KR20150102794A - Wireless high data mirroring system between the mobile communication terminal and the monitor on the vehicle seat - Google Patents

Abstract

The present invention relates to a mobile communications terminal having a wireless high-speed mirroring function. According to the present invention, the mobile communications terminal comprises: a control unit for outputting an image, which is played in a mobile communications terminal, to a first port, and outputting second data stored in a storing unit to a second port; an image interface connected between the first port and a first switch, and transmitting first data of which the image is converted into a serial signal; a first transmission line connected between the second port and the first switch; a first switch selectively connected to the image interface or the first transmission line; and a mirroring module for directly and wirelessly transmitting the first data to a monitor in an uncompressed scheme when a wireless mirroring function is executed, and transmitting the second data to the monitor in a wired manner when a wired data transmission function is executed.

Description

Technical Field [0001] The present invention relates to a wireless high-speed mirroring system between a seat monitor of a mobile body and a mobile communication terminal,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication technology, and more particularly, to a mobile communication technology, / Downloading asymmetric time division method in a non-compressed manner between a mobile communication terminal and a seat monitor of a moving object.

The mirroring technology is a technique of reproducing a screen displayed on a mobile communication terminal by reproducing another display device as it is. As the technology of the mobile communication terminal rapidly develops and real-time large-capacity data communication becomes possible, a user's desire to view screen information reproduced in a personal mobile communication terminal through a display device of a larger screen is occurring.

2. Description of the Related Art Recently, mobile communication terminals are equipped with cameras, displays, and storage devices capable of providing ultra-high quality (UHD) video. High-speed wireless transmission technology between a mobile communication terminal and a personal seat monitor should be supported in order to conveniently view an ultra-high quality video stream reproduced in such a mobile communication terminal with a personal seat monitor of the mobile terminal. To accommodate ultra-high quality video, high-speed wireless transmission technology must be able to transmit data at more than a gigabit per second level. Also, because it is applied to mobile communication terminals, high-speed wireless transmission technology should meet the requirements of low power consumption. However, the existing WiFi communication method requires a separate codec module for performing compression and channel coding due to the limitation of transmission speed. As a result, the WiFi communication method has a problem that the power consumption is large and the size of the mobile communication terminal increases. The channel coding scheme of the error correction code should be added to the WiFi communication scheme so that the transmission can be performed even under the invisible distance condition. However, because of this, it takes a delay of several hundred milliseconds to several seconds to transmit data from the mobile communication terminal to the monitor in the mobile body, and thus it can not be utilized for application technology such as 3D game and application technology for real-time recognition.

In addition, when data is transmitted between the mobile communication terminal and the personal seat monitor of the moving object, there is a problem of radio wave interference with the adjacent seat. Such interference may leak personal information to other wireless channels, resulting in a problem in that information security becomes weak.

Patent Document 1 is an invention related to a method of transmitting data between a terminal device and a set-top box for multimedia data transmission in a mirroring process, and there is a problem in that a delay time of a moving image occurs and power consumption including a compression function increases.

1. Korean Patent Publication No. 10-2013-0110573 (published on October 10, 2013)

In order to solve the above-described problems, the present invention provides a high-speed moving image display device for providing a super high-definition moving picture on a larger screen by wirelessly high-speed mirroring a moving picture played on a mobile communication terminal without using a compression module and a channel coding module, A wireless high-speed mirroring system between a mobile communication terminal and a seat monitor of a moving object, which improves the security of personal information by suppressing radio interference of the mobile communication terminal.

In addition, the present invention provides a wireless high-speed mirroring system that efficiently performs data communication between a mobile communication terminal and a seat monitor of a moving object by an upload / download asymmetric time division method.

According to another aspect of the present invention, there is provided a mobile communication terminal for performing high-speed wireless mirroring on a seat monitor of a moving object, the mobile communication terminal outputting an image reproduced from the mobile communication terminal to a first port, A first transmission line connected between the second port and the first switch, a second transmission line connected between the second port and the first switch, a first transmission line connected between the first port and the first switch, Interface or a first transmission line and a first switch for directly wirelessly transmitting the first data to the monitor in a non-compression manner when the wireless mirroring function is executed, and when the wired data transmission function is executed, And a mirroring module for wiredly transmitting data to the monitor.

