JP2020013515A - Information control program, information control method, and information control device - Google Patents

Abstract

To eliminate complexity of user manipulation for inputting information.SOLUTION: An information control program of the present invention causes a computer to execute an acquisition procedure and a generation procedure. The acquisition procedure involves acquiring manipulation information indicative of contents of manipulation performed by a user on a terminal device to use a predetermined service. The generation procedure involves generating pattern information indicative of a conduction pattern for having conduction caused by a touch by the user to cause the terminal device to perform an operation corresponding to the contents of manipulation.SELECTED DRAWING: Figure 2

Description

  The present invention relates to an information control program, an information control method, and an information control device.

  2. Description of the Related Art Conventionally, a technique has been proposed in which a card member on which a conductive material is formed is placed on a touch panel, and information is input by a combination of a touch position on the card member and information on the card member.

  For example, Patent Document 1 discloses an information input system in which a card having a conductor is placed on a touch panel, and information is input by a combination of a finger position and card information by touching the card from above. Is disclosed.

JP-A-2006-194936

  However, in the above-described conventional technology, it is not always possible to eliminate the complexity of a user operation in inputting information. For example, in the above-described conventional technology, in order to realize information input using a card having a conductor, a step of causing a user to recognize a position, a direction, and code information of a medium in advance is imposed. It is not easy to perform a simple step and it is complicated for the user. Therefore, the above-described conventional technology cannot always eliminate the complexity of the user operation in information input.

  The present application has been made in view of the above, and an object of the present invention is to provide an information control program, an information control method, and an information control device that can eliminate the complexity of a user operation in information input.

  An information control program according to the present application includes: an acquisition procedure for acquiring operation information indicating the content of an operation performed on a terminal device when a user uses a predetermined service; and a user touching based on the operation information acquired by the acquisition procedure. And a generating step of generating pattern information indicating a conductive pattern that causes the terminal device to perform an operation corresponding to the operation content when the power is supplied.

  According to an aspect of the embodiment, there is an effect that complexity of a user operation in information input can be eliminated.

FIG. 1 is a diagram illustrating an example of a control process according to the information control program according to the embodiment. FIG. 2 is a diagram illustrating a configuration example of the terminal device according to the embodiment. FIG. 3 is a diagram illustrating an example of a recording information storage unit according to the embodiment. FIG. 4 is a diagram illustrating an example of an operation information storage unit according to the embodiment. FIG. 5 is a diagram illustrating an example of an operation log storage unit according to the embodiment. FIG. 6 is a diagram illustrating a configuration example of the information control device according to the embodiment. FIG. 7 is a diagram illustrating an example of a pattern information storage unit according to the embodiment. FIG. 8 is a flowchart illustrating an example of a control process according to the embodiment. FIG. 9 is a diagram illustrating another example of the conductive pattern. FIG. 10 is a hardware configuration diagram illustrating an example of a computer that implements the functions of the information control device.

  Hereinafter, embodiments for implementing an information control program, an information control method, and an information control device according to the present application (hereinafter, referred to as “embodiments”) will be described with reference to the drawings. The embodiment does not limit the information control program, the information control method, and the information control device according to the present application. In the following embodiments, the same portions are denoted by the same reference numerals, and overlapping description will be omitted.

[1. Example of control processing)
An example of a control process according to the embodiment will be described with reference to FIG. FIG. 1 is a diagram illustrating an example of a control process according to the information control program according to the embodiment. The information control system 1 according to the embodiment includes a terminal device 10 and an information control device 100. The control process by the information control program according to the embodiment is performed by the terminal device 10 and the information control device 100 shown in FIG. That is, the terminal device 10 and the information control device 100 execute the control processing according to the embodiment according to the control by the information control program according to the embodiment.

  In the following embodiment, the terminal device 10 and the information control device 100 will be described as functioning according to the information control program according to the embodiment. For example, the terminal device 10 alone operates according to the information control program according to the embodiment. The control process according to the embodiment may be performed.

  The terminal device 10 is an information processing device used by a user. The terminal device 10 is, for example, a smartphone, a tablet terminal, a notebook PC (Personal Computer), a desktop PC, a mobile phone, a PDA (Personal Digital Assistant), or the like. In addition, the terminal device 10 is assumed to be equipped with a touch panel that receives an operation from a user by a capacitance method.

  Here, the premise according to the embodiment will be described using the example of FIG. On the terminal device 10 of the user U1, an attendance management application AP1 (hereinafter, sometimes referred to as “app AP1”) for managing the attendance status of the user U1 in the company is installed. The user U1 uses the application AP1 to notify the company that he / she has attended work. In this case, when the user U1 goes to work, the user starts the application AP1 by selecting an icon corresponding to the application AP1 as shown in FIG. FIG. 1A shows an example in which the user U1 has selected a position P1a on the display screen corresponding to the position of the icon.

  Then, the terminal device 10 provides (displays) a content (an example of a predetermined service) corresponding to the application AP1. Such content is for managing the attendance status of the user U1.

  For example, when detecting that the icon corresponding to the application AP1 is selected, the terminal device 10 displays the content C1 as illustrated in FIG. Then, in such a state, it is assumed that the user U1 selects the position P2a on the display screen corresponding to the position of the menu button BT1 for displaying the menu content C2 in the content C1. In such a case, the terminal device 10 displays the menu content C2 as shown in FIG. The menu content C2 includes menu buttons corresponding to various contents. In the example of FIG. 1C, the attendance management button BT2 is at the top.

  Therefore, it is assumed that the user U1 selects the position P3a on the display screen corresponding to the position of the attendance management button BT2 for displaying the attendance management content C3 in the menu content C2. In such a case, the terminal device 10 displays the time and attendance management content C3 as shown in FIG. In the example of FIG. 1D, the attendance management content C3 includes an attendance button BT4 for notifying the server device of the company that the user has attended.

  Here, it is assumed that the user U1 has selected the position P4a on the display screen corresponding to the position of the attendance button BT4 in the attendance management content C3. In such a case, the terminal device 10 notifies the server device of the company that the user U1 has come to work. In this way, the purpose of the user U1 is fulfilled.

  By the way, as described above, the user U1 performs the operations shown in FIGS. 1A to 1D in order to input desired information (in the example of FIG. 1, the attendance button BT4 is selected). Must be done. Here, if the user does not understand how to use the application AP1 or does not understand the operation procedure, the user cannot reach the time and attendance management content C3, and a problem that the time and attendance button BT4 cannot be pressed occurs. The example in FIG. 1 is a comparatively simple example. However, regardless of attendance management, for example, some information setting (for example, screen brightness and volume If the user wants to perform (adjustment), the procedure for reaching the content (page) where the information can be set is complicated and cannot be understood.

  The information control program according to the embodiment causes the terminal device 10 and the information control device 100 to perform control processing for solving the problem caused by such a premise. In other words, the information control program according to the embodiment supports the user to easily and reliably input desired information, and aims to eliminate the complexity of user operation in information input. I do. Specifically, the information control program according to the embodiment is based on an acquisition procedure for acquiring operation information indicating the content of an operation performed on a terminal device when a user uses a predetermined service, and an operation procedure based on the operation information acquired by the acquisition procedure. And causing the computer to execute a generation procedure of generating pattern information indicating a conductive pattern that causes the terminal device to perform an operation corresponding to the operation content when the user touches the terminal.

