JP2015014945A - Display device, terminal equipment, display system, and display method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To operate terminal equipment without any feeling of physical disorder through predetermined touch operation from the side of a display device when the same image with the terminal equipment is displayed on a display device through Miracast(R) connection etc.SOLUTION: A liquid crystal monitor 1 comprises: a reception part 11 which receives the same image data with image data displayed on a portable terminal 2 from the portable terminal 2; a display panel 13 which displays the received image data; a touch panel 14 provided integrally with the display panel 13; a touch operation determination part 16a which determines whether a touch operation detected by the touch panel 14 is a predetermined touch operation; a touch movement quantity conversion part 16b which converts a first touch movement quantity of touch coordinates of the predetermined touch operation into a second touch movement quantity according the ratio of the screen size of the liquid crystal monitor 1 and the screen size of the portable terminal 2; and a transmission part 17 which transmits touch operation information based upon the second touch movement quantity obtained through the conversion to the portable terminal 2.

Description

  The present invention relates to a display device, a terminal device, a display system, and a display method, and more particularly to a display device, a terminal device, a display system, and a display method that can be touch-operated.

  In recent years, mobile terminals such as smartphones and PDAs (Personal Digital Assistants) are rapidly spreading. Such a mobile terminal employs a touch panel as an operation unit for receiving an operation input by a user in order to realize space saving and simple operability. In this touch panel, by detecting the coordinate value on the screen of the point touched by the user's finger or touch pen, an image such as a line drawn by touch is recognized and displayed on the screen of a liquid crystal display device or the like. can do. Further, as the principle of the touch panel, there are various types such as a resistance film method, a capacitance method, and an optical method (infrared method), for example.

  As one of touch operations on the touch panel, a pinch operation and a flick operation are known. The pinch operation is an operation to shorten (pinch in) or expand (pinch out) the interval between two fingers pressed by the user on the touch panel, and the flick operation refers to a finger pressed by the user on the touch panel. This is an operation of moving a finger in a certain direction and then releasing it by bouncing a finger off the touch panel. These touch operations enable operations such as enlargement / reduction of the display image and page turning.

  Conventionally, for example, a technique described in Patent Document 1 has been proposed for a flick operation on a touch panel. This measures the moving speed from the touch start position to the touch end position during the flick operation, and sets a control amount for scrolling the display image based on the moving speed and the number of fingers of the user. Patent Document 2 describes a technique for moving a page of a display image by a movement amount corresponding to the number of contact points by a multi-flick operation when a multi-flick operation by a plurality of fingers is detected.

JP 2011-248416 A JP 2011-170603 A

  Here, a technique called Miracast (registered trademark) that displays a display screen of a mobile terminal such as a smartphone on a large screen of a liquid crystal monitor is known. Miracast is a wireless connection standard established by Wi-Fi Alliance, which connects a liquid crystal monitor and a portable terminal on a one-to-one basis using a wireless LAN. Therefore, a wireless LAN router is not necessary. Connection is simple. For example, when a predetermined input switching button on the LCD monitor is selected and the connection is on standby, both parties recognize the other party by launching the Miracast application on the corresponding mobile terminal. Then, the screen of the mobile terminal is displayed as it is on the large screen of the liquid crystal monitor.

  In the above, it is possible to operate the portable terminal from the liquid crystal monitor side by transmitting the touch operation information from the touch panel included in the liquid crystal monitor to the portable terminal side to convey the operation content. For example, when a pinch operation is performed on the touch panel of the liquid crystal monitor in order to enlarge / reduce the image on the liquid crystal monitor side, the touch operation information at this time is transmitted to the mobile terminal, and the mobile terminal responds to the touch operation information. To enlarge or reduce the image. Then, the image after the pinch operation is transmitted from the portable terminal to the liquid crystal monitor, and the image after being enlarged or reduced is displayed on the liquid crystal monitor.

  However, the above configuration has the following problems. Normally, the screen size of the mobile terminal is smaller than the screen size of the LCD monitor. Therefore, when trying to operate the mobile terminal by a pinch operation on the touch panel of the LCD monitor, the normal pinch operation is compared with the case of using a mobile terminal The amount of finger movement must be increased. For example, in FIG. 7, a case where the same image P is displayed on the screens of the liquid crystal monitor 101 and the portable terminal 102 is assumed. In order to reproduce the finger movement amount L2 by the pinch operation on the small-screen portable terminal 102 on the large-screen liquid crystal monitor 101, it is necessary to move the finger by the movement amount L1 larger than the movement amount L2. This movement amount L1 increases as the screen size of the liquid crystal monitor 101 increases. That is, in order to obtain a predetermined amount of movement on the mobile terminal 102, the amount of finger movement on the liquid crystal monitor 101 must be larger than the amount of finger movement on the mobile terminal 102, giving the user a sense of incongruity. End up.

  In particular, when an attempt is made to enlarge the image P by performing a pinch-out operation on the liquid crystal monitor 101, it is considered that a sufficient amount of movement cannot be secured with the user's thumb and forefinger. There may be a situation where the enlarged operation cannot be performed.

