JP2020166010A - Information processor, display device, display system, and display method - Google Patents

Abstract

To further reduce power consumption of an entire system in a power-saving mode.SOLUTION: An information processor for transmitting a video signal to a display device has a plurality of operation modes including a normal operation mode and a power-saving mode reducing power consumption than the normal operation mode, and transits from an operation mode of the own device to the normal operation mode and transits an operation mode of the display device to the normal operation mode when a human sensor detects a person on the basis of a detection result of the human sensor included in the display device in the power-saving mode.SELECTED DRAWING: Figure 1

Description

The present invention relates to an information processing device, a display device, a display system, and a display method.

In the image display device, it is determined whether or not an object equipped with a motion sensor and using the image display device exists within the range, and if the object does not exist within the range, the mode shifts to the power saving mode. There is a technology to reduce the amount of electricity used.
Further, although the video display device and the personal computer that transmits the video signal to the video display device operate independently, Patent Document 1 provides personal information that the video display device has transitioned to the power saving mode. A technique for synchronizing the operation modes of a personal computer and a video display device by transmitting to a computer is described.

International Publication No. 2012/172679

However, in the technique described in Patent Document 1, the operation mode transition notification process is always performed from the video display device to the personal computer. That is, in the technique described in Patent Document 1, the image display device is in a state where a voltage is input to the circuit that controls the motion sensor even in the power saving mode. Therefore, for example, when the user is away from the desk for a long time, the video display device consumes a considerable amount of power.

Therefore, an object of the present invention is to provide an information processing device, a display device, a display system, and a display method that solve the above-mentioned problems.

According to the first aspect of the present invention, the information processing device has a plurality of operation modes including a normal operation mode and a power saving mode that reduces power consumption as compared with the normal operation mode, and is connected to the display device. The human sensor detected a person based on the detection results from the communication interface unit, the video signal processing unit that transmits a video signal to the display device, and the human sensor provided in the display device in the power saving mode. In this case, it is characterized by including a control signal processing unit that shifts the operation mode of the own device to the normal operation mode and also shifts the operation mode of the display device to the normal operation mode.

According to the second aspect of the present invention, the display device has a plurality of operation modes including a normal operation mode and a power saving mode that reduces power consumption as compared with the normal operation mode, and is connected to the information processing device. Based on the communication interface unit, the display unit that displays an image based on the video signal received from the information processing device, the human sensor capable of supplying the detection result to the information processing device, and the detection result of the human sensor. In the normal operation mode, power is supplied to each component including the sensor control unit, and in the power saving mode, a part of the components including the sensor control unit is configured. It is characterized by including a power supply control unit that stops the supply of electric power to the unit.

According to the third aspect of the present invention, the display system is a display system including a display device and an information processing device, and the display device reduces power consumption as compared with the normal operation mode and the normal operation mode. A communication interface unit that has a plurality of operation modes including a power saving mode and is connected to the information processing device, a display unit that displays an image based on a video signal received from the information processing device, and the information processing device. Power is supplied to each component including the human sensor that can supply the detection result, the sensor control unit that transitions the operation mode based on the detection result of the human sensor, and the sensor control unit in the normal operation mode. In the power saving mode, the information processing apparatus includes a power supply control unit that stops the supply of power to some of the components including the sensor control unit among the components, and the information processing apparatus includes a normal operation mode and the normal operation mode. It has a plurality of operation modes including a power saving mode that reduces power consumption more than the operation mode, and has a communication interface unit that connects to a display device, a video signal processing unit that transmits a video signal to the display device, and power saving. In the mode, when the human sensor detects a person based on the detection result from the human sensor included in the display device, the operation mode of the own device is changed to the normal operation mode, and the operation of the display device is performed. It is characterized by including a control signal processing unit that shifts the mode to a normal operation mode.