  In other words, the terminal device 10 acquires operation information indicating the operation content on the terminal device when the user uses the predetermined service under the control of the information control program according to the embodiment. Further, the information control device 100 causes the terminal device to perform an operation according to the operation content by energizing when the user touches, based on the acquired operation information, under the control of the information control program according to the embodiment. Generate pattern information indicating the conductive pattern.

  The user U1 touches the conductive pattern in a state where the medium on which the conductive pattern is printed is in contact with the touch panel of the terminal device 10, thereby performing the operation described in FIGS. 1A to 1D. Can be input to the terminal device 10 via the conductive pattern. For example, the user U1 can use a conductive pattern printed on a paper medium with silver nanoink. In the example of FIG. 1, the conductive pattern PT1 for making an input corresponding to the operation content described in FIGS. 1A to 1D is printed on the paper medium K. For this reason, since the material of the conductive pattern is a silver nanomaterial (for example, silver nanoparticles), current is supplied efficiently.

  Information input to the terminal device 10 using the conductive pattern will be specifically described. As described above, the terminal device 10 is equipped with the touch panel that receives an operation from the user by the capacitance method. For example, when the user directly touches the touch panel for information input, a signal constantly flowing inside the touch panel flows out to the ground through the touched finger. The terminal device 10 detects that the signal is attenuated due to the outflow of the signal. That is, by detecting the signal attenuation, the terminal device 10 recognizes the information input at the position where the signal attenuation is detected (the position touched by the user).

  Information input using a conductive pattern will be described. Like the conductive pattern PT1 shown in FIG. 1, the conductive pattern is an input point at which an input corresponding to the operation content is performed on the terminal device 10 by energization based on a touch by a user, that is, a touch event (information input). And a connection line that is connected to the input point and that conducts electricity to the input point.

  In the example of FIG. 1, the conductive pattern PT1 is “a conductive pattern composed of the input point P1, the input point D1, and the connectivity that connects them”, and the “input point P2, the input point D2, and the connection that connects them. A conductive pattern composed of conductive points, an input point P3, an input point D3, and a conductive pattern connecting them, and an input point P4, an input point D4, and connecting points connecting these. A conductive pattern to be formed ".

  As an example, “a conductive pattern composed of the input point P1, the input point D1, and the connectivity that connects them” (hereinafter, referred to as “pattern PT11”), the pattern PT11 is placed on the display screen. The touch event does not occur in the pattern PT11 because the touch event is not set. However, for example, when the user touches the input point D1, the pattern PT1 is set, and a touch event occurs at the input point D1 and the input point P1. In the example of FIG. 1, since the input point P1 exists on the display screen of the terminal device 10, the terminal device 10 obtains the information at the position on the display screen corresponding to the input point P1 by the capacitance method described above. Detects that an input has been made.

  Now, the premise and the information input using the conductive pattern have been described. Hereinafter, an example of a control process performed by the terminal device 10 and the information control device 100 will be described. Here, an example in which the user U1 makes a work report using the application AP1 will be used. The control process performed by the information control program according to the embodiment is not limited to the attendance management described with reference to FIG. 1, but may be applied to various information inputs (information settings) using the terminal device 10. It is possible.

  First, the user U1 causes the terminal device 10 to store a correct operation content required until the attendance button BT4 is selected and a procedure of the operation content. For example, the application AP1 may have a function of storing an operation content and a procedure of the operation content, or the information control program according to the embodiment may have such a function. In the present embodiment, as one function of the information control program, there is a function of storing an operation content and a procedure of the operation content, and the terminal device 10 executes this function under the control of the information control program. Shall be. Note that storing the operation content and the procedure of the operation content is, for example, storing (recording) the operation content as moving image data. For example, the user U1 starts a necessary touch operation in a state where the operation recording state is set by pressing a predetermined recording button, and stops recording when a target input operation (selection of the work button BT4) is completed. I do.

  Then, the terminal device 10 acquires the operation content by analyzing the recorded data. Specifically, the terminal device 10 acquires operation information indicating the content of an operation on the terminal device 10 when using the content (an example of a predetermined service) corresponding to the application AP1. The correct operation contents up to the intended input operation (selection of the attendance button BT4) are as shown in FIGS. 1 (a) to 1 (d).

  Therefore, the terminal device 10 acquires the operation information indicating the operation content N1 in FIG. The operation content N1 indicating the first operation is “to activate the application AP1 at the position P1a on the display screen”. In FIG. 1B, the terminal device 10 acquires operation information indicating the operation content N2. The operation content N2 indicating the second operation is “selecting the menu button BT1 at the position P2a on the display screen while the content C1 is displayed”.

  In FIG. 1C, the terminal device 10 acquires operation information indicating the operation content N3. The operation content N3 indicating the third operation is "selecting the attendance management button BT2 at the position P3a on the display screen while the menu content C2 is displayed". In FIG. 1D, the terminal device 10 acquires operation information indicating the operation content N4. The operation content N4 indicating the fourth operation is "selecting the attendance button BT4 at the position P4a on the display screen while the content C3 is displayed".

  The terminal device 10 transmits the operation information corresponding to each of the operation contents N1 to N4 described above to the information control device 100. Thereby, the information control device 100 acquires operation information (step S1). Specifically, the information control device 100 acquires (receives) the operation information acquired by the terminal device 10 from the terminal device 10. Then, based on the acquired operation information, the information control device 100 generates pattern information indicating a conductive pattern that causes the terminal device 10 to perform an operation corresponding to the operation content by energizing when the user touches ( Step S2). Specifically, the information control device 100 includes an input point for performing an input corresponding to an operation content to the terminal device 10 by energization based on a user touching the conductive pattern, and a connection line connected to the input point. , And generates pattern information indicating a conductive pattern including a connection line for supplying power to the input point.

  In the example of FIG. 1, the information control device 100 generates a conductive pattern PT1 as a conductive pattern that causes the terminal device 10 to perform an operation according to the operation content indicated by the operation information. Specifically, the information control device 100 performs an operation corresponding to the operation content on the terminal device 10 by receiving an input corresponding to the operation content illustrated in FIGS. 1A to 1D. A conductive pattern PT1 to be generated is generated.

  As shown in FIG. 1, the conductive pattern PT1 includes “an input point P1, an input point D1, and a conductive pattern configured to connect them”, and “an input point P2, an input point D2, and connect these. "Conductive pattern composed of connectivity", "Conductive pattern composed of input point P3, input point D3 and connectivity for connecting them", "Input point P4, input point D4 and connectivity for connecting them" , A conductive pattern composed of four conductive patterns.

  Here, the positional relationship between the input point P1, the input point P2, the input point P3, and the input point P4 includes a position P1a in the operation content N1, a position P2a in the operation content N2, a position P3a in the operation content N3, and an operation content N4. At position P4a. More specifically, the input point P1 is an input point for performing an input indicated by the operation content N1 at the position P1a, the input point P2 is an input point for performing an input indicated by the operation content N2 at the position P2a, and the input point P3 is a position P3a. Is an input point at which the input indicated by the operation content N3 is performed, and the input point P1 is an input point at which the input indicated by the operation content N4 at the position P4a is performed.

  For this reason, for example, when the medium K (the medium K on which the conductive pattern PT1 is printed) is placed on the display screen such that the input point P1 is aligned with the position P1a, the input is made on the position P2a. The point P2 matches, the input point P3 matches on the position P3a, and the input point P4 matches on the position P4a. The information control device 100 generates pattern information indicating the conductive pattern PT1 including the four input points having such a positional relationship.

  In addition, the information control device 100 transmits the generated pattern information to the terminal device 10 of the user U1. The user U1 prints this pattern information by any means. Silver nano ink is used as the ink for printing. Thereby, the user U1 can obtain the conductive pattern PT1 printed on the medium K which is a paper medium.

