WO2022039284A1 - Remote control apparatus and wireless display system - Google Patents

Abstract

A remote control apparatus for controlling the operations of an image transmission apparatus and image reception apparatus, according to an embodiment of the present disclosure, may comprise: a first wireless communication interface; a second wireless communication interface; and a processor for receiving, from the image transmission apparatus, a pairing progress request through the first wireless communication interface, transmitting, to the image transmission apparatus, a first trigger signal for a pairing operation between the image transmission apparatus and the image reception apparatus, through the first wireless communication interface, according to the pairing progress request, and transmitting, to the image reception apparatus, a second trigger signal for the pairing operation through the second wireless communication interface.

Description

Remote Control Unit and Wireless Display System

The present disclosure relates to a wireless display system for wirelessly transmitting and receiving A/V data.

As image technology changes from analog to digital, SD (Standard-Definition) to HD (Hi-Definition) has been developed to provide images closer to the real screen. SD supports a resolution of 704×480 and consists of about 350,000 pixels, and HD is divided into HD and Full HD. and provides a significantly higher quality image compared to the SD.

Recent video technology is growing one step further to Ultra High-Definition (UHD) beyond Full HD, and UHD, which supports ultra-high resolution and ultra-high resolution, is spotlighted as a next-generation media environment. The UHD supports 4K (3840×2160) and 8K (7680×4320) resolutions and surround audio of up to 22.2 channels. Such UHD provides 4 times clearer picture quality compared to HD, even in 4K UHD standards, and 8K UHD provides 16 times clearer picture quality than HD.

Recently, a wireless display system that transmits such a high-resolution image to a display device via wireless has emerged.

However, data transmission is possible only after pairing between a transmitting device that wirelessly transmits A/V data and a device that receives A/V data.

Conventionally, in order to enter the pairing mode, the user has to separately operate the local key of each device to generate a trigger signal, so there is a hassle of moving in front of each device to operate the local key.

In particular, in a situation in which the distance between the transmitting device and the receiving device is far apart, inconvenience due to manipulation of the Local Key occurs more and there is a problem that additional time is required for the pairing process.

An object of the present disclosure is to enable easy pairing between a transmitting device and a receiving device in a wireless display system.

An object of the present disclosure is to enable simple pairing between a transmitting device and a receiving device through a remote control device when pairing between the transmitting device and the receiving device is disconnected in a wireless display system.

The remote control apparatus for controlling the operations of the image transmission apparatus and the image reception apparatus according to an embodiment of the present disclosure performs pairing from a first wireless communication interface, a second wireless communication interface, and an image transmission apparatus through the first wireless communication interface receiving a request, and transmitting a first trigger signal for a pairing operation between the video transmission device and the video reception device through the first wireless communication interface to the video transmission device according to the pairing progress request, and the video reception device It may include a processor for transmitting a second trigger signal for the pairing operation through the second wireless communication interface.

A wireless display system according to an embodiment of the present disclosure provides a first wireless communication standard from an image transmission device for wirelessly transmitting A/V data, an image reception device for wirelessly receiving the A/V data, and the image transmission device Receives a pairing progress request through the, and transmits a first trigger signal for a pairing operation between the video transmission device and the video reception device through the first wireless communication standard to the video transmission device according to the pairing progress request, and a remote control device for transmitting a second trigger signal for the pairing operation to the image receiving device through a second wireless communication standard.

According to an embodiment of the present disclosure, the user can automatically perform pairing between the transmitting device and the receiving device by using the remote control without a separate local key operation that needs to generate a trigger signal.

For this reason, since a separate key for the pairing process of the remote controller is not assigned, there is no need to operate the remote control button, and at the same time, the inconvenience of using the local key can be improved.

That is, since a complicated wireless connection process is not required, user convenience can be greatly improved.

1 to 3 are diagrams for explaining the configuration of a display system according to an embodiment of the present disclosure.

4 is a block diagram illustrating a configuration of a remote control device according to an embodiment of the present disclosure.

5 is a ladder diagram for explaining a method of operating a display system according to an embodiment of the present disclosure.

6 is a ladder diagram for explaining a method of operating a display system according to another embodiment of the present disclosure.

