JP2021071797A - Display device and information processing device - Google Patents

Abstract

To eliminate the need for a hard switch for setting adjustment.SOLUTION: In one embodiment, a display device disclosed in the present application includes: a display unit; a microphone that acquires an audio signal; a first processor that acquires first information and second information from the audio signal; and a second processor that changes a setting level of a setting item corresponding to the first information related to displaying of the display unit to a level according to the second information.SELECTED DRAWING: Figure 3

Description

Embodiments of the present invention relate to display devices and information processing devices.

In the display device or the information processing device provided with the display device, a hard switch for adjusting various settings including the setting related to the display may be provided in the frame surrounding the screen.

Japanese Unexamined Patent Publication No. 2013-89074

In recent years, a design in which the width of the frame surrounding the screen is as narrow as possible may be preferred. If the frame surrounding the screen is provided with a hard switch for setting adjustment, the width of the frame cannot be less than or equal to the width of the hard switch. On the contrary, when the width of the frame is further narrowed to improve the design, the space for providing the hard switch is lost.

The present invention has been made in view of the above, and an object of the present invention is to provide a display device and an information processing device that do not require a hard switch for setting adjustment.

The display device according to the first aspect of the present invention includes a display unit, a microphone that acquires an audio signal, a first processor that acquires first information and second information from the audio signal, and a display of the display unit. A second processor that changes the setting level of the setting item corresponding to the first information to the level corresponding to the second information is provided.

Further, in the display device according to the first aspect of the present invention, the second processor does not adjust the setting level of the setting item according to the first information acquired by the first processor. When the state transitions to the second state in which the setting level of the setting item can be adjusted and the first processor acquires the second information in the second state, the setting level of the setting item is changed. Execute.

Further, in the display device according to the first aspect of the present invention, the second processor reaches the threshold value when the elapsed time from the transition from the first state to the second state reaches the threshold value. The transition from the second state to the first state.

Further, in the display device according to the first aspect of the present invention, the second processor conforms to a first signal for designating the setting items and a second interface capable of transmitting numerical information. The signal and can be received. The display device according to the first aspect of the present invention is a second interface capable of transmitting numerical information, and a third signal conforming to the second interface different from the first interface is transmitted to the second signal. The first processor further comprises a third processor that converts the first information into the second signal using the first signal, and the second information is transmitted to the third signal. Is transmitted to the third processor, and the third processor transmits the received second information to the second processor using the second signal.

The information processing apparatus according to the second aspect of the present invention has an external input terminal that receives an input of a first video signal, executes a process instructed by a user under the control of an operating system, and responds to the process. The computer system that outputs the video signal of 2, the display unit, the microphone that acquires the audio signal, the first processor that acquires the first information and the second information from the audio signal, the first video signal, and the first video signal. A housing including a second processor that outputs the second video signal to the display unit, the external input terminal, the display unit, the microphone, the computer system, the first processor, and the second processor. The second processor changes the setting level of the setting item corresponding to the first information related to the display of the display unit to the level corresponding to the second information.

Further, in the information processing device according to the second aspect of the present invention, regardless of whether or not power is supplied to the computer system, the external input terminal, the display unit, the microphone, the first processor, and the like. And power is supplied to the second processor.

According to one aspect of the display device disclosed in the present application, a hard switch for setting adjustment can be eliminated.

FIG. 1 is a diagram showing an example of the appearance of the information processing apparatus according to the first embodiment. FIG. 2 is a diagram showing an example of an OSD (On-Screen Display) menu displayed on a display screen by the video controller according to the first embodiment. FIG. 3 is a diagram showing an example of the configuration of the information processing apparatus according to the first embodiment. FIG. 4 is a flowchart showing an example of the operation of the DSP (Digital Signal Processor) according to the first embodiment. FIG. 5 is a flowchart showing an example of the operation of the MCU (Micro Controller Unit) according to the first embodiment. FIG. 6 is a flowchart showing an example of the operation of the video controller according to the first embodiment. FIG. 7 is a diagram showing an example of the configuration of the display device according to the second embodiment.

Hereinafter, the display device and the information processing device according to the embodiment of the present invention will be described in detail with reference to the drawings. The disclosed technology is not limited by these embodiments. Further, in the embodiment, the same reference numerals are given to the configurations having the same functions, and duplicate description is omitted.