  The other input point D1 connected to the input point P1 by a connection line, the other input point D2 connected to the input point P2 by a connection line, and the other input connected to the input point P3 by a connection line. The other input point D4 connected to the point D3 and the input point P4 by a connection line is an input point actually touched by the user, and when the medium K is placed on the display screen, the input points D1 to D4 are Although not necessarily located on the display screen, as shown in FIG. 1, the input points D <b> 1 to D <b> 4 are arranged so as to be arranged vertically in order from the top. This is because the operation contents N1 to N4 must be performed in this order before the attendance button BT4 is selected.

  Then, for example, when the user U1 touches the input point D1, a touch event also occurs at the input point P1. For this reason, placing the medium K1 on the display screen such that the input points P1 to P4 are aligned with the positions P1a to P4a, respectively, and touching the input point D1 by the user U1 means that the user U1 touches the input point D1 on the display screen. Indicates the same operation as directly touching the position P1a. Further, placing the medium K1 on the display screen and touching the input point D2 by the user U1 indicates the same operation as directly touching the position P2a on the display screen. Further, placing the medium K1 on the display screen and touching the input point D3 by the user U1 indicates the same operation as directly touching the position P3a on the display screen. Further, placing the medium K1 on the display screen and touching the input point D4 by the user U1 indicates the same operation as directly touching the position P14 on the display screen.

  For this reason, the user U1 places the medium K1 on the display screen such that the input points P1 to P4 are aligned with the positions P1a to P4a, and sequentially moves from the top to the input points D1 to D4. For example, trace with your fingertips. Then, touch events occur in the order of the input points D1 to D4. Thus, by simply tracing the input points D1 to D4 in order from the top, first, the application AP1 is activated, the content C1 is displayed, the selection of the menu button BT1 of the content C1 is detected, and the menu content C2 is displayed. The terminal device 10 performs operations corresponding to the operation contents N1 to N4, such as detection of the attendance management button BT2, display of the content C3, and detection of the attendance button BT4. For this reason, the conductive pattern according to the embodiment can be said to be an “operation macro” that automates a manual input operation by the user.

  As described above, the information control program according to the embodiment is based on an acquisition procedure for acquiring operation information indicating the content of an operation performed on a terminal device when a user uses a predetermined service, and the operation information acquired by the acquisition procedure. A generation procedure for generating pattern information indicating a conductive pattern that causes the terminal device to perform an operation according to the operation content by energizing when the user touches the terminal device 10 or the information control device 100. And let it run.

  Thereby, the user can perform the operation contents of the troublesome procedure which should be performed manually only by tracing the conductive pattern. Further, even if the user does not understand the operation content and the operation procedure, the user can perform the correct information setting only by tracing the conductive pattern. Thus, the information control program according to the embodiment can eliminate the complexity of the user operation in inputting information.

  Note that the conductive pattern PT1 does not necessarily need to have the circular input points D1 to D4, which are dedicated input points for directly touching (tracing) the user, and inputting to each connection line. Only points P1 to P4 may be given. In this case, the user sequentially traces the other ends of the connection lines of the conductive pattern PT1 to which the input points D1 to D4 are not provided from the top.

[2. Configuration of terminal device)
Next, the terminal device 10 according to the embodiment will be described with reference to FIG. FIG. 2 is a diagram illustrating a configuration example of the terminal device 10 according to the embodiment. As shown in FIG. 2, the terminal device 10 includes a communication unit 11, a storage unit 12, and a control unit 13.

(About the communication unit 11)
The communication unit 11 is realized by, for example, a NIC (Network Interface Card) or the like. The communication unit 11 is connected to the network by wire or wirelessly, and transmits and receives information to and from the information control device 100, for example.

(About the storage unit 12)
The storage unit 12 is realized by, for example, a semiconductor memory element such as a RAM (Random Access Memory) and a flash memory, or a storage device such as a hard disk and an optical disk. The storage unit 12 includes a recording information storage unit 12a, an operation information storage unit 12b, and an operation log storage unit 12c.

(About the recording information storage unit 12a)
The recording information storage unit 12a stores moving image data in which operation contents are recorded. Using the example of FIG. 1, the recording information storage unit 12a displays the content C1 when the icon of the application AP1 at the position P1a is selected, and finally selects the attendance button BT4 included in the content C3. The operation of the terminal device 10 corresponding to the operation contents N1 to N4 such as being performed is stored as moving image data. Here, FIG. 3 shows an example of the recording information storage unit 12a according to the embodiment. In the example of FIG. 3, the recording information storage unit 12a has items such as “moving image ID” and “moving image data”.

  “Moving picture ID” indicates identification information for identifying “moving picture data”. “Moving image data” is moving image data in which the operation of the terminal device 10 corresponding to the operation content is recorded. For example, when the user wants the terminal device 10 to record, the user presses a “recording start button” via a predetermined application. Then, in such a state, the user performs an input operation such as touching the display screen. When the target information setting is completed by the target input operation, the user presses the “recording end button”. Therefore, the terminal device 10 records the operation of the terminal device 10 corresponding to the operation content from when the “recording start button” is pressed to when the “recording end button” is pressed.

  That is, the example of FIG. 3 shows an example in which the moving image data “VDA1” identified by the moving image ID “VD1” has been recorded. The moving image data “VDA1” is moving image data indicating the operation of the terminal device 10 corresponding to the operation contents N1 to N4 described in FIG.

(About the operation information storage unit 12b)
The operation information storage unit 12b stores operation information indicating the contents of an operation performed on the terminal device 10 when the user uses a predetermined service. For example, the operation information storage unit 12b stores, as the operation information, the operation information man obtained by analyzing the moving image data stored in the operation information storage unit 12b. Here, FIG. 4 illustrates an example of the operation information storage unit 12b according to the embodiment. In the example of FIG. 4, the operation information storage unit 12b has items such as “moving image ID”, “operation ID”, and “operation information”. The “operation information” includes items such as “operation time”, “target”, and “operation position”.

  “Moving picture ID” indicates identification information for identifying “moving picture data”. “Moving image ID” in the operation information storage unit 12b corresponds to “moving image ID” in the recording information storage unit 12a. The “operation ID” indicates identification information for identifying the operation content indicated by the “operation information”.

  The “operation time” indicates a time at which an input operation (for example, a touch operation on a display screen) is performed on the terminal device 10. The “target” indicates the application or the content that is the operation target. For example, when the menu button BT1 of the content C1 is selected in a state where the content C1 is displayed, the content C1 is input as the “target”. Note that not only the content C1 but also the menu button BT1 may be further input. Further, a URL indicating the content C1, a name that can identify the content C1, and the like may be input.

  “Operation position” indicates the position where the input operation has been performed. For example, the “operation position” is a position touched on the display screen when performing an input operation, and indicates a position on the display screen. In the example of FIG. 4 including FIG. 1, a conceptual symbol such as P1a is used as the “operation position”, but actually, for example, coordinates corresponding to the display screen are input as the “operation position”.

  That is, the example of FIG. 4 shows an example in which the moving image data identified by the moving image ID “VD1” is analyzed to obtain the operation information identified by the operation ID “OP11”. The operation information identified by the operation ID “OP11” indicates operation contents such as selecting “the icon of the application AP1” at “position P1a” on the display screen at “9:10:31”.