According to the fourth aspect of the present invention, the display method has a plurality of operation modes including a normal operation mode and a power saving mode that reduces power consumption as compared with the normal operation mode, and displays a video signal on the display device. It is a display method in the information processing device to transmit, and when the motion sensor detects a person based on the detection result of the motion sensor included in the display device in the power saving mode, the operation mode of the own device is set. It is characterized in that the operation mode of the display device is changed to the normal operation mode as well as the transition to the normal operation mode.

According to the fifth aspect of the present invention, the display method has a plurality of operation modes including a normal operation mode and a power saving mode that reduces power consumption as compared with the normal operation mode, and is received from the information processing apparatus. A display method in a display device that displays an image based on an image signal, and is a sensor control unit that transitions an operation mode based on the detection result of a human sensor capable of supplying the detection result to the information processing device in the normal operation mode. It is characterized in that power is supplied to each component including the above, and power supply to some of the components including the sensor control unit is stopped in the power saving mode.

According to the present invention, the power consumption of the entire system in the power saving mode can be further reduced.

It is a block diagram which shows the structure of the display system by embodiment of this invention. It is a functional block diagram of the information processing apparatus and the image display apparatus according to embodiment of this invention. It is a figure which shows the component part which power is supplied in the power saving mode of the information processing apparatus and the image display apparatus according to embodiment of this invention. It is a sequence diagram which shows the operation of the operation mode transition processing of the display system by embodiment of this invention. It is a figure which shows the minimum structure of the information processing apparatus and the image display apparatus of this invention.

Hereinafter, an information processing device, a display device, a display system, and a display method according to an embodiment of the present invention will be described with reference to the drawings.

<First Embodiment>
First, the first embodiment will be described.
FIG. 1 is a block diagram showing a configuration of a display system according to the present embodiment.
As shown in FIG. 1, the display system 100 includes an information processing device 1 and an image display device 2.
The information processing device 1 is an electronic device such as a personal computer, a tablet terminal, or a player that reproduces an image.
The image display device 2 is a display device such as a liquid crystal display, an organic EL (Electro-Luminescence) display, or a plasma display.
The information processing device 1 and the image display device 2 have a plurality of operation modes including a normal operation mode and a power saving mode in which power consumption is reduced as compared with the normal operation mode.

The information processing device 1 and the video display device 2 are connected to each other by, for example, two cables of HDMI (registered trademark) (High-Definition Multimedia Interface) and USB (Universal Serial Bus). The information processing device 1 transmits a video signal to the video display device 2 by HDMI. The video signal is a signal indicating a video to be displayed on the video display device 2. Further, the information processing device 1 and the video display device 2 transmit and receive control signals via USB. The control signal is a signal other than the video signal. For example, the information processing device 1 and the video display device 2 use a display data channel / command interface (DDC / CI) to transmit and receive control signals by the DDC / IC protocol.

FIG. 2 is a functional configuration diagram of the information processing device and the video display device according to the present embodiment.
The information processing device 1 includes at least a communication interface unit 11, a central processing unit 12, a power supply 13, and a storage device 14.

The communication interface unit 11 connects to the video display device 2 and performs communication. For example, the communication interface unit 11 transmits a video signal by HDMI and transmits and receives a control signal by USB.

The central processing unit 12 controls the information processing device 1 in an integrated manner. The central processing unit 12 includes a signal processing unit 121, a power supply control unit 122, and a calculation unit 123.

The signal processing unit 121 controls the signals transmitted and received to and from the video display device 2. The signal processing unit 121 includes a video signal processing unit 1211 and a control signal processing unit 1212.
The video signal processing unit 1211 executes a process for transmitting a video signal to the video display device 2. For example, the video signal processing unit 1211 transmits a video signal to the video display device 2 in the normal operation mode. Further, the video signal processing unit 1211 stops transmitting the video signal to the video display device 2 in the power saving mode.