Preferably, the mirroring module includes a second switch for selectively connecting the first switch to the mobile communication terminal or the second transmission line in accordance with the wireless mirroring function and the wire data transmission function, the first switch using the millimeter wave or the terahertz microwave, And a second transmission line for connecting the second switch to the micro USB port and for transmitting the second data to the monitor, wherein the control unit includes an upload / download asymmetry And the downloading operation and the downloading operation of the mobile communication terminal RF module are controlled by the time division method.

Preferably, the mobile communication terminal RF module includes a high-speed data transmission module for transmitting the first data to the monitor through the microwave, a low-speed data reception module for receiving the monitor data input through the touch screen of the monitor through the microwave, When the mirroring function is executed from the mobile communication terminal to the monitor, the high-speed data transmission module is connected to the second switch. When the monitoring data is transmitted from the monitor to the mobile communication terminal, And the controller distributes the high frequency allocation time of the third switch and the high speed data transmission module longer than the high frequency allocation time of the third switch and the low speed data reception module .

Preferably, the mirroring module mounts a directional antenna to suppress interference of radio waves of a plurality of individual seats in the mobile body, wherein a beam width of the directional antenna of the mirroring module is smaller than a width of a directional antenna Is larger than the beam width of the beam.

In another embodiment, a mobile communication terminal having a bidirectional wireless high-speed mirroring function according to the present invention includes a controller for outputting first data obtained by converting an image reproduced in a mobile communication terminal into a serial signal, A low-speed data reception module for receiving information input through a touch screen of the monitor using the super-high frequency, and a wireless data transmission module for performing wireless-mirroring function from the mobile communication terminal to the monitor And a third switch for transmitting the output of the high-speed data transmission module to the control unit and for connecting the low-speed data reception module to the low-speed data transmission line when data is transmitted from the monitor, The transmitting module and the low-speed data receiving module And the operation is controlled by an upload / download asymmetric time division method.

In one embodiment, a mirroring system between a monitor of a moving object and a mobile communication terminal implemented as a mirroring dongle according to the present invention is connected to a micro USB port of the mobile communication terminal and displays first data including image information output from the mobile communication terminal, And a controller for downloading the monitor data input through the touch screen of the monitor and inputting the monitor data to the mobile communication terminal through the micro USB port and the first data when the mirroring function is executed, And receives monitor data downloaded from the wireless high-speed mirroring dongle through a micro USB port when receiving monitor data from the monitor, receives the monitor data through the low-speed data transmission line connected to the micro USB port, Play Displaying the screen information is characterized in that it comprises a mobile communication terminal.

In one embodiment, a monitor of a mobile terminal for wireless high-speed mirroring according to the present invention includes a low-speed data transmission module for transmitting low-speed monitor data, which is information input through a touch screen, to a mobile communication terminal, A high-speed data reception module for directly receiving first data, which is image information, in an uncompressed manner using an ultra-high frequency, and an image interface for converting the first data received by the high-speed data reception module into an image and displaying the converted first data on a monitor .

In one embodiment, the mirroring module includes a first switch for selectively providing first data obtained by converting an image reproduced from a screen of the mobile communication terminal into a serial signal and second data stored in a storage unit, A second switch that connects the first switch and the RF module of the mobile communication terminal when the wireless mirroring function is executed and connects the first switch and the first transmission line when the wire data transmission function is executed, And a second transmission line connected between the second switch and the micro USB port for wiredly transmitting second data to the monitor.

The present invention provides a wireless high-speed mirroring transmission operation between a user's mobile communication terminal and a monitor attached to the back of a back seat in a moving mobile object, thereby allowing a user to view an image reproduced in the mobile communication terminal through a larger screen Thereby enhancing user convenience.

Since the present invention can transmit data at a gigabit-per-second speed without requiring a separate compression module and a coding module, power consumption can be reduced.

According to the present invention, a beam width of a directional antenna adopting a spatial division multiplexing method is set, a beam width of an antenna is set in consideration of a distance between the adjacent seat and a distance between the monitor and the mobile communication terminal, .

Disclosure of the Invention The present invention provides an efficient asynchronous time division duplexing protocol for controlling the transmission of a large amount of data such as an ultra high quality moving picture from a mobile communication terminal to a monitor and the transmission of low capacity data such as touch screen input information from a monitor to a mobile communication terminal, To a wireless high-speed mirroring system.