(About the operation log storage unit 12c)
FIG. 1 illustrates an example in which the user U1 intentionally causes the terminal device 10 to perform recording, thereby acquiring operation information. However, for example, every time the user performs an input operation performed on the terminal device, the terminal device 10 can store the operation content indicating the input operation as an operation log. The operation log storage unit 12c stores such an operation log. Here, FIG. 5 illustrates an example of the operation log storage unit 12c according to the embodiment. In the example of FIG. 5, the operation log storage unit 12c has items such as “operation time”, “target”, and “operation position”. For the sake of simplicity, FIG. 5 uses the same example as FIG.

  The “operation time” indicates a time at which an input operation (for example, a touch operation on a display screen) is performed on the terminal device 10. The “target” indicates the application or the content that is the operation target. For example, when the menu button BT1 of the content C1 is selected in a state where the content C1 is displayed, the content C1 is input as the “target”. Note that not only the content C1 but also the menu button BT1 may be further input. Further, a URL indicating the content C1, a name that can identify the content C1, and the like may be input.

  “Operation position” indicates the position where the input operation has been performed. For example, the “operation position” is a position touched on the display screen when performing an input operation, and indicates a position on the display screen. In the example of FIG. 5 including FIG. 1, a conceptual symbol such as P1a is used as the “operation position”, but actually, for example, coordinates corresponding to the display screen are input as the “operation position”.

  That is, in the example of FIG. 5, at “9:10:31, 2018”, an operation of an operation content such as selecting “icon of application AP1” at “position P1a” on the display screen was performed. Indicates that

  Returning to FIG. 3, the control unit 13 executes various programs stored in a storage device inside the terminal device 10 using a RAM as a work area by a CPU (Central Processing Unit), an MPU (Micro Processing Unit), or the like. Is realized by: The control unit 13 is realized by an integrated circuit such as an ASIC (Application Specific Integrated Circuit) or an FPGA (Field Programmable Gate Array). The control unit 13 is a processing unit executed by the information control program according to the embodiment.

  As illustrated in FIG. 3, the control unit 13 includes a recording unit 13a, an acquisition unit 13b, and a transmission unit 13c, and implements or executes information processing functions and operations described below. Note that the internal configuration of the control unit 13 is not limited to the configuration illustrated in FIG. 3 and may be another configuration as long as the configuration performs information processing described below. Further, the connection relationship between the processing units included in the control unit 13 is not limited to the connection relationship illustrated in FIG. 3 and may be another connection relationship.

(About the recording unit 13a)
The recording unit 13a stores the operation of the terminal device 10 corresponding to the operation content as moving image data. For example, the recording unit 13a detects that the “recording start button” has been pressed by the user. Then, the recording unit 13a records the operation of the terminal device 10 corresponding to the operation performed after the “recording start button” is pressed. In addition, the recording unit 13a detects that the “recording end button” has been pressed by the user. Then, the recording unit 13a stops recording. Thereby, the recording unit 13a obtains, as moving image data, the operation of the terminal device 10 corresponding to the operation content from when the “recording start button” is pressed until the “recording end button” is pressed.

(About the acquisition unit 13b)
The obtaining unit 13b obtains operation information indicating the content of an operation performed on the terminal device 10 when the user uses a predetermined service. For example, the acquisition unit 13b acquires operation information based on moving image data recorded by the recording unit 13a. Specifically, the acquiring unit 13b acquires operation information as moving image data based on moving image data in which a mode in which a content providing a predetermined service is controlled by an operation on the terminal device 10 is recorded. In addition, when the predetermined information setting is performed via the content, the obtaining unit 13b obtains, as the operation information, the operation information indicating the operation content necessary until the predetermined information setting is performed.

  In addition, the acquisition unit 13b includes, as operation information, touch position information indicating a touch position at which the display screen of the terminal device 10 is touched, the touch position corresponding to the content displayed on the display screen, and the display screen being touched. And the time information indicating the time of the occurrence. Further, the acquisition unit 13b acquires, as operation information, order information indicating the order in which the content displayed on the display screen is touched, based on the time information.

  In the example of FIG. 1, the obtaining unit 13b obtains operation information indicating the operation content on the terminal device 10 when using the content corresponding to the application AP1. Specifically, the acquisition unit 13b indicates operation information indicating the correct operation content until the target input operation (selection of the attendance button BT4).

  More specifically, the acquiring unit 13b analyzes the recorded data VDA1 (from FIG. 3) obtained by the recording unit 13a, and displays “display information” as operation information indicating the operation content N1 corresponding to the first operation. To activate the application AP1 at the position P1a on the screen ". In addition, the acquisition unit 13b reads, as operation information indicating the operation content N2 corresponding to the second operation, “selecting the menu button BT1 at the position P2a on the display screen while the content C1 is displayed”. Get operation information indicating. In addition, as the operation information indicating the operation content N3 corresponding to the third operation, the acquisition unit 13b selects “the attendance management button BT2 at the position P3a on the display screen while the menu content C2 is displayed. To obtain the operation information. In addition, the acquisition unit 13b may select, as the operation information indicating the operation content N4 corresponding to the fourth operation, “select the attendance button BT4 at the position P4a on the display screen while the content C3 is displayed”. Get operation information indicating.

  In addition, the acquisition unit 13b stores the operation information thus acquired in the operation information storage unit 12b. Specifically, the acquisition unit 13b pays out the operation ID “OP11” for the acquired operation information, and stores the acquired operation information in the operation information storage unit 12b in a form corresponding to the moving image ID “VID1” for identifying the image data VDA1. Store. Note that the obtaining unit 13b does not necessarily need to obtain the operation information by analyzing the moving image. For example, the recording unit 13a can store not an animation but an operation record indicating what operation has been performed. For this reason, in such a case, the acquisition unit 13b determines, based on the operation crossroads, the touch position information indicating the touch position where the display screen is touched and the touch position corresponding to the content displayed on the display screen (for example, Coordinates) and time information indicating the time at which the display screen was touched.

(About the transmission unit 13c)
The transmission unit 13c transmits the operation information acquired by the acquisition unit 13b to the information control device 100. For example, the transmission unit 13c associates the moving image ID, the operation ID, and the operation information with the user ID, which is the identification information for identifying the user or the terminal device 10 of the user, and transmits the information to the information control device 100. The transmitting unit 13c may also transmit information stored in the recording information storage unit 12a to the information control device 100.

[3. Configuration of information control device]
Next, the information control apparatus 100 according to the embodiment will be described with reference to FIG. FIG. 6 is a diagram illustrating a configuration example of the information control device 100 according to the embodiment. As shown in FIG. 6, the information control device 100 includes a communication unit 110, a storage unit 120, and a control unit 130. For example, the information control device 100 is a server device that executes a control process according to the information control program according to the embodiment.

(About the communication unit 110)
The communication unit 110 is realized by, for example, an NIC or the like. The communication unit 110 is connected to the network by wire or wirelessly, and transmits and receives information to and from the terminal device 10, for example.

(About the storage unit 120)
The storage unit 120 is realized by, for example, a semiconductor memory device such as a RAM or a flash memory, or a storage device such as a hard disk or an optical disk. The storage unit 120 includes a recording information storage unit 121, an operation information storage unit 122, and a pattern information storage unit 123.

(About the recording information storage unit 121)
The recording information storage unit 121 stores moving image data in which operation contents are recorded. The recording information storage unit 121 stores the moving image data received from the terminal device 10. Therefore, the internal configuration of the recording information storage unit 121 is substantially the same as that of the recording information storage unit 12a, and thus the illustration thereof is omitted. In brief, the recording information storage unit 121 has, in addition to items such as “moving image ID” and “moving image data”, “user ID” which is identification information for identifying the user or the terminal device 10 of the user. For this reason, the recording information storage unit 121 stores the user ID in association with the moving image ID and the moving image data.

