JP2004318325A - Information input system, its program, and electronic form - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an information input system for easily performing information input operation of a user by three-dimensional screen display, and to provide its program and an electronic form. <P>SOLUTION: In a user terminal preparing an electronic file on the basis of the acquired electronic form, the interior of an image object such as an input column and a ruled line frame included in a three-dimensional screen displayed toward the user is controlled in response to advance of input of information when information is input in response to input operation of the user. For instance, the interior is controlled so that the input column displayed to be sprung to a front face in a non-input state is retracted together with completion of input. Consequently, since the advance of the input of the information is clearly displayed for the user, input operation is facilitated. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an information input device and a program for inputting a series of information in a style determined according to a user's operation, and an input field, a ruled line frame, and an image such as a text for prompting input of such a series of information. The present invention relates to an electronic form having display data for displaying on a display device.
[0002]
[Prior art]
In recent years, the spread of high-performance and inexpensive personal computers and the rapid reduction of Internet connection fees have been progressing, and an environment is being prepared in which individuals can use high-speed data communication at low cost.
With the improvement of the data communication environment, the activities of digitizing various procedures using electronic forms, which were conventionally performed using paper documents, have been actively promoted by governments and companies. .
[0003]
An electronic form is electronic data that defines the format of various types of information included in a digitized document. The electronic form includes data indicating information items and object images (input fields, Display data for displaying a ruled line frame, text, etc.) on a display device. The electronic form also includes a program for controlling the display contents of the screen, voice guidance, and the like based on certain rules in order to support the user's input operation.
[0004]
FIG. 13 is a diagram illustrating an example of a screen displayed to a user using a conventional electronic form.
Generally, an object image such as a ruled line frame or an input field displayed to a user by an electronic form is expressed as a two-dimensional image arranged on a flat sheet as shown in FIG. If many object images do not fit on the display screen, for example, divide the object images into multiple pages and move them between pages as necessary to display these object images. A method of securing a display area on the side and displaying a scroll bar there to change the display area of the sheet is used.
[0005]
Further, as a method of expressing the context of the object image, for example, a method of pasting the object image to a layer structure called a layer and determining the context between the layers to determine the positional relationship of the object image, or the same coordinate For example, a method of defining a front / rear relationship such as front / rear with respect to the object image located at the position is used.
[0006]
In addition, as control of a screen for supporting a user's input operation, for example, as shown in FIG. 14, the color or contrast of an object image to be input or operated is changed, or as shown in FIG. Control is performed to switch display / non-display or to move the object image to a position where it is easy to input. By controlling such a screen, the user can easily grasp the object image to be input or operated.
[0007]
As for an information input device using an electronic form, for example, there are conventional technologies disclosed in Patent Documents 1 and 2.
[0008]
[Patent Document 1]
JP-A-2003-76457
[Patent Document 2]
JP 2003-76458 A
[0009]
[Problems to be solved by the invention]
As described above, the object image displayed to the user by the conventional electronic form is a two-dimensional image arranged on a sheet, and simply shows a style commonly found in a paper document on a screen of a display device. It is only a thing and has the disadvantage of poor expression.
[0010]
In addition, since the range in which an object image can be displayed is limited to a two-dimensional screen, there are many restrictions on the amount of information that can be displayed. In order to display a large amount of information, the user has to move the page or scroll the screen, which has a disadvantage that the operation is troublesome.
[0011]
Further, the context of the object is defined only in a relative order, and in order to allow the user to clearly understand the context, for example, a shadow is added to the object image or a difference is given to the contrast. It is necessary to express the context by processing a dimensional image. Therefore, there are many restrictions on the method of expressing the context, and there is a disadvantage that it takes time to add such an expression.
[0012]
In addition, as a method of controlling a screen that supports a user's input operation, the user can be alerted only by a method of causing a two-dimensional visual change, and there is a disadvantage of poor expression.
For example, in the method of calling the user's attention by changing the position of the object image, since the image is moved in a two-dimensional plane, it is often difficult to grasp the change in the position without comparing the screens before and after the change. .
Further, in the method of calling the user's attention by a change in the color of the object image, it is difficult for a color blind person to grasp the change.