Brief Description of the Drawings Fig. 1 is a wireless high-speed mirroring system between a seat monitor and a mobile communication terminal according to the present invention.
2 is a wireless high-speed mirroring system between a seat monitor and a mobile communication terminal of a moving object to which an upload / download asymmetric time division method according to the present invention is applied.
FIG. 3 is a detailed block diagram of the mobile communication terminal RF module shown in FIG. 2. FIG.
4 is a wireless high-speed mirroring system between a seat monitor of a moving object and a mobile communication terminal without a mirroring function according to the present invention, which is implemented as a dongle.
5 is a detailed block diagram of a wireless high-speed mirroring system implemented with the dongle shown in Fig.
6 is an example of utilizing a mirroring technique between a personal seat monitor of a mobile unit and a mobile communication terminal.
FIG. 7 is a view for defining a range of an antenna beam width in a personal seat monitor of a mobile communication terminal and a moving body according to the present invention; FIG.

Hereinafter, embodiments of the present invention will be described with reference to the drawings. The drawings illustrate only the essential features of the invention in order to facilitate clarity of the invention and are not to be construed in a limiting sense since they are not shown in the accompanying drawings.

The transmission method using the conventional WiFi wireless channel has a compression module and a channel coding module due to the limitation of the transmission speed and real time transmission without delay is not possible and power consumption is also large. In addition, the 2GHz and 5GHz bands used in WiFi have a large diffraction phenomenon, resulting in radio interference between adjacent seats in the mobile body. As a result, information security is weakened and the existing technology is used as a wireless mirroring there are many problems to be applied to mirroring. The present invention solves these problems and provides a mobile communication terminal which can transmit millimeter-wave or terahertz wave communication between a personal seat monitor (100) and a mobile communication terminal (1) within a moving object without requiring a separate compression module or a coding module Speed real-time data transmission.

In the present invention, the beam width of the antenna (22) of the mobile communication terminal RF module (8) is made larger than the beam width of the antenna (23) mounted on the monitor by applying the space division multiplexing method, The range of the beam width of the antenna is set in consideration of the distance between the mobile communication terminal and the mobile communication terminal, thereby suppressing radio interference and improving the security. In particular, the present invention can prevent wired data transmission between the first switch SW1 and the micro USB port 9 while maintaining the existing micro USB port function without changing the design of the mobile communication terminal 1 due to the addition of the mirroring function. And a wireless high-speed mirroring function is easily mounted on the mobile communication terminal 1 by connecting the mirroring module 7 of the present invention, which can select an operation and a mirroring operation. In addition, when the seat monitor 100 of the mobile unit is of the touch screen type, the user can perform mirroring by the upload / download asymmetric time division method having a function of transmitting information inputted to the touch screen to the mobile communication terminal 1 through low- By controlling the module, data communication is made efficient.

The mobile object described in the present invention includes an airplane, a locomotive, a bus, a ship, a high-speed rail, a high-speed bus, or a high-speed car.

1 is a wireless high-speed mirroring system between a mobile communication terminal 1 according to the present invention and a personal seat monitor 100 of a moving object.

The present invention is characterized in that the mirroring module 7 is connected between the first switch SW1 and the micro USB port 9 while the conventional data transmission line is used as it is and by controlling the second switch SW2 by the control unit 5 The wired data transmission operation and the wireless mirroring operation can be selected. The mobile communication terminal RF module 8 modulates the serial signal converted by the image through the first image interface 6 into an RF signal and transmits the RF signal. The mobile communication terminal RF module 8 includes a millimeter wave communication module or a terahertz wave communication module. Therefore, the present invention enables real-time high-speed data communication without a separate compression module and a coding module. The mirroring module 7 implements a streaming technique based on the USB 3.0 protocol so that the mirroring module 7 can directly connect to the micro-USB port 9 and uses a video electronics standards association (VESA) -based slim port ) Interface protocol, so that gigabit-class data wireless transmission can be performed without a separate interface.

In addition, the mirroring module 7 can be directly connected to a USB port (μ-USB port) 9, a USB high-definition (MHL) link. Thus, the present invention is also capable of wireless transmission of gigabit-per-second data without having a separate interface.

The mobile communication terminal 1 includes a camera 4, a storage unit 3, a controller 5, a first video interface 6, a first transmission line 10, a first switch SW1, and a mirroring module 7 ). The mirroring module 7 includes a second switch SW2, a mobile communication terminal RF module 8, an antenna 22 and a second transmission line 2.