(About the operation information storage unit 122)
The operation information storage unit 122 stores operation information indicating the contents of an operation performed on the terminal device 10 when the user uses a predetermined service. The operation information storage unit 122 stores the operation information received from the terminal device 10. Therefore, the internal configuration of the operation information storage unit 122 is almost the same as that of the operation information storage unit 12b, so that the illustration is omitted. In brief, the operation information storage unit 122 has a “user ID” in addition to items such as “moving image ID”, “operation ID”, and “operation information” (including operation time, target, and operation position). For this reason, the operation information storage unit 122 stores the moving image ID, the operation ID, and the operation information in association with the user ID.

  Note that the information control device 100 does not necessarily need to have the recording information storage unit 121 and the operation information storage unit 122. For example, when the information control device 100 does not have the recording information storage unit 121 and the operation information storage unit 122, the information control device 100 stores the recording information in the recording information storage unit 121 and the operation information storage unit 122 in the terminal device 10 at a predetermined timing as appropriate. Information that can be referred to.

(About the pattern information storage unit 123)
The pattern information storage unit 123 stores the pattern information generated based on the operation information. Here, FIG. 7 illustrates an example of the pattern information storage unit 123 according to the embodiment. In the example of FIG. 7, the pattern information storage unit 123 has items such as “user ID”, “operation ID”, and “pattern information”.

  “User ID” indicates identification information for identifying the user or the terminal device 10 of the user. The “operation ID” indicates identification information for identifying the operation content indicated by the “operation information”. The “operation ID” illustrated in FIG. 7 corresponds to the “operation ID” in the operation information storage unit 12b illustrated in FIG. “Pattern information” indicates pattern information generated based on the operation information.

  That is, in the example of FIG. 6, the pattern information PDA11 is generated based on the operation information of the user (user U1) identified by the user ID “U1” and the operation information identified by the operation ID “OP11”. Here is an example. It is assumed that the conductive pattern corresponding to the pattern information PDA11 is the conductive pattern PT1 shown in FIG.

  Returning to FIG. 6, the control unit 130 is realized by the CPU, the MPU, or the like executing various programs stored in a storage device inside the information control device 10 using the RAM as a work area. The control unit 130 is realized by, for example, an integrated circuit such as an ASIC or an FPGA. The control unit 130 is a processing unit executed by the information control program according to the embodiment.

  As illustrated in FIG. 6, the control unit 130 includes a receiving unit 131, a pattern generating unit 132, and a presenting unit 133, and implements or executes information processing functions and operations described below. Note that the internal configuration of the control unit 130 is not limited to the configuration illustrated in FIG. 6 and may be another configuration as long as the configuration performs information processing described below. In addition, the connection relationship between the processing units included in the control unit 130 is not limited to the connection relationship illustrated in FIG. 6 and may be another connection relationship.

(Receiver 131)
The receiving unit 131 receives various information. For example, the receiving unit 131 receives information transmitted from the terminal device 10. For example, the receiving unit 131 receives moving image data and operation information transmitted from the terminal device 10. In other words, the receiving unit 131 acquires operation information indicating the content of an operation on the terminal device when the user uses the predetermined service. Specifically, the receiving unit 131 acquires operation information from the terminal device 10.

(About the pattern generation unit 132)
The pattern generation unit 132 performs an operation corresponding to the operation content by energizing when the user touches the terminal device 10 based on the operation information indicating the operation content on the terminal device 10 when the user uses the predetermined service. To generate pattern information indicating a conductive pattern to be performed. Specifically, the pattern generation unit 132 includes an input point for performing an input corresponding to the operation content to the terminal device 10 by energization based on a user touching the conductive pattern, and a connection line connected to the input point. , And generates pattern information indicating a conductive pattern including a connection line for supplying power to the input point. In addition, the pattern generation unit 132 performs, as a conductive pattern, an input corresponding to operation information from an input point through energization while being in contact with the input screen of the terminal device 10 instead of direct input to the terminal device 10 by a user. Pattern information indicating a conductive pattern to be performed is generated. For example, the pattern generating unit 132 generates pattern information based on the operation information acquired by the acquiring unit 13b of the terminal device 10.

  In the example of FIG. 1, the pattern generation unit 132 receives an input corresponding to the operation content illustrated in FIGS. 1A to 1D and performs an operation corresponding to the operation content on the terminal device 10. A conductive pattern PT1 to be performed is generated. Specifically, the pattern generation unit 132 determines, as the conductive pattern PT1, “a conductive pattern composed of the input point P1, the input point D1, and the connectivity connecting these,” “the input point P2, the input point D2, A conductive pattern composed of connectivity for connecting them, an "input point P3, an input point D3 and a conductive pattern composed of connectivity for connecting them", an "input point P4, an input point D4, and A pattern information PDA11 indicating a conductive pattern composed of four conductive patterns, such as "a conductive pattern composed of connected connectivity" is generated.

  The pattern generation unit 132 determines that the positional relationship (arrangement relationship) between the input point P1, the input point P2, the input point P3, and the input point P4 is a position P1a in the operation content N1, a position P2a in the operation content N2, and an operation content. The pattern information PDA11 is generated so as to correspond to the position P3a in N3 and the position P4a in the operation content N4.

  Note that the pattern generation unit 132 generates the pattern information PDA11 such that the connection lines (four connection lines in the example of FIG. 1) do not intersect. Further, the pattern generation unit 132 stores the generated pattern information PDA11 in the pattern information storage unit 123.

(About the presentation unit 133)
The presentation unit 133 presents the pattern information to the user by transmitting the pattern information generated by the pattern generation unit 132 to the terminal device 10. In the example of FIG. 1, the presentation unit 133 transmits the pattern information PDA11 generated by the pattern generation unit 132 to the terminal device 10 of the user U1. For this reason, the presentation unit 133 is also a processing unit corresponding to the transmission unit.

[4. Processing procedure)
Hereinafter, the contents of the control processing executed and realized by each processing unit of the terminal device 10 and the information control device 100 by the information control program according to the embodiment will be described using the flowchart illustrated in FIG. FIG. 8 is a flowchart illustrating an example of a control process according to the embodiment.

  First, the recording unit 13a of the terminal device 10 determines whether an instruction to start recording has been issued (step S101). When the recording start command has not been issued (step S101; No), the recording unit 13a waits until the recording start command is issued. On the other hand, when the recording start command is issued (step S101; Yes), the recording unit 13a records the operation of the terminal device 10 corresponding to the operation performed after the recording start command is issued. (Step S102). The recording unit 13a determines whether or not a recording start command has been issued, for example, according to whether or not a predetermined “recording start button” has been pressed by the user. For example, when detecting that the “recording start button” is pressed by the user, the recording unit 13a determines that a recording start command has been issued.

  Further, the recording unit 13a determines whether or not an instruction to end the recording has been issued in the state where the recording is started and the recording is being performed in Step S102 (Step S103). If the recording end instruction has not been issued (step S103; No), the recording unit 13a waits until the recording end instruction is issued. On the other hand, when the recording end command is issued (step S103; Yes), the recording unit 13a ends the recording to obtain the moving image data recorded so far (step S104). The recording unit 13a determines whether or not a recording termination command has been issued, for example, according to whether or not a predetermined “recording termination button” has been pressed by the user. For example, when detecting that the “recording end button” has been pressed by the user, the recording unit 13a determines that a recording end command has been issued.