7 to 11 are diagrams illustrating a process in which pairing is performed between an image transmission device and an image reception device through a remote control device according to an embodiment of the present disclosure.

Hereinafter, embodiments related to the present disclosure will be described in more detail with reference to the drawings. The suffixes "module" and "part" for components used in the following description are given or mixed in consideration of only the ease of writing the specification, and do not have distinct meanings or roles by themselves.

An image transmission device according to an embodiment of the present disclosure is, for example, an intelligent device in which a computer support function is added to a broadcast reception function, and is faithful to a broadcast reception function and has an Internet function added thereto, such as a handwritten input device and a touch screen Alternatively, a more user-friendly interface such as a spatial remote control may be provided. In addition, it is connected to the Internet and a computer with the support of a wired or wireless Internet function, so that functions such as e-mail, web browsing, banking, or games can also be performed. A standardized general-purpose OS may be used for these various functions.

Accordingly, in the image transmission apparatus described in the present disclosure, for example, various applications can be freely added or deleted on a general-purpose OS kernel, so that various user-friendly functions can be performed.

1 to 3 are diagrams for explaining the configuration of a display system according to an embodiment of the present disclosure.

Referring to FIG. 1 , a display system 1 according to an embodiment of the present disclosure includes an image transmitting apparatus 100 and an image receiving apparatus 200 .

The display system 1 may be a system in which the image transmission apparatus 100 wirelessly transmits A/V data to the image reception apparatus 200 and the image reception apparatus 200 outputs A/V data.

The image transmission apparatus 100 may be a device capable of encoding a content image and audio and wirelessly transmitting the encoded content image and audio.

The image transmission apparatus 100 may be a set-top box.

The image receiving apparatus 200 may be a display apparatus capable of wirelessly receiving an encoded content image and audio and decoding the received content image and audio.

The image transmission apparatus 100 and the image reception apparatus 200 may constitute a video wall display system.

In a video wall, the display having a thin bezel plays an important role in the visualization of content images. For a thin bezel of a display, it is efficient to have only a component that can play a minimal role, and to perform a circuit or a component for a main function in a separate device.

The image transmission apparatus 100 may determine the type of the content image input from the outside, and determine the compression ratio of the content image based on the determined type. The compression ratio of the content image may indicate a compression ratio of the data size of the content image.

The content image type may include a still image type, a general video type, and a game video type.

The image transmission apparatus 100 may compress the content image according to the determined compression ratio, and wirelessly transmit the compressed content image to the image reception apparatus 200 .

The image receiving apparatus 200 may restore the compressed content image received from the image transmission apparatus 100 and display the restored content image on the display.

2 is a block diagram illustrating detailed configurations of the image transmission apparatus 100 and the image reception apparatus 200 .

Referring to FIG. 2 , the image transmission apparatus 100 may include a processor 110 , a content compression unit 130 , a first wireless communication unit 150 , and a memory 170 .

The processor 110 may control the overall operation of the image transmission apparatus 100 . The processor 110 may be configured in the form of a system on chip (SoC).

A plurality of processors 110 may be provided.

The processor 110 may determine a compression ratio of externally inputted audio or video according to the type of the content image, and may transmit one or more of audio or video to the content compression unit 130 according to the determined compression ratio.

The content compression unit 130 may change the compression rate of the content image according to the radio quality to compensate for the loss of the content image or the disconnection of the wireless connection. The content image may include one or more of audio and video.

When the wireless quality is poor, the content compression unit 130 may lower the data transmission rate (meaning increasing the compression rate).

The content compression unit 130 may increase the data transmission rate when the radio quality is good (the compression rate is low).

The content compression unit 130 may be referred to as an encoder.

The first wireless communication unit 150 may wirelessly transmit the content image compressed by the content compression unit 130 to the image receiving apparatus 200 .

The memory 170 may store one or more signal patterns used for synchronizing an AV signal and a control signal matching the AV signal.

Referring to FIG. 3 , the first wireless communication unit 150 may include a first wireless transmission unit 151 , a second wireless transmission unit 153 , and a third wireless transmission unit 155 .

The first wireless communication unit 150 may transmit the compressed content image to the second wireless communication unit 210 of the image receiving apparatus 200 through 2 channels.