The control signal processing unit 1212 executes a process for transmitting and receiving a control signal to and from the video display device 2. Further, the control signal processing unit 1212 receives and processes input from an external device such as a mouse or a keyboard. Therefore, the control signal processing unit 1212 is a component unit that requires a minimum power supply even in the power saving mode. Further, the control signal processing unit 1212 is provided with an application programming interface (API) capable of directly accessing (connecting) the motion sensor 26 included in the video display device 2 and acquiring the detection data thereof. The detection data is data indicating the detection result of the motion sensor 26, and indicates, for example, the presence or absence of a person. The API is software that converts the detection data of the motion sensor 26 into a form that the information processing device 1 can recognize as an input from an external device. After the conversion, the control signal processing unit 1212 processes the data by the existing processing method. Therefore, the amount of increase in power consumption due to having the API is negligible. For example, the control signal processing unit 1212 connects to the motion sensor 26 via the USB port of the communication interface unit 11 of the information processing device 1 and the communication interface unit 21 of the video display device 2. The control signal processing unit 1212 is connected to the motion sensor 26 included in the image display device 2 in the power saving mode, and when the motion sensor 26 detects a person, the operation mode of the own device is changed to the normal operation mode. At the same time, the operation mode of the image display device 2 is changed to the normal operation mode. For example, the control signal processing unit 1212 shifts the operation mode of the video display device 2 to the normal operation mode by transmitting a video signal from the video signal processing unit 1211 to the video display device 2. Further, the control signal processing unit 1212 shifts the operation mode to the normal operation mode when receiving an input from an external device such as a mouse or a keyboard in the power saving mode. Further, when the video display device 2 notifies that the control signal processing unit 1212 will transition to the power saving mode, the control signal processing unit 1212 shifts the operation mode of its own device to the power saving mode. The notification indicates the detection result of the motion sensor 26 included in the image display device 2.

The power supply control unit 122 controls the input voltage with respect to the power supply 13.
The calculation unit 123 executes processing and calculations other than the processing executed by the signal processing unit 121 and the power supply control unit 122.

The power supply 13 supplies electric power to each component of the information processing device 1.
The storage device 14 stores various information. The storage device 14 includes a main storage device 141 and an external storage device 142.
The main storage device 141 is a volatile storage device. For example, the main storage device 141 temporarily stores the result of the calculation performed by the calculation unit 123.
The external storage device 142 is a non-volatile storage device. For example, the external storage device 142 permanently stores the data required for using the information processing device 1.

The image display device 2 includes at least a communication interface unit 21, a main control unit 22, a power supply 23, a display unit 24, a sensor control unit 25, and a motion sensor 26.

The communication interface unit 21 connects to the information processing device 1 and performs communication. For example, the communication interface unit 21 receives a video signal by HDMI and transmits and receives a control signal by USB.

The main control unit 22 is, for example, a microcomputer, and controls the video display device 2 in an integrated manner. The main control unit 22 includes a signal processing unit 221, a power supply control unit 222, and a display control unit 223.
The signal processing unit 221 controls signals transmitted and received to and from the information processing device 1. The signal processing unit 221 includes a video signal processing unit 2211 and a control signal processing unit 2212.
The video signal processing unit 2211 executes processing related to the video signal received from the information processing device 1. Further, when the video signal processing unit 2211 receives the video signal from the information processing device 1 in the power saving mode, the video signal processing unit 2211 shifts the operation mode of its own device to the normal operation mode.
The control signal processing unit 2212 executes processing for transmitting and receiving a control signal to and from the information processing device 1. Further, the control signal processing unit 2212 notifies the information processing device 1 by the control signal that the operation mode shifts to the power saving mode based on the detection result of the motion sensor 26. The notification indicates the detection result of the motion sensor 26.

The power supply control unit 222 controls the input voltage with respect to the power supply 23. For example, the power supply control unit 222 supplies power to each component including the sensor control unit 25 in the normal operation mode, and powers some of the components including the sensor control unit 25 in the power saving mode. Stop the supply of.
The display control unit 223 controls the display of the image to be displayed on the display unit 24.