  The present invention has been made in view of the above-described circumstances, and when the same image as the terminal device is displayed on the display device by Miracast connection or the like, the terminal device is uncomfortable by a predetermined touch operation from the display device side. An object is to provide a display device, a terminal device, a display system, and a display method that can be operated without any problems.

  In order to solve the above problems, a first technical means of the present invention is a display device connected to a terminal device capable of touch operation, and the same image data as the image data displayed on the terminal device is stored in the display device. A receiving unit that receives from the terminal device, a display unit that displays the received image data, a touch panel provided integrally with the display unit, and whether the touch operation detected by the touch panel is a predetermined touch operation A touch operation determination unit that determines whether or not a predetermined touch operation is determined by the touch operation determination unit, the first touch movement amount of the touch coordinates in the predetermined touch operation is the screen size of the display device Based on the second touch movement amount converted by the touch movement amount conversion unit, the touch movement amount conversion unit converting the second touch movement amount into a second touch movement amount according to the ratio of the screen size of the terminal device. It is obtained characterized by including a transmission unit that transmits the touch operation information to the terminal device.

  According to a second technical means, in the first technical means, the predetermined touch operation is a pinch operation or a flick operation.

  According to a third technical means, in the first or second technical means, the touch operation information is coordinate information calculated based on touch coordinates in the predetermined touch operation and the second touch movement amount. It is characterized by being.

  According to a fourth technical means, in the third technical means, the touch movement amount conversion unit is configured so that when the coordinates of the coordinate information exceed a coordinate range of the terminal device, the touch information is within the coordinate range. The touch movement amount of 2 is adjusted.

  According to a fifth technical means, in any one of the first to fourth technical means, the touch movement amount conversion unit asks a user whether or not to execute the touch movement amount conversion processing by the touch movement amount conversion unit. It is characterized by making it select.

  A sixth technical means is a terminal device connected to the display device in any one of the first to fifth technical means, the display unit displaying the image data, and the touch operation received from the display device And a control unit that executes a predetermined operation on the image data displayed on the display unit according to the information.

  A seventh technical means is the sixth technical means, wherein the control unit executes a page turning operation on the image data as the predetermined operation.

  An eighth technical means is the sixth technical means, wherein the control unit executes an enlargement / reduction operation on the image data as the predetermined operation.

  A ninth technical means is a terminal device connected to a display device capable of touch operation, a display unit for displaying image data, a touch panel provided integrally with the display unit, and a display on the display unit A transmission unit that transmits the same image data as the image data that has been transmitted to the display device, a reception unit that receives touch operation information in a predetermined touch operation on the transmitted image data from the display device, and the reception unit A first touch movement amount of touch coordinates in the predetermined touch operation is obtained from the touch operation information, and the first touch movement amount is determined according to a ratio between the screen size of the display device and the screen size of the terminal device. Based on the touch operation information and the second touch movement amount, the image data displayed on the display unit is assigned to the image data displayed on the display unit. Is obtained is characterized in that a control unit for executing the operation.

  The tenth technical means is a display system in which a touch-operable terminal device and a touch-operable display device are connected, and the display device has the same image data as the image data displayed on the terminal device. A receiving unit that receives data from the terminal device, a display unit that displays the received image data, a touch panel provided integrally with the display unit, and a touch operation detected by the touch panel is a predetermined touch operation A touch operation determination unit that determines whether or not the touch operation determination unit determines that the touch operation determination unit determines that the touch operation is a predetermined touch operation. A touch movement amount conversion unit for converting to a second touch movement amount corresponding to a ratio between the screen size of the terminal device and the screen size of the terminal device, and a second converted by the touch movement amount conversion unit. A transmission unit that transmits touch operation information based on the movement amount to the terminal device, wherein the terminal device displays the image data and the terminal according to the touch operation information received from the display device. And a control unit that executes a predetermined operation on the image data displayed on the display unit of the device.

  An eleventh technical means is a display method by a display device connected to a terminal device capable of touch operation, and the display device receives the same image data as the image data displayed on the terminal device from the terminal device. A reception step of receiving, a display step of displaying the received image data on a display unit, and determining whether or not a touch operation detected by a touch panel provided integrally with the display unit is a predetermined touch operation Touch operation determining step, and when the predetermined touch operation is determined in the touch operation determining step, the first touch movement amount of the touch coordinates in the predetermined touch operation is determined as the screen size of the display device and the terminal A touch movement amount conversion step for converting to a second touch movement amount according to the ratio to the screen size of the device, and a second value converted by the touch movement amount conversion step. Is the touch operation information based on the touch movement of those characterized by comprising a transmission step of transmitting to the terminal device.

  According to the present invention, when the same image as that of the terminal device is displayed on the display device by Miracast connection or the like and a predetermined touch operation on the display device is detected, the first touch movement amount of the touch coordinates of the display device is Since it can be converted into the second touch movement amount according to the ratio between the screen size of the display device and the screen size of the terminal device, the terminal device can be operated without a sense of incongruity by a predetermined touch operation on the display device side. .

It is a figure which shows the example of an external appearance structure of the display system which concerns on this invention. It is a block diagram which shows the functional structural example of the liquid crystal monitor and portable terminal which concern on the 1st Embodiment of this invention. It is a figure which shows an example of the touch movement amount adjustment screen displayed on a liquid crystal monitor. It is a flowchart for demonstrating an example of the display method by the display apparatus which concerns on this invention. It is a flowchart for demonstrating the other example of the display method by the display apparatus which concerns on this invention. It is a block diagram which shows the functional structural example of the liquid crystal monitor and portable terminal which concern on the 2nd Embodiment of this invention. It is a figure for demonstrating a prior art.

  Hereinafter, preferred embodiments according to a display device, a terminal device, a display system, and a display method of the present invention will be described with reference to the accompanying drawings.

  FIG. 1 is a diagram showing an external configuration example of a display system according to the present invention. In the figure, reference numeral 1 denotes a liquid crystal monitor which is an example of a display device, and 2 denotes a portable terminal which is an example of a terminal device. The large-screen liquid crystal monitor 1 and the small-screen portable terminal 2 are connected to the aforementioned Miracast, for example, and transmit the image P displayed on the portable terminal 2 to the liquid crystal monitor 1. The same image P is displayed. Note that the connection method between the liquid crystal monitor 1 and the portable terminal 2 is not limited to this Miracast connection, but may be a wired connection or a wireless connection having the same function.

  Both the liquid crystal monitor 1 and the portable terminal 2 are provided with a touch panel to enable a touch operation. In the display system of this example, touch operation information on the liquid crystal monitor 1 is transmitted to the mobile terminal 2, and the mobile terminal 2 executes a predetermined operation according to the touch operation information. For example, when enlarging / reducing the image data, the portable terminal 2 executes the enlarging / reducing operation of the image data according to the pinch operation on the liquid crystal monitor 1, and the enlarged / reduced image data is sent to the liquid crystal monitor 1. The liquid crystal monitor 1 is controlled to display it.

(First embodiment)
FIG. 2 is a block diagram illustrating a functional configuration example of the liquid crystal monitor and the portable terminal according to the first embodiment of the present invention. The liquid crystal monitor 1 includes a receiving unit 11, a display panel control unit 12, a display panel 13, a touch panel 14, a touch panel control unit 15, a control unit 16, and a transmission unit 17. The portable terminal 2 is, for example, a smartphone, and includes a reception unit 21, a display unit 22, a touch panel 23, a control unit 24, and a transmission unit 25. The display device according to the present invention may be a thin display device other than the liquid crystal monitor 1 described above. For example, a liquid crystal television may be used as a monitor. Further, the terminal device according to the present invention may be other than the portable terminal 2 described above, for example, a personal computer equipped with a touch panel.

  The receiving unit 11 of the liquid crystal monitor 1 receives, analyzes, and decodes image data sent from the portable terminal 2 and sends the decoded image data to the display panel control unit 12. The display panel control unit 12 is for controlling the drive of the display panel 13 and displays the image data from the receiving unit 11 on the display panel 13 in a state where it can be seen. The display panel 13 is composed of a liquid crystal panel in this example.

  The touch panel 14 is a sensor for inputting a touch position (hereinafter also referred to as touch coordinates) when the user touches the screen of the liquid crystal monitor 1 with a user's finger or a stylus pen. The touch panel control unit 15 detects touch coordinates input via the touch panel 14 and sends the detected touch coordinates to the control unit 16. The control unit 16 includes a CPU and a memory for controlling the operation of the liquid crystal monitor 1, and generates touch operation information based on touch coordinates from the touch panel control unit 15. The transmission unit 17 converts the touch operation information generated by the control unit 16 into a predetermined format for transmission and transmits it to the mobile terminal 2.

  The transmission unit 25 of the portable terminal 2 transmits image data displayed on the display unit 22 to the liquid crystal monitor 1, and the reception unit 21 receives touch operation information from the liquid crystal monitor 1. Then, the control unit 24 performs the same operation and processing as the touch operation detected via its touch panel 23 on the image data being displayed on the display unit 22 based on the touch operation information received from the liquid crystal monitor 1. Run.

  That is, the coordinate position on the touch panel 14 of the liquid crystal monitor 1 and the coordinate position on the touch panel 23 of the mobile terminal 2 are associated with each other, and the touch coordinate position on the liquid crystal monitor 1 is transmitted to the mobile terminal 2 as touch operation information. Is done. The portable terminal 2 recognizes the touch coordinate position on the liquid crystal monitor 1 by assigning it to its corresponding coordinate position. In this way, when a touch operation such as a pinch operation or a flick operation is performed on the liquid crystal monitor 1, the mobile terminal 2 recognizes the trajectory of these touch operations from the touch operation information described above, and according to the trajectory. The operation can be performed.

  A main object of the present invention is to enable a terminal device to be operated without a sense of incongruity by a predetermined touch operation from the display device side when the same image as that of the terminal device is displayed on the display device by Miracast connection or the like. As a configuration for this, a liquid crystal monitor 1 that is an example of a display device includes a receiving unit 11 that receives the same image data as the image data displayed on a portable terminal 2 that is an example of a terminal device, and a reception unit 11 A display panel 13 corresponding to a display unit that displays the image data, a touch panel 14 provided integrally with the display panel 13, and whether or not the touch operation detected by the touch panel 14 is a predetermined touch operation. When the touch operation determination unit 16a and the touch operation determination unit 16a determine that the touch operation is a predetermined touch operation, the first touch movement amount of the touch coordinates in the predetermined touch operation is determined based on the screen size of the liquid crystal monitor 1 and the portable terminal 2. The touch movement amount conversion unit 16b that converts the second touch movement amount according to the ratio with the screen size, and the touch movement amount conversion unit 16b that converts the second touch movement amount conversion unit 16b. And a transmission unit 17 for transmitting the touch operation information based on the touch movement of the mobile terminal 2.

  Here, the predetermined touch operation is, for example, a pinch operation or a flick operation. The pinch operation is an operation to shorten (pinch in) or expand (pinch out) the interval between two fingers pressed by the user on the touch panel, and the flick operation refers to a finger pressed by the user on the touch panel. This is an operation of moving a finger in a certain direction and then releasing it by bouncing a finger off the touch panel.

  Further, the touch operation determination unit 16 a and the touch movement amount conversion unit 16 b are realized as one function of the control unit 16. Specifically, a program for executing functions as the touch operation determination unit 16a and the touch movement amount conversion unit 16b is stored in a memory (not shown) in the control unit 16, and at the time of execution, the control unit 16 CPU (not shown) reads the program from the memory and executes it.

  In the above, the touch operation determination unit 16a detects the locus of the touch point on the touch panel 14 and determines whether or not the touch operation is a predetermined touch operation (here, pinch operation or flick operation). In the case of a pinch operation, two touch points are detected at the same time, and a trajectory moves in a direction in which these two touch points approach or a trajectory moves in a direction away from each other. The trajectory of the pinch operation is not limited to a trajectory in which two touch points move, but may be a trajectory in which one touch point is fixed and only the other touch point moves. In the case of a flick operation, the locus is such that at least one touch point continuously moves in a certain direction. Therefore, the touch operation determination unit 16a can determine that the touch operation is a pinch operation or a flick operation when such a touch point locus is detected.

Next, the first processing example of the touch movement amount conversion unit 16b will be described by exemplifying the case of a flick operation. When the first touch movement amount of the touch coordinates in the flick operation is a1, the adjustment amount is b1, and the second touch movement amount is a1 ′, the adjustment amount b1 can be determined by the following equation (1). it can.
b1 = a1 × c (1)
However, c is an adjustment coefficient. The second touch movement amount a1 ′ is
a1 ′ = a1 + b1 = (1 + c) × a1 Formula (2)
It can be asked.

The touch movement amount conversion unit 16b determines the adjustment amount b1 based on a ratio between the screen size of the liquid crystal monitor 1 and the screen size of the mobile terminal 2 (hereinafter referred to as a screen size ratio). Specifically, when the screen size of the liquid crystal monitor 1 is 50% larger than the screen size of the portable terminal 2 in aspect ratio, for example, the adjustment amount b1 is “0” as the adjustment coefficient c with respect to the first touch movement amount a1. .5 "multiplied by. In this case, the second touch movement amount a1 ′ is obtained from the above equation (2).
a1 ′ = (1 + 0.5) × a1 = 1.5 × a1
It can be asked.

  In the above description, the first touch movement amount a1 can be obtained by detecting the movement amount of the finger in the flick operation, that is, the distance from the touch start coordinate to the touch end coordinate. In the case of multi-flick operation, touch coordinates of a plurality of points are detected at the same time. However, the start coordinates and end coordinates of any one touch point may be used, and the start coordinates and end coordinates of a plurality of touch points may be used. It may be the average of each. Here, when the touch start coordinates are (x1, y1) and the touch end coordinates are (x2, y2), the distance between the touch start coordinates and the touch end coordinates is | x2-x1 |, y in the x direction. In the direction, | y2-y1 |. Therefore, the first touch movement amount a1 can be expressed as (| x2-x1 |, | y2-y1 |).

  In this case, the second touch movement amount a1 ′ can be obtained as (1.5 × | x2-x1 |, 1.5 × | y2-y1 |). In this manner, the first touch movement amount a1 (| x2-x1 |, | y2-y1 |) in the flick operation is equal to the second touch movement amount a1 ′ (1.5 × | X2-x1 |, 1.5 × | y2-y1 |).

  Then, the touch movement amount conversion unit 16b uses the touch start coordinates (x1, y1) in the flick operation and the second touch movement amount a1 ′ (1) as the touch operation information corresponding to the second touch movement amount a1 ′. .5 × | x2−x1 |, 1.5 × | y2−y1 |). Here, (x1 + 1.5 × (x2−x1), y1 + 1.5 × (y2−y1)) is obtained as the coordinate information. The touch operation information (coordinate information) obtained in this way is transmitted from the transmission unit 17 of the liquid crystal monitor 1 to the portable terminal 2. By this touch operation information (coordinate information), the flick operation locus from the touch start coordinates (x1, y1) to the touch end coordinates (x2, y2) is changed from the touch start coordinates (x1, y1) to the touch end coordinates (x1 + 1. 5 × (x2−x1), y1 + 1.5 × (y2−y1)).

  Note that the touch movement amount conversion unit 16b uses the second touch movement amount a1 so that the coordinate information calculated as the touch operation information exceeds the coordinate range of the mobile terminal 2 so as to be within the coordinate range. 'May be adjusted. Specifically, the touch end coordinates (x1 + 1.5 × (x2−x1), y1 + 1.5 × (y2−y1)) are set to an upper limit (heading) within the coordinate range of the mobile terminal 2. The second touch movement amount a1 ′ (1.5 × | x2-x1 |, 1.5 × | y2-y1 |) is adjusted.

Furthermore, a second processing example of the touch movement amount conversion unit 16b will be described. When the first touch movement amount of the touch coordinates in the flick operation is a2, the adjustment amount is b2, and the second touch movement amount is a2 ′, the second touch movement amount a2 ′ is expressed by the following equation (3). You may ask for.
a2 '= b2 * a2 Formula (3)

Here, the touch movement amount conversion unit 16b determines the adjustment amount b2 based on a ratio (screen size ratio) between the screen size of the liquid crystal monitor 1 and the screen size of the mobile terminal 2. Specifically, when the screen size of the liquid crystal monitor 1 is, for example, three times larger than the screen size of the portable terminal 2 in the aspect ratio, the adjustment amount b2 is set to “3”. In this case, the second touch movement amount a2 ′ is calculated from the above equation (3).
a2 ′ = 3 × a2
It can be asked.

  In the above, as the touch coordinates of the liquid crystal monitor 1, for example, when the touch start coordinates are (x1, y1) and the touch end coordinates are (x2, y2), the distance between the touch start coordinates and the touch end coordinates is | x2-x1 | in the x direction and | y2-y1 | in the y direction. Therefore, the first touch movement amount a2 can be expressed as (| x2-x1 |, | y2-y1 |).

  In this case, the second touch movement amount a2 ′ can be obtained as (3 × | x2-x1 |, 3 × | y2-y1 |). Thus, the first touch movement amount a2 (| x2-x1 |, | y2-y1 |) in the flick operation is equal to the second touch movement amount a2 ′ (3 × | x2) corresponding to the screen size ratio. −x1 |, 3 × | y2−y1 |).

  Then, the touch movement amount conversion unit 16b uses the touch start coordinates (x1, y1) in the flick operation and the second touch movement amount a2 ′ (3) as the touch operation information corresponding to the second touch movement amount a2 ′. Coordinate information is calculated based on x | x2-x1 |, 3x | y2-y1 |). Here, (x1 + 3 × (x2−x1), y1 + 3 × (y2−y1)) is obtained as the coordinate information.

  In the above description, the case of the flick operation has been described. However, the same processing can be performed even with the pinch operation. In the case of a pinch operation, a trajectory in which two touch points approach or separate with two fingers is obtained. For example, for each of the two touch points, a touch start coordinate and a second touch movement amount are obtained. The corresponding coordinate information may be calculated. Note that one touch point may be fixed, and the other touch point may move toward or away from the fixed one touch point. In this case, for the other touch point, the touch start coordinates And the second touch movement amount may be obtained and coordinate information corresponding to the second touch movement amount may be calculated.

  Next, a configuration example of the mobile terminal 2 will be described. The mobile terminal 2 displays the same image data as the image data transmitted to the liquid crystal monitor 1 and the image data displayed on the display unit 22 according to the touch operation information received from the liquid crystal monitor 1. The control part 24 which performs operation of these is provided. The predetermined operation here is, for example, a page feed operation of image data in the case of a flick operation, and an enlargement / reduction operation of image data in the case of a pinch operation. The image data after execution of the predetermined operation is transmitted from the portable terminal 2 to the liquid crystal monitor 1, and the liquid crystal monitor 1 displays this image data.

  When the user operates the touch movement amount L3 (first touch movement amount) on the liquid crystal monitor 1 by the above touch movement amount adjustment processing (touch movement amount conversion processing), as shown in FIG. The mobile terminal 2 is input as a locus of a touch operation of the touch movement amount L4 (> L3, second touch movement amount). That is, the user performs a touch operation with a small touch movement amount on the liquid crystal monitor 1, whereby the touch operation with a large touch movement amount is converted, and the converted operation content is transmitted to the mobile terminal 2. In other words, even if the touch movement amount is small on the liquid crystal monitor 1, since the touch movement amount can be increased and transmitted to the mobile terminal 2, the user can operate the mobile terminal 2 from the liquid crystal monitor 1 without a sense of incongruity. Can do.

  As for the screen size of the mobile terminal 2, the liquid crystal monitor 1 automatically acquires the screen size information of the mobile terminal 2 when establishing a communication protocol between the liquid crystal monitor 1 and the mobile terminal 2. Also good. Alternatively, the user may manually input the screen size information of the portable terminal 2 to the liquid crystal monitor 1. Then, the liquid crystal monitor 1 compares the screen size information of the portable terminal 2 with its own screen size information, and the adjustment amount b1 or the first processing amount in the first processing example based on the ratio of the screen sizes of the two. The adjustment amount b2 in the second processing example can be determined.

  Here, as shown in FIG. 3, a touch movement amount adjustment screen may be displayed on the liquid crystal monitor 1. In the example of FIG. 3, when “do not adjust” is selected by the user's operation, the touch movement amount adjustment processing is not performed, and when “screen size ratio” is selected, the screen size of the liquid crystal monitor 1 and the mobile phone The adjustment coefficient c or the adjustment amount b2 is determined based on the ratio with the screen size of the terminal 2. When “user setting” is selected, the adjustment coefficient c or the adjustment amount b2 is determined by moving the knob T on the slider bar according to the user's operation. That is, in this “user setting”, if the user moves the knob T to a position corresponding to the approximate screen size ratio based on the result of comparing the screen size of the liquid crystal monitor 1 and the screen size of the portable terminal 2. Good. In the example of FIG. 3, “screen size ratio” is selected.

  FIG. 4 is a flowchart for explaining an example of the display method by the display device according to the present invention. This example will be described based on the configuration example of FIG. First, the liquid crystal monitor 1, which is an example of a display device, determines whether or not the touch movement amount adjustment mode is turned on when any touch event (hereinafter referred to as touch operation) is detected on the touch panel 14 ( Step S1). For example, when “screen size ratio” is selected on the touch movement amount adjustment screen shown in FIG. 3 described above, it is determined that the touch movement amount adjustment mode is on, and “do not adjust” is selected. If it is determined that the touch movement amount adjustment mode is turned off. If it is determined in step S1 that the touch movement amount adjustment mode is not turned on (in the case of NO), the process proceeds to step S4, and the touch operation information is transmitted as it is to the portable terminal 2 (step S4). If it is determined in step S1 that the touch movement amount adjustment mode is turned on (in the case of YES), whether or not the touch operation is a predetermined touch operation (here, pinch operation or flick operation) is determined. Determine (step S2).

  Next, when it is determined in step S2 that the touch operation is not a pinch operation or a flick operation (in the case of NO), the liquid crystal monitor 1 sets the touch operation as a non-adjustment touch operation, proceeds to step S4, and performs touch operation information. Is transmitted to the portable terminal 2 as it is. In step S2, if it is determined that the touch operation is a pinch operation or a flick operation (in the case of YES), a touch operation end event, specifically, a release event indicating the end of the pinch operation or flick operation has occurred. Is determined (step S3).

  Next, when the liquid crystal monitor 1 determines in step S3 that the touch operation end event does not occur, that is, not the end of the pinch operation or the flick operation but the continuation of the pinch operation or the flick operation (NO), Touch operation information associated with the pinch operation or flick operation is stored in the internal memory (step S5), and the process returns to step S3 to repeat the process. If it is determined in step S3 that a touch operation end event has occurred (YES), the first touch movement amount is calculated from the start position and end position of the touch operation (step S6).

  Next, the liquid crystal monitor 1 converts the first touch movement amount calculated in step S6 into a second touch movement amount corresponding to the screen size ratio (step S7). This screen size ratio is the ratio between the screen size of the liquid crystal monitor 1 and the screen size of the mobile terminal 2, and can be calculated from the screen size information of the liquid crystal monitor 1 and the mobile terminal 2, for example. As described above, when the communication protocol is established between the liquid crystal monitor 1 and the portable terminal 2, the liquid crystal monitor 1 may automatically acquire the screen size information of the portable terminal 2. Alternatively, the user may manually input the screen size information of the portable terminal 2 to the liquid crystal monitor 1.

  Next, the liquid crystal monitor 1 transmits touch operation information corresponding to the second touch movement amount obtained in step S7 to the portable terminal 2 (step S8). This touch operation information is coordinate information calculated based on the touch start coordinates in the touch operation and the second touch movement amount. Then, the mobile terminal 2 analyzes the touch operation information received from the liquid crystal monitor 1, and the operation content is a pinch operation or a flick operation from the touch start coordinate to the touch end coordinate moved by the second touch movement amount. recognize. Then, the mobile terminal 2 executes an image data enlargement / reduction operation, page feed operation, or the like according to the recognized operation content.

  In the flow of FIG. 4 described above, when the pinch operation or the flick operation is finished, the first touch movement amount is obtained from the touch start coordinates and the touch end coordinates, and is converted into the second touch movement amount. The touch operation information corresponding to the touch movement amount is transmitted to the portable terminal 2. On the other hand, in the flow of FIG. 5 below, during the pinch operation or flick operation, the first touch movement amount is obtained from the previous position and the current position of the touch operation, and this is used as the second touch movement amount. The process of converting and transmitting touch operation information corresponding to the second touch movement amount to the mobile terminal 2 is repeatedly performed for a plurality of touch points on the trajectory of the touch operation. That is, in the flow of FIG. 4, touch operation information is sent to the mobile terminal only once after the end of the pinch operation or flick operation, whereas in the flow of FIG. 5, the operation is performed multiple times during the pinch operation or flick operation. It differs in that touch operation information is sent to the mobile terminal.

  FIG. 5 is a flowchart for explaining another example of the display method by the display device according to the present invention. In this example, description will be made based on the configuration example of FIG. 2, similarly to the flow of FIG. 4. First, when the liquid crystal monitor 1 detects any touch event (hereinafter referred to as a touch operation) on the touch panel 14, it determines whether or not the touch movement amount adjustment mode is turned on (step S11). As in the case of FIG. 4, when “screen size ratio” is selected on the touch movement amount adjustment screen shown in FIG. 3 described above, it is determined that the touch movement amount adjustment mode is on, and “ When “Do not adjust” is selected, it is determined that the touch movement amount adjustment mode is off. If it is determined in step S11 that the touch movement amount adjustment mode is not turned on (in the case of NO), the process proceeds to step S14, and the touch operation information is transmitted as it is to the portable terminal 2 (step S14). In Step S11, when it is determined that the touch movement amount adjustment mode is turned on (in the case of YES), it is determined whether the touch operation is a predetermined touch operation (pinch operation or flick operation) (Step S11). S12).

  Next, when it is determined in step S12 that the touch operation is not a pinch operation or a flick operation (in the case of NO), the liquid crystal monitor 1 sets the touch operation as a non-adjustment touch operation, proceeds to step S14, and performs touch operation information. Is transmitted to the portable terminal 2 as it is. If it is determined in step S12 that the touch operation is a pinch operation or a flick operation (YES), a first touch movement amount is calculated from the previous position and the current position of the touch operation (step S13).

  Next, the liquid crystal monitor 1 converts the first touch movement amount calculated in step S13 into a second touch movement amount corresponding to the screen size ratio (step S15). This screen size ratio is the ratio between the screen size of the liquid crystal monitor 1 and the screen size of the mobile terminal 2, and can be calculated from the screen size information of the liquid crystal monitor 1 and the mobile terminal 2, for example.

  Next, the liquid crystal monitor 1 transmits touch operation information corresponding to the second touch movement amount obtained in step S15 to the mobile terminal 2 (step S16), and a touch operation end event, specifically, a pinch operation or It is determined whether or not a release event indicating the end of the flick operation has occurred (step S17). In the case of this example, the touch operation information is coordinate information calculated based on the previous touch coordinates in the pinch operation or the flick operation and the second touch movement amount.

  Next, when the liquid crystal monitor 1 determines in step S17 that the touch operation end event does not occur, that is, not the end of the pinch operation or the flick operation but the continuation of the pinch operation or the flick operation (NO), The process returns to step S13 and is repeated. If it is determined in step S17 that a touch operation end event has occurred (YES), the process ends. On the other hand, the mobile terminal 2 analyzes each of the plurality of touch operation information received from the liquid crystal monitor 1 and recognizes that the operation content is a pinch operation or a flick operation from the touch start coordinate to the touch end coordinate. In response to this, an image data enlargement / reduction operation, page turning operation, or the like is executed.

  Thus, according to the present embodiment, when a pinch operation or a flick operation is performed on the liquid crystal monitor 1, even if the touch movement amount is small on the liquid crystal monitor 1, the touch movement amount is increased on the mobile terminal 2. Therefore, the user can operate the portable terminal 2 from the liquid crystal monitor 1 without feeling uncomfortable.

(Second Embodiment)
FIG. 6 is a block diagram showing a functional configuration example of a liquid crystal monitor and a portable terminal according to the second embodiment of the present invention, in which 1 ′ denotes a liquid crystal monitor and 2 ′ denotes a portable terminal. It should be noted that parts having the same functions as those in the first embodiment shown in FIG. 2 are given the same reference numerals, and repeated descriptions are omitted. In this embodiment, the touch movement amount conversion unit is provided on the mobile terminal side, and the touch movement amount conversion processing is executed on the mobile terminal side.

  That is, the portable terminal 2 ′ displays the image data on the liquid crystal monitor 1, the touch panel 23 provided integrally with the display unit 22, and the same image data as the image data displayed on the display unit 22. ', A receiving unit 21 for receiving touch operation information in a predetermined touch operation on the image data transmitted from the transmitting unit 25, and a predetermined touch from the received touch operation information. A first touch movement amount of a touch coordinate in the operation, a first touch movement amount is converted into a second touch movement amount according to a screen size ratio, touch operation information, And a control unit 24 that executes a predetermined operation on the image data displayed on the display unit 22 based on the second touch movement amount.

  In the above, according to the touch operation information transmitted from the liquid crystal monitor 1 ′, it is notified to the portable terminal 2 ′ together with the coordinate information of the touch point that the touch operation is a pinch operation or a flick operation. The touch movement amount conversion unit 24a of the portable terminal 2 ′ obtains the first touch movement amount from the coordinate information of the touch point, and converts it to the second touch movement amount according to the screen size ratio. This screen size ratio is a ratio between the screen size of the portable terminal 2 'and the screen size of the liquid crystal monitor 1'.

  In the above, the ratio between the screen size of the portable terminal 2 ′ and the screen size of the liquid crystal monitor 1 ′ can be obtained from the respective screen size information. For example, when establishing a communication protocol between the liquid crystal monitor 1 ′ and the portable terminal 2 ′, the portable terminal 2 ′ may automatically acquire the screen size information of the liquid crystal monitor 1 ′, or The user may manually input the screen size information of the liquid crystal monitor 1 ′ into the portable terminal 2 ′. In the portable terminal 2 ′, the screen size information of the liquid crystal monitor 1 ′ and the own screen size information of the portable terminal 2 ′ can be compared, and the ratio between the two screen sizes can be calculated.

  Then, the control unit 24 specifies touch start coordinates from the coordinate information obtained from the touch operation information, and performs predetermined processing on the image data being displayed based on the specified touch start coordinates and the second touch movement amount. Execute the operation. The predetermined operation here is, for example, an enlargement / reduction operation of image data, a page feed operation of image data, or the like. The image data after execution of the predetermined operation is transmitted from the portable terminal 2 ′ to the liquid crystal monitor 1 ′, and the liquid crystal monitor 1 ′ displays this image data.

  As described above, according to the present embodiment, when the pinch operation or the flick operation is performed on the liquid crystal monitor 1 ′, the touch movement amount on the liquid crystal monitor 1 ′ is small as in the first embodiment. However, since the amount of touch movement can be increased by the portable terminal 2 ′, the user can operate the portable terminal 2 ′ from the liquid crystal monitor 1 ′ without a sense of incongruity.

DESCRIPTION OF SYMBOLS 1,1 '... Display apparatus (liquid crystal monitor) 2,2' ... Terminal device (mobile terminal) 11,21 ... Reception part, 12 ... Display panel control part, 13 ... Display panel, 14, 23 ... Touch panel, 15 ... touch panel control unit, 16, 24 ... control unit, 16a ... touch operation determination unit, 16b, 24a ... touch movement amount conversion unit, 17, 25 ... transmission unit, 22 ... display unit.

Claims (11)

A display device connected to a terminal device capable of touch operation,
A receiving unit that receives the same image data as the image data displayed on the terminal device from the terminal device, a display unit that displays the received image data, a touch panel provided integrally with the display unit, A touch operation determination unit that determines whether or not the touch operation detected by the touch panel is a predetermined touch operation, and a touch by the predetermined touch operation when the touch operation determination unit determines that the touch operation is a predetermined touch operation A touch movement amount conversion unit that converts a first touch movement amount of coordinates into a second touch movement amount corresponding to a ratio between the screen size of the display device and the screen size of the terminal device; and the touch movement amount conversion A display device comprising: a transmission unit configured to transmit touch operation information based on the second touch movement amount converted by the unit to the terminal device.   The display device according to claim 1, wherein the predetermined touch operation is a pinch operation or a flick operation.   The display device according to claim 1, wherein the touch operation information is coordinate information calculated based on a touch coordinate in the predetermined touch operation and the second touch movement amount. Display device.   4. The display device according to claim 3, wherein when the coordinates of the coordinate information exceed a coordinate range of the terminal device, the touch movement amount conversion unit is configured to make the second touch movement so as to be within the coordinate range. A display device characterized by adjusting an amount.   5. The display device according to claim 1, wherein the touch movement amount conversion unit causes the user to select whether or not to perform touch movement amount conversion processing by the touch movement amount conversion unit. Characteristic display device. A terminal device connected to the display device according to claim 1,
A display unit that displays the image data, and a control unit that performs a predetermined operation on the image data displayed on the display unit according to touch operation information received from the display device. Terminal equipment to be used.   The terminal device according to claim 6, wherein the control unit executes a page turning operation on the image data as the predetermined operation.   The terminal device according to claim 6, wherein the control unit executes an enlargement / reduction operation on the image data as the predetermined operation. A terminal device connected to a display device capable of touch operation,
A display unit for displaying image data; a touch panel provided integrally with the display unit; a transmission unit for transmitting the same image data as the image data displayed on the display unit to the display device; and the display device A receiving unit that receives touch operation information in a predetermined touch operation on the transmitted image data, and obtains a first touch movement amount of touch coordinates in the predetermined touch operation from the received touch operation information, A touch movement amount conversion unit that converts the first touch movement amount into a second touch movement amount according to a ratio between the screen size of the display device and the screen size of the terminal device; the touch operation information; A terminal device comprising: a control unit that executes a predetermined operation on the image data displayed on the display unit based on the second touch movement amount. A display system in which a terminal device capable of touch operation and a display device capable of touch operation are connected,
The display device is provided integrally with a receiving unit that receives the same image data as the image data displayed on the terminal device from the terminal device, a display unit that displays the received image data, and the display unit. A touch operation determination unit that determines whether the touch operation detected by the touch panel is a predetermined touch operation, and when the touch operation determination unit determines that the touch operation is a predetermined touch operation, A touch movement amount conversion unit that converts a first touch movement amount of touch coordinates in a touch operation into a second touch movement amount according to a ratio between the screen size of the display device and the screen size of the terminal device; A transmission unit that transmits touch operation information based on the second touch movement amount converted by the touch movement amount conversion unit to the terminal device;
The terminal device performs a predetermined operation on the image data displayed on the display unit of the terminal device in accordance with a display unit that displays the image data and touch operation information received from the display device. And a display system. A display method by a display device connected to a terminal device capable of touch operation,
The display device receives from the terminal device the same image data as the image data displayed on the terminal device, a display step to display the received image data on the display unit, and the display unit A touch operation determination step for determining whether or not the touch operation detected by the touch panel provided is a predetermined touch operation, and when the predetermined touch operation is determined in the touch operation determination step, A touch movement amount conversion step for converting the first touch movement amount of the touch coordinates in the touch operation into a second touch movement amount according to a ratio between the screen size of the display device and the screen size of the terminal device; A transmission step of transmitting touch operation information based on the second touch movement amount converted in the touch movement amount conversion step to the terminal device. Display method according to claim.

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