That is, each of the first wireless transmitter 151 and the second wireless transmitter 153 may transmit the compressed content image to the first wireless receiver 211 and the second wireless receiver 213 of the image receiving apparatus 200 . .

In an embodiment, the reason for using 2 channels is to reduce transmission delay by transmitting a compressed content image through a channel having better radio quality.

In another embodiment, the reason for using two channels may be to divide and transmit the content image through two channels because a content image having a 4K resolution has a large data capacity.

Each of the first wireless transmitter 151 and the second wireless transmitter 153 may include a baseband module for baseband communication and an RF module for RF communication.

The baseband module may generate unmodulated low frequency band data for the compressed content image and transmit it to the RF module.

The RF module may convert data of a low frequency band into a high frequency band according to a radio frequency (RF) communication standard, and transmit the converted data for the content image to the image receiving apparatus 200 .

The third wireless transmitter 155 may perform BLE communication with the remote control device 400 to be described later. To this end, the third wireless transmitter 155 may include a Wi-Fi module or a BLE module (BLE circuit) supporting the BLE standard.

The image receiving apparatus 200 may include a second wireless communication unit 210 , a content restoration unit 230 , and a display 250 .

The second wireless communication unit 210 may include a first wireless receiver 211 , a second wireless receiver 213 , a third wireless receiver 215 , and a fourth wireless receiver 217 .

That is, the second wireless communication unit 210 may also be configured with two channels.

Each of the first wireless receiver 211 and the second wireless receiver 213 may include a baseband module for baseband communication and an RF module for RF communication.

The RF module may receive data of a high frequency band from the image transmission apparatus 100 according to a radio frequency (RF) communication standard.

The baseband module may convert data in the high frequency band into data in the low frequency band.

The third wireless receiver 215 may be used for pairing with the image transmission device 100 . To this end, the third wireless receiver 215 may include a BLE module (BLE circuit).

The content restoration unit 230 may decode the content image received through the second wireless communication unit 210 .

The content restoration unit 230 may restore the compressed content image to a content image having an original size.

The content restoration unit 230 may include a decoder.

The display 250 may display the restored content image.

The image receiving apparatus 200 may further include a memory 260 . The image receiving apparatus 200 may store information received from the image transmitting apparatus 100 and a program for executing an application.

4 is a block diagram illustrating a configuration of a remote control device according to an embodiment of the present disclosure.

Referring to FIG. 4 , the remote control device 400 may include a wireless communication interface 410 , a user input interface 430 , a memory 450 , and a controller 490 .

The wireless communication interface 410 may be an interface for performing wireless communication with the image transmission apparatus 100 or the image reception apparatus 200 .

The wireless communication interface 410 may include a Bluetooth Low Energy (BLE) module 411 and an IR (InfraRed) module 413 .

The BLE module 411 may transmit a signal for controlling the operation of the image transmission apparatus 100 to the image transmission apparatus 100 .

The BLE module 411 may transmit a signal triggering a pairing operation of the image transmission device 100 to the image transmission device 100 .

The user input interface 430 may include a keypad, a button, a touch pad, or a touch screen.

The user input interface 430 may generate a control command for controlling the operation of the image transmitting apparatus 100 or the image receiving apparatus 200 according to a user's manipulation command.

When the user input interface 430 includes a hard key button, the user may operate the hard key through a push operation of the hard key button.

The user input interface 430 may include various types of input means that can be manipulated by the user, such as a scroll key or a jog key.

The memory 450 may store a program for the operation of the controller 490 and may temporarily store input/output data.

The controller 490 controls the operation related to the application program and the general operation of the remote control device 400 .

5 is a ladder diagram for explaining a method of operating a display system according to an embodiment of the present disclosure.

In particular, FIG. 5 is a view for explaining a process of performing a pairing operation through a local key provided in each of the image transmission apparatus 100 and the image reception apparatus 200 .

The image transmission apparatus 100 receives a first local key input triggering a pairing operation with the image reception apparatus 200 (S501).

In an embodiment, the first local key input may be an input for changing the operation mode of the image transmission apparatus 100 to the pairing mode.