The power supply 23 supplies electric power to each part of the image display device 2.
The display unit 24 is a display that displays an image based on the image signal received from the information processing device 1.
The sensor control unit 25 is an electronic circuit that controls the motion sensor 26. Electric power is supplied to the sensor control unit 25 via the main control unit 22. The sensor control unit 25 executes a process of transitioning the operation mode based on the detection result of the motion sensor 26. Specifically, the sensor control unit 25 shifts the operation mode of its own device to the power saving mode when the motion sensor 26 does not detect a person.
The motion sensor 26 is installed in front of the image display device 2 and detects a person (for example, a user who uses the image display device 2 and the information processing device 1) in front of the image display device 2. The motion sensor 26 can be directly accessed (connected) from the information processing device 1 without going through the sensor control unit 25.

Subsequently, the operation modes of the information processing device 1 and the video display device 2 will be described. The information processing device 1 and the image display device 2 have a plurality of operation modes including at least a normal operation mode and a power saving mode. The normal operation mode is a mode in which each component included in each device supplies an amount of electric power required for normal operation. Further, the power saving mode is a mode in which the minimum amount of power required for operation is supplied to some of the components included in each device.

FIG. 3 is a diagram showing a component to which power is supplied in the power saving mode of the information processing device and the image display device according to the present embodiment.
The shaded areas shown in this figure indicate the components to which power is not supplied in the power saving mode. The information processing device 1 and the video display device 2 supply electric power to all the components in the normal operation mode.

The power control unit 122 of the information processing device 1 stops supplying power to the video signal processing unit 1211, the calculation unit 123, and the external storage device 142 in the power saving mode. That is, the power supply control unit 122 of the information processing device 1 supplies power from the power supply 13 only to the communication interface unit 11, the control signal processing unit 1212, the power supply control unit 122, and the main storage device 141 in the power saving mode.

The power supply control unit 222 of the video display device 2 stops supplying power to the control signal processing unit 2212, the display control unit 223, the display unit 24, and the sensor control unit 25 in the power saving mode. That is, the power supply control unit 222 of the video display device 2 supplies power from the power supply 23 only to the communication interface unit 21, the video signal processing unit 2211, the power supply control unit 222, and the motion sensor 26 in the power saving mode.

FIG. 4 is a sequence diagram showing the operation of the operation mode transition process of the display system according to the present embodiment.
Next, the operation in the display system 100 will be described. The information processing device 1 and the video display device 2 execute the processes shown in this figure in the normal operation mode.

The sensor control unit 25 of the image display device 2 determines whether or not the motion sensor 26 has detected a person (step S101). That is, the sensor control unit 25 determines whether or not there is a person within the detection range of the motion sensor 26 (for example, within a predetermined range in front of the image display device 2). When the motion sensor 26 detects a person (step S101; Yes), the image display device 2 returns to the process of step S101 because the image display device 2 and the information processing device 1 do not need to transition to the power saving mode. .. On the other hand, when the motion sensor 26 does not detect a person (step S101; No), the image display device 2 proceeds to the process of step S102.

The image display device 2 transitions from the normal operation mode to the power saving mode (step S102). Specifically, first, the sensor control unit 25 stores the detection data of the motion sensor 26 in a register. Subsequently, after the standby of the transition to the power saving mode is completed, the control signal processing unit 2212 notifies the transition to the power saving mode based on the value of the detection data stored in the register of the DDC / CI protocol. Generate notification data. Then, the control signal processing unit 2212 transmits the generated notification data as a control signal to the information processing device 1 in order to synchronize the operation mode with the information processing device 1. After that, the power supply control unit 222 of the image display device 2 stops supplying power to the control signal processing unit 2212, the display control unit 223, the display unit 24, and the sensor control unit 25, and transitions to the power saving mode. As described above, in the image display device 2 according to the present embodiment, since the power transmission to the sensor control unit 25 is stopped in the power saving mode, the sensor control is performed with respect to the above-mentioned related technology that does not stop the power transmission to the sensor control unit 25. It is possible to reduce the electric power used for the unit 25.