[0013]
The present invention has been made in view of the above circumstances, and an object of the present invention is to provide an information input device and a program therefor, which make it easier for a user to perform an information input operation by a screen display having richer expressiveness than before. Is to provide. Another object of the present invention is to provide an electronic form capable of displaying a screen with richer expressiveness as compared with the related art.
[0014]
[Means for Solving the Problems]
In order to achieve the above object, a program according to a first aspect of the present invention is a program for causing a computer to execute a display process of a screen including a plurality of object images for prompting input of designated information. A first procedure for determining depth information of the plurality of object images in accordance with the progress of the input of the information based on the object image, and a three-dimensional depth corresponding to the depth information determined in the first procedure And performing a display process of a screen including the plurality of object images having the following.
[0015]
According to a first aspect of the present invention, in a computer, depth information of the plurality of object images is determined according to progress of input of the information based on the plurality of object images, and the determined depth is determined. Display processing of a screen including the plurality of object images having a three-dimensional depth according to the information is performed.
Since the depth of the object image changes as the information input progresses, the input operation can be easily performed.
[0016]
Further, a first aspect of the present invention has a third procedure for setting a type of a symbol to be input as the information, and in the first procedure, the type of the symbol set in the third procedure and an object image The depth information of the object image may be determined depending on whether or not the type of the symbol specified as the information to be input corresponding to the information matches.
Thereby, for example, an object image in which a type corresponding to the type of the symbol set in the third procedure is designated is displayed in front of an object image which is not so, so that the input operation can be easily performed.
[0017]
Further, a first aspect of the present invention has a fourth procedure for detecting the presence / absence of the input of the information. In the first procedure, the depth information of each object image is obtained by the detection result of the fourth procedure. May be determined according to
Thus, for example, an object image corresponding to this information can be displayed on the near side until the completion of the information input is detected, and the user can be prompted to input the information.
[0018]
Further, a first aspect of the present invention has a fifth procedure for determining whether or not the input information satisfies a specified format. In the first procedure, the depth information of each object image is provided. May be determined according to the determination result of the fifth procedure.
Thereby, for example, the object image corresponding to the information determined to be the style violation can be displayed on the front side, and the user can be prompted to input correct information.
Also, in the fifth procedure, the part of the style violation included in the input information is specified, and in the first procedure, of the object images corresponding to the input information determined as the style violation in the fifth procedure, Alternatively, different depth information may be set for the image corresponding to the specified violation part and the image corresponding to the remaining part.
Thereby, for example, it is possible to give the user a clear grasp of the violating part by giving a change in depth to the image corresponding to the part that violates the style and the part that does not.
[0019]
In a first aspect of the present invention, in the first procedure, when selecting information to be input from a plurality of candidates, weights to be input are assigned to object images respectively corresponding to the plurality of candidates. Depth information according to the information may be set.
This allows the object image corresponding to the plurality of candidates to have a change in depth according to the weighting information, so that the user can easily select the candidate.
[0020]
Further, according to a first aspect of the present invention, in the first procedure, depth information of an object image designated to display a numerical value corresponding to input information may be determined according to the numerical value. .
This makes it easy to visually grasp the magnitude of the numerical value as the depth of the image.
[0021]
Further, according to a first aspect of the present invention, a sixth procedure for determining whether to perform two-dimensional or three-dimensional display processing, and performing the two-dimensional display processing in the sixth procedure are determined. In this case, a first procedure and a second procedure are omitted, and a seventh procedure is provided for performing a display process of a screen including a plurality of two-dimensional object images for prompting input of designated information.
Thus, for example, it is possible to select either two-dimensional display or three-dimensional display according to the specifications of the display device or the preference of the user.
[0022]
Further, the first aspect of the present invention may include an eighth procedure for performing a process of reproducing audio information designated for each object image at a volume corresponding to depth information of the object image.
Thereby, it is possible to change the volume according to the depth of the image, and to easily perform the input operation.
[0023]
An information input device according to a second aspect of the present invention is an information input device having display means for displaying a screen including a plurality of object images for prompting input of designated information, wherein the plurality of object images are displayed. The depth information of the plurality of object images is determined in accordance with the progress of input of the information based on the information, and a screen including the plurality of object images having a three-dimensional depth corresponding to the determined depth information is displayed on a display unit. It has processing means for displaying.
[0024]
According to a second aspect of the present invention, in the processing means, depth information of the plurality of object images is determined in accordance with the progress of input of the information based on the plurality of object images, and the determined depth is determined. A screen including the plurality of object images having a three-dimensional depth according to the information is displayed on the display means.
Since the depth of the object image changes as the information input progresses, the input operation can be easily performed.
[0025]
An electronic form according to a third aspect of the present invention is an electronic form having display data for displaying, on a display unit, a screen including a plurality of object images for prompting input of designated information, wherein the display data is: Depth information for displaying each object image on the display means as an image having three-dimensional depth is included.
As a result, an object image having a three-dimensional depth can be displayed on the display unit as an object image that prompts input of information, and the expression of the screen display can be improved.
[0026]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, two embodiments of the present invention will be described with reference to the drawings.
[0027]
<First embodiment>
FIG. 1 is a block diagram showing a configuration example of a procedure system including a user terminal 4 as an information input device according to an embodiment of the present invention.
FIG. 2 is a block diagram illustrating a configuration example of the user terminal 4.
[0028]
The network 1 is a network for performing data communication between the servers 1 and 2 of the procedural system shown in FIG. For example, a wide area network such as the Internet or a public communication network corresponds to this.
[0029]
The procedure server 2 is a server that performs processing corresponding to a procedure destination such as a government office or a company, and is an electronic document created by using an electronic form in the user terminal 4 (data including information in a predetermined format necessary for the procedure). Perform the process of receiving.
[0030]
The electronic form providing server 3 is a server that manages an electronic form for creating an electronic document in the user terminal 4, selects an electronic form required for the procedure in response to a request from the user terminal 4, and sends the electronic form to the user terminal 4. Perform the processing to be provided.
[0031]
The user terminal 4 is a terminal device used by a user who performs a procedure for a procedure destination such as a government office or a company that manages the procedure server 2. The user terminal 4 creates an electronic document using, for example, a program necessary for performing data communication with the procedure server 2 and the electronic form providing server 3 and an electronic form provided from the electronic form providing server 3. And a display device and an input device necessary for a user to input information.
[0032]
FIG. 2 is a block diagram illustrating an example of the configuration of the user terminal 4.
The user terminal 4 shown in FIG. 2 includes a communication interface unit (I / F) 10, a processing unit (PROC) 20, a storage unit (MEM) 30, an input / output interface unit (I / F) 40, and a display unit. (DISP) 50 and an input unit (KYB) 60.
The processing unit 20 is an embodiment of the processing unit of the present invention.
The display unit 50 is an embodiment of the display unit of the present invention.
[0033]
The communication interface unit 10 performs a process of transmitting and receiving data between the procedure server 2 and the electronic form providing server 3 via the network 1.
[0034]
The processing unit 20 reads out the program stored in the storage unit 30 and performs a predetermined process according to the program. That is, the user accesses the electronic form providing server 3 using the communication interface unit 10, acquires an electronic form in response to a user's request, and executes an information input process described later according to the acquired electronic form. An electronic document is created based on the input information, and a process of transmitting the created electronic document from the communication interface unit 10 to the procedure server 2 is performed.
[0035]
The storage unit 30 stores a program executed in the processing unit 20. Further, the electronic form provided from the electronic form providing server 3 may be temporarily stored in the storage unit 30.
[0036]
The input / output interface unit 40 performs processing for transferring data between input / output devices such as the display unit 50 and the input unit 60 and the processing unit 20 and controls these input / output devices in accordance with instructions from the processing unit 20. Is performed.
[0037]
The display unit 50 displays a three-dimensional image corresponding to display data input from the processing unit 20 via the input / output interface unit 40.
As a display method of the three-dimensional image, for example, a left-eye image and a right-eye image are alternately displayed on one display panel, and the right-eye image provided to the glasses worn by the user is synchronized with the alternate display timing. And the shutter for the left eye and the left eye may be alternately opened and closed. Further, a method may be employed in which display panels for displaying images for the right eye and the left eye are separately provided. In addition, various methods known as a display method of a three-dimensional image can be applied to the display unit 50.
[0038]
The input unit 60 is a device such as a keyboard and a mouse for inputting information by a user operation. The information input from the input unit 60 is input to the processing unit 20 via the input / output interface unit 40.
[0039]
Here, the processing of the user terminal 4 having the above-described configuration will be described with reference to the flowcharts of FIGS.
FIG. 3 is a flowchart for explaining a series of procedural processes from acquisition of an electronic form to creation and transmission of an electronic document in the user terminal 4.
[0040]
Step ST1:
A process of accessing the electronic form providing server 3 via the network 1 and selecting an electronic form necessary for the procedure from a plurality of electronic forms managed by the electronic form providing server 3 is performed. The electronic form selected as a result of this processing is acquired by the user terminal 4 via the network 1.
[0041]
Step ST2:
Based on the electronic form acquired in step ST1, a process for inputting information from the user is executed by a process as shown in FIG. 4 described later, for example.
[0042]
Step ST3:
An electronic document including a series of information necessary for the procedure is generated based on the information input in step ST2.
[0043]
Step ST4:
The electronic document generated in step ST3 is transmitted from the communication interface unit 10 to the procedure server 2 via the network.
The transmitted electronic document is inspected in the procedure server 2 to determine whether it satisfies a predetermined format. If the electronic document satisfies the format, it is accepted in the procedure server 2.
[0044]
FIG. 4 is a flowchart for explaining the details of the information input process in step ST2 described above.
[0045]
Step ST21:
Processing for updating the display data of the object image (input field, ruled line frame, text, etc.) included in the obtained electronic form is performed. However, in the initial screen of the information input process ST2, initial display data set in the electronic form is used.
In the display data updating process, the three-dimensional position of the object image is updated along with the color, contrast, shape, and the like of the object image. That is, the two-dimensional position and the position in the depth direction of the object image are updated.
[0046]
FIG. 5 is a diagram illustrating an example of a data structure of the electronic form according to the first embodiment.
As shown in FIG. 5, the display data D1 to Dn of each object image included in the electronic form include information (objects 1 to n) for specifying the type, shape, color, etc. of each object image, and the position on the screen. Is included. When the display data is updated, the information of the three-dimensional coordinates is also updated.
[0047]
Such update contents of the display data are determined based on a certain rule in accordance with the progress of the input of information in the input step ST23 described later. The rules for determining the update content are defined, for example, by a program (called an input navigation program) included in the acquired electronic form. The execution of the input navigation program in the processing unit 20 causes a change in the screen display in accordance with the progress of the information input by the user.
[0048]
Step ST22:
The screen display of the display unit 50 is updated based on the display data updated in step ST21.
[0049]
Step ST23:
In a state where the update of the display data is reflected on the screen display of the display unit 50, information is input to the processing unit 20 by a user's input operation on the input unit 60.
[0050]
Step ST24:
It is determined whether the information input to the processing unit 20 is information indicating the end of the information input process. For example, when a button indicating completion of information input, such as a “send button” or a “decision button” on the screen, is pressed, the end of the information input process is determined.
If the information indicating the end of the information input processing has not been input, the processing from step ST21 is executed again. If information indicating the end of the information input process has been input, the process proceeds to steps ST3 and ST4 described above.
[0051]
Next, a specific example of the above-described information input processing ST2 will be described with reference to display examples of FIGS.
[0052]
FIG. 6 is a diagram illustrating an example of a screen displayed on the display unit 50, and FIG. 7 is a diagram illustrating a state where the screen is visually recognized as a three-dimensional image by a user.
For example, on the initial screen of the information input process ST2, as shown in FIG. 7, it is assumed that the object image O3 is displayed on the foreground, and the image arrangement is in the order of the object image O1 and the object image O2. .
Further, it is assumed that the input navigation program defines a rule for changing the arrangement of the object image for which the completion of the input is detected to the innermost position (the position where the Z coordinate is zero).
[0053]
In this initial screen, when information is input in the input field indicated by the object image O2, the Z coordinate of the object image O2 is changed to zero in step ST21 after inputting the information. As a result, as shown in FIG. 8, the object image O2 for which input has been completed is retracted.
Further, when information is input in the input field indicated by the object image O1, in step ST21 after the information is input, the Z coordinate of the object image O1 is changed to zero. As a result, as shown in FIG. 9, the input object image O1 is retracted to the back.
As described above, since the object image for which the input has been completed is retracted, the user can clearly identify the object for which the input has been completed and the object for which the input has not been completed.
[0054]
When information is input to the input field indicated by the object image O3 following the object images O2 and O1, in step ST21 after the information is input, the Z coordinate of the object image O3 is changed to zero. Assuming that the input navigation program specifies that the buttons and the like of the object image O4 pop out to the front when the input for all the objects is completed in this way, as shown in FIG. With respect to O1 to O3, buttons of the object image O4 jump out to the front and are displayed.
As described above, the information to be input next is clearly displayed to the user, so that it is easy to determine the input operation to be performed next.
[0055]
As described above, the information indicating the depth of the object image is determined in accordance with the progress of the input of the information, and the depth of the object image is changed. The user can be clearly understood. Thereby, the input operation of the user is further facilitated, and the case where the user is troubled with the operation can be reduced.
[0056]
6 to 10 show an example in which information indicating the depth of each object image is determined according to the result of detecting the presence or absence of input of information corresponding to each object image. In addition, by controlling the depth of the object image based on various rules, it is possible to easily perform an input operation.
[0057]
For example, a mode (half-width alphanumeric mode, full-width mode, When the user performs an operation of setting a kana mode or the like, the type of the symbol in this input mode matches the type of the symbol specified by the electronic form as information to be input corresponding to each object image. The depth information of the object image may be determined according to whether or not to do so.
For example, if the input mode is set to half-width alphanumeric mode, input fields with half-width alphanumeric characters in electronic forms, such as phone numbers, ages, birth dates, e-mail addresses, etc. The depth of each object image is controlled so as to be displayed in the foreground. With such control, input fields that can be input without changing the input mode are clearly displayed, so that it is possible to reduce the complexity of the operation when the input mode needs to be changed.
[0058]
Alternatively, it may be determined whether or not the input information satisfies the format specified in the electronic form, and the depth information of each object image may be determined according to the determination result.
For example, when the input information is determined to be a style violation, the depth is controlled so that the object image corresponding to the information is displayed in the foreground. By such control, whether or not the input is a form violation is clearly displayed, so that it is possible to reduce the complexity of the operation of correcting the input content.
[0059]
Also, in this case, the style violation part included in the input information is specified, and control is performed so that the image corresponding to the specified violation part and the image corresponding to the remaining part have different depths. You may go.
For example, in the input field of the e-mail address, it is difficult to distinguish visually such as "." (Dot) and "," (comma) and "-" (hyphen) and "-" (long sound). Even if a symbol is incorrectly entered, the violating part is clearly displayed as a difference in the depth of the image, so that a corrected portion can be easily found.
[0060]
In addition, depending on the content input to a certain input field, the input content following the input field or the input content of another input field may be displayed as a plurality of candidates. As described above, when selecting information to be input from a plurality of candidates specified in the electronic form, object images corresponding to the plurality of candidates have depths according to the input weighting information. You may let it.
The weighting information may be information generated in accordance with the result of ranking the use frequency of each candidate based on the previous input contents, or may be provided by an electronic form provider in an electronic form based on marketing or statistical information. Information specified in advance or information arbitrarily set by the user may be used.
[0061]
For example, if "Tokyo" is entered in a certain input field, and each ward of Tokyo is subsequently displayed as an input candidate, the frequency of use of each ward is "Shinjuku-ku", "Chiyoda-ku", ..., " Assuming that it becomes lower in the order of "Edogawa-ku", the most frequently used "Shinjuku-ku" is displayed in the foreground, the next most frequently used "Chiyoda-ku" is slightly behind it, and the least-frequently used "Edogawa-ku" Is controlled so that "" is displayed at the deepest position.
For example, in an electronic form for applying for a present, weighting information determined according to the number of applicants, the number of winners, the amount of the present, and the like is specified for each candidate. When an input candidate for a present to be selected is displayed on the user terminal 4, a difference in depth is given to each candidate object image according to the weighting information specified in the electronic form.
By such depth control, differences in importance among a plurality of candidates are clearly displayed as differences in depth, so that the user can easily select a candidate.
[0062]
In addition, a numerical value corresponding to input information may be displayed, such as a column (for example, a total column of the objects 3 in FIG. 6) in which a calculation result derived from the contents input in the plurality of input columns is displayed as a numerical value. The depth of the object image specified in the electronic form may be determined according to this numerical value.
This makes it easy to visually grasp the magnitude of the numerical value as the depth of the image.
[0063]
Further, the depth of the object image displaying the numerical value may be determined as the information according to a difference between the numerical value and a numerical value previously specified in the electronic form or the numerical value input as information.
For example, in an electronic form for purchasing a product, a budget amount is input in a predetermined column in advance, and when a product to be purchased from a plurality of products is selected, the depth of the column for displaying the total price of the product is It is controlled according to the difference between the amount and the total amount. That is, control is performed such that the depth of both columns becomes closer as the difference between the budget amount and the total amount becomes smaller, and the depth of both columns becomes larger as the difference becomes larger.
In this way, it is possible to easily and visually grasp the difference that a numerical value that changes in accordance with the progress of information input has a predetermined numerical value.
[0064]
<Second embodiment>
FIG. 11 is a flowchart illustrating an information input process according to the second embodiment of the present invention.
FIG. 12 is a view illustrating an example of a data structure of an electronic form according to the second embodiment.
[0065]
The difference between the first embodiment and the second embodiment is that a device capable of three-dimensional display is assumed as the display unit 50 in the first embodiment, but in the second embodiment, The point is that a process is provided which enables selection of either two-dimensional display or three-dimensional display in accordance with the specifications of the display unit 50 or the preference of the user.
Further, in order to enable such processing, the data structure of the electronic form is different from the data structure shown in FIG.
Note that the configuration of the user terminal can be similar to that shown in FIG.
[0066]
An electronic form 100A shown in FIG. 12 has an electronic form 101 including display data of an object image necessary for performing two-dimensional display processing, in addition to the electronic form 100 shown in FIG. When the three-dimensional display process is performed, the electronic form 100 is used, and when the two-dimensional display process is performed, the electronic form 101 is used. Note that part or all of the display data included in the electronic form 100 may be shared in the two-dimensional display processing.
[0067]
In the information input process shown in FIG. 11, it is determined whether to perform the two-dimensional or three-dimensional display process in step ST25, and in response to this determination, the information input process for performing the three-dimensional display described above (ST21 to ST24). ) Or information input processing for performing two-dimensional display (ST21A to ST24A). The determination of the display process in step ST25 may be automatically performed by, for example, identifying whether or not the display unit 50 can perform three-dimensional display in the processing unit 20, or in response to a user request input from the input unit 60. May be done manually
[0068]
In step ST21A, a process of updating the two-dimensional display data according to the two-dimensional input navigation program is performed.
In step ST22A, a process of displaying a two-dimensional image according to the updated display data on the display unit 50 is performed.
In step ST23A, information is input to the processing unit 20 in accordance with a user's input operation.
In step ST24A, it is determined whether or not the input information includes information indicating the end of the information input process. According to the determination result, the process proceeds to step ST3, or the process proceeds to step ST21A. Will be returned.
[0069]
As described above, according to the information input process and the electronic format according to the second embodiment, it is possible to select either the two-dimensional display or the three-dimensional display according to the specifications of the display unit 50 and the user's preference. Becomes possible.
[0070]
Note that the present invention is not limited to the above-described embodiment, and various modifications are possible.
For example, when a user terminal is provided with a sound reproducing device, sound information specified for each object image in an electronic format may be reproduced at a volume according to the depth information of the object image.
Thereby, since the volume can be changed according to the depth of the image, the difference in depth can be expressed more clearly, and the input operation can be further easily performed.
[0071]
In the present invention, the method for obtaining the electronic form is not limited. Therefore, for example, as shown in FIG. 1, the electronic form may be obtained via a network, or when the user terminal is provided with a reading device for a recording medium, the electronic form recorded on the recording medium may be obtained. good.
【The invention's effect】
ADVANTAGE OF THE INVENTION According to the information input device and program of this invention, the depth of an object image changes according to the progress of input of information, and can perform a user's information input operation more easily.
Further, according to the electronic form of the present invention, an image having a three-dimensional depth can be displayed, and the expressiveness of a screen display that prompts a user to input information can be enhanced.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration example of a procedure system including a user terminal as an information input device according to an embodiment of the present invention.
FIG. 2 is a block diagram illustrating a configuration example of a user terminal.
FIG. 3 is a flowchart for explaining a series of procedural processes from acquisition of an electronic form to creation and transmission of an electronic document in a user terminal.
FIG. 4 is a flowchart illustrating an information input process according to the first embodiment of the present invention.
FIG. 5 is a diagram illustrating an example of a data structure of an electronic form according to the first embodiment.
FIG. 6 is a diagram illustrating an example of a screen displayed on a display unit.
7 is a diagram illustrating a state where the screen shown in FIG. 6 is visually recognized as a three-dimensional image by a user.
8 is a diagram illustrating a screen after an input operation is performed on the screen shown in FIG. 7;
9 is a diagram illustrating a screen after an input operation is performed on the screen illustrated in FIG. 8;
10 is a diagram illustrating a screen after an input operation is performed on the screen shown in FIG. 9;
FIG. 11 is a flowchart illustrating an information input process according to a second embodiment of the present invention.
FIG. 12 is a diagram illustrating an example of a data structure of an electronic form according to the second embodiment.
FIG. 13 is a diagram illustrating an example of a screen displayed to a user using a conventional electronic form.
FIG. 14 is a diagram illustrating an example in which the color and contrast of an object image to be input or operated are changed on the screen shown in FIG. 13;
FIG. 15 is a diagram illustrating an example in which display / non-display of an object image is switched on the screen shown in FIG. 13;
[Explanation of symbols]
REFERENCE SIGNS LIST 1 network 2 procedure server 3 electronic form providing server 4 user terminal 10 communication interface 20 processing unit 30 storage unit 40 input / output interface 50 display unit 60 input Department

Claims (11)

A program that causes a computer to execute a display process of a screen including a plurality of object images that prompt input of designated information,
A first procedure of determining depth information of the plurality of object images in accordance with the progress of the input of the information based on the plurality of object images;
Performing a display process of a screen including the plurality of object images having a three-dimensional depth according to the depth information determined in the first procedure. A third step of setting a type of a symbol to be input as the information,
In the first procedure, depending on whether or not the type of the symbol set in the third procedure matches the type of the symbol specified as information to be input corresponding to the object image, Determine the depth information of the object image,
The program according to claim 1. A fourth procedure for detecting the presence or absence of the input of the information,
In the first procedure, depth information of each object image is determined according to a detection result of the fourth procedure.
The program according to claim 1. A fifth procedure for determining whether or not the input information satisfies the designated form;
In the first procedure, the depth information of each object image is determined according to the determination result of the fifth procedure.
The program according to claim 1. In the fifth step, the part of the form violation included in the input information is specified,
In the first procedure, among the object images corresponding to the input information determined to be the style violation in the fifth procedure, an image corresponding to the specified violation part and an image corresponding to the remaining part, Set different depth information for each,
The program according to claim 4. In the first procedure, when information to be input is selected from a plurality of candidates, depth information according to the input weighting information is set for an object image corresponding to each of the plurality of candidates.
The program according to claim 1. In the first procedure, depth information of an object image designated to display a numerical value corresponding to input information is determined according to the numerical value.
The program according to claim 1. A sixth procedure for determining whether to perform two-dimensional or three-dimensional display processing,
When it is determined in the sixth procedure that a two-dimensional display process is to be performed, the plurality of two-dimensional objects that prompt input of designated information by omitting the first procedure and the second procedure are omitted. 7. The program according to claim 1, further comprising: a seventh step of performing a display process of a screen including an image. An eighth step of performing a process of reproducing audio information designated for each object image at a volume according to depth information of the object image;
The program according to claim 1. An information input device having display means for displaying a screen including a plurality of object images that prompt input of designated information,
In accordance with the progress of the input of the information based on the plurality of object images, depth information of the plurality of object images is determined, and the plurality of object images having a three-dimensional depth corresponding to the determined depth information are determined. Comprising processing means for causing the display means to display a screen including
Information input device. An electronic form having display data for displaying on a display means a screen including a plurality of object images each prompting input of designated information,
The display data includes depth information for causing the display means to display each of the object images as an image having a three-dimensional depth,
Electronic form.

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