For example, the first local key input may be an input for selecting a local key provided in the image transmission apparatus 100 for a predetermined time or longer.

The image transmission device 100 switches its operation mode to the pairing mode according to the first local key input (S503).

The image receiving device 200 receives a second local key input triggering a pairing operation with the image transmitting device 100 (S505).

In an embodiment, the second local key input may be an input for changing the operation mode of the image receiving apparatus 200 to the pairing mode.

For example, the second local key input may be an input for selecting a local key provided in the image receiving apparatus 100 for a predetermined time or longer.

The image receiving device 200 switches its operation mode to the pairing mode according to the second local key input (S507).

The video transmission device 100 transmits the first pairing information to the video reception device 200 according to the transition to the pairing mode (S509).

In an embodiment, the first pairing information may be identification information for identifying the image transmission device 100 .

The first pairing information may include one or more of a MAC address and a country code of the image transmission apparatus 100 .

The country code may be a code for identifying a country in which the image transmission apparatus 100 will be used.

The image receiving device 200 transmits the second pairing information to the image transmitting device 100 according to the conversion to the pairing mode (S511).

The second pairing information may include one or more of a MAC address and a country code of the image receiving device 200 .

The country code may be a code for identifying a country in which the image receiving apparatus 200 will be used.

The video transmission device 100 determines whether the first pairing information and the second pairing information match, and when the first pairing information and the second pairing information match, transmits a pairing request to the video reception device 200 (S513) ).

The video reception device 200 transmits a pairing response (or pairing Ack) allowing pairing in response to the pairing request received from the video transmission device 100 ( S515 ).

Accordingly, the image transmission apparatus 100 and the image reception apparatus 200 are paired with each other (S517).

That is, the image transmission apparatus 100 is in a state in which A/V data can be transmitted to the image reception apparatus 200 , and the image reception apparatus 200 can receive A/V data from the image transmission apparatus 100 . is in a state of being

In this way, in order to perform pairing between wireless devices, a process of switching to the pairing mode is required first. At this time, information to change the operation mode of each device to the pairing mode is informed according to a trigger signal.

Each of the image transmitting apparatus 100 and the image receiving apparatus 200 generates a trigger signal through a local key included in each, and performs a pairing operation through a wireless communication chip of each device according to the trigger signal.

However, in the case of the above embodiment, in order to enter the pairing mode, the user has to separately operate the local key of each device to generate a trigger signal, so there is a hassle of moving in front of each device to operate the local key.

In particular, in a situation in which the distance between the image transmitting apparatus 100 and the image receiving apparatus 200 is far apart, inconvenience due to manipulation of the Local Key occurs more and additional time is required for pairing.

Accordingly, in another embodiment of the present disclosure, a method for easily performing a pairing operation between the image transmission apparatus 100 and the image reception apparatus 200 through a remote control device without using a local key will be described. .

6 is a ladder diagram for explaining a method of operating a display system according to another embodiment of the present disclosure.

A display system according to another embodiment of the present disclosure may include an image transmission apparatus 100 , an image reception apparatus 200 , and a remote control apparatus 400 .

When pairing between the image transmission apparatus 100 and the image reception apparatus 200 is disconnected, the remote control device 400 may be used to re-perform pairing.

Hereinafter, the image transmission apparatus 100 and the image reception apparatus 200 may be in a standby state in which the power is not turned on.

In this state, the image transmission apparatus 100 and the remote control apparatus 200 may be paired with each other.

Referring to FIG. 6 , the processor 110 of the image transmission device 100 transmits a pairing progress request to the remote control device 400 through the third wireless transmitter 155 ( S601 ).

When pairing with the image receiving device 200 is not performed, the processor 110 of the image transmission device 100 may transmit a pairing progress request to the remote control device 400 .

The processor 110 may transmit a pairing progress request to the BLE module 410 of the remote control device 400 through the Wi-Fi module provided in the third wireless transmitter 155 .

The pairing progress request may be a request for automatically performing a pairing operation between the image transmission device 100 and the image reception device 200 .

When pairing is not performed between the image transmission apparatus 100 and the image reception apparatus 200 , the processor 110 may periodically transmit a pairing progress request to the remote control apparatus 400 .