The information processing device 1 that has received the notification data transmitted from the video display device 2 to the information processing device 1 in step S102 transitions from the normal operation mode to the power saving mode (step S103). Specifically, the power supply control unit 122 of the information processing device 1 stops the supply of electric power to the video signal processing unit 1211, the calculation unit 123, and the external storage device 142. Further, at this time, the information processing device 1 also stops the transmission of the video signal transmitted from the information processing device 1 to the video display device 2 by stopping the power transmission to the video signal processing unit 1211. At this point, the synchronization of the operation modes between the information processing device 1 and the video display device 2 is completed.

Since the power transmission to the sensor control unit 25 of the image display device 2 is stopped in step S102, the image display device 2 cannot notify the information processing device 1 of the detection result of the motion sensor 26. Therefore, the control signal processing unit 1212 of the information processing device 1 accesses the motion sensor 26 of the video display device 2 for the purpose of directly acquiring the detection data of the motion sensor 26 via USB (step S104).

The control signal processing unit 1212 acquires the detection data of the motion sensor 26 after the access to the motion sensor 26 of the image display device 2 is completed. The control signal processing unit 1212 converts the acquired detection data into a format that the information processing device 1 can recognize as an input from an external device. Then, the control signal processing unit 1212 determines whether or not the motion sensor 26 has detected a person based on the acquired detection data (step S105). When the motion sensor 26 does not detect a person (step S105; No), the information processing device 1 maintains the current operation mode and executes the process of step S105 again. On the other hand, when a person enters the detection range of the motion sensor 26 and the motion sensor 26 detects the person (step S105; Yes), the information processing device 1 proceeds to the process of step S106.

The information processing device 1 transitions from the power saving mode to the normal operation mode (step S106). Specifically, the power supply control unit 122 of the information processing device 1 resumes the supply of electric power to the video signal processing unit 1211, the calculation unit 123, and the external storage device 142. The video signal processing unit 1211 transmits a video signal to the video display device 2 at the same time as the transition to the normal operation mode (that is, at the same time when power is supplied).

When the video display device 2 receives the video signal, the video display device 2 shifts to the normal operation mode even in the power saving mode. Therefore, the video signal processing unit 2211 of the video display device 2 determines whether or not the video signal has been received from the information processing device 1 (step S107). When the video display device 2 has not received the video signal (step S107; No), the video display device 2 executes the process of step S107 again. On the other hand, when the video display device 2 receives the video signal (step S107; Yes), the video display device 2 proceeds to the process of step S108.

The image display device 2 transitions from the power saving mode to the normal operation mode (step S108). Specifically, the power supply control unit 222 of the video display device 2 restarts the supply of electric power to the control signal processing unit 2212, the display control unit 223, the display unit 24, and the sensor control unit 25. Here, the synchronization of the operation modes of the information processing device 1 and the video display device 2 is completed.

As described above, according to the present embodiment, the video display device 2 has a plurality of operation modes including a normal operation mode and a power saving mode, and the communication interface unit 21 connected to the information processing device 1 and information processing A display unit 24 that displays an image based on a video signal received from the device 1, a motion sensor 26 that can be connected from the information processing device 1, and a sensor control that transitions an operation mode based on the detection result of the motion sensor 26. Power is supplied to the unit 25 and each component including the sensor control unit 25 in the normal operation mode, and the power supply to some of the components including the sensor control unit 25 is stopped in the power saving mode. The power supply control unit 222 is provided. Further, the information processing device 1 has a plurality of operation modes including a normal operation mode and a power saving mode, and the communication interface unit 11 connected to the video display device 2 and the video for transmitting the video signal to the video display device 2 The signal processing unit 1211 is connected to the human sensor 26 included in the image display device 2 in the power saving mode, and when the human sensor 26 detects a person, the operation mode of the own device is changed to the normal operation mode. , A control signal processing unit 1212 that shifts the operation mode of the image display device 2 to the normal operation mode.