The signal processing unit 5-1 converts the video information reproduced by the mobile communication terminal 1 into a serial signal and outputs it as first data when the wireless communication function is executed in the mobile communication terminal 1, And outputs the second data stored in the storage unit 3 when the function is executed. The signal processing unit 5-1 includes not only the control unit 5 but also a first video interface 6, a first transmission line 10 and a first switch SW1.

When the wireless mirroring function is executed, the mirroring module 7 directly transmits the first data to the monitor in an uncompressed manner. When the wired data transmission function is executed, the mirroring module 7 transmits the second data to the first transmission line 10 and the second transmission line 10. [ To the monitor (100) via the network (2).

The control unit 5 outputs the image reproduced from the mobile communication terminal 1 to the first port P1 and outputs the second data stored in the storage unit 3 to the second port P2.

The first video interface 6 is connected between the first port P1 and the first switch SW1 and converts an image output from the first port into a serial signal. This serial signal is referred to as first data. For example, since the image is parallel LCD electric signals, it is converted from the first image interface 6 to a serial signal and transmitted by the mirroring module 7.

For example, the second port P2 is a usb 3.0 port, and the image can also be transmitted through the usb 3.0 port. The second data may be a voice signal as well as an image, and may include data other than an image.

The first transmission line 10 is connected between the second port P2 and the first switch SW1. The first switch SW1 is selectively connected to the first video interface 6 or the first transmission line 10 according to data to be transmitted among the first data or the second data.

The mirroring module 7 wirelessly transmits the first data to the monitor 100 by connecting the first switch SW1 to the mobile communication terminal RF module 8 when the wireless communication function is executed in the mobile communication terminal, When the transmission function is executed, the first switch SW1 is connected to the second transmission line 2 to wiredly transmit the second data to the monitor 100 or the PC.

The second switch SW2 connects the first switch SW1 to the mobile communication terminal RF module 8 when the wireless mirroring function is executed and connects the first switch SW1 and the second transmission line 2) is connected.

The mobile communication terminal RF module 8 wirelessly transmits the first data to the monitor 100 using a millimeter wave or a terahertz wave. The microwave is an electromagnetic wave of a millimeter wave band or more.

The second transmission line 2 wiredly transmits the first data or the second data to the monitor 100 through the micro USB port 9.

The seat monitor 100 in the moving body includes a monitor RF module 11, a second image interface 12 and a CPU 13. [ The monitor RF module 11 receives the RF signal modulating the first data. The monitor 100 may use any interface that receives an RF signal from the mobile communication terminal 1 and can display a high-quality moving image on the monitor 100 through the second video interface 12. That is, the user can connect with the second video interface 12 using the personal seat monitor 100 in the existing mobile unit. Like the mobile communication terminal RF module, the monitor RF module 11 is also implemented as a millimeter wave communication module or a terahertz wave communication module and communicates on the visible range.

Therefore, the present invention can transmit the first data to the monitor 100 in the moving body by wire using the micro USB port 9, connect the mirroring module 7 to the output of the first switch SW1, Speed mirroring function and wired data transmission function by controlling the switch SW2.

2 is a wireless high-speed mirroring system to which a bidirectional transmission function of an asymmetric time division method is added to the mobile communication terminal 1 during a touch screen operation of the mobile seat monitor 100.

The mobile communication terminal 1 includes a camera 4, a control unit 5, a storage unit 3, a video interface 6, a first transmission line 10, a first low-speed data transmission line 14-1, (SW1) and a mirroring module (7). The mirroring module 7 includes a second switch SW2, a mobile communication terminal RF module 15, a second low speed data transmission line 14-2, an antenna 22 and a second transmission line 2. The monitor 100 includes a monitor RF module 19, a second video interface 12, and a CPU 13.

High-speed data transmission such as super-high-quality video is a transmission scheme as shown in FIG. The high-definition image is transmitted to the RF module 15 through the second switch SW2. The RF module 15 modulates the RF signal into an RF signal and transmits the modulated RF signal to the monitor 100, 100 receives the RF signal, the monitor RF module 19 demodulates the RF signal. The second image interface 12 converts the demodulated signal into an image and displays it on the monitor 100.