After pairing with the remote control device 400 through the BLE standard, the image transmission device 100 may transmit a pairing progress request to the remote control device 400 .

After the video transmission device 100 is paired through the BLE standard, the remote control device 400 may receive a pairing progress request from the video transmission device 100 .

After the image transmission device 100 is paired with the remote control device 400 , it may output the pairing completion through an LED. To this end, the image transmission apparatus 100 may include one or more LEDs.

The controller 490 of the remote control device 400 transmits a first trigger signal for switching to the pairing mode through the first wireless communication standard in response to the pairing progress request received from the video transmission device 100, the video transmission device It is transmitted to (100) (S603).

The first trigger signal may be a signal for changing the operation mode of the image transmission apparatus 100 to the pairing mode.

The first wireless communication standard may be a BLE standard. That is, the controller 490 of the remote control device 400 transmits the first trigger signal for switching the operation mode of the video transmission device 100 to the pairing mode according to the pairing progress request received from the video transmission device 100 , by BLE. The image may be transmitted to the third wireless transmitter 155 of the image transmission apparatus 100 through the module 410 .

Meanwhile, the first trigger signal may include a command for terminating pairing with the image transmission apparatus 100 . This is because, in the case of the BLE standard, 1:1 communication is performed.

The processor 110 of the image transmission device 100 switches its operation mode to the pairing mode based on the first trigger signal received from the remote control device 400 (S605).

Based on the first trigger signal, the processor 110 may enter the image transmission device 100 into a pairing mode for pairing with a device other than the remote control device 400 .

The processor 110 may turn on the power based on the first trigger signal and enter its operation mode into the pairing mode.

The controller 490 of the remote control device 400 transmits a second trigger signal for switching to the pairing mode to the image receiving device 200 through the second wireless communication standard (S607).

The second wireless communication standard may be an IR communication standard.

To this end, the controller 490 of the remote control device 400 may transmit a second trigger signal to the fourth wireless receiver 217 of the image receiving device 200 through the IR module 413 . The fourth wireless receiver 217 may include an IR module.

The remote control device 400 may transmit a trigger signal to each of the image transmitting apparatus 100 and the image receiving apparatus 200 through different wireless communication standards.

That is, the remote control device 400 may transmit the first trigger signal to the image transmission device 100 through the BLE standard and transmit the second trigger signal to the image reception device 200 through the IR communication standard.

This is because, in the case of BLE communication, it is performed through 1:1 communication.

The controller 490 controls each of the BLE module 411 and the IR module 413 to simultaneously transmit each of the first trigger signal and the second trigger signal to the image transmission device 100 and the image reception device 200, respectively. can do.

The image receiving device 200 switches its operation mode to the pairing mode based on the second trigger signal received from the remote control device 400 (S609).

The image receiving device 200 may turn on the power based on the second trigger signal received from the remote control device 400 and change its operation mode to the pairing mode.

The image receiving apparatus 200 may further include a microcomputer (not shown) that turns on the power according to the second trigger signal.

As the processor 110 of the image transmission apparatus 100 is switched to the pairing mode, the first pairing information required for pairing with the image reception apparatus 200 is transmitted to the image reception apparatus 200 through the third wireless transmitter 155. It transmits to the third wireless transmitter 215 (S611).

The first pairing information may include identification information for identifying the image transmission device 100 . The first pairing information may include a MAC address and a country code.

As the third wireless receiver 215 of the image receiving device 200 is switched to the pairing mode, the third wireless transmitter 215 of the image transmitting device 100 transmits the second pairing information required for pairing with the image transmitting device 100 . ) to (S613).

The second pairing information may include identification information for identifying the image receiving device 200 . The second pairing information may include a MAC address and a country code.

The processor 110 of the video transmission device 100 compares the first pairing information with the second pairing information received from the video reception device 200, and when the first pairing information and the second pairing information match, the third pairing information The pairing request is transmitted to the third wireless transmitter 215 of the image receiving apparatus 200 through the wireless transmitter 155 (S615).

When the MAC address and country code included in the first pairing information match each of the MAC address and country code included in the second pairing information, the processor 110 may transmit a pairing request to the image receiving device 200 . .

