KR101088019B1 - Remote data input system and remote data input method - Google Patents

Abstract

The present invention relates to a remote data input system and a data input method thereof, comprising: a pointer used for pointing an arbitrary position on a display unit and an optical signal for detecting a coordinate of the pointing position; And a receiver, which is mounted on the display unit, receives an optical signal to calculate coordinates of the pointing position and displays the pointing position on the display unit according to the calculated coordinates. The receiver includes an optical sensor array for receiving an optical signal, and a coordinate calculator for calculating coordinates of a pointing position by the optical signal received from the optical sensor array. The optical sensor array is composed of flexible electronic elements, and the flexible electronic elements are arranged at least one line on the upper, lower, left, and right sides of the display unit at predetermined intervals, and the coordinate calculation unit includes an optical signal received from the optical sensor array arranged on the upper and lower sides of the display unit. The positions of are respectively detected, and their average values are determined by x coordinates. The positions of the optical signals received by the optical sensor arrays arranged on the left and right sides of the display unit are respectively detected, and their average values are determined by y coordinates. The optical signal generating unit may generate an optical signal for detecting a coordinate of a pointing position, and a key input unit to receive a command from a user.

Remote Data Entry, Light Sensor Array, Pointer

Description

REMOTE DATA INPUT SYSTEM AND REMOTE DATA INPUT METHOD}

The present invention relates to a remote data input system and a data input method thereof, and more particularly, to a system and a method capable of variously inputting data using a remote pointer in a display device such as a monitor and a projector.

Means for inputting data are most familiar to the keyboard, mouse, and touch pad. Data input devices such as mice and buttons are very popular for electronic products such as mobile phones and computers. In fact, it is no exaggeration to say that almost all of everyday life is living with these input devices.

In particular, with the widespread use of mobile phones, various digital devices have converged to mobile phones. Accordingly, input devices that can be easily operated by users have been developed one after another. Touch pads are the most popular data input devices in recent years. It is representative. Since the touchpad has to be mounted on the display screen due to the characteristics of the electronic device to be applied, it is very dependent on the development of a material such as a transparent conductive material.

Touch screens, or touch pads, which are data input devices that allow a user to communicate directly with the display screen, have limitations when the display screen is large. Mobile phone display screens and LCD TV screens can be used, but display screens such as large screens for presentations will be very difficult to produce because they have sizes and locations that are difficult for users to manipulate.

In addition, a device such as a touch screen should be manufactured and released together when a display device is developed, and detachment of the device is almost impossible. In addition, there are many problems such as poor durability, slow reaction speed, low sensitivity.

Many companies have developed very innovative systems for data entry. Its representative company, Sony, has developed a system that can execute many functions by directly operating on the display screen when using a computer using a projector and an image processing system. However, a data input system using such image processing is very expensive to construct, and there are many problems to be solved, such as delays generated during image processing and sensitivity of an input signal.

Due to the development of diode lasers, diode laser pointers are an essential device for presentations. However, the laser pointer is used only as an aid for explanation when presenting, and is not used as a data input device, which causes inconveniences when displaying on a display device or inputting predetermined data.

Accordingly, an object of the present invention is to provide a remote data input system and method according to which a data can be input remotely using a laser pointer to a display device such as a large monitor or a projector.

Another object of the present invention is to provide a remote data input system and a method thereof, which are detachable to a display device such as a large monitor or a projector.

The remote data input system of the present invention according to claim 1 includes a receiving unit detachably mounted to a pointer and a display unit. The pointer is used for pointing to an arbitrary position on the display unit and emits an optical signal for detecting a coordinate of the pointing position. The receiving unit receives the optical signal to calculate coordinates of the pointing position and displays the pointing position on the display unit according to the calculated coordinates. The receiver includes an optical sensor array configured to receive the optical signal, and a coordinate calculator configured to calculate coordinates of the pointing position based on the optical signal received from the optical sensor array. The optical sensor array is composed of flexible electronic devices, and the flexible electronic devices are disposed at least one row above, below, left, and right of the display unit at predetermined intervals. The coordinate calculation unit detects positions of optical signals received by the optical sensor arrays arranged on the upper and lower sides of the display unit, determines their average values as x coordinates, and the optical sensor arrays arranged on the left and right sides of the display unit. Detect the positions of the received optical signals, and determine their average values as y coordinates. An optical signal generating unit for generating an optical signal for detecting the coordinates of the pointing position, and a key input unit for receiving a command from the user.