With such a configuration, the transition to the normal operation mode based on the detection result of the motion sensor 26 included in the image display device 2 is performed with the information processing device 1 without supplying power to the sensor control unit 25 in the power saving mode. It can be synchronized with the display device 2. Therefore, for example, when the user who has left the seat returns to the seat, both the image display device 2 and the information processing device 1 can be automatically returned to the normal operation mode. Further, even if the information processing device 1 is in the power saving mode, the power is supplied to the control signal processing unit 1212 at a minimum in order to always receive an input from an external device such as a mouse or a keyboard. The control signal processing unit 1212 has an API necessary for recognizing the detection data from the motion sensor 26 as an input from an external device, and the amount of increase in power consumption due to having this API is It is a very small amount as compared with the power consumption of the sensor control unit 25 of the image display device 2. Further, the device configuration of the information processing device 1 does not change depending on whether the API is provided or not. Therefore, in the display system 100, it is possible to reduce the power consumption in the power saving mode by the amount of power used by the sensor control unit 25 with respect to the related technology described above. That is, the display system 100 according to the present embodiment can further reduce the power consumption of the entire system in the power saving mode.

Further, the sensor control unit 25 of the image display device 2 shifts the operation mode of its own device to the power saving mode when the motion sensor 26 does not detect a person, and the image display device 2 saves the operation mode. A control signal processing unit 2212 for notifying the information processing apparatus 1 of the transition to the power mode is further provided. When the video display device 2 notifies that the control signal processing unit 1212 of the information processing device 1 transitions to the power saving mode, the control signal processing unit 1212 shifts the operation mode of its own device to the power saving mode. The notification indicates the detection result of the motion sensor 26 included in the image display device 2. As a result, when the motion sensor 26 included in the image display device 2 does not detect a person, both the image display device 2 and the information processing device 1 transition to the power saving mode. That is, the transition to the power saving mode based on the detection result of the motion sensor 26 can be synchronized between the information processing device 1 and the image display device 2. Therefore, for example, when the user is away from the desk and is not in front of the video display device 2, both the video display device 2 and the information processing device 1 can be automatically transitioned to the power saving mode.

Further, the video signal processing unit 1211 of the information processing device 1 transmits a video signal to the video display device 2 when the operation mode of the own device shifts to the normal operation mode. When the video signal processing unit 2211 of the video display device 2 receives the video signal from the information processing device 1 in the power saving mode, the operation mode of the own device is changed to the normal operation mode. As a result, the information processing device 1 can shift the video display device 2 to the normal operation mode only by restarting the transmission of the video signal, that is, without using a special signal for shifting to the normal operation mode. ..

<Second embodiment>
Subsequently, the second embodiment will be described.
FIG. 5 is a diagram showing a minimum configuration of an information processing device and a video display device.
The information processing device 1 may include at least a communication interface unit 11, a video signal processing unit 1211, and a control signal processing unit 1212.
The communication interface unit 11 is connected to the video display device 2.
The video signal processing unit 1211 transmits a video signal to the video display device 2.
The control signal processing unit 1212 is connected to the motion sensor 26 included in the image display device 2 in the power saving mode, and when the motion sensor 26 detects a person, the operation mode of the own device is changed to the normal operation mode. At the same time, the operation mode of the image display device 2 is changed to the normal operation mode.

The image display device 2 may include at least a communication interface unit 21, a display unit 24, a motion sensor 26, a sensor control unit 25, and a power supply control unit 222.
The communication interface unit 21 connects to the information processing device 1.
The display unit 24 displays an image based on the image signal received from the information processing device 1.
The motion sensor 26 can be connected from the information processing device 1.
The sensor control unit 25 shifts the operation mode based on the detection result of the motion sensor 26.
The power supply control unit 222 supplies power to each component including the sensor control unit 25 in the normal operation mode, and supplies power to some of the components including the sensor control unit 25 in the power saving mode. To stop.