In response to the pairing request, the third wireless receiver 215 of the video receiving device 200 transmits a pairing response (or pairing Ack) allowing pairing to the video transmitting device 100 (S617).

According to the pairing response, the image transmission apparatus 100 and the image reception apparatus 200 may complete pairing with each other.

After pairing between the image transmission apparatus 100 and the image reception apparatus 200 is completed, the display 230 of the image reception apparatus 200 displays a notification indicating that pairing is complete (S619).

The image transmission apparatus 100 may transmit image data and audio data to the image reception apparatus 200 through one or more of the first wireless transmitter 151 and the second wireless transmitter 153 .

That is, the image transmission apparatus 100 may wirelessly transmit A/V data to the image reception apparatus 200 through RF communication.

The image receiving apparatus 200 may output received image data on the display 250 and output audio data through a speaker (not shown).

In this way, when pairing between the image transmission device 100 and the image reception device 200 constituting the detachable wireless display system according to an embodiment of the present disclosure is performed, the user does not need to operate a separate local key to generate a trigger signal, Pairing can be performed automatically using the remote control.

For this reason, since a separate key for the pairing process of the remote controller is not assigned, there is no need to operate the remote control button, and at the same time, the inconvenience of using the local key can be improved.

Next, a process of performing pairing between the image transmission device 100 and the image reception device 200 through the remote control device 400 will be described in detail.

7 to 11 are diagrams illustrating a process in which pairing is performed between an image transmission device and an image reception device through a remote control device according to an embodiment of the present disclosure.

First, FIG. 7 will be described.

The image transmitting apparatus 100 may be a set-top box, and the image receiving apparatus 200 may be a display apparatus.

The image transmission apparatus 100 and the image reception apparatus 200 are in a state in which pairing is not performed with each other.

When the image transmission device 100 is not paired with the image reception device 200 , the image transmission device 100 may transmit a pairing progress request to the remote control device 400 .

After pairing with the remote control device 200 through the BLE standard, the image transmission device 100 may transmit a pairing progress request to the remote control device 400 .

Referring to FIG. 8 , the remote control device 400 transmits a first trigger signal (BLE signal) through the BLE standard to the video transmission device 100 according to the pairing progress request received from the video transmission device 100, A second trigger signal (IR signal) may be transmitted to the image receiving device 200 through an IR communication standard.

That is, the remote control device 400 may transmit a trigger signal for switching each of the image transmitting apparatus 100 and the image receiving apparatus 200 to the pairing mode through another standard.

Referring to FIG. 9 , each of the image transmitting apparatus 100 and the image receiving apparatus 200 may prepare for pairing according to a trigger signal received from the remote control apparatus 400 .

The image transmission device 100 may transmit the first pairing information to the image reception device 200 in response to the first trigger signal received from the remote control device 400 .

The first pairing information may include a MAC address and a country code of the image transmission device 100 .

Similarly, the image receiving device 200 may transmit the second pairing information to the image transmitting device 100 in response to the second trigger signal received from the remote control device 400 .

The second pairing information may include a MAC address and a country code of the image receiving device 200 .

The image transmission device 100 may compare the first pairing information with the second pairing information and determine whether they match.

When the first pairing information and the second pairing information match each other, the video transmission device 100 may transmit a pairing request to the video reception device 200 . The image receiving device 200 may transmit a pairing response allowing pairing to the image transmitting device 100 in response to the pairing request.

Accordingly, as shown in FIG. 10 , pairing between the image transmission apparatus 100 and the image reception apparatus 200 may be completed.

After pairing is completed, the image receiving device 200 may display a notification 1000 indicating that pairing with the image transmitting device 100 is complete.

The user may recognize that pairing between the image transmission apparatus 100 and the image reception apparatus 200 is completed through the notification 1000 .

As such, according to an embodiment of the present disclosure, in a state in which the image transmission device 100 is not paired with the image reception device 200 , two devices may be automatically paired through the remote control device 400 . .

Accordingly, the user does not need to input a separate local key, and thus user convenience can be greatly improved.

According to an embodiment of the present disclosure, the above-described method may be implemented as processor-readable code on a medium in which a program is recorded. Examples of the processor-readable medium include ROM, RAM, CD-ROM, magnetic tape, floppy disk, and optical data storage device.

In the image transmission apparatus described above, the configuration and method of the above-described embodiments are not limitedly applicable, but all or part of each embodiment is selectively combined so that various modifications can be made to the embodiments. it might be

Claims (15)

1. A remote control device for controlling operations of an image transmission device and an image reception device, the remote control device comprising:

   a first wireless communication interface;

   a second wireless communication interface; and

   Receive a pairing progress request from the video transmission device through the first wireless communication interface, and perform pairing between the video transmission device and the image reception device through the first wireless communication interface to the video transmission device according to the pairing progress request A processor for transmitting a first trigger signal for operation and transmitting a second trigger signal for the pairing operation to the image receiving device through the second wireless communication interface

   remote control unit.
2. According to claim 1,

   The first wireless communication interface is

   Including a BLE module using a Bluetooth low energy (Blue tooth Low Energy, BLE) communication standard,

   The second wireless communication interface is

   Including IR module using IR (InfraRed) communication standard

   remote control unit.
3. According to claim 1,

   The first trigger signal is

   It is a signal for switching the operation mode of the video transmission device to a pairing mode,

   The second trigger signal is

   A signal for switching the operation mode of the image receiving device to a pairing mode

   remote control unit.
4. 4. The method of claim 3,

   The first trigger signal is

   Further comprising a command for terminating pairing with the video transmission device

   remote control unit.
5. According to claim 1,

   the processor is

   Controlling each of the first wireless communication interface and the second wireless communication interface to transmit each of the first trigger signal and the second trigger signal to each of the image transmission device and the image reception device at the same time

   remote control unit.
6. A wireless display system comprising:

   an image transmission device for wirelessly transmitting A/V data;

   an image receiving device for wirelessly receiving the A/V data; and

   Receive a pairing progress request from the video transmission device through a first wireless communication standard, and perform pairing between the video transmission device and the video reception device through the first wireless communication standard to the video transmission device according to the pairing progress request A remote control device that transmits a first trigger signal for an operation and transmits a second trigger signal for the pairing operation to the image receiving device through a second wireless communication standard

   wireless display system.
7. 7. The method of claim 6,

   The first wireless communication standard is

   Bluetooth Low Energy (BLE) communication standard,

   The second wireless communication standard is

   IR (InfraRed) communication standard

   wireless display system.
8. 7. The method of claim 6,

   The first trigger signal is

   It is a signal for switching the operation mode of the video transmission device to a pairing mode,

   The second trigger signal is

   A signal for switching the operation mode of the image receiving device to a pairing mode

   wireless display system.
9. 9. The method of claim 8,

   The first trigger signal is

   Further comprising a command for terminating pairing with the video transmission device

   wireless display system.
10. 7. The method of claim 6,

    the remote control device

    Transmitting each of the first trigger signal and the second trigger signal to each of the image transmitting apparatus and the image receiving apparatus at the same time

    wireless display system.
11. 7. The method of claim 6,

    The video transmission device is

    Switches its operation mode to a pairing mode according to the first trigger signal,

    The video receiving device is

    Switching its operation mode to the pairing mode according to the second trigger signal

    wireless display system.
12. 12. The method of claim 11,

    The video transmission device is

    Transmitting first pairing information for identifying the video transmission device to the video receiving device according to the conversion to the pairing mode,

    The video receiving device is

    Transmitting second pairing information for identifying the video receiving device to the video receiving device according to the conversion to the pairing mode

    wireless display system.
13. 13. The method of claim 12,

    The first pairing information is

    including the MAC address and country code of the video transmission device;

    The second pairing information is

    including the MAC address and country code of the video receiving device

    wireless display system.
14. 14. The method of claim 13,

    The video transmission device is

    When the first pairing information and the second pairing information match, a pairing request is transmitted to the video receiving device;

    The video receiving device is

    In response to the pairing request, transmitting a pairing response allowing pairing to the video transmission device

    wireless display system.
15. 15. The method of claim 14,

    The video receiving device is

    When pairing with the video transmission device is completed, displaying a notification indicating that the pairing is complete

    wireless display system.

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