Therefore, the remote data input system of the present invention according to claim 1 can be used in any monitor or projector since the receiver is detachable from the display unit.
In addition, since the optical sensor array of the remote data input system of the present invention according to claim 1 is composed of flexible electronic elements, the optical sensor array can be mounted on an automatic screen, and since the volume is very small, there is almost no change in volume even when mounted on the display unit.

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Further, since the pointer of the remote data input system of the present invention according to claim 1 generates an optical signal for coordinate detection, coordinate detection can be performed by the optical signal, and a key input unit for receiving a command from a user is provided. It is possible to receive commands from the user.

The receiver of the inventors remote data input system according to claim 3 includes an optical sensor array, a coordinate calculator and a controller. The optical sensor array is mounted on the top, bottom, left and right of the display unit and receives the optical signal. The coordinate calculator calculates coordinates of the pointing position based on the optical signal received from the optical sensor array. The control unit displays the pointing position on the display unit according to the calculated coordinates, and executes a command transmitted from the pointer.

Therefore, since the receiver of the remote data input system of the present invention according to claim 3 can be pointed to the display unit only by an optical signal for coordinate detection, the volume of the pointer can be reduced, thereby miniaturizing the pointer.

The optical sensor array of the inventors remote data input system according to claim 4 is composed of a photodiode. The photodiodes are arranged at least one line in the upper, lower, left and right of the display unit at predetermined intervals.

Therefore, since the optical sensor array of the remote data input system of the present invention according to claim 4 is arranged at least one line above, below, left, and right of the display unit, the accuracy can be improved in detecting the optical signal.

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The inventor's remote data input system according to claim 6 includes a pointer and a receiver mounted to a display unit. The pointer is used for pointing to an arbitrary position on the display unit, and an optical signal for the pointing and an optical signal for the coordinate detection of the pointing position are emitted. The receiver is detachably mounted to the display unit, and receives an optical signal for detecting the coordinates of the pointing position to calculate the coordinates of the pointing position. The receiver includes an optical sensor array for receiving the optical signal for detecting the coordinates, and a coordinate calculator for calculating the coordinates of the pointing position by the optical signal received from the optical sensor array. The optical sensor array is composed of flexible electronic devices, and the flexible electronic devices are disposed one or more lines on the top, bottom, left, and right sides of the display unit at predetermined intervals. The coordinate calculation unit detects positions of optical signals received by the optical sensor arrays arranged on the upper and lower sides of the display unit, determines their average values as x coordinates, and the optical sensor arrays arranged on the left and right sides of the display unit. Detect the positions of the received optical signals, and determine their average values as y coordinates. The pointer includes an optical signal generator for generating an optical signal for detecting the coordinates of the pointing position, a visible light generator for generating the optical signal for pointing, and a key input unit for receiving a command from a user.

Therefore, since the receiver of the remote data input system of the invention according to claim 6 can be detachably attached to the display unit, it can be used in any monitor or projector.

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Further, since the pointer of the remote data input system of the present invention according to claim 6 generates an optical signal for coordinate detection, coordinate detection can be performed by the optical signal, and a key input unit for receiving a command from a user is provided. It is possible to receive commands from the user.

The receiver of the inventor remote data input system according to claim 8 includes an optical sensor array, a coordinate calculator and a controller. The optical sensor array is mounted on the top, bottom, left and right of the display unit and receives an optical signal for detecting the coordinates. The coordinate calculator calculates the coordinates of the pointing position based on the optical signal received from the optical sensor array. The controller performs a command transmitted from the pointer.

Therefore, since the receiver of the remote data input system of the present invention according to claim 8 detects an optical signal using sensors mounted on the top, bottom, left, and right sides of the display unit, it is possible to detect the coordinate of the pointing position and calculate the correct pointing coordinate.

In the inventors remote data input system according to claim 9, the optical sensor array is composed of photodiodes. The photodiodes are arranged at least one line in the upper, lower, left and right of the display unit at predetermined intervals.

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In the inventors remote data input system according to claim 12, the optical signal for the coordinate detection is composed of either infrared or ultraviolet.

A remote data input method according to claim 13, comprising: a first step of firing an optical signal for detecting a coordinate of a pointing position on a display unit by a pointer; and an optical sensor array at a receiving unit detachably mounted to the display unit; A second step of receiving the emitted optical signal, a third step of calculating coordinates of the pointing position on the display unit by using the received optical signal, and the pointing position on the display unit according to the calculated coordinates And a fourth step of displaying on and a fifth step of performing a command input from the pointer at the detected coordinates. The optical sensor array is composed of flexible electronic devices, and the flexible electronic devices are disposed at least one row above, below, left, and right of the display unit at predetermined intervals. The third step may include detecting positions of optical signals received from the optical sensor arrays arranged on the upper and lower sides of the display unit, determining an average value of the optical signals as x coordinates, and the optical sensors arranged on the left and right sides of the display unit. Detecting positions of the optical signals received in the array, and determining their average values as y coordinates. The optical signal for detecting the coordinate is composed of either infrared or ultraviolet.

The remote data input method according to claim 14 is a first step of firing an optical signal for pointing on a display unit and an optical signal for detecting a coordinate of the pointing position from a pointer, and an optical sensor array in a receiving unit mounted on the display unit. A second step of receiving an optical signal for the coordinate detection through a second step, a third step of calculating a pointing position of the optical signal for the coordinate detection on the display unit, and a command input from the pointer at the detected coordinates It includes a fourth step of performing. The optical sensor array is composed of flexible electronic devices, and the flexible electronic devices are disposed at least one row above, below, left, and right of the display unit at predetermined intervals. The third step may include detecting positions of optical signals received from the optical sensor arrays arranged on the upper and lower sides of the display unit, determining an average value of the optical signals as x coordinates, and the optical sensors arranged on the left and right sides of the display unit. Detecting positions of the optical signals received in the array, and determining their average values as y coordinates. The optical signal for detecting the coordinate is composed of either infrared or ultraviolet.

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As described above, the present invention can be displayed on the display device using a laser pointer, and data can be input at a pointing position such as a mouse, so that the present invention can be efficiently used during a presentation. In addition, since the light-receiving unit array sensor of the present invention can be easily attached to or detached from the display device, the light-receiving unit array sensor can be attached to other display devices, thereby providing high compatibility.

DETAILED DESCRIPTION A detailed description of preferred embodiments of the present invention will now be described with reference to the accompanying drawings. It should be noted that the same components in the figures represent the same numerals wherever possible. Specific details are set forth in the following description, which is provided to aid a more general understanding of the invention. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

The present invention proposes a system capable of remotely pointing and inputting data to a display device such as a large monitor or a large projector using a laser pointer, and a data input method thereof.

First, the system of the present invention will be described and the operation of each device will be described.

1 is a diagram illustrating a remote data input system 100 according to a preferred embodiment of the present invention.

Referring to FIG. 1, the system 100 of the present invention may point or display the display device using a pointer 110 that emits an optical signal on the display unit and an optical signal received from the pointer 110. It includes a receiver 120 for performing a command transmitted from the pointer 110.

In the present invention, two kinds of embodiments will be described according to the type of optical signal transmitted from the pointer 110. In the first embodiment, the pointer 110 transmits only an optical signal for coordinate detection. In the second embodiment, an optical signal for pointing and an optical signal for coordinate detection are transmitted. Since there are many similar parts in the first and second embodiments, the following description will focus on the first embodiment, and then, if there are differences, they will be described separately.

<First Embodiment>

Referring to the first embodiment, the pointer 110 includes an optical signal generating unit 111 for detecting coordinates and a key input unit 113 for receiving a command to operate in the display unit.

The receiver 120 is mounted on the top, bottom, left, and right sides of the display unit, and is pointed at the display by an optical sensor array 121 for receiving the optical signal and the optical signal received from the optical sensor array 121. A coordinate calculator 123 for calculating coordinates of a position, and a controller 125 for displaying the pointing position on the display unit according to the calculated coordinates and performing a command transmitted from the pointer 110. .

In detail, since the pointer 110 transmits only the optical signal for the coordinate detection as described above, the optical signal generator 111 emits only the optical signal for the coordinate detection. In addition, when the receiver 120 receives the transmitted optical signal from the optical sensor array 121 and detects coordinates, when the coordinates are detected by the controller 125, a user may recognize the corresponding pointing position. Will display an indicator. And a receiver 120 to detect the coordinates to which the optical signal points to the display unit and to point the user to a position corresponding to the detected coordinates.

Next, each device will be described.

First, the optical signal generator 111 uses an optical signal to detect the coordinates. As shown in FIG. 2, the optical signal for detecting the coordinates is emitted in the form of a cross. The optical signal for detecting the coordinate may use an infrared or ultraviolet laser beam.

The reason why the optical signal for detecting the coordinates is formed in the shape of a cross is for detecting the X and Y coordinates in the receiver 120. To this end, the optical signal generator 111 generates a laser beam that can represent X and Y coordinates, respectively. In the first embodiment, since the location of the pointing is implemented by a predetermined algorithm of the receiver 120, the laser pointer 201 may be omitted as shown in FIG. 2.

3 is a view showing an example of the state of the laser pointer 110 of the present invention.

Referring to FIG. 3, the optical signal for detecting the coordinates is divided into an output unit of the X coordinate laser 301 and an output unit of the Y coordinate laser 305, respectively, but may be implemented as one laser output unit. In addition, the laser pointer 110 is also divided into a key input unit 307 that receives a command to operate in the display device from the user. The key input unit 307 may include left and right click buttons similar to a function of a mouse.

This will be described with respect to the receiver 120.

In FIG. 1, the optical sensor array 121 is a sensor that receives an optical signal transmitted from the laser pointer 110. As shown in FIG. 4, the light sensor array 121 is implemented as a light receiving part laser sensor 401, and the light receiving part laser sensor 401 may use a photodiode, a flexible element, or the like having several diameters. . The photodiodes are arranged at densely spaced intervals in the light-receiving unit laser sensor 401, and may be implemented in two lines as shown in FIG. 5 to increase the precision, and more.

Since the photodiode or the flexible element has a very small volume, there is an advantage in that the size of the screen does not differ significantly even when installed on the screen.

In particular, when the light-receiving unit laser sensor 401 is implemented as a flexible element, the sensor itself is flexible, so that it can be installed in any display device. For example, if the cloth is attached to a cloth material such as a screen, it may be installed in a device such as an automatic screen since the cloth may be curled.

Next, the coordinate calculation unit 123 detects the coordinates based on the optical signal detected by the optical sensor array 121. The coordinate detection method is as follows.

 The optical signal for detecting the coordinates is implemented in the form of a cross as described above. When the optical sensor array 121 ideally receives an optical signal for coordinate detection as in FIG. 6, the coordinate values detected in the respective X1, X2 and Y1 and Y2 coordinates are the same. However, since the laser pointer 110 is used by the user, the optical signals do not necessarily go out horizontally or vertically when projecting.

That is, as shown in FIG. 7, an optical signal may be received at an angle, and thus X1, X2 and Y1, Y2 coordinates may be different. In the present invention, the X coordinate is extracted by averaging the X1, X2 coordinate values obtained from the sensor array 403 of the axis parallel to the ground, and the Y coordinate is obtained from the sensor array 403 of the axis perpendicular to the ground. The average of the Y2 coordinates is calculated.

In addition, the optical signal received from the optical sensor array 121 does not necessarily have one value extracted from each axis. Therefore, when implementing the algorithm for extracting the coordinates, when each of two points of the four points obtained from the sensor array 403, the line segments vertically intersect, the algorithm should be implemented so that the intersection point is within the screen area.

Next, the control unit 125 of the receiving unit 120 displays the X and Y coordinates calculated by the coordinate calculating unit 123 on the display unit, performs a command input from the laser pointer 110, Control the display device to display the input command result.

For example, the command transmitted from the laser pointer 110 may be implemented in the same way as a mouse. As shown in FIG. 2, the key input unit 307 is provided with left and right click buttons, and can perform the same function as the two buttons of the mouse. Of course, the key input unit 307 may further include a key for performing a separate command.

8 is a flowchart illustrating a remote data input method according to a first embodiment of the present invention.

Referring to FIG. 8, the laser pointer 110 emits an optical signal for coordinate detection in step 801. In operation 803, the receiver 120 detects an optical signal for detecting the coordinate. In operation 805, the receiver 120 calculates coordinates of the pointing to be displayed on the display device by using the detected optical signal. As described above, the coordinate calculation is performed using the average value of the two values of the X coordinate of the sensor array 403 and the two values of the Y coordinate.

When the coordinate value is calculated, the controller 125 makes a pointing of the corresponding position on the display device using the calculated coordinate value in step 807. In addition, when receiving the command transmitted from the key input unit 113 of the laser pointer 110, the controller 125 performs the operation according to the command in the corresponding coordinates as in step 809.

Second Embodiment

In the second embodiment, as described above, the laser pointer 120 directly transmits an optical signal and points to the display device. Accordingly, since the optical signal generator 111 of the laser pointer 110 and the controller 125 of the receiver 120 are different from each other, the operations of the other devices are the same, and thus description of the same device will be omitted.

Referring to FIG. 1, the laser pointer 110 emits an optical signal capable of directly pointing to a display device in addition to the optical signal for coordinate detection.

The optical signal for performing the pointing uses a visible light laser. The visible light laser 201 has a strong straightness and agglomerated form as shown in FIG. 2. Accordingly, the receiving unit 120 may directly point to the display device without a separate operation.

The optical signal for detecting the coordinates is emitted in the form of a cross mark as in the first embodiment. Accordingly, the laser pointer 110 further includes a laser pointer button 309 that emits a visible light laser in FIG. 3. Of course, the present embodiment may also be divided into the X coordinate laser 301 and the Y coordinate laser 305. It can also be implemented to fire with a single laser.

Since the control unit 125 of the receiving unit 120 directly fires the visible light laser for performing the pointing at the laser pointer 110, the step of separately pointing the display device may be omitted.

9 is a flowchart showing a remote data input method according to the second preferred embodiment of the present invention.

9, in operation 901, the laser pointer 110 emits an optical signal for pointing a display device and an optical signal for detecting a coordinate of a corresponding pointing position. In operation 903, the receiver 120 detects an optical signal for detecting the coordinate. At this time, the optical signal for the coordinate detection is launched in a cross shape so that the receiver 120 can detect the X, Y coordinates, as shown in Figure 3 is emitted in parallel with the visible light laser. In operation 905, the receiver 120 calculates coordinates of the display apparatus using the detected optical signal. The coordinate calculation is performed in the same manner as in the first embodiment.

When the control unit 120 receives a command transmitted from the key input unit 113 of the laser pointer 110, the control unit 120 performs an operation according to the command in the row-by-row coordinates as in step 907.

The data input system developed by the present invention has a very high utilization value. For example, in school, when teaching through a projector, writing is possible using a laser pointer directly on the projected screen. It is also applicable to the heads of companies, research institutes and academic societies. In addition, the present invention is configured to be removable, it is possible to utilize in devices such as mobile phones, laptops with a touch screen device. Therefore, it can serve as a durable and sensitive data input system. In addition, if a three-dimensional stereoscopic display device is developed in the future, it will be used here to draw a picture using laser light in the space.

While the present invention has been described in connection with what is presently considered to be the most practical and preferred embodiment, it is to be understood that the invention is not limited to the disclosed embodiments, but is capable of various modifications within the scope of the invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined not only by the scope of the following claims, but also by the equivalents of the claims.

1 shows a remote data input system according to a preferred embodiment of the present invention.

2 is a view showing a laser beam structure of the laser pointer of the present invention.

3 is a view showing an example of the state of the laser pointer of the present invention.

4 is a view showing an optical sensor array of the present invention.

5 shows an example of a sensor array of the present invention.

6 and 7 are views showing an example of the coordinate laser beam received by the receiving unit of the present invention.

8 is a flowchart illustrating a data input method according to a first preferred embodiment of the present invention.

9 is a flowchart illustrating a data input method according to a second preferred embodiment of the present invention.

Claims (16)

Remote data input system including a display unit, A pointer which is used for pointing to an arbitrary position on the display unit and in which an optical signal for detecting a coordinate of the pointing position is emitted; And A receiving unit detachably mounted to the display unit, receiving the optical signal to calculate coordinates of the pointing position, and displaying the pointing position on the display unit according to the calculated coordinates; Including, The receiver includes an optical sensor array for receiving the optical signal and a coordinate calculation unit for calculating the coordinates of the pointing position by the optical signal received from the optical sensor array, The optical sensor array is composed of a flexible electronic device, The flexible electronic device is arranged at least one line in the top, bottom, left and right of the display unit at predetermined intervals, The coordinate calculation unit detects positions of optical signals received by the optical sensor arrays arranged on the upper and lower sides of the display unit, determines their average values as x coordinates, and the optical sensor arrays arranged on the left and right sides of the display unit. Respectively detect the positions of the optical signals received at The pointer includes an optical signal generation unit for generating an optical signal for detecting the coordinates of the pointing position, and a key input unit for receiving a command from a user. Remote data entry system. delete The method of claim 1, The receiving unit may further include a control unit mounted on the display unit in upper, lower, left, and right sides, displaying the pointing position on the display unit according to the calculated coordinates, and performing a command transmitted from the pointer. Remote data entry system. The method of claim 3, The optical sensor array is composed of a photodiode, The photodiode is arranged at least one row in the top, bottom, left and right of the display unit at predetermined intervals, Remote data entry system. delete  In the remote data input system comprising a display unit, A pointer which is used for pointing to an arbitrary position on the display unit and which an optical signal for the pointing and an optical signal for the coordinate detection of the pointing position are emitted; And A receiver configured to be detachably mounted to the display unit and to receive an optical signal for detecting a coordinate of the pointing position through an optical sensor array to calculate coordinates of the pointing position; Including, The receiver includes an optical sensor array for receiving an optical signal for detecting the coordinates, and a coordinate calculation unit for calculating the coordinates of the pointing position based on the optical signal received from the optical sensor array. The optical sensor array is composed of a flexible electronic device, The flexible electronic device is arranged one or more lines in the upper, lower, left and right of the display unit at predetermined intervals, The coordinate calculation unit detects positions of optical signals received by the optical sensor arrays arranged on the upper and lower sides of the display unit, determines their average values as x coordinates, and the optical sensor arrays arranged on the left and right sides of the display unit. Respectively detect the positions of the optical signals received at The pointer includes an optical signal generator for generating an optical signal for detecting the coordinates of the pointing position, a visible light generator for generating the optical signal for pointing, and a key input unit for receiving a command from a user. Remote data entry system. delete The method of claim 6, The receiving unit may further include a control unit mounted on the top, bottom, left, and right sides of the display unit to perform a command transmitted from the pointer. Remote data entry system. The method of claim 8, The optical sensor array is composed of a photodiode, The photodiode is arranged at least one row in the top, bottom, left and right of the display unit at predetermined intervals, Remote data entry system. delete delete 7. The method according to claim 1 or 6, The optical signal for detecting the coordinate is composed of either infrared or ultraviolet, Remote data entry system. Remote data input method using a remote data input system including a display unit, A first step of emitting an optical signal for detecting a coordinate of a pointing position on the display unit in a pointer; A second step of receiving the emitted optical signal through an optical sensor array in a receiving unit detachably mounted to a display unit; A third step of calculating coordinates of a pointing position on the display unit by using the received optical signal; A fourth step of displaying the pointing position on the display unit according to the calculated coordinates; And A fifth step of performing a command input from the pointer at the detected coordinates; Including, The optical sensor array is composed of a flexible electronic device, The flexible electronic device is arranged at least one line in the top, bottom, left and right of the display unit at predetermined intervals, The third step may include detecting positions of optical signals received from the optical sensor arrays arranged on the upper and lower sides of the display unit, determining an average value of the optical signals as x coordinates, and the optical sensors arranged on the left and right sides of the display unit. Detecting positions of optical signals received in the array, and determining their average values as y coordinates, The optical signal for detecting the coordinate is composed of either infrared or ultraviolet, Remote data entry method. Remote data input method using a remote data input system including a display unit, A first step of firing an optical signal for pointing on the display unit and an optical signal for detecting a coordinate of the pointing position at the pointer; A second step of receiving an optical signal for detecting the coordinates through an optical sensor array in a receiving unit detachably mounted to a display unit; Calculating a pointing position of the optical signal for detecting the coordinate on the display unit; And A fourth step of performing a command input from the pointer at the detected coordinates; Including, The optical sensor array is composed of a flexible electronic device, The flexible electronic device is arranged at least one line in the top, bottom, left and right of the display unit at predetermined intervals, The third step may include detecting positions of optical signals received from the optical sensor arrays arranged on the upper and lower sides of the display unit, determining an average value of the optical signals as x coordinates, and the optical sensors arranged on the left and right sides of the display unit. Detecting positions of optical signals received in the array, and determining their average values as y coordinates, The optical signal for detecting the coordinate is composed of either infrared or ultraviolet, Remote data entry method. delete delete

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