On the other hand, the CPU 5 processes monitor data, which is information input by the user, through the touch screen of the monitor 100 and transmits the processed monitor data to the monitor RF module 19. The monitor RF module 19 converts the monitor data into an RF signal Modulated and transmitted to the mobile communication terminal 1. The antenna of the mobile communication terminal 1 receives the RF signal, and the RF module 15 of the mobile communication terminal converts the RF signal into monitor data. The monitor data is transmitted to the UART (universal asynchronous receiver transmitter) port of the control unit 5 through the first and second low-speed data transmission lines 14-2 and 14-1. Accordingly, the control unit 5 of the mobile communication terminal receives the information input to the touch screen of the mobile object monitor 100, processes the corresponding command, and displays a related moving image or a screen. Therefore, according to the present invention, monitor data generated by operating the touch screen screen of the monitor is transmitted to the mobile communication terminal through low-speed data communication, so that the screen of the mobile communication terminal can be controlled through the seat monitor of the mobile.

FIG. 3 is a detailed block diagram of the mobile communication terminal RF module 15 shown in FIG.

The mobile communication terminal RF module 15 includes a high speed data transmission module 16, a low speed data reception module 17, a third switch SW3 and an antenna 22. [ The mobile communication terminal RF module 15 is a two-way communication module including a high-speed data transmission function and a low-speed data reception function. The control unit 5 controls the high-speed communication of the first data and the low-speed communication of the monitor data by an upload / download asymmetric time division duplexer (TDD).

The uploading may be data transmission using a very high frequency from the mobile communication terminal to the monitor, and downloading may be data transmission using the same very high frequency from the monitor to the mobile communication terminal. The upload / download asymmetric time division scheme is a transmission scheme in which a predetermined transmission time is divided into a plurality of time slots and more times slots are allocated to upload than downloading. For example, when uploading and downloading operations are performed for a predetermined time using 80% timeslots of all time slots and 20% of timeslots are used for uploading, an uploading operation for four timeslots, The download operation is repeatedly performed during the time slot.

The control unit 5 can further transmit and receive the large capacity data and the low capacity data within a predetermined time by further dividing the divided time slots into the high speed data transmission module. For example, a high-speed data transmission module transmits an ultra-high-resolution screen image at a transmission rate of 7 Gbps, and a low-speed data reception module receives input information of a touch screen at a transmission rate of 100 kbps or less.

In case of asymmetric bi-directional communication (for example, high-speed communication in the upward direction and low-speed communication in the downward direction), utilizing the high-speed data communication module in both directions becomes an inefficient operation of the data transmission speed. Accordingly, the present invention uses a high-speed data communication module when transmitting large-capacity data from the mobile communication terminal 1 to the monitor 100, and a low-speed data communication module when transmitting from the monitor 100 to the mobile communication terminal 1 use.

4 is a wireless high-speed mirroring system implemented by a wireless high-speed mirroring dongle between a seat monitor 100 of a moving object and a mobile communication terminal 1 without a mirroring function according to the present invention.

When the wireless high-speed mirroring dongle 30 is connected to the micro USB port of the mobile communication terminal 1 having no mirroring function, the mirroring function between the mobile communication terminal and the seat monitor of the moving object is achieved. Since the wireless high-speed mirroring dongle 30 requires only the mobile communication terminal RF module 8 without a compression module or a coding module, the wireless high-speed mirroring dongle 30 can perform high-speed transmission at a gigabit speed or more per second with low power consumption. The interface of the mobile communication terminal 1 and the interface of the wireless high-speed mirroring dongle 30 are connected to each other around the micro USB port 9 as shown in the dongle type embodiment of the wireless high-speed mirroring technology of Fig. 4 .

FIG. 5 is a detailed block diagram of a wireless high-speed mirroring system implemented with the wireless high-speed mirroring dongle 30 shown in FIG.

The wireless high-speed mirroring dongle 30 is connected to the micro USB port 9 and transmits data in both directions of high-speed data and low-speed data. The micro USB port 9 includes a USB function for data transmission and a MyDP (mobility display port) function for serial signal transmission. The CPU 13 outputs monitor data, which is information input through the touch screen of the monitor, to the monitor RF module 19 via the USB port. The monitor RF module 19 modulates the monitor data into an RF signal, To the terminal (1). The RF module 33 of the wireless high-speed mirroring dongle 30 receives the RF signal and transmits the RF signal to the mobile communication terminal 1 through the micro USB ports 31 and 9. Then, the monitor data is transmitted to the USB port of the control unit 5 through the first switch SW1 and the low-speed data transmission line 14-3.

When the control unit 5 of the mobile communication terminal 1 outputs an image, the image interface 6 converts the image into a serial signal. The video interface 6 is connected to the wireless high-speed mirroring dongle 30 via the first switch SW1. The wireless high-speed mirroring dongle 30 modulates and transmits the first data to an RF signal and the RF module 19 of the monitor 100 receives the RF signal and displays it on the monitor 100 through the video interface 12 . Like the mirroring module, the wireless high-speed mirroring dongle 30 operates in low power consumption because it can transmit in real time without a separate compression module and a coding module. Therefore, the wireless high-speed mirroring dongle 30 operates as a power source of the mobile communication terminal 1 through the micro USB port 9 without a separate power supply unit.

6 is an example in which the wireless mirroring technology between the personal seat monitor 100 and the mobile communication terminal 1 of the present invention is utilized.

7 is a view for explaining the relationship between the antenna width of the antenna in the mobile communication terminal and the antenna width in the personal seat monitor of the moving object according to the present invention.

Since the wireless high-speed mirroring technique of the present invention is limited to individual seats, it is necessary to implement a mirroring technique that does not interfere with the adjacent seats. Although the wireless high-speed mirroring technique of the present invention can use the wideband frequency in the millimeter wave band and the terahertz band, there are not many usable channels to transmit the super high resolution image at the transmission rate of 7Gbps. That is, the mobile communication terminal needs to use only two to four frequency channels, or in the worst case, use only one channel to perform mirroring of all individual seats in the moving object. Therefore, in the case where the number of channels is limited, the present invention can provide a directional antenna that has a certain beam angle by using an accurate space division multiplexing method in which there is no data interference for every individual seat, Lt; / RTI >

That is, although the mobile communication terminal 1 requires a directional antenna with a wide angle antenna beam, the personal seat monitor 100 needs to use a directional antenna with a narrow angle antenna beam to minimize radio interference. The communication between the mobile communication terminal 1 and the seat monitor 100 is limited to a distance of less than one meter in consideration of the actual distance between the monitor 100 of the individual seat in the mobile body and the user's mobile communication terminal 1 It is desirable to design the beam width narrowly considering the radio interference with the side seat. Generally, the antenna used in the seat monitor is designed to use a defined beam directional antenna so that the transmission distance between the monitor 100 and the mobile communication terminal 1 is about 50 cm and the width of a seat occupied by the seat can be about 30 cm, And provides a high-speed wireless transmission function without inter-seat interference by using a wireless small-power signal for communication with a mobile communication terminal within a distance of 1 meter or less.

In addition, when a plurality of frequency channels are available, the present invention may not generate radio interference because different channels are used for each seat. Therefore, security of personal information is improved. Preferably, the present invention includes an OOK modulation function, thereby realizing a mobile communication terminal consuming low power.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention as defined in the appended claims. You will understand.

1: mobile communication terminal 2: second transmission line
3: Storage unit 4: Camera
5: control unit 6: first image interface
7: Mirroring module 8: Mobile communication terminal RF module
9: Micro USB port 10: First transmission line
11: Monitor RF module 12: Second image interface
13: CPUs 14-1 to 14-3: Low-speed data transmission line
15: Mobile communication terminal RF module 16: High-speed data transmission module
17: Low speed data receiving module 19: Monitor RF module
22 to 23: antenna 30: wireless high-speed mirroring dongle
31: Micro USB port 32: CPU
33: RF module 34: antenna
100: Monitor

Claims (14)

A mobile communication terminal for transmitting data to a monitor in a moving body,
A control unit for outputting an image reproduced by the mobile communication terminal to a first port and outputting second data stored in a storage unit to a second port;
An image interface connected between the first port and the first switch, for transmitting an image as first data;
A first transmission line connected between the second port and the first switch;
A first switch selectively connected to the video interface or the first transmission line,
And a mirroring module for directly wirelessly transmitting the first data to the monitor in a non-compressed manner when the wireless mirroring function is executed and wiredly transmitting the second data to the monitor when the wired data transmission function is executed. A mobile communication terminal having a high speed mirroring function. The method according to claim 1,
The mirroring module comprises:
A second switch for selectively connecting the first switch to the mobile communication terminal or the second transmission line according to the wireless mirroring function and the wired data transmission function;
A mobile communication terminal RF module for transmitting the first data to the monitor using millimeter waves or terahertz fine high frequency waves;
And a second transmission line for connecting the second switch to the micro USB port and for transmitting the second data to the monitor. 3. The method of claim 2,
Wherein the controller controls the RF module of the mobile communication terminal during uploading and downloading by an asymmetric time division method. 3. The method of claim 2,
The mobile communication terminal RF module includes:
A high-speed data transmission module for transmitting the first data to the monitor through a very high frequency;
A low-speed data receiving module for receiving monitor data input through a touch screen of the monitor through a very high frequency,
When the mirroring function is executed from the mobile communication terminal to the monitor, the high-speed data transmission module is connected to the second switch. When the monitoring data is transmitted from the monitor to the mobile communication terminal, And a third switch for connecting the first switch and the second switch,
Wherein the controller controls operations of the high-speed data transmission module and the low-speed data reception module by an asymmetric time division method. The method according to claim 1,
Wherein the mirroring module mounts a directional antenna to suppress interference of radio waves of a plurality of individual seats in a mobile unit. The method according to claim 1,
Wherein the beam width of the directional antenna of the mirroring module is larger than the beam width of the directional antenna mounted on the monitor. The method according to claim 1,
Wherein the mirroring module includes an OOK modulation module. A controller for outputting an image reproduced by the mobile communication terminal as first data;
A high-speed data transmission module for directly transmitting the first data to the monitor of the moving object in an uncompressed manner using a very high frequency;
A low-speed data receiving module for receiving information input through a touch screen of the monitor using a very high frequency wave;
When the wireless mirroring function is executed from the mobile communication terminal to the monitor, the output of the high-speed data transmission module is transmitted to the controller, and when the data is transmitted from the monitor, the low-speed data reception module is connected to the low- 3 switches,
Wherein the controller controls the uploading operation of the high-speed data transmitting module and the downloading operation of the low-speed data receiving module by an asymmetric time division method. 9. The method of claim 8,
Wherein the beam width of the directional antenna of the mobile communication terminal is greater than the beam width of the directional antenna mounted on the monitor. 1. A mirroring system between a monitor in a mobile body and a mobile communication terminal,
The first data including image information output from the mobile communication terminal is connected to the micro USB port of the mobile communication terminal and is uploaded to the monitor and the monitor data input through the touch screen of the monitor is downloaded, A wireless high-speed mirroring dongle for inputting to the mobile communication terminal through
Speed mirroring dongle when receiving the monitor data from the monitor and receiving the monitor data downloaded by the wireless high-speed mirroring dongle through the micro-USB port when the mirroring function is executed, and outputs the first data to the micro- And a mobile communication terminal for receiving the data transmitted from the controller through the connected low-speed data transmission line and reproducing the corresponding image or displaying the screen information. 11. The method of claim 10,
Wherein the beam width of the antenna mounted on the wireless high-speed mirroring dongle is larger than the beam width of the antenna mounted on the monitor. A low-speed data transmission module for transmitting low-speed monitor data, which is information input through a touch screen, to a mobile communication terminal;
A high-speed data receiving module for directly receiving first data, which is image information transmitted from the mobile communication terminal, in an uncompressed manner using a very high frequency;
And a video interface for converting the first data received by the high-speed data receiving module into an image and displaying the converted data on a monitor. 1. A mirroring module mounted on a mobile communication terminal for transmitting and receiving data to and from a monitor in a moving body,
The mirroring module comprises:
A first switch for selectively providing first data, which is image information reproduced on a screen of the mobile communication terminal, and second data stored in a storage unit, and a micro USB port,
A second switch for connecting the first switch to the mobile communication terminal RF module when the wireless mirroring function is executed and for connecting the first switch and the first transmission line when the wire data transmission function is executed;
A mobile communication terminal RF module for transmitting the first data to the monitor using a very high frequency wave;
And a second transmission line connected between the second switch and the micro USB port for wiredly transmitting second data to the monitor. 14. The method of claim 13,
The mobile communication terminal RF module includes:
A high-speed data transmission module for transmitting the first data to the monitor using a very high frequency;
A low-speed data receiving module for receiving the monitor data and
When the mirroring function is executed from the mobile communication terminal to the monitor, the high-speed data transmission module is connected to the second switch, and when the monitor data is transmitted from the monitor to the mobile communication terminal, And a third switch for connecting the first switch and the second switch,
Wherein the high-speed data transmission module and the low-speed data reception module are controlled by an asymmetric time division method using the same high-frequency wave.

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