  Next, the acquisition unit 13b acquires operation information indicating the operation content on the terminal device 10 when using a predetermined service based on the moving image data obtained by the recording unit 13a (Step S105). For example, the acquisition unit 13b acquires operation information by analyzing moving image data. Further, the transmission unit 13c transmits the operation information to the information control device 100.

  The pattern generation unit 132 of the information control device 100 generates pattern information indicating a conductive pattern based on the operation information received from the terminal device 10 (Step S106). In addition, the presentation unit 133 transmits the generated pattern information to the terminal device 10 (Step S107).

[5. Modification)
The terminal device 10 and the information control device 100 according to the above embodiment may be embodied in various different forms other than the above embodiment. Therefore, other embodiments of the terminal device 10 and the information control device 100 will be described below.

[5-1. Erroneous operation detection)
In the above-described embodiment, an example has been described in which the acquisition unit 13b simply acquires operation information indicating operation contents. However, when the predetermined information setting is performed via the content and the erroneous operation content is detected in the operation content required until the predetermined information setting is performed, the acquisition unit 13b performs a series of operations. The operation information indicating the operation content of is acquired again from the beginning. This will be described with reference to the example of FIG. In FIG. 1, moving image data obtained by the recording unit 13a is referred to as moving image data VDA1. In the example of FIG. 1, the predetermined information setting is to select the attendance button BT4 in response to the input of the target information. Therefore, the operation contents required until predetermined information setting is performed are a series of operation contents N1 to N4.

  Here, the acquisition unit 13b analyzes the moving image data VDA1 and determines whether or not there is an operation of the terminal due to an erroneous operation. In the example of FIG. 1, the operation content indicating the operation (correct operation) required until the attendance button BT4 is selected is that the operation contents N1 to N4 are performed in a series of flows. However, if the user U1 opens the wrong content in the application AP1 by making a wrong selection or cannot reach the content C3 including the attendance button BT4, the user U1 appropriately returns to the previous content ( For example, there is a case where “return button” existing at a predetermined position is selected).

  The acquisition unit 13b analyzes the moving image data VDA1 and, when detecting that such a return operation has been performed, determines that an erroneous operation has been performed, and determines that a series of operation contents such as operation contents N1 to N4 has been interrupted. In such a case, the acquisition unit 13b presents information such as "Inappropriate operation has been performed. Please start over again" to the user U1. In this way, when an erroneous operation is detected, the obtaining unit 13b causes the correct operation to be restarted from the beginning, thereby ensuring that the operation information indicating the correct operation content can be obtained.

  The acquisition unit 13b may perform the above-described determination and information presentation while the user is just performing an operation, that is, in real time. Further, the determination may be made by, for example, the recording unit 13a. In the above example, the “return operation” is described as an example of the erroneous operation determination. However, what kind of operation by the user or what operation by the terminal device 10 is not limited to the erroneous operation is determined. .

  For example, since the user U1 performs an operation such as selecting the attendance button BT4 almost every day, the terminal device 10 can acquire an operation log of operation information indicating the operation contents N1 to N4 almost every day. However, only when the user U1 is recording the operation contents, for example, when an extra operation is performed in the middle of the operation contents N1 to N4, the acquiring unit 13b compares the operation contents with the operation log acquired in advance. Thus, it is possible to detect that different operation contents are included, and determine that the operation is erroneous.

[5-2. Pattern generation based on operation logs)
In the above-described embodiment, an example has been described in which the user intentionally performs recording on the terminal device 10 so that the terminal device 10 acquires operation information. However, the terminal device 10 may dynamically acquire the operation information regardless of the user's intention. Specifically, the acquisition unit 13b acquires, as the operation information, a log (operation log) of the operation content on the terminal device 10 when the user uses the predetermined service, as the operation information. Further, the pattern generation unit 132 of the information control device 100 generates pattern information based on the operation log.

  Taking the user U1 as an example, for example, the acquisition unit 13b always acquires the operation log of the user U1 on the terminal device 10. Then, the acquisition unit 13b calculates, based on the operation log, what kind of operation the user U1 has. In the example of FIG. 1, since the user U1 performs the operation contents N1 to N4 almost every day, the acquisition unit 13b calculates that the user U1 tends to perform the operation contents N1 to N4 in order. That is, since the acquisition unit 13b acquires operation information indicating that the user U1 tends to perform the operation contents N1 to N4 in order, the pattern generation unit 132 uses the operation information based on this tendency to obtain a result. Then, similarly to the case where the recording command is issued to the user U1, pattern information indicating the conductive pattern PT1 can be generated.

  In addition, since the operation logs are accumulated, the acquisition unit 13b can compare the tendency calculated based on the operation logs acquired in the past with the tendency calculated based on the operation logs acquired up to the present time. For example, based on the comparison result, the acquisition unit 13b may store operation information corresponding to the tendency calculated based on the operation log acquired in the past, and operation information corresponding to the tendency calculated based on the operation log acquired up to the present time. (For example, if the procedure of the operation content is reduced or the time required to complete the operation is shortened), it is determined that the operation content has been changed. In the example of FIG. 1, the acquisition unit 13b needs only the operation contents N1 to N3 at the present time, although the operation contents N1 to N4 were necessary in the past until the attendance button BT4 was pressed. It is determined that there is.

  In such a case, the acquisition unit 13b updates (recreates) the pattern information by transmitting operation information corresponding to the operation contents N1 to N3 to the information control device 100. For example, in the case of recording, first, the user needs to act to start recording. For example, when the operation procedure is changed, the user causes the terminal device 10 to record again. There must be. However, some users forget this. However, as described above, the terminal device 10 dynamically detects a change in the operation content from the operation log, and the information control device 100 can update the pattern information based on the changed operation content. The pattern information can be efficiently generated without the need for the action from the user.

[5-3. Information presentation)
In addition, the presentation unit 133 may present that pattern information can be generated. Specifically, the presentation unit 133 performs an operation on the terminal device 10 according to the operation content based on an operation log that is a log of the operation content on the terminal device 10 when the user uses a predetermined service. To the user that a conductive pattern to be generated can be generated. More specifically, based on the tendency of the operation content calculated based on the operation log, the presentation unit 133 generates a conductive pattern that causes the terminal device 10 to perform an operation corresponding to the operation content corresponding to the tendency. Inform the user that generation is possible.

  As described above, the acquisition unit 13b acquires a log of operation contents (operation log) as operation information. Further, the pattern generation unit 132 of the information control device 100 generates pattern information based on the operation log. Taking the user U1 as an example, for example, the acquisition unit 13b always acquires the operation log of the user U1 on the terminal device 10. Then, the acquisition unit 13b calculates, based on the operation log, what kind of operation the user U1 has. In the example of FIG. 1, since the user U1 performs the operation contents N1 to N4 almost every day, the acquisition unit 13b calculates that the user U1 tends to perform the operation contents N1 to N4 in order. That is, the acquisition unit 13b acquires operation information indicating that the user U1 tends to perform the operation contents N1 to N4 in order.

  In such a state, the presentation unit 133 presents to the user that the conductive pattern PT1 that causes the terminal device 10 to perform an operation according to the operation contents N1 to N4 can be generated. For example, when the user U1 feels it is troublesome to manually perform the operation contents N1 to N4 (direct input), the user U1 transmits the conductive pattern PT1 to the information control device 100 in response to the information presentation. It can be instructed to do so. For example, upon receiving an instruction from the user U1 via the terminal device 10, the presentation unit 133 causes the pattern generation unit 132 to generate pattern information indicating the conductive pattern PT1.

