the display 111 unfolded, the control unit 130 determines the posture or face orientation of the user from the state detection unit 140 (the camera 141 or the seat sensor 142), and determines the orientation of the display surface of the display 111 ( display angle) to a direction that is easy for the user to see.

Alternatively, while the seat air conditioning unit 113 is in operation, the control unit 130 adjusts the set temperature of the spot air conditioning from the state detection unit 140 (biological sensor 143) based on the body temperature of the user. Alternatively, the control unit 130 shields the light control film 112 from the state detection unit 140 (biological sensor 143) based on the user's pulse rate (heart rate) (when the pulse rate is higher than a predetermined value).

As described above, in this embodiment, the user's desire is predicted from the user's posture or physical condition, and the control unit 130 controls the operation of the experience device 110. service satisfaction) can be further enhanced.

(Third embodiment)
A third embodiment of the present disclosure will be described below with reference to the drawings.
The display system 200 of the third embodiment is mounted on an automatically operated vehicle capable of both automatic operation and manual operation. As shown in FIG. , a playback device 204 , a tuner 205 , a driver status monitor 206 (hereinafter referred to as DSM 206 ), and an operation switch 207 . DSM is an abbreviation for Driver Status Monitor. Hereinafter, the vehicle equipped with the display system 200 will be referred to as own vehicle MC. Note that the own vehicle MC is not shown in FIG. 6, but is shown in FIG.

The display control device 201 includes a control unit 211 and an external input/output circuit 212 for inputting/outputting signals between the outside of the display control device 201 and the control unit 211 .
The display control device 201 is an electronic control device mainly composed of a microcomputer including a CPU 221, a ROM 222, a RAM 223, and the like. Various functions of the microcomputer are realized by the CPU 221 executing a program stored in a non-transitional substantive recording medium. In this example, the ROM 222 corresponds to the non-transitional substantive recording medium storing the program. Also, by executing this program, a method corresponding to the program is executed. A part or all of the functions executed by the CPU 221 may be configured as hardware by one or a plurality of ICs or the like. Further, the number of microcomputers constituting the display control device 201 may be one or more.

The control unit 211 includes a CPU 221, a ROM 222, a RAM 223, an input/output port 224, a CAN communication unit 225, a wide area wireless communication unit 226, and a bus line 227 interconnecting them. CAN is an abbreviation for Controller Area Network. CAN is a registered trademark.

The CPU 221 executes various processes for controlling the display control device 201 based on programs stored in the ROM 222 . The ROM 222 is a non-volatile memory, and stores programs executed by the CPU 41 and data referred to when the programs are executed. The RAM 223 is a volatile memory, and temporarily stores calculation results of the CPU 221 and the like.

The input/output port 224 is a circuit for inputting/outputting signals between the control unit 211 and the outside of the control unit 211 .
The CAN communication unit 225 performs data communication with a plurality of in-vehicle devices (eg, electronic control device, sensors, etc.) mounted on the vehicle according to the CAN communication protocol.

The wide area wireless communication unit 226 performs data communication with a communication device installed outside the vehicle via a wide area wireless communication network.
The organic EL display 202 is a flexible thin plate-shaped display device in which a plurality of organic EL elements are arranged in a matrix.

The expansion device 203 includes a motor that serves as a drive source and a gear train that transmits the driving force of the motor to the organic EL display 202 . The deployment device 203 is installed in the roof portion RF near the boundary between the roof portion RF and the front window FW of the vehicle shown in FIG.

As shown in FIG. 7, the deployment device 203 spreads the organic EL display 202 housed in the roof RF through an opening (not shown) formed on the roof RF side near the boundary between the roof RF and the front window FW. Move it so that it is pulled out from the part. Thereby, the deployment device 203 deploys the organic EL display 202 so as to hide the front window FW from the driver DR sitting in the driver's seat DS.

Further, the deployment device 203 can move the organic EL display 202 deployed so as to cover the front window FW so as to be stored in the roof section RF through the opening.

The playback device 204 reads data recorded on a video recording medium, generates an audio signal and a video signal based on the read data, and outputs the generated audio signal and video signal.

Tuner 205 receives broadcast signals of AM broadcast, FM broadcast and television broadcast, generates audio and video signals based on the received broadcast signals, and outputs the generated audio and video signals.

The DSM 206 detects the state of the driver DR by image analysis of a face image of the face of the driver DR.
The operation switch 207 is installed, for example, on the center console, and outputs various instructions to the display control device 201 by operating the operation switch 207 by a vehicle occupant.

In the display system 200 configured as described above, the CPU 221 of the control unit 211 executes display expansion processing and attention calling display processing.
First, the procedure of display expansion processing executed by the CPU 221 of the control unit 211 will be described. The display development process is a process that is repeatedly executed while the control unit 211 is operating.

When the display development process is executed, the CPU 221 first determines in S10 whether or not the host vehicle MC is stopped, as shown in FIG. Specifically, the CPU 221 acquires vehicle speed information indicating the running speed of the host vehicle MC (hereinafter referred to as vehicle speed) from an in-vehicle device mounted on the vehicle via the CAN communication unit 225, and adjusts the vehicle speed to the vehicle speed indicated by the vehicle speed information. Based on this, it is determined whether or not the own vehicle MC is stopped.

Here, when own vehicle MC is not stopping, CPU221 transfers to S40. On the other hand, when the host vehicle MC is stopped, the CPU 221 determines whether or not a low speed instruction is input from the operation switch 207 in S20. The low speed instruction instructs to move the organic EL display 202 at a low speed in order to expand or retract the organic EL display 202 .

Here, when the low speed instruction is input, the CPU 221 clears the high speed movement flag F1 provided in the RAM 223 in S30, and proceeds to S50. In the following description, setting a flag means setting the value of the flag to 1, and clearing the flag means setting the value of the flag to 0.

On the other hand, if the low speed instruction has not been input, the CPU 221 determines that the high speed instruction has been input from the operation switch 207, and proceeds to S40. The high-speed instruction instructs to move the organic EL display 202 at high speed to expand or retract the organic EL display 202 .

After shifting to S40, the CPU 221 sets the high-speed movement flag F1, and shifts to S50.
After shifting to S50, the CPU 221 determines whether or not the own vehicle MC is in manual operation. Specifically, the CPU 221 acquires the driving mode information indicating the driving mode of the own vehicle MC from the automatic driving control device mounted on the own vehicle MC via the CAN communication unit 225, and obtains the driving mode information indicated by the driving mode information. Based on the mode, it is determined whether or not the own vehicle MC is in manual operation. The driving mode information indicates at least whether the own vehicle MC is in manual driving, in level 2 automatic driving, in level 3 automatic driving, or in charging.

Here, if the host vehicle MC is in manual operation, the CPU 221 stores 1 in the deployment level LEVEL provided in the RAM 223 in S60, and proceeds to S140.
On the other hand, if the own vehicle MC is not in manual driving, the CPU 221 determines in S70 whether or not the own vehicle MC is in level 2 automatic driving based on the acquired driving mode information. Here, if the automatic driving is at level 2, the CPU 221 stores 2 in the deployment level LEVEL in S80, and proceeds to S140.

On the other hand, if the own vehicle MC is not in level 2 automatic driving, the CPU 221 determines in S90 whether or not the own vehicle MC is in level 3 automatic driving based on the acquired driving mode information. do. Here, when the vehicle is in automatic operation at level 3, the CPU 221 stores 3 in the deployment level LEVEL in S100, and proceeds to S140.

On the other hand, when the own vehicle MC is not in the level 3 automatic driving, the CPU 221 determines in S110 whether the own vehicle MC is being charged based on the acquired driving mode information. Here, if the battery is being charged, the CPU 221 stores 3 in the expansion level LEVEL in S120, and proceeds to S140.

On the other hand, if the host vehicle MC is not charging, the CPU 221 stores 1 in the deployment level LEVEL in S130, and proceeds to S140.
After proceeding to S140, the CPU 221 determines whether or not the value stored in the development level LEVEL is 3 in S140. Here, when the value stored in the deployment level LEVEL is 3, the CPU 221 acquires reclining information indicating the reclining angle of the driver's seat DS from the DSM 206 in S150. The DSM 206 detects the line-of-sight direction of the driver DR by image analysis of the face image of the face of the driver DR, and calculates the reclining angle based on the line-of-sight direction.

Further, in S160, the CPU 221 sets the expansion/decrease amount based on the reclining angle indicated by the acquired reclining information and the expansion/decrease amount map in which the correspondence relationship between the reclining angle and the expansion/decrease amount is set in advance. transition to The expanded increase/decrease amount map is stored in the ROM 222 .

If the value stored in the expansion level LEVEL is not 3 in S140, the CPU 221 sets the expansion increase/decrease amount to 0 in S170, and proceeds to S180.
After shifting to S180, the CPU 221 unfolds the organic EL display 202 based on the high-speed movement flag F1, the unfolding level LEVEL, and the unfolding increase/decrease amount, and ends the display unfolding process.

Specifically, when the deployment level LEVEL is 1, as shown in FIG. 9, the CPU 221 sets the distance between the lower end of the organic EL display 202 and the roof section RF to the normal deployment length NEL. , the organic EL display 202 is developed. The normal deployment length NEL is approximately equal to the vertical length of a typical rearview mirror.

Further, when the deployment level LEVEL is 2, the CPU 221 deploys the organic EL display 202 so that the distance between the lower end of the organic EL display 202 and the roof portion RF is the double deployment length DEL. The double developed length DEL is twice as long as the normal developed length NEL.

Further, when the deployment level LEVEL is 3, the CPU 221 adjusts the distance between the lower end of the organic EL display 202 and the roof RF to be the sum of the triple deployment length TEL and the deployment increase/decrease amount. Unfold the organic EL display 202 . Therefore, the distance between the lower end of the organic EL display 202 and the roof portion RF is longer than the triple development length TEL when the expansion increase/decrease amount is a positive value, and when the expansion increase/decrease amount is a negative value, It is shorter than the triple development length TEL. The triple developed length TEL is three times longer than the normal developed length NEL.

The display control device 201 displays, on the organic EL display 202, an image captured by a rear camera installed at the rear of the vehicle MC and capturing the rear of the vehicle MC when the vehicle MC is manually operated. . Further, when the vehicle is captured in the image captured by the rear camera, the display control device 201 displays a detection marker on the organic EL display 202 to highlight the position of the vehicle.

When the high-speed movement flag F1 is set, the display control device 201 moves the organic EL display 202 so as to expand or retract the organic EL display 202 at a preset high-speed movement speed.

When the high-speed movement flag F1 is cleared, the display control device 201 moves the organic EL display 202 so as to expand or retract the organic EL display 202 at a low-speed movement speed set to be smaller than the high-speed movement speed. to move.

The display control device 201 displays entertainment images (for example, moving images or game images), web conference images, or automatic driving control when the host vehicle MC is automatically driving at level 3, parking/stopping, or charging. Information is displayed on the organic EL display 202 . The entertainment video is displayed on the organic EL display 202 by inputting a video signal generated by the playback device 204 or the tuner 205 to the display control device 201 . The web conference video is displayed on the organic EL display 202 when the display control device 201 receives video information via the wide area wireless communication unit 226 . The automatic operation control information is displayed on the organic EL display 202 when the display control device 201 receives the automatic operation control information from the automatic operation control device via the CAN communication unit 225 .

Note that the display control device 201 may display an image captured by the rear camera on the organic EL display 202 when the own vehicle MC is in automatic operation at level 3 .
As shown in FIG. 7, the display screen of the organic EL display 202 is curved when it is unfolded so as to cover the front window FW. Therefore, the angle at which the display screen of the organic EL display 202 faces toward the passenger compartment changes according to the expansion/decrease amount.

Next, a procedure of attention calling display processing executed by the CPU 221 of the control unit 211 will be described. The alert display process is a process that is repeatedly executed while the control unit 211 is operating.
When the attention calling display process is executed, as shown in FIG. 10, the CPU 221 first determines in S310 whether or not a preset attention calling display condition has been established. The alert display conditions include at least the following first display conditions and second display conditions. The first display condition is to receive a parcel arrival notification indicating that the parcel has arrived from the monitoring device installed at the home of the driver DR via the wide area wireless communication unit 226 . The second display condition is to receive, via the CAN communication unit 225, an advance notice of the end of the automatic operation from the automatic operation control device mounted on the own vehicle MC.

Here, if the attention-calling display condition is not satisfied, the CPU 221 ends the attention-calling display process. On the other hand, if the attention-calling display condition is met, the CPU 221 displays a preset attention-calling image on the organic EL display 202 according to the content of the attention-calling display condition that has been met in S320 to call attention. End the display process.

For example, when the first display condition is satisfied, the CPU 221 outputs video information showing a video of the face of the delivery person in front of the entrance of the home and the utterance of the delivery person from the monitoring device installed in the home. Voice information indicating the voice that is played is received via the wide area wireless communication unit 226 . Then, as shown in FIG. 11, the CPU 221 displays the image indicated by the received image information on the organic EL display 202, and outputs the sound indicated by the received audio information from the speaker in the passenger compartment.

Further, when the second display condition is satisfied, the CPU 221 displays an image showing the content of the termination notice on the organic EL display 202 and outputs a sound indicating the content of the termination notice to the vehicle, as shown in FIG. Output from the speakers in the room. The content of the termination notice is, for example, returning to the electronic mirror mode because the automatic driving section will end in 2 km. The electronic mirror mode is a mode in which the vertical length of the organic EL display 202 is set to the normal development length NEL.

The display control device 201 of the display system 200 configured as described above changes the amount of deployment of the organic EL display 202 according to the driving state of the host vehicle MC having the automatic driving function. The operating state in this embodiment includes manual operation, level 2 automatic operation, level 3 automatic operation, and charging. Thereby, the display system 200 can set the display screen of the organic EL display 202 to an appropriate size according to the driving state of the host vehicle MC.

Further, the display control device 201 changes the angle of the display screen of the organic EL display 202 according to the state of the interior of the vehicle MC. The state of the vehicle interior in this embodiment is the reclining angle of the driver's seat DS. Accordingly, the display system 200 can make the display screen of the organic EL display 202 easier for the occupant of the own vehicle MC to see depending on the state of the vehicle interior.

Further, the display control device 201 displays an alert image preset according to the alert display condition on the organic EL display 202 when the preset alert display condition is satisfied. As a result, the display system 200 can alert the occupant of the own vehicle MC looking at the organic EL display 202 as necessary.

In addition, the display control device 201 changes the movement speed for moving the organic EL display 202 in order to deploy the organic EL display 202 from the roof RF or to store it in the roof RF according to the state of the host vehicle MC. . The state of the host vehicle MC in this embodiment includes running and stopping. As a result, the display system 200 can deploy or retract the organic EL display 202 at an appropriate moving speed according to the state of the own vehicle MC.

In the above-described embodiment, the display system 200 corresponds to the vehicle experience device, the own vehicle MC corresponds to the vehicle, the display control device 201 corresponds to the control unit, and the organic EL display 202 corresponds to the experience device and the display unit. corresponds to
(Other embodiments)
The disclosure in this specification, drawings, etc. is not limited to the illustrated embodiments. The disclosure encompasses the illustrated embodiments and variations thereon by those skilled in the art. For example, the disclosure is not limited to the combinations of parts and/or elements shown in the embodiments. The disclosure can be implemented in various combinations. The disclosure can have additional parts that can be added to the embodiments. The disclosure encompasses omitting parts and/or elements of the embodiments. The disclosure encompasses permutations or combinations of parts and/or elements between one embodiment and another. The disclosed technical scope is not limited to the description of the embodiments. The disclosed technical scope is indicated by the description of the claims, and should be understood to include all changes within the meaning and range of equivalents to the description of the claims.

The controller 130 and techniques described in this disclosure may be implemented by a special purpose computer comprising a processor programmed to perform one or more functions embodied by a computer program. Alternatively, the apparatus and techniques described in this disclosure may be implemented by dedicated hardware logic circuitry. Alternatively, the apparatus and techniques described in this disclosure may be implemented by one or more special purpose computers configured in combination with a processor executing a computer program and one or more hardware logic circuits. The computer program may also be stored as computer-executable instructions on a computer-readable non-transitional tangible recording medium.

In the first embodiment described above, the controller 130 controls the operation of the hands-on experience device 110 according to the instruction signal input to the input unit 120 by the user. However, the present invention is not limited to this, and with respect to an experience device 110 that is highly necessary to be operated during charging, the control unit 130 detects that the device is being charged regardless of the instruction signal. You may make it work. For example, when the control unit 130 detects that charging is in progress, the control unit 130 may automatically put the light control film 112 into a light blocking state or automatically retract the handle 16 .

Further, in the second embodiment, the control unit 130 controls the operation of the experience device 110 based on the instruction signal input by the user to the input unit 120 and the data detected by the state detection unit 140. explained as. Not limited to this, the operation of the hands-on experience device 110 may be controlled based on the data detected by the state detection unit 140 .

Further, a transparent display provided on the side window 14 may be used instead of the light control film 112 in each of the above embodiments. During normal driving, for example, the transparent display displays advertisements to the outside while securing visibility, and during charging, for example, displays such as "currently charging" to the outside. good.

In addition, the types of experience device 110 (display 111, light control film 112, seat air conditioning unit 113, low-resilience sheet 15, and handle 16) in each of the above embodiments are not limited to these, and other devices , and the combination is arbitrary.

Further, in each of the above-described embodiments, the vehicular experience devices 100 and 100A are described as being applied when charging an electric vehicle, a plug-in hybrid vehicle, or the like, but are not limited to this. The drive source of the vehicle 10 is not limited (for example, general vehicles having a gasoline engine, a diesel engine, a hybrid drive source, an electric motor, etc.). is not driving). During automatic driving, the user can obtain a comfortable experience from the vehicle experience devices 100 and 100A.

Further, the vehicle experience devices 100 and 100A can be used not only during charging or during automatic driving in general vehicles as described above, but also during parking or the like (for example, when the user is driving for a break). (when you have not done Also in this case, the user can obtain a pleasant experience from the vehicle experience devices 100 and 100A while the vehicle is parked.

It should be noted that when the vehicle experience devices 100 and 100A operate the seat air-conditioning unit 113, the power consumption is relatively large compared to other devices. desirable.

Control unit 211 and techniques described in this disclosure can be performed by a dedicated computer provided by configuring a processor and memory programmed to perform one or more functions embodied by a computer program. may be implemented. Alternatively, the controller 211 and techniques described in this disclosure may be implemented by a dedicated computer provided by configuring the processor with one or more dedicated hardware logic circuits. Alternatively, the control unit 211 and techniques described in this disclosure are a combination of a processor and memory programmed to perform one or more functions and a processor configured by one or more hardware logic circuits. may be implemented by one or more dedicated computers configured by Computer programs may also be stored as computer-executable instructions on a computer-readable non-transitional tangible storage medium. The method of realizing the function of each part included in the control unit 211 does not necessarily include software, and all the functions may be realized using one or more pieces of hardware.

A plurality of functions possessed by one component in the above embodiment may be implemented by a plurality of components, or a function possessed by one component may be implemented by a plurality of components. Also, a plurality of functions possessed by a plurality of components may be realized by a single component, or a function realized by a plurality of components may be realized by a single component. Also, part of the configuration of the above embodiment may be omitted. Also, at least part of the configuration of the above embodiment may be added or replaced with respect to the configuration of the other above embodiment.

In addition to the display control device 201 described above, a system having the display control device 201 as a component, a program for causing a computer to function as the display control device 201, a non-transitional substantive record such as a semiconductor memory in which the program is recorded The present disclosure can also be implemented in various forms such as media and display control methods.

DESCRIPTION OF SYMBOLS 10... Vehicle 11... Battery (power supply part) 12... Roof part 13... Front window (window) 14... Side window (window) 15... Low repulsion seat (seat) 16... Handle 100, 100A... Vehicle 110...Experience device 111...Display (display unit) 112...Light control film 113...Seat air conditioning unit 130...Control unit 200...Display system 201...Display control device 202...Organic EL Display, MC... own vehicle

Claims (11)

an experience device (110, 202) mounted on a vehicle (10, MC) and capable of providing an experience to a user;
A vehicle experience device comprising a control unit (130, 201) that controls the operation of the experience device,
The control unit provides an experience that the user feels comfortable by controlling the operation of the experience device in a predetermined mode in the vehicle when the user is not driving ,
The experience device includes a display unit (111, 202) that displays an image, and can be stored in the roof portion (12, RF) of the vehicle,
During normal driving, the control unit has a lower portion of the display unit that protrudes above the front window (13, FW) of the vehicle so as not to obstruct the user's field of vision during driving. let
The control unit deploys the display unit in the predetermined mode from the roof to the area of the front window to an area that obstructs the field of vision during normal driving. The vehicle (MC) has an automatic driving function,
The vehicle experience device according to claim 1 , wherein the control unit (201) changes a deployment amount of the display unit (202) according to the driving state of the vehicle. 3. The control unit (201) according to claim 1 , wherein the control unit (201) changes the angle of the display screen of the display unit (202) according to the reclining angle of the reclining seat of the driver's seat of the vehicle (MC). Vehicle experience device. 4. The experience device for a vehicle according to claim 1, wherein the time when the user is not driving includes parking or automatic driving in the vehicle having an automatic driving function. The vehicle has an electric motor for traveling that is driven by receiving electric power supplied from a power supply unit (11),
5. The vehicular experience device according to claim 4 , wherein the parking includes charging the power supply unit. The experience device includes a light control film (112) provided on the vehicle window (13, 14),
The vehicular experience device according to any one of claims 1 to 5 , wherein the control unit shades the window with the light control film as the predetermined mode. When the predetermined mode is performed by the control unit, the experience equipment includes a seat air conditioning unit (113) that air-conditions the seat so as to envelop the user, and a seat air conditioning unit (113) that reclines to disperse the user's weight and release it. The vehicle experience device according to any one of claims 1 to 6, comprising at least one of a repulsive seat (15) and a handle (16) housed on the instrument panel (17) side of the vehicle. . The vehicular experience device according to any one of claims 1 to 7, wherein the control unit executes the predetermined mode according to the user's instruction. The vehicle according to any one of claims 1 to 7, wherein the control unit predicts the user's desire from the user's posture or the user's physical condition and executes the predetermined mode. experience device. 2. The control unit (201) displays an alert image preset according to the alert display condition on the display unit (202) when a preset alert display condition is satisfied . The vehicle experience device according to any one of claims 1 to 9. The control unit (201) controls the movement speed for moving the display unit (202) to be deployed from the roof unit (RF) or stored in the roof unit (RF). 11. The experience device for a vehicle according to any one of claims 1 to 10, which is changed according to the state of.

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