According to this embodiment, the power consumption of the entire system in the power saving mode can be reduced by the amount of power used by the sensor control unit 25.

Although one embodiment of the present invention has been described above, the present invention is not limited to the above-described embodiment, and various modifications can be made without departing from the spirit of the present invention.

For example, the connection between the information processing device 1 and the video display device 2 is not limited to the one described above, and may be another connection method such as USB Type-C capable of transmitting a video signal in addition to the control signal. When the connection is USB Type-C, the information processing device 1 and the image display device 2 can be connected by one cable.

Further, in the above-described embodiment, the information processing device 1 shifts the operation mode of the video display device 2 to the normal operation mode by restarting the transmission of the video signal, but the present invention is not limited to this, and the normal operation mode is not limited to this. The operation mode of the video display device 2 may be changed to the normal operation mode by transmitting a signal or the like instructing the transition to.

Further, one or a plurality of the above-described embodiments and modifications, and a part or all of the above-described embodiments and modifications may be combined to realize one aspect of the present invention.

A program for realizing the functions of each processing unit in the information processing device 1 or the video display device 2 described above is recorded on a computer-readable recording medium, and the program recorded on the recording medium is read into the computer system. You may perform each of the above-mentioned processes by executing the process. The term "computer system" as used herein includes hardware such as an OS and peripheral devices. Further, the "computer system" shall also include a WWW system provided with a homepage providing environment (or display environment). Further, the "computer-readable recording medium" refers to a portable medium such as a flexible disk, a magneto-optical disk, a ROM, or a CD-ROM, or a storage device such as a hard disk built in a computer system. Furthermore, a "computer-readable recording medium" is a volatile memory (RAM) inside a computer system that serves as a server or client when a program is transmitted via a network such as the Internet or a communication line such as a telephone line. In addition, it shall include those that hold the program for a certain period of time.

Further, the program may be transmitted from a computer system in which this program is stored in a storage device or the like to another computer system via a transmission medium or by a transmission wave in the transmission medium. Here, the "transmission medium" for transmitting a program refers to a medium having a function of transmitting information, such as a network (communication network) such as the Internet or a communication line (communication line) such as a telephone line. Further, the above program may be for realizing a part of the above-mentioned functions. Further, a so-called difference file (difference program) may be used, which can realize the above-mentioned functions in combination with a program already recorded in the computer system.

100 ... Display system 1 ... Information processing device 11 ... Communication interface unit 12 ... Central processing device 121 ... Signal processing unit 1211 ... Video signal processing unit 1212 ... Control signal processing unit 122 ... Power control unit 123 ... Calculation unit 13 ... Power supply 14 ... Storage device 141 ... Main storage device 142 ... External storage device 2 ... Video display device 21 ... Communication Interface unit 22 ... Main control unit 221 ... Signal processing unit 2211 ... Video signal processing unit 2212 ... Control signal processing unit 222 ... Power supply control unit 223 ... Display control unit 23 ... Power supply 24 ... Display 25 ... Sensor control 26 ... Human sensor

Claims (14)

It has a plurality of operation modes including a normal operation mode and a power saving mode that reduces power consumption as compared with the normal operation mode.
The communication interface that connects to the display device and
A video signal processing unit that transmits a video signal to the display device,
In the power saving mode, when the motion sensor detects a person based on the detection result of the motion sensor included in the display device, the operation mode of the own device is changed to the normal operation mode, and the display device is used. A control signal processing unit that shifts the operation mode to the normal operation mode,
Information processing device equipped with. The information processing device according to claim 1, wherein the control signal processing unit shifts the operation mode of its own device to the power saving mode when the display device notifies that the control signal processing unit shifts to the power saving mode. The information processing device according to claim 2, wherein the notification indicates a detection result of the motion sensor included in the display device. The control signal processing unit shifts the operation mode of the display device to the normal operation mode by transmitting a video signal from the video signal processing unit to the display device. Any one of claims 1 to 3. The information processing device described in. It has a plurality of operation modes including a normal operation mode and a power saving mode that reduces power consumption as compared with the normal operation mode.
Communication interface unit that connects to the information processing device
A display unit that displays video based on the video signal received from the information processing device, and
A motion sensor capable of supplying detection results to the information processing device,
A sensor control unit that transitions the operation mode based on the detection result of the motion sensor,
Power control that supplies power to each component including the sensor control unit in the normal operation mode, and stops supplying power to some of the components including the sensor control unit in the power saving mode. Department and
A display device comprising. When the motion sensor does not detect a person, the sensor control unit shifts the operation mode of the own device to the power saving mode.
The display device according to claim 5, further comprising a control signal processing unit that notifies the information processing apparatus to that effect when the operation mode shifts to the power saving mode. The display device according to claim 6, wherein the notification indicates a detection result of the motion sensor. The display according to any one of claims 5 to 7, further comprising a video signal processing unit that shifts the operation mode of the own device to the normal operation mode when a video signal is received from the information processing device in the power saving mode. apparatus. A display system including a display device and an information processing device.
The display device is
It has a plurality of operation modes including a normal operation mode and a power saving mode that reduces power consumption as compared with the normal operation mode.
A communication interface unit connected to the information processing device and
A display unit that displays video based on the video signal received from the information processing device, and
A motion sensor capable of supplying detection results to the information processing device,
A sensor control unit that transitions the operation mode based on the detection result of the motion sensor,
Power control that supplies power to each component including the sensor control unit in the normal operation mode, and stops supplying power to some of the components including the sensor control unit in the power saving mode. Department and
With
The information processing device
It has a plurality of operation modes including a normal operation mode and a power saving mode that reduces power consumption as compared with the normal operation mode.
The communication interface that connects to the display device and
A video signal processing unit that transmits a video signal to the display device,
In the power saving mode, when the motion sensor of the display device is connected and the motion sensor detects a person, the operation mode of the own device is changed to the normal operation mode, and the operation mode of the display device is changed. A control signal processing unit that transitions to the normal operation mode,
Display system with. When the motion sensor does not detect a person, the sensor control unit of the display device shifts the operation mode of the own device to the power saving mode.
The display device includes a control signal processing unit that notifies the information processing device to that effect when the operation mode shifts to the power saving mode.
The display system according to claim 9, wherein the control signal processing unit of the information processing device shifts the operation mode of its own device to the power saving mode when the display device notifies that the display device shifts to the power saving mode. The display system according to claim 10, wherein the notification indicates a detection result of the motion sensor. When the operation mode of the own device shifts to the normal operation mode, the video signal processing unit of the information processing device transmits a video signal to the display device.
The display device includes any one of claims 9 to 11 including a video signal processing unit that shifts the operation mode of the own device to the normal operation mode when the video signal is received from the information processing device in the power saving mode. Display system described in. It is a display method in an information processing device that has a plurality of operation modes including a normal operation mode and a power saving mode that reduces power consumption as compared with the normal operation mode, and transmits a video signal to the display device.
In the power saving mode, when the motion sensor detects a person based on the detection result from the motion sensor included in the display device, the operation mode of the own device is changed to the normal operation mode, and the display device is displayed. A display method that shifts the operation mode of to the normal operation mode. A display method in a display device that has a plurality of operation modes including a normal operation mode and a power saving mode that reduces power consumption as compared with the normal operation mode, and displays an image based on an image signal received from an information processing device. There,
In the normal operation mode, power is supplied to each component including the sensor control unit that transitions the operation mode based on the detection result of the motion sensor that can be connected from the information processing device, and in the power saving mode, among the components A display method for stopping the supply of electric power to some of the components including the sensor control unit.

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