  As described above, since the information control program according to the embodiment can notify the user that pattern information can be generated, the information control program gives the user a notice that operation complexity can be eliminated. be able to.

[5-4. Simultaneous input to multiple terminal devices)
For example, when lending one terminal device 10 to each of a plurality of persons in a company, a person in charge (hereinafter referred to as a person in charge T) wants to set predetermined information in each terminal device 10 in advance. is there. Normally, the person in charge has to set information on the terminal device 10 one by one, and this work becomes more troublesome as the number of terminals increases. Therefore, the conductive pattern can be used also when performing the same information setting for a plurality of terminal devices 10 at a time. This will be described with reference to the example of FIG. FIG. 9 is a diagram illustrating another example of the conductive pattern.

  In the example of FIG. 9, there are three terminal devices 10 for which information setting is performed: the terminal device 10-2 of the user U2, the terminal device 10-3 of the user U3, and the terminal device 10-4 of the user U4. There is. It is also assumed that the terminal device 10 has acquired the operation information, and the information control device 100 has generated the pattern information indicating the conductive pattern as the operation macro as described in FIG. At this time, each of the terminal device 10-2, the terminal device 10-3, and the terminal device 10-4 obtains the operation information, and the information control device 100 performs the operation based on the operation information transmitted from each of the terminal devices 10. Thus, pattern information corresponding to each terminal device 10 may be generated, or the information control device 100 may correspond to each terminal device 10 based on operation information transmitted from any one of the terminal devices 10. Pattern information may be generated.

  As shown in FIG. 1, the pattern generation unit 132 generates a conductive pattern P2 to be printed on one large paper medium (medium K2). More specifically, the pattern generation unit 132 determines “the conductive pattern PT2-2 which is a conductive pattern portion corresponding to the terminal device 10-2 among the conductive patterns P2”, and “the conductive pattern P2”. Conductive pattern PT2-3, which is a conductive pattern portion corresponding to terminal device 10-3 "," conductive pattern PT2-4, which is a conductive pattern portion corresponding to terminal device 10-4 among conductive patterns P2 " Generates pattern information indicating a large-sized conductive pattern PT2 which is wired with connecting lines.

  The conductive pattern PT2-2 is not an input point traced by a user or the like, but four input points that cause the terminal device 10-2 to detect a touch event (to be brought into contact with the display screen of the terminal device 10-2). , Input point P11-2, input point P12-2, input point P13-2, and input point P14-2.

  Further, the conductive pattern PT2-3 is not an input point traced by a user or the like, but four inputs that cause the terminal device 10-3 to detect a touch event (to be brought into contact with the display screen of the terminal device 10-3). The points include an input point P11-3, an input point P12-3, an input point P13-3, and an input point P14-3.

  Also, the conductive pattern PT2-4 is not an input point traced by a user or the like, but is a four input that causes the terminal device 10-4 to detect a touch event (to be brought into contact with the display screen of the terminal device 10-4). The points include an input point P11-4, an input point P12-4, an input point P13-4, and an input point P14-4.

  The conductive pattern PT2-2, the conductive pattern PT2-3, the conductive pattern PT2-4, and the four input points included therein correspond to an operation macro. Therefore, the four input points have a common positional relationship (arrangement relationship) regardless of the conductive pattern PT2-2, the conductive pattern PT2-3, and the conductive pattern PT2-4.

  From the above, the pattern generation unit 132 detects the plurality of conductive patterns (the conductive pattern PT2-2 and the conductive pattern PT2-3 in the example of FIG. 9) that cause the plurality of terminal devices 10 to simultaneously detect a touch event. , Conductive patterns PT2-4) (conductive patterns PT2 in the example of FIG. 9), and are printed collectively on one medium (medium K2 in the example of FIG. 9). Pattern information indicating the nature pattern (the conductive pattern PT2 in the example of FIG. 9) is generated. Further, the information control apparatus 100 transmits the generated pattern information to the terminal device 10 of the person in charge T, for example.

  In such a state, the person in charge T can obtain the medium K2 on which the conductive pattern PT2 is printed by printing the conductive pattern PT2, as shown in FIG. The person in charge T states that the conductive pattern PT2-2 is on the display screen of the terminal device 10-2, the conductive pattern PT2-3 is on the display screen of the terminal device 10-3, and the conductive pattern PT2-4 is The medium K2 is placed on the display screen of the terminal device 10-4. Then, the person in charge T traces, in order from the top, four input points arranged in a vertical line at the end of the medium K2. As a result, a touch event occurs on the display screen of each terminal device 10, so that a predetermined information setting is realized in each terminal device 10.

  As described with reference to FIG. 9, the information control program according to the embodiment can generate a conductive pattern that enables a predetermined information setting for a plurality of terminal devices 10 at the same time. Information setting by work can be eliminated.

[5-5. Applicable situations)
In the above-described embodiment, the information control device 100 generates a conductive pattern as an operation macro corresponding to an operation content such as activating an application, transitioning various contents, and finally performing information setting with a certain content. Examples have been given. However, the information control program can also generate, for example, pattern information of a conductive pattern applied to password input using a virtual keyboard displayed on the display screen of the terminal device 10.

[5-6. Target for execution of information control program)
In the above embodiment, an example has been described in which the terminal device 10 acquires operation information and transmits the acquired operation information to the information control device 100, so that the information control device 100 generates pattern information based on the operation information. However, the terminal device 10 may also generate pattern information. Specifically, the terminal device 10 acquires the operation information, and generates the pattern information based on the operation information by itself without transmitting the acquired operation information to the information control device 100.

[5-7. Use of multiple conductive patterns)
In the above embodiment, the terminal device 10 acquires the operation contents N1 to N4 as correct operation contents until the terminal device 10 inputs information for one purpose (in the example of FIG. 1, selects the attendance button BT4), and performs information control. The example in which the device 100 generates one pattern information corresponding to one target information input based on the acquired operation content has been described. However, when a plurality of target information inputs are present in series, the terminal device 10 acquires the operation content corresponding to the target information input for each target information input, and the information control device 100 For each information input, pattern information corresponding to the target information input may be generated. This will be described with reference to the example of FIG.

  For example, the user U1 selects the work button BT4 only every Friday, and then sets a predetermined site (here, “daily report site NP”). In this example, the user U1 accesses the daily report site NP as it is after performing the operation contents N1 to N4 shown in FIG. 1, and selects the daily report button BT5 included in the daily report site NP. In such a case, the acquiring unit 13b acquires the operation contents N1 to N4 corresponding to the attendance button BT4, further accesses the daily report site NP, and selects the daily report button BT5 included in the daily report site NP. Is obtained.

  Then, the pattern generation unit 132 generates one piece of pattern information as an operation macro corresponding to the operation details N1 to N4 and one pattern information as an operation macro corresponding to the operation content N5. That is, in such an example, the pattern generation unit 132 generates two pieces of pattern information. The user U1 prints the two pieces of pattern information generated by the pattern generation unit 132 on different media. Therefore, the user U1 obtains two media: a medium on which a conductive pattern corresponding to the operation content N1 to N4 is printed, and a medium on which a conductive pattern corresponding to the operation content N5 is printed. . The user U1 performs an operation corresponding to the operation contents N1 to N4 and N5 on the terminal device 10 by tracing a predetermined input point as if using one medium by overlapping the two media. Can be made.