(First Embodiment)
FIG. 1 is a diagram showing an example of the appearance of the information processing apparatus according to the first embodiment. As shown in FIG. 1, the information processing device 1 according to the first embodiment includes a housing 2, a keyboard 3, and a mouse 4.

A display screen 5 surrounded by a frame 6 is provided on the front surface of the housing 2. The display screen 5 can display an image.

The keyboard 3 and the mouse 4 are input devices for the user to input information to the information processing device 1. In this example, the keyboard 3 and the mouse 4 are connected to the housing 2 by wire, but may be wirelessly connected to the housing 2.

In the first embodiment, the information processing device 1 is configured so that the OSD (On-Screen Display) menu can be operated by voice. The OSD menu shows the setting contents of one or more items related to the display of the display screen 5. The user can adjust the setting level of each item while looking at the OSD menu displayed on the display screen. That is, the information processing device 1 is configured to be able to adjust the setting level of a desired item included in the OSD menu according to a voice instruction.

FIG. 2 is a diagram showing an example of an OSD menu displayed on the display screen 5 of the first embodiment. In the example of this figure, the OSD menu 7 has three items: brightness, contrast, and volume. The brightness means the brightness of the image displayed on the display screen 5, and the contrast means the contrast of the image displayed on the display screen 5. The volume means the loudness of the sound output from the speaker 105 included in the information processing device 1. As described above, the OSD menu 7 may include items other than the setting items related to the display of the display screen 5.

Further, in the example of FIG. 2, a bar indicating the current setting level is displayed on the right side of each item name. Each item is adjustable to a level in the range 0-100.

Further, in the example of FIG. 2, the brightness item among the three items included in the OSD menu 7 is displayed in an emphasized manner surrounded by the frame 8. The frame 8 shows an item in the state of waiting for adjustment (in other words, the state of being adjustable). That is, when the user instructs the level by voice while the OSD menu 7 of FIG. 2 is displayed, the brightness setting level is changed to the instructed level.

The setting level is not adjusted for items that are not displayed as waiting for adjustment. Further, when the OSD menu 7 is not displayed, the setting level is not adjusted for any of the items.

The method of clearly indicating the item in the state of waiting for adjustment is not limited to enclosing it in the frame 8. For example, the item in the adjustment waiting state may be specified by blinking the item name or inverting the color of the item name.

The OSD menu 7 shown in FIG. 2 is an example. The OSD menu 7 may be composed of a plurality of layers. The OSD menu 7 may also include any item, such as distortion or color balance, in addition to brightness and contrast.

Since the information processing device 1 is configured so that the setting level of each item included in the OSD menu 7 can be adjusted by voice, a hard switch for adjusting the setting level of each item included in the OSD menu 7. Is unnecessary. Since it is not necessary to secure a space for arranging such a hard switch in the frame 6, it is possible to adopt a stylish design in which the width of the frame 6 is made as narrow as possible.

Hereinafter, each item included in the OSD menu 7 will be referred to as an OSD item.

FIG. 3 is a diagram showing an example of the configuration of the information processing apparatus 1 according to the first embodiment. As shown in FIG. 3, the housing 2 is provided with an output system 100, a computer system 200, a power supply circuit 300, and a power supply switch 400.

The computer system 200 executes the process instructed by the user under the control of the operating system.

Specifically, the computer system 200 includes a CPU (Central Processing Unit) 201, a RAM (Random Access Memory) 202, a PCH (Platform Controller Hub) 203, an HDD (Hard Disk Drive) 204, and an ODD (Optical Disk Drive) 205. It includes a USB (Universal Serial Bus) controller 206, an Ethernet (registered trademark) controller 207, and an audio codec 208.

HDD204 and ODD205 are non-volatile storage devices. Data, computer programs, and the like can be stored in the HDD 204 and ODD 205 in a non-volatile manner.

The RAM 202 is a volatile storage device. The RAM 202 may be used by the CPU 201 as a buffer area for temporarily holding data or computer programs.

The USB controller 206 is a circuit that controls communication with a USB-compliant external device. In the example of FIG. 3, the keyboard 3 and the mouse 4 are connected to the USB controller 206.

The Ethernet (registered trademark) controller 207 is an interface device for connecting the information processing device 1 to a network (not shown).

The audio codec 208 is a circuit capable of encoding and decoding a digitized electrical audio signal.

The PCH 203 is a circuit that relays information between the CPU 201, the HDD 204, the ODD 205, the USB controller 206, the Ethernet (registered trademark) controller 207, and the audio codec 208. The PCH 203 is also connected to an MCU (Micro Controller Unit) 107, which will be described later.

The CPU 201 realizes the function of the operating system by, for example, loading the operating system program stored in the HDD 204 in advance into the RAM 202 and executing the operating system program loaded in the RAM 202. Further, the CPU 201 can execute various processes instructed by the user under the control of the operating system. Then, the CPU 201 can output a video signal corresponding to the process.

Specifically, for example, the application program is stored in the HDD 204 or the ODD 205. By operating the keyboard 3 or the mouse 4, the user inputs an instruction to start the application program to the information processing device 1. The CPU 201 loads the application program into the RAM 202 and executes the application program loaded in the RAM 202. The application program loaded in the RAM 202 can use the resources included in the information processing device 1 via the operation system. For example, the application program can acquire the information input from the keyboard 3 and the mouse 4 under the control of the operating system. The CPU 201 can output a video signal for displaying a window prompting an operation input for the application program on the display screen 5 in response to the activation of the application program. When the CPU 201 receives an operation input for the application program from the user, the CPU 201 can change the display content of the display screen 5 according to the operation input.

In this way, the CPU 201 can execute the process instructed by the user and output the video signal corresponding to the process.

The output system 100 can output video and audio. Specifically, the output system 100 includes a video controller 101, an HDMI (registered trademark) (High-Definition Multimedia Interface) terminal 102, a liquid crystal panel 103, a DSP 104, a speaker 105, a microphone 106, and an MCU 107.

The DSP 104 is an example of the first processor. The video controller 101 is an example of a second processor. MCU107 is an example of a third processor. The liquid crystal panel 103 is an example of a display unit. The HDMI (registered trademark) terminal 102 is an example of an external input terminal.

The liquid crystal panel 103 constitutes the display screen 5. That is, the liquid crystal panel 103 can output various information in a manner that can be visually recognized by the user. As the display unit, any device other than the liquid crystal panel 103 can be adopted as long as various information can be output in a manner that can be visually recognized by the user. For example, an organic EL (Electro Luminescence) panel can be adopted as the display unit.

The HDMI (registered trademark) terminal 102 can accept the input of a video signal from an external device. An external device that inputs a video signal to the HDMI (registered trademark) terminal 102 is, for example, a recording device or a game device. A terminal other than the HDMI (registered trademark) terminal 102 can be adopted as the external input terminal as long as it can accept the input of the video signal from the external device.

The video controller 101 may also be referred to as a scaler. The video controller 101 can simultaneously or selectively select the video signal output from the CPU 201 and the video signal input from the external input terminal by screen division and output the video signal to the liquid crystal panel 103.

Further, the video controller 101 can output the OSD menu 7 to the display screen 5 and adjust the mode of displaying the video signal on the display screen 5 according to the setting level of each item of the OSD menu 7.

The microphone 106 can convert an audio signal input as vibration of air into an electrical audio signal and input it to the DSP 104.

The DSP 104 attempts to acquire OSD items and numerical information from the audio signal input from the microphone 106.

According to the example shown in FIG. 2, the user can utter the desired OSD item of brightness, contrast, and volume. Further, the user can utter a numerical value in the range of 0 to 100 as the numerical information. When the user utters the OSD item or numerical information, the uttered OSD item or numerical information is acquired by the microphone 106 as an electrical voice signal. Then, the DSP 104 identifies and acquires the OSD item or the numerical information from the voice signal.

The method of identifying and acquiring the OSD item or numerical information from the voice signal is not limited to a specific method. For example, in a ROM (Read Only Memory) (not shown) included in the DSP 104, a firmware in which the correspondence between the voice waveform of the voice signal and the OSD item and the correspondence between the voice waveform of the numerical information and the numerical information are preset. The program is stored in advance. Based on the firmware program, the DSP 104 compares the audio signal input from the microphone 106 with each waveform stored in advance in the ROM. The DSP 104 can identify and acquire the OSD item and the numerical information included in the voice signal by the comparison.

When the OSD item is acquired from the audio signal, the DSP 104 transmits the OSD item to the video controller 101. When the numerical information is acquired from the audio signal, the DSP 104 transmits the numerical information to the video controller 101. When the video controller 101 receives the OSD item and the numerical information, the video controller 101 changes the setting level of the OSD item to the level indicated by the numerical information.

The OSD item included in the audio signal corresponds to the first information. The numerical information included in the voice signal corresponds to the second information.

The interface for transmitting OSD items and the interface for transmitting numerical information can be arbitrarily selected. An example of an interface for transmitting each information will be described below.

For example, the video controller 101 includes a GPIO (General-purpose input / output) terminal group and a UART (Universal Asynchronous Receiver / Transmitter) terminal.

Then, three GPIO terminals in the GPIO terminal group are associated with three OSD items in the OSD menu 7. For example, GPIO terminal # 0 is associated with brightness, GPIO terminal # 1 is associated with contrast, and GPIO terminal # 2 is associated with volume. The DSP 104 deactivates GPIO terminals # 0 to GPIO terminals # 2 when none of the OSD items have been acquired. Then, when the OSD item is acquired from the audio signal, the DSP 104 activates the GPIO terminal corresponding to the OSD item among the GPIO terminals # 0 to GPIO terminal # 2. As a result, the acquired OSD item is transmitted to the video controller 101. That is, the OSD item is transmitted by a 3-bit GPIO control signal that controls a total of three GPIO terminals of GPIO terminal # 0 to GPIO terminal # 2.

Each GPIO terminal can receive binary information consisting of an activated state and an deactivated state, whereas the UART terminal can receive more information than the GPIO terminal. .. Therefore, the UART terminal included in the video controller 101 is used for receiving numerical information. That is, the video controller 101 can receive numerical information by a signal compliant with UART communication.

Here, in the example of FIG. 3, it is assumed that the DSP 104 does not have a URAT terminal. The DSP 104 includes an I2C (Inter-Integrated Circuit) terminal instead of the URAT terminal as a terminal capable of outputting more information than the GPIO terminal. When the numerical information is acquired from the audio signal, the DSP 104 outputs the numerical information from the I2C terminal. That is, the DSP 104 can transmit numerical information by a signal conforming to I2C communication.

The numerical information output from the I2C terminal is input to the MCU 107. The MCU 107 operates based on a firmware program stored in a ROM (not shown). Based on the firmware program, the MCU 107 performs a process of converting the communication interface from I2C to UART with respect to the input numerical information. After converting the communication interface, the MCU 107 inputs the numerical information to the UART terminal provided in the video controller 101.

By interposing the MCU 107 that converts the interface between the DSP 104 and the video controller 101 in this way, it is possible to transmit numerical information between the DSP 104 and the video controller 101 that support different interfaces. ing.

If the DSP 104 and the video controller 101 support the same interface as an interface capable of transmitting numerical information, the MCU 107 can be omitted.

The GPIO control signal is an example of the first interface. The UART is an example of a second interface capable of transmitting numerical information. I2C is an example of a third interface capable of transmitting numerical information.

The DSP 104 can also output the audio signal input from the microphone 106 to the audio codec 208 via the I2C terminal. The audio signal input from the DSP 104 to the audio codec 208 can be used for various processes under the control of the operating system.

Further, the DSP 104 can output the audio signal input from the audio codec 208 to the speaker 105. The speaker 105 can output the electrical audio signal input from the DSP 104 as vibration of air, that is, sound.

The power supply circuit 300 generates electric power to drive the computer system 200 and the output system 100 based on the electric power from a commercial power source (not shown). Then, the power supply circuit 300 supplies the generated electric power to the computer system 200 via the power supply switch 400. Further, the power supply circuit 300 supplies the generated electric power to the output system 100 without going through the power supply switch 400.

The power switch 400 is a switch for turning on / off the power supply to the computer system 200. The power switch 400 may be configured by a hard switch provided on the back surface or the side surface of the housing 2. Alternatively, the power switch 400 may be configured by a switch circuit that is turned on / off by an operation input from the keyboard 3.

Since the output system 100 is configured so that power is supplied to the output system 100 without going through the power switch 400, the output system 100 operates regardless of whether or not the computer system 200 is powered on. Is possible.

Therefore, for example, even when the computer system 200 is powered off, the user can connect an external device to the HDMI (registered trademark) terminal 102 and display a video signal from the external device on the display screen 5. is there. Further, even when the computer system 200 is powered off, the user can adjust the setting level of the desired OSD item by voice.

Of course, even when the computer system 200 is powered on, the user can adjust the setting level of the desired OSD item by voice.

In the example of FIG. 3, the MCU 107 is connected to the PCH 203. Therefore, for example, the MCU 107 can also receive numerical information from the computer system 200. The MCU 107 may not be able to receive numerical information from the computer system 200.

Subsequently, the operation of the information processing apparatus 1 according to the first embodiment will be described. Here, the operation of adjusting the setting level of the OSD item will be described.

FIG. 4 is a flowchart showing an example of the operation of the DSP 104 according to the first embodiment. The operation shown in this figure is realized, for example, by the DSP 104 executing the firmware program for the DSP 104.

The DSP 104 attempts to acquire OSD items and numerical information from the audio signal input from the microphone 106 (S101). The process of S101 is always executed while power is being supplied from the power supply circuit 300 to the output system 100.

Then, the DSP 104 determines whether or not the OSD item has been acquired (S102). When the OSD item is acquired (S102: Yes), the DSP 104 transmits a GPIO control signal specifying the acquired OSD item to the video controller 101 (S103). More specifically, the DSP 104 activates the GPIO terminal corresponding to the acquired OSD item.

When the OSD item has not been acquired (S102: No), or after the processing of S103, the DSP 104 determines whether or not the numerical information has been acquired (S104). When the numerical information is acquired (S104: Yes), the DSP 104 transmits the acquired numerical information to the MCU 107 by I2C communication (S105). That is, the DSP 104 transmits numerical information from the I2C terminal to the MCU 107. When the numerical information is not acquired (S104: No), and after the processing of S105, the DSP 104 executes the processing of S102.

FIG. 5 is a flowchart showing an example of the operation of the MCU 107 according to the first embodiment. The operation shown in this figure is realized, for example, by the MCU 107 executing the firmware program for the MCU 107. The firmware program for the MCU 107 is stored in advance in a ROM (not shown) built in the MCU 107.

When the MCU 107 receives the numerical information from the DSP 104 by I2C communication (S201), the MCU 107 converts the interface and transmits the numerical information to the video controller 101 by UART communication (S202). That is, the MCU 107 inputs the numerical information to the UART terminal of the video controller 101. By S202, the MCU 107 ends the operation and waits for the reception of the next numerical information.

FIG. 6 is a flowchart showing an example of the operation of the video controller 101 according to the first embodiment. The operation shown in this figure is realized, for example, by the video controller 101 executing a firmware program for the video controller 101. The firmware program for the video controller 101 is stored in advance in a ROM (not shown) built in the video controller 101.

First, the video controller 101 determines whether or not the GPIO control signal specifying the OSD item has been received (S301). When the GPIO control signal specifying the OSD item is received (S301: Yes), the video controller 101 displays the OSD menu 7 in which the specified OSD item is waiting for adjustment on the display screen 5 (S302). ).

For example, when a GPIO control signal for specifying the brightness is received, the video controller 101 displays the OSD menu 7 in which the OSD item of the brightness is surrounded by the frame 8 on the display screen 5 as shown in FIG. ..

The video controller is a state in which the OSD menu 7 in which the specified OSD item is not shown as a state of waiting for adjustment is displayed on the display screen 5 and a state in which the OSD menu 7 is not displayed on the display screen 5. 101 corresponds to the first state in which the setting level of the specified OSD item is not adjusted. The state in which the OSD menu 7 in which the designated OSD item is displayed as the state waiting for adjustment is displayed on the display screen 5 corresponds to the second state in which the video controller 101 can adjust the setting level of the OSD item.

Following S302, the video controller 101 starts counting the elapsed time since S302 was executed (S303). Then, the video controller 101 determines whether or not the elapsed time has reached a predetermined threshold value (for example, 10 seconds) (S304).

When the elapsed time has not reached a predetermined threshold value (S304: No), the video controller 101 determines whether or not the numerical information has been received by the UART communication (S305). When the numerical information is received by the UART communication (S305: Yes), the setting level of the OSD item in the adjustment waiting state is changed to the level corresponding to the received numerical information (S306).

For example, when the numerical information "55" is received when the OSD item related to brightness is in the state of waiting for adjustment, the video controller 101 changes the brightness setting level from the current level to "55". To do.

When the numerical information is not received by the UART communication (S305: No), the video controller 101 executes the process of S304 again.

When the elapsed time reaches a predetermined threshold value (S304: Yes), or after the processing of S306, the video controller 101 closes the display of the OSD menu 7 (S307), ends the operation, and sets the OSD item. Waits for the next GPIO control signal to be specified to be received.

As described above, according to the first embodiment, the information processing device 1 includes a liquid crystal panel 103 as a display unit, a microphone 106 for acquiring an audio signal, a DSP 104 as a first processor, and a second processor. The video controller 101 is provided as the above. The DSP 104 acquires OSD items and numerical information from the voice signal. The video controller 101 changes the setting level of the OSD item acquired from the audio signal among the one or more OSD items related to the display on the display unit to a level corresponding to the numerical information acquired from the audio signal.

As a result, it is possible to eliminate the button for adjusting the setting level of the OSD item from the frame 6. As a result, for example, it is possible to adopt a stylish design in which the width of the frame 6 is made as narrow as possible.

In the above, numerical information is given as the second information indicating the level. The second information is not limited to numerical information. The second information may be information indicating the changing direction of the setting level in the positive direction and the negative direction, such as "up" and "down". When the change direction is received, the video controller 101 may change the setting level of the OSD item acquired in advance by a predetermined step size in the specified direction.

Further, according to the first embodiment, as shown in S302 of FIG. 6, the video controller 101 is in a state where the OSD item can be adjusted according to the OSD item acquired by the DSP 104. When the DSP 104 acquires the numerical information in a state where the video controller 101 can adjust the OSD item, the video controller 101 changes the setting level of the OSD item.

As a result, the information processing apparatus 1 can change the setting level of the OSD item when the numerical information is instructed by voice after the OSD item is instructed by voice. For example, if the numerical information is erroneously acquired and then the OSD item is acquired, it is possible to prevent the setting level of the OSD item from being changed based on the erroneously acquired numerical information.

Further, according to the first embodiment, when the video controller 101 determines Yes in S304 of FIG. 6, the OSD menu 7 is closed and the setting level of any OSD item is not adjusted. That is, when the elapsed time from the transition to the adjustable state of the specified OSD item reaches the threshold value, the video controller 101 does not adjust the OSD item from the adjustable state. Transition to the state.

As a result, even if the user utters the OSD item, for example, the information processing device 1 may continue to wait for the adjustment of the setting level of the OSD item if the user does not continue to utter the numerical information. It is possible to end the operation of adjusting the setting level of the OSD item.

In the above description, the video controller 101 has transitioned from a state in which the OSD item can be adjusted to a state in which the OSD item is not adjusted when the elapsed time reaches the threshold value. The trigger of the state transition is not limited to the trigger based on the elapsed time.

In one example, the DSP 104 is configured to be able to obtain a specific command, such as termination, from an audio signal. Then, the video controller 101 may close the OSD menu 7 and transition to a state in which the OSD item is not adjusted when the specific command is acquired when a certain OSD item is in an adjustable state. ..

Further, according to the first embodiment, the video controller 101 can receive the GPIO control signal and the signal conforming to the UART interface. The information processing device 1 further includes an MCU 107 that converts an interface from I2C to UART. The DSP 104 transmits the OSD item to the video controller 101 using the GPIO control signal. Further, the DSP 104 transmits numerical information to the MCU 107 using a signal conforming to the I2C interface. The MCU 107 transmits the received numerical information to the video controller 101 using a signal conforming to the UART interface.

That is, by interposing the MCU 107 that converts the interface between the DSP 104 and the video controller 101, it is possible to transmit numerical information between the DSP 104 and the video controller 101 that support different interfaces. ..

According to the first embodiment, the information processing device 1 includes a housing 2, and the housing 2 includes an HDMI (registered trademark) terminal 102, a computer system 200, a liquid crystal panel 103, a microphone 106, a DSP 104, and a video. It includes a controller 101. The HDMI (registered trademark) terminal 102 is an external input terminal that receives an input of a video signal from an external device. The computer system 200 can execute the process instructed by the user under the control of the operating system and output a video signal corresponding to the process. The video controller 101 can output the video signal input from the HDMI (registered trademark) terminal 102 and the video signal output by the computer system 200 to the liquid crystal panel 103.

That is, the liquid crystal panel 103, the microphone 106, the DSP 104, and the video controller 101 are provided independently of the computer system 200. Therefore, the information processing apparatus 1 can execute the operation of adjusting the setting level of the OSD item according to the instruction by voice without going through the computer system 200.

Further, according to the first embodiment, power is supplied to the HDMI (registered trademark) terminal 102, the liquid crystal panel 103, the microphone 106, the DSP 104, and the video controller 101 regardless of whether or not the computer system 200 is supplied with power. Is supplied.

As a result, even when the computer system 200 is powered off, the user can connect an external device to the HDMI (registered trademark) terminal 102 and display a video signal from the external device on the display screen 5. .. Further, even when the computer system 200 is powered off, the user can adjust the setting level of the desired OSD item by voice.

(Second Embodiment)
In the first embodiment, an example in which the technique of the present disclosure is applied to an information processing apparatus 1 having a configuration in which a computer system 200 and an output system 100 are housed in one housing 2 has been described. The technique of the present disclosure is also applicable to a display device that does not have a computer system 200. In the second embodiment, an example in which the technique of the present disclosure is applied to a display device that does not have the computer system 200 will be described.

FIG. 7 is a diagram showing an example of the configuration of the display device according to the second embodiment. As shown in this figure, the display device 9 includes a video controller 101, an HDMI (registered trademark) terminal 102, a liquid crystal panel 103, a DSP 104, a speaker 105, a microphone 106, and an MCU 107. The functions of the video controller 101, the HDMI (registered trademark) terminal 102, the liquid crystal panel 103, the DSP 104, the speaker 105, the microphone 106, and the MCU 107 are the same as the functions of the components of the same name according to the first embodiment. In the second embodiment, the HDMI (registered trademark) terminal 102 can receive input of a video signal from an external device such as a recording device, a game device, or an information processing device. The video controller 101 outputs a video signal input from an external device to the HDMI (registered trademark) terminal 102 to the liquid crystal panel 103.

The DSP 104 can perform a series of operations illustrated in FIG. In addition, the MCU 107 can perform a series of operations illustrated in FIG. In addition, the video controller 101 can perform a series of operations illustrated in FIG.

That is, according to the second embodiment, the display device 9 includes a liquid crystal panel 103 as a display unit, a microphone 106 for acquiring an audio signal, a DSP 104 as a first processor, and a video as a second processor. It includes a controller 101. The DSP 104 acquires OSD items and numerical information from the voice signal. The video controller 101 changes the setting level of the OSD item acquired from the audio signal among the one or more OSD items related to the display on the display unit to a level corresponding to the numerical information acquired from the audio signal.

As a result, it is possible to eliminate the button for adjusting the setting level of the OSD item from the frame 6. As a result, for example, it is possible to adopt a stylish design in which the width of the frame 6 is made as narrow as possible.

Further, according to the second embodiment, as shown in S302 of FIG. 6, the video controller 101 is in a state where the OSD item can be adjusted according to the OSD item acquired by the DSP 104. When the DSP 104 acquires the numerical information in a state where the video controller 101 can adjust the OSD item, the video controller 101 changes the setting level of the OSD item.

As a result, the display device 9 can change the setting level of the OSD item when the numerical information is instructed by voice after the OSD item is instructed by voice. For example, if the numerical information is erroneously acquired and then the OSD item is acquired, it is possible to prevent the setting level of the OSD item from being changed based on the erroneously acquired numerical information.

Further, according to the second embodiment, when the video controller 101 determines No in S304 of FIG. 6, the OSD menu 7 is closed and the setting level of any OSD item is not adjusted. That is, when the elapsed time from the transition to the adjustable state of the specified OSD item reaches the threshold value, the video controller 101 does not adjust the OSD item from the adjustable state. Transition to the state.

As a result, the display device 9 does not continue to wait for the adjustment of the setting level of the OSD item when the user does not continue to utter the numerical information even if the user utters the OSD item, for example. , It is possible to end the operation of adjusting the setting level of the OSD item.

Also in the second embodiment, the trigger for the video controller 101 to transition from the state in which the OSD item can be adjusted to the state in which the OSD item is not adjusted is not limited to the trigger based on the elapsed time.

Although some embodiments of the present disclosure have been described, these embodiments are presented as examples and are not intended to limit the scope of the invention. These novel embodiments can be implemented in various other embodiments, and various omissions, replacements, and changes can be made without departing from the gist of the invention. These embodiments are included in the scope and gist of the invention, and are included in the scope of the invention described in the claims and the equivalent scope thereof.

1 Information processing device 2 Housing 3 Keyboard 4 Mouse 5 Display screen 6 Frame 7 OSD menu 8 Frame 9 Display device 100 Output system 101 Video controller 102 HDMI (registered trademark) terminal 103 Liquid crystal panel 104 DSP
105 Speaker 106 Microphone 107 MCU
200 computer system 201 CPU
202 RAM
203 PCH
204 HDD
205 ODD
206 USB controller 207 Ethernet (registered trademark) controller 208 audio codec 300 power supply circuit 400 power supply switch

The information processing apparatus according to the first aspect of the present invention includes a power supply circuit that generates power based on an external power source, a computer system, and supplies the power to the computer system or supplies the power according to a user's operation. a power switch for or shut off, wherein the power the power to the computer system regardless of whether or not they are supplied are supplied, a display unit, a microphone, a first processor, a second processor In the display system, the microphone acquires an audio signal, and the first processor obtains the first information from the audio signal, regardless of whether or not the power is supplied to the computer system. And the second information, the second processor can output the first video signal to the display unit, and sets the setting level of the setting item corresponding to the first information related to the display of the display unit. When the level is changed according to the second information and the power is supplied to the computer system, the computer system executes the output of the second video signal and the use of the audio signal under the control of the operating system. In the display system, the second processor can output the first video signal or the second video signal to the display unit, and the first processor outputs the audio signal to the computer system. To.

Further, in the information processing apparatus according to the first aspect of the present invention, the second processor does not adjust the setting level of the setting item according to the first information acquired by the first processor. When the first state acquires the second information in the second state after transitioning from the first state to the second state in which the setting level of the setting item can be adjusted, the setting level of the setting item is changed. To execute.

Further, in the information processing apparatus according to the first aspect of the present invention, when the second processor reaches the threshold value after the transition from the first state to the second state. The transition from the second state to the first state.

Further, in the information processing apparatus according to the first aspect of the present invention, the second processor conforms to a first signal for designating the setting items and a second interface capable of transmitting numerical information. Signals and can be received. The display device according to the first aspect of the present invention is a second interface capable of transmitting numerical information, and a third signal conforming to the second interface different from the first interface is transmitted to the second signal. The first processor further comprises a third processor that converts the first information into the second signal using the first signal, and the second information is transmitted to the third signal. Is transmitted to the third processor, and the third processor transmits the received second information to the second processor using the second signal.

The information processing apparatus according to a first aspect of the present invention, the second information indicates the change direction, the second processor to change by a predetermined step size of the set level in the changed direction.

Claims (6)

Display and
With a microphone that acquires audio signals,
A first processor that acquires first information and second information from the voice signal, and
A second processor that changes the setting level of the setting item corresponding to the first information related to the display of the display unit to a level corresponding to the second information.
A display device comprising. The second processor can adjust the setting level of the setting item from the first state in which the setting level of the setting item is not adjusted according to the first information acquired by the first processor. When the state is changed and the first processor acquires the second information in the second state, the setting level of the setting item is changed.
The display device according to claim 1. When the elapsed time from the transition from the first state to the second state reaches the threshold value, the second processor transitions from the second state to the first state.
The display device according to claim 2. The second processor can receive a first signal that specifies the setting item and a second signal that conforms to the first interface capable of transmitting numerical information.
Further comprising a third processor that converts a third signal, which is a second interface different from the first interface and is compliant with the second interface capable of transmitting numerical information, into the second signal.
The first processor transmits the first information to the second processor using the first signal, and transmits the second information to the third processor using the third signal. ,
The third processor transmits the received second information to the second processor using the second signal.
The display device according to any one of claims 1 to 3. An external input terminal that accepts the input of the first video signal,
A computer system that executes the processing instructed by the user under the control of the operating system and outputs a second video signal according to the processing.
Display and
With a microphone that acquires audio signals,
A first processor that acquires first information and second information from the voice signal, and
A second processor that outputs the first video signal and the second video signal to the display unit, and
A housing including the external input terminal, the display unit, the microphone, the computer system, the first processor, and the second processor.
With
The second processor changes the setting level of the setting item corresponding to the first information related to the display of the display unit to the level corresponding to the second information.
Information processing device. Power is supplied to the external input terminal, the display, the microphone, the first processor, and the second processor, regardless of whether or not the computer system is powered.
The information processing device according to claim 5.

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