[6. Hardware configuration)
Further, the terminal device 10 and the information control device 100 according to the above embodiment are realized by, for example, a computer 1000 having a configuration as shown in FIG. Hereinafter, the information control device 100 will be described as an example. FIG. 10 is a hardware configuration diagram illustrating an example of a computer 1000 that implements the functions of the information control device 100. The computer 1000 has a CPU 1100, a RAM 1200, a ROM 1300, an HDD 1400, a communication interface (I / F) 1500, an input / output interface (I / F) 1600, and a media interface (I / F) 1700.

  The CPU 1100 operates based on a program stored in the ROM 1300 or the HDD 1400, and controls each unit. The ROM 1300 stores a boot program executed by the CPU 1100 when the computer 1000 starts up, a program that depends on hardware of the computer 1000, and the like.

  The HDD 1400 stores a program executed by the CPU 1100, data used by the program, and the like. The communication interface 1500 receives data from another device via the communication network 50, sends the data to the CPU 1100, and transmits the data generated by the CPU 1100 to the other device via the communication network 50.

  The CPU 1100 controls an output device such as a display and a printer and an input device such as a keyboard and a mouse via the input / output interface 1600. The CPU 1100 acquires data from an input device via the input / output interface 1600. Further, CPU 1100 outputs the generated data to an output device via input / output interface 1600.

  The media interface 1700 reads a program or data stored in the recording medium 1800 and provides the program or data to the CPU 1100 via the RAM 1200. The CPU 1100 loads the program from the recording medium 1800 onto the RAM 1200 via the media interface 1700, and executes the loaded program. The recording medium 1800 is, for example, an optical recording medium such as a DVD (Digital Versatile Disc), a PD (Phase Change Rewritable Disk), a magneto-optical recording medium such as an MO (Magneto-Optical disk), a tape medium, a magnetic recording medium, or a semiconductor memory. And so on.

  For example, when the computer 1000 functions as the information control device 100 according to the embodiment, the CPU 1100 of the computer 1000 implements the function of the control unit 130 by executing a program loaded on the RAM 1200. The HDD 1400 stores data in the storage unit 120. The CPU 1100 of the computer 1000 reads and executes these programs from the recording medium 1800. However, as another example, these programs may be obtained from another device via the communication network 50.

  Further, for example, when the computer 1000 functions as the terminal device 10 according to the embodiment, the CPU 1100 of the computer 1000 implements the function of the control unit 13 by executing a program loaded on the RAM 1200.

[7. Others)
Of the processes described in the above embodiments, all or some of the processes described as being performed automatically may be manually performed, or all of the processes described as being performed manually may be performed. Alternatively, a part thereof can be automatically performed by a known method. In addition, the processing procedures, specific names, and information including various data and parameters shown in the above documents and drawings can be arbitrarily changed unless otherwise specified.

  Each component of each device illustrated is a functional concept, and does not necessarily need to be physically configured as illustrated. That is, the specific form of distribution / integration of each device is not limited to the one shown in the figure, and all or a part thereof may be functionally or physically distributed / arbitrarily divided into arbitrary units according to various loads and usage conditions. Can be integrated and configured.

  As described above, the embodiments of the present application have been described in detail with reference to some drawings. However, these are exemplifications, and various modifications based on the knowledge of those skilled in the art, including the aspects described in the disclosure section of the invention, The invention can be implemented in other modified forms.

  Further, the “section (section, module, unit)” described above can be read as “means”, “circuit”, or the like. For example, the acquiring unit can be replaced with an acquiring unit or an acquiring circuit.

DESCRIPTION OF SYMBOLS 1 Information control system 10 Terminal device 12 Storage part 12a Recording information storage part 12b Operation information storage part 12c Operation log storage part 13 Control part 13a Recording part 13b Acquisition part 13c Transmission part 100 Information control device 120 Storage part 121 Recording information storage part 122 Operation information storage unit 123 Pattern information storage unit 130 Control unit 131 Receiving unit 132 Pattern generation unit 133 Presentation unit

Claims (15)

An acquisition procedure for acquiring operation information indicating an operation content on a terminal device when a user uses a predetermined service,
Based on the operation information acquired by the acquisition procedure, a generation step of generating pattern information indicating a conductive pattern that causes the terminal device to perform an operation corresponding to the operation content by energization when a user touches the touch panel. An information control program for causing a computer to execute the following. The information control program according to claim 1, wherein the obtaining step obtains the operation information based on an operation for controlling the content providing the predetermined service, as an operation on the terminal device. The information control program according to claim 2, wherein the obtaining step obtains the operation information based on a moving image in which a mode in which the content is controlled by the operation is recorded. When the predetermined information setting is performed via the content, the obtaining step obtains, as the operation information, operation information indicating an operation content required until the predetermined information setting is performed. The information control program according to claim 2 or 3, wherein The acquisition procedure includes, as the operation information, touch position information indicating a touch position at which a display screen of the terminal device is touched, the touch position corresponding to the content displayed on the display screen, and the display screen The information control program according to any one of claims 2 to 4, wherein time information indicating a touched time is acquired. The information according to claim 5, wherein the acquiring step acquires, as the operation information, order information indicating an order in which the content displayed on the display screen is touched, based on the time information. Control program. In the case where the predetermined information setting is performed via the content, the acquisition procedure includes a series of steps when an erroneous operation content is detected in the operation content required until the predetermined information setting is performed. The information control program according to any one of claims 2 to 6, wherein the operation information indicating the content of the operation is reacquired from the beginning. The generation procedure is an input point for performing an input corresponding to the operation content to the terminal device by energization based on a user touching the conductive pattern, and a connection line connected to the input point. The information control program according to any one of claims 1 to 7, wherein pattern information indicating the conductive pattern including a connection line for supplying electricity to the input point is generated. The generation procedure includes, as the conductive pattern, instead of direct input to a terminal device by a user, an input corresponding to the operation content from the input point by being energized while being in contact with an input screen of the terminal device. The information control program according to claim 8, wherein pattern information indicating a pattern is generated. The obtaining step obtains, as the operation information, an operation log that is a log of operation contents for the terminal device when the user uses a predetermined service,
The information control program according to any one of claims 1 to 9, wherein the generation step generates the pattern information based on the log. Based on the operation log, the computer is further made to execute a presentation procedure for presenting to a user that a conductive pattern for causing the terminal device to perform an operation corresponding to the operation content can be generated. Item 11. The information control program according to Item 10. In the presenting procedure, based on the tendency of the operation content calculated based on the operation log, it is possible to generate a conductive pattern that causes the terminal device to perform an operation corresponding to the operation content corresponding to the tendency. The information control program according to claim 11, further causing the computer to execute a presentation procedure of presenting a user to a computer. The information control program according to any one of claims 1 to 12, further causing a computer to execute a transmission procedure of transmitting the pattern information generated by the generation procedure to the terminal device. An information control method executed by a computer,
An acquisition step of acquiring operation information indicating the operation content of the terminal device when the user uses a predetermined service,
A generation step of generating pattern information indicating a conductive pattern that causes the terminal device to perform an operation corresponding to the operation content by energizing when a user touches the touch panel, based on the operation information acquired in the acquisition step. An information control method comprising: An acquisition unit that acquires operation information indicating the operation content of the terminal device when the user uses a predetermined service,
Based on the operation information obtained by the obtaining unit, a generation unit that generates pattern information indicating a conductive pattern that causes the terminal device to perform an operation corresponding to the operation content by energization when a user touches the touch panel. An information control device, comprising: