JP2017224157A - Document processing system, document processor, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a technology that realizes efficient detection of an error in a document in review of the document.SOLUTION: A document processor accepts input of a document by a document creator and also acquires time-series biological information of the document creator in a document input period of the document creator. Then, the document processor stores each character information input by the document creator in association with the biological information of the document creator at each input time of the character information. And, the document processor determines a state of the document creator at the input time of the character information, on the basis of prescribed criteria for determination. In reviewing the document created by the document creator, the document processor displays the document reflecting a determination result based on the prescribed criteria for determination. Specifically, the processor executes attention-seeking display (intensified display and/or word balloon image display, etc.) for the character information in the document which has been already input when the document creator was in an abnormal state.SELECTED DRAWING: Figure 8

Description

  The present invention relates to a document processing technique for processing a document, and more particularly to a technique for supporting document review.

  There is a technique for supporting document review using a computer or the like (see Patent Document 1).

JP 2012-103891 A

  By the way, in document review, it is not easy to efficiently find errors in a document. For example, when an error (such as a typographical error) in a document is discovered while paying attention to the entire range of the document, considerable attention is required and the error is often overlooked. In particular, when the number of pages is large, the possibility of missing an error is further increased.

  The above-mentioned patent document 1 is a technique for efficiently executing a correction work on a review document by displaying comment information on the review document at a corresponding position in the review document, and makes it easy to find an error. It's not technology.

  In view of this, an object of the present invention is to provide a technique capable of efficiently finding an error in a document in document review.

  In order to solve the above-mentioned problem, the invention of claim 1 is a document processing system, wherein acquisition means for acquiring time-series biological information of the document creator in a period in which document input by the document creator is performed, Storage means for storing each character information input by the document creator in association with the biometric information of the document creator at each input time of the character information, and the document creator at each input time of the character information A determination unit that determines a state based on a predetermined determination criterion related to the biological information, and a review result of the determination unit based on the predetermined determination criterion is reflected in the review of the document created by the document creator. Display control means for controlling an operation for displaying a document, wherein the character information input when the document creator of the document has an abnormal state. It characterized in that it comprises a display control means for alerting display to.

  According to a second aspect of the present invention, in the document processing system according to the first aspect of the invention, the biological information is information that changes reflecting the mental state and / or physical condition of the document creator.

  According to a third aspect of the invention, in the document processing system according to the first or second aspect of the invention, the biological information includes information on at least one of a pulse wave, an electrocardiogram, a body temperature, a pulse, and a blood pressure. And

  According to a fourth aspect of the present invention, in the document processing system according to any one of the first to third aspects, the biometric information is detected by a wearable device attached to the document creator. .

  According to a fifth aspect of the present invention, in the document processing system according to any one of the first to fourth aspects, the biological information is information detected at regular time intervals, and the storage means includes the regular time Each character information input by the document creator in each segment period segmented by an interval and biometric information acquired for each segment period are stored in association with each other, and the display control means Determining the state of the document creator for each division period, and performing a warning display on character information input in a division period in which the document creator has an abnormal state among a plurality of division periods. And

  The invention of claim 6 is the document processing system according to any one of claims 1 to 5, further comprising a changing means capable of changing the predetermined judgment criterion, wherein the judgment means comprises: The state of the document creator at each input time of the character information is determined based on a determination criterion after the change by the change unit, and the display control unit reviews the document created by the document creator At this time, the document is displayed with a warning display reflecting a determination result based on the changed determination criterion.

  According to a seventh aspect of the present invention, in the document processing system according to the sixth aspect of the invention, the determination criterion after the change and the determination criterion before the change are criteria relating to the same type of biological information and are different from each other. It is characterized by being based on.

  The invention according to claim 8 is the document processing system according to claim 6, wherein the determination criterion after the change and the determination criterion before the change are criteria relating to different types of biological information.

  According to a ninth aspect of the present invention, in the document processing system according to any one of the sixth to eighth aspects of the present invention, the changing unit is configured to perform the predetermined determination criterion based on a setting change operation by a user who reviews the document. It is characterized by changing.

  The invention of claim 10 is the document processing system according to claim 6 or claim 7, further comprising means for acquiring correction history information relating to at least one document created before the document, The changing means automatically changes the predetermined criterion based on the correction history information.

  According to an eleventh aspect of the present invention, in the document processing system according to the tenth aspect of the present invention, the changing means divides the index value related to the biological information at the time of each document input into a plurality of sections in the correction history information, For each of the sections, a correction execution rate indicating a ratio regarding the number of character string areas actually corrected out of the total number of character string areas input in the user state corresponding to the section is obtained, and the plurality of sections When the correction execution rate of one of the sections exceeds a predetermined ratio, the predetermined determination criterion is changed based on a value corresponding to the one section.

  According to a twelfth aspect of the present invention, in the document processing system according to any one of the sixth to eleventh aspects, the predetermined determination criterion is changed for each user by the changing means.

  According to a thirteenth aspect of the present invention, in the document processing system according to any one of the first to fifth aspects of the present invention, the predetermined determination criterion includes a measured value of the biometric information of each user and a standard value regarding the biometric information of the standard user It is set for each user based on the comparison result.

  According to a fourteenth aspect of the present invention, in the document processing system according to any one of the first to thirteenth aspects of the present invention, the predetermined criterion is that the time-series biological information is continuously within a predetermined reference range for a predetermined degree or more. It is a criterion for determining that the document creator is in an abnormal state in a period outside the period.

  The invention according to claim 15 is a document processing apparatus, wherein each character information input by the document creator and biometric information at each input time of each character information in a period during which the document input by the document creator is performed. Means for acquiring data associated with each other; and determination means for determining a state of the document creator at each input time of the character information based on the data in accordance with a predetermined determination criterion regarding the biological information; A display control means for controlling an operation of displaying the document by reflecting a determination result by the determination means based on the predetermined determination criteria when the document created by the document creator is reviewed, A display control means for performing a warning display on character information input when the document creator has an abnormal state. And wherein the door.

  The invention of claim 16 relates to a computer in which a) each character information input by the document creator in a period during which the document input is performed and biometric information at each input time of each character information are associated with each other. B) determining the state of the document creator at each input time of each character information based on the data according to a predetermined criterion for the biometric information; c) executing a step of controlling an operation of displaying the document by reflecting the determination result in the step b) based on the predetermined determination criterion when the document created by the document creator is reviewed. Step c) is input when c-1) the document creator of the document has an abnormal state. It characterized by having a step of performing a caution display for the character information that was.

  According to the invention described in claims 1 to 16, when reviewing a document created by the document creator, attention is paid to the character information input when the document creator of the document has an abnormal state. Since the alert display is performed, it is possible to efficiently find an error in the document during the document review.

  In particular, according to the invention described in claim 6, when the document created by the document creator is reviewed, the document is displayed with the highlight reflecting the determination result based on the determination criterion after the change. The user state is determined flexibly, and the alert location at the time of review by the user (document creator) is changed more flexibly.

It is a figure which shows a document processing system. It is a functional block diagram which shows schematic structure of a wearable terminal. It is a figure which shows the functional block of a document processing apparatus. It is a flowchart which shows the operation | movement at the time of the document preparation in a document processing apparatus. It is a figure which shows the produced document. It is a figure which shows the chronological biometric information stored in the document processing apparatus. It is a figure which shows the document data with which the biometric information of the user at the time of preparation of a document was linked | related. It is a figure which shows the display state at the time of a document review. It is a figure which shows a setting change screen. It is a figure which shows another display state at the time of a document review. It is a figure which shows another setting change screen. It is a figure which shows the total result of a correction process.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings.

<1. First Embodiment>
<1-1. Outline of configuration>
FIG. 1 is a diagram showing a document processing system 1 according to the present invention. As shown in FIG. 1, the document processing system 1 includes a client computer (also simply referred to as a client) 30 and a wearable terminal 50. The client 30 has a processing function related to a document (specifically, a document creation function and an editing function), and is also referred to as a document processing apparatus.

  The elements 30 and 50 in the system 1 are connected to be communicable with each other via a communication network. The communication network includes a LAN (Local Area Network), the Internet, and the like. Further, the connection mode to the communication network may be wired connection or wireless connection. For example, the document processing device 30 and the wearable terminal 50 are each connected to the network 108 by wireless connection (wireless communication using a wireless LAN (IEEE 802.11, etc.)).

  Further, the document processing apparatus 30 and the wearable terminal 50 can also communicate directly by performing wireless communication (short-range wireless communication) using Bluetooth (registered trademark) LE or the like.

<1-2. Configuration of Wearable Terminal 50>
Next, the configuration of the wearable terminal (also referred to as a wearable device) 50 will be described.

  The wearable terminal 50 is a device capable of performing a cooperative operation with the client 30 (document processing device). Specifically, the wearable terminal 50 is an information input / output terminal device (information terminal) capable of wireless communication (short-range wireless communication and network communication) with the document processing device 30.

  The wearable terminal 50 detects (measures) biometric information of a user (wearer) (more specifically, biometric information that changes to reflect the state of the user (so-called dynamic biometric information)). It is a detection device. The wearable terminal 50 detects information related to at least one of various types of biological information (pulse wave, electrocardiogram, body temperature, pulse, blood pressure, etc.). The biological information is information that changes over time reflecting the mental state and / or physical condition of the user. Here, as the wearable terminal 50, a device capable of detecting (measuring) a user's pulse (heart rate), blood pressure, and body temperature as the biological information of the user is illustrated. The wearable terminal 50 is a device that can detect a user's mental state or the like using the user's biological information, and is also referred to as a user state detection device or the like.

  Here, as the wearable terminal 50, a wristband type (wrist-worn type) device (apparatus) is illustrated. However, the present invention is not limited to this, and various types of devices can be used as the wearable terminal 50.

  FIG. 2 is a functional block diagram illustrating a schematic configuration of the wearable terminal 50.

  As shown in the functional block diagram of FIG. 2, the wearable terminal 50 includes a communication unit 54, a storage unit 55, a biological information detection unit 57, a battery 58, a controller 59, and the like, and these units are operated in a complex manner. Various functions are realized.

  The communication unit 54 can perform various types of wireless communication. Specifically, the communication unit 54 includes a wireless LAN communication unit that performs wireless communication using a wireless LAN (IEEE 802.11 or the like), and a short-range wireless communication unit that performs wireless communication (short-range wireless communication) using Bluetooth LE or the like. .

  The storage unit 55 includes a storage device such as a nonvolatile semiconductor memory.

  The biological information detection unit 57 includes various sensors for detecting biological information such as blood pressure. The biometric information detection unit 57 is a time series of the document creator in the document input period of the user who is a wearer of the wearable terminal 50 and who is also the document creator in the document processing apparatus 30 (period in which document input by the user is performed). Biometric information is detected. Specifically, the biological information detection unit 57 detects the biological information at regular time intervals (for example, 10 seconds). The biometric information detected by the wearable terminal 50 is transmitted from the wearable terminal 50 to the document processing apparatus 30 using the communication unit 54 or the like.

  The battery 58 is a secondary battery (rechargeable battery) and supplies power to the wearable terminal 50.

  The operation unit 56 includes an operation input unit 56a that receives an operation input to the wearable terminal 50, and a display unit 56b that displays and outputs various information. The wearable terminal 50 is provided with a touch panel configured by embedding various sensors in a liquid crystal display panel. The touch panel functions as a part of the operation input unit 56a and also functions as a part of the display unit 56b.

  The controller 59 in FIG. 2 is a control device that is built in the wearable terminal 50 and controls the wearable terminal 50 in an integrated manner. The controller 59 is configured as a computer system including a CPU and various semiconductor memories (RAM and ROM). The controller 59 implements various processing units by executing predetermined software programs (programs) stored in the storage unit 55 (semiconductor memory or the like) in the CPU. Note that the program (specifically, a program module group) may be recorded on a portable recording medium such as a USB memory, read from the recording medium, and installed in the wearable terminal 50. Alternatively, the program may be downloaded via a network or the like and installed in the wearable terminal 50.

  The wearable terminal 50 is installed with a program (cooperation program) for cooperation with the document processing apparatus 30 and the like. The cooperation program is an application software program (also simply referred to as an application) that implements various processes (such as a process for detecting a user state (biological information) and a process for transmitting the user state).

  Specifically, the controller 59 realizes various processing units including a communication control unit 61, an input control unit 62, a display control unit 63, a detection control unit 65, and an operation execution unit 66 by executing a cooperation program or the like. To do.

  The communication control unit 61 is a processing unit that controls a communication operation with the document processing apparatus 30 or the like in cooperation with the communication unit 54 or the like.

  The input control unit 62 is a control unit that controls an operation input operation with respect to the operation input unit 56a (such as a touch panel).

  The display control unit 63 is a processing unit that controls display operations in the display unit 56b (such as a touch panel).

  The detection control unit 65 is a processing unit that detects (measures) the biological information of the user in cooperation with the biological information detection unit 57.

  The operation execution unit 66 is a processing unit that collectively executes various cooperation operations with the document processing apparatus 30.

<1-3. Configuration of Document Processing Device 30>
FIG. 3 is a diagram illustrating functional blocks of the document processing apparatus 30 (also referred to as an information processing apparatus). Here, a personal computer is exemplified as the document processing apparatus 30. In FIG. 3, functional blocks of the document processing apparatus 30 are shown.

  The communication unit 34 can perform various network communications. Specifically, the communication unit 34 includes a wireless LAN communication unit that performs wireless communication by wireless LAN (IEEE 802.11 or the like) and a short-range wireless communication unit that performs wireless communication (short-range wireless communication) by Bluetooth LE or the like. .

  The storage unit 35 includes a storage device such as a hard disk drive (HDD).

  The operation unit 36 includes an operation input unit 36a (such as a keyboard and a mouse) that receives an operation input to the document processing apparatus 30 and a display unit 36b (such as a liquid crystal display) that performs display output of various information.

  The controller 39 is a control device that is built in the document processing apparatus 30 and controls the document processing apparatus 30 in an integrated manner. The controller 39 is configured as a computer system including a CPU and various semiconductor memories (RAM and ROM). The controller 39 implements various processing units by executing predetermined software programs (hereinafter also simply referred to as programs) stored in the storage unit 35 in the CPU. The program (specifically, a program module group) is recorded on a portable recording medium such as a DVD-ROM or a USB memory, read from the recording medium, and installed in the document processing apparatus 30. Also good. Alternatively, the program may be downloaded via a network and installed in the document processing apparatus 30.

  Specifically, as shown in FIG. 3, the controller 39 executes a communication control unit 41, an input control unit 42, a display control unit 43, a document control unit 44, an acquisition unit 45, and a storage control unit by executing the above program. 46, various determination units including a determination unit 47 and a criterion change unit 48 are realized.

  The communication control unit 41 is a processing unit that controls communication operations (such as wireless LAN communication and short-range wireless communication) with other devices (such as the wearable terminal 50) in cooperation with the communication unit 34 and the like. The communication control unit 41 includes a transmission control unit that controls transmission operations of various data and a reception control unit that controls reception operations of various data.

  The input control unit 42 is a control unit that controls an operation input operation with respect to the operation input unit 36a. For example, the input control unit 42 controls the operation of accepting operation input (such as designation input from the user) using a keyboard and / or mouse. Specifically, the input control unit 42 controls an operation for accepting input of a document by the document creator.

  The display control unit 43 is a processing unit that controls the display operation in the display unit 36b. The display control unit 43 displays an operation screen or the like for operating the document processing apparatus 30 on the display unit 36b. For example, the display control unit 43 controls a document display operation (including a display operation such as a warning display described later).

  The document control unit 44 includes a document creation control unit, a document modification control unit, and the like, and performs document creation processing (document creation processing), document modification processing (document modification processing), and the like with the input control unit 42 and the like. Control in collaboration. The document correction process includes a correction process after review by another person (or himself).

  The acquisition unit 45 is a processing unit that cooperates with the communication unit 34 and the like to receive and acquire the document creator's time-series biological information from the wearable terminal 50 and the like during a period when the document input is performed by the document creator. . The document processing apparatus 30 has a 1: 1 correspondence with the wearable terminal 50 worn by the operator himself / herself based on the operation of the operator (document creator) of the document processing apparatus 30. (Pairing) is established. Specifically, the wearable terminal 50 of the operator of the document processing apparatus 30 is specified based on the selection operation by the operator from among one or more wearable terminals 50 existing in the vicinity of the document processing apparatus 30. Wireless communication (for example, short-range wireless communication) is established between the specified wearable terminal 50 and the document processing apparatus 30. Thereafter, the biometric information is transmitted from the wearable terminal 50 to the document processing apparatus 30 at any time (specifically, at regular time intervals) using the wireless communication.

  The storage control unit 46 is a processing unit that controls an operation of storing, in the storage unit 35, data in which the biometric information acquired by the acquisition unit 45 is associated with each character information input by the document creator. Specifically, each character information input by the document creator is stored in association with the biometric information of the document creator at each input time of the character information. As will be described later, the biometric information is stored in association with the character information as it is without being converted into the determination result of the document creator (wearer) state (normal state / unnormal state). The

  The data (file) D stored in the storage unit 35 by the storage control unit 46 is extracted (acquired) by the acquisition unit 45 or the like and opened at the time of document review.

  The determination unit 47 is a processing unit that determines the state of the document creator at each input time of each character information based on the data D in accordance with a predetermined determination criterion related to biometric information. The determination process by the determination unit 47 is executed at a time later than the storage time of the biological information or the like by the storage control unit 46, more specifically, at the time of document review (or just before the review). In the display unit 36b, when the document is reviewed, the document is displayed in a state in which the determination result by the determination unit 47 is reflected. Specifically, a warning display or the like is performed on character information that is input when the document creator has an abnormal state in the entire document (all character information in the document).

  The criterion changing unit 48 is a processing unit that changes a predetermined determination criterion in the determination processing by the determining unit 47.

<1-4. Operation when creating a document>
The document processing apparatus 30 acquires a plurality of pieces of biological information in time series of the user U1 as needed during the document input period of the user U1 (document creator) (see FIG. 6). Specifically, the document processing apparatus 30 communicates with the wearable terminal 50 (50a) worn by the user U1 (document creator) and detects at a predetermined time (for example, 10 seconds) at the wearable terminal 50. The obtained biometric information is acquired at any time.

  Then, the document processing apparatus 30 stores each character information input by the user U1 in the storage unit 35 in association with the biological information of the user U1 at each input time of the character information (see FIG. 7 (described later)). The biometric information of the user U1 (the biometric information detected and acquired over the entire period of the document input period (from when the document file is opened until it is closed)) is the state of the user U1 at each time point (normal state / unnormal state) Regardless of (), all are stored.

  FIG. 4 is a flowchart showing the operation in the document processing apparatus 30 (operation during document creation). When the document processing apparatus 30 starts accepting document input by the user U1, the document processing apparatus 30 performs an operation as shown in FIG.

  First, in step S <b> 11, the document processing apparatus 30 receives and acquires biometric information at a certain time from the wearable terminal 50. In step S12, the document processing apparatus 30 stores the biometric information received in step S11 in association with the input position in the document (the input position when biometric information is detected).

  In step S13, it is determined whether or not a certain time (for example, 10 seconds) has elapsed. If the predetermined time has not yet elapsed, the process proceeds to step S14 (end determination). When the end instruction is given by the user and the document creation is ended (including interruption), the processing in FIG. 4 ends. On the other hand, when document creation is continued, the process returns from step S14 to step S13.

  If it is determined in step S13 that the fixed time has elapsed, the process returns to step S11 again. Then, biometric information acquisition processing and biometric information storage processing (document association processing) are repeatedly executed.

  In this way, a document (see FIGS. 5 and 7) is created. FIG. 5 is a diagram illustrating an example of the created document. FIG. 7 is a diagram showing data (document data D1) associated with the biometric information of the user U1 when the document is created.

  FIG. 6 is a diagram illustrating biometric information (time series biometric information of the user U1) acquired from the wearable terminal 50 and stored in the document processing apparatus 30. In FIG. 6, three types of biological information (specifically, pulse, blood pressure, body temperature) are measured (detected) every 10 seconds, and “data number (No.)”, “measurement date” ”And“ measurement time ”. For example, in the uppermost part of FIG. 6, three pieces of biological information (pulse “60 (pulse”) measured at “14:08:10” on “March 26, 2016” as “No. 1” data. / min) ”, blood pressure“ 90 (mmHg) ”, body temperature“ 35.9 (° C.) ”). After the next level, each biological information measured every 10 seconds thereafter is listed.

  As shown in FIG. 7, a “tag” corresponding to the data number is embedded in the document data D1.

  For example, two tags ([/ 1], [/ 2]) are placed in front of “Introduction”. This indicates that the biometric information of the data numbers “1” and “2” is detected before “Introduction” is described. A tag ([/ 3]) is placed after "Introduction". This indicates that the biometric information with the data number “3” was detected immediately after the input of the character string “Introduction”.

  Similarly, two tags [/ 112] and [/ 113] are arranged in front of the character string “This fruit is good for health”. This indicates that the biometric information of the data numbers “112” and “113” is detected immediately before the input of the character string. Further, the tag [/ 114] is arranged behind the character string “This fruit is good for health”. This indicates that the biometric information with the data number “114” is detected immediately after the input of the character string.

  Thus, each character information input by the user U1 is stored in association with the biological information of the user U1 at each input time of the character information. More specifically, the “tag” corresponding to each measurement time point of the biometric information is arranged at a position immediately after the character information input at each measurement time point, so that the biometric information represented by the “tag” is It is stored in association with the character information. In other words, each character information input by the user U1 (document creator) in each segment period segmented at a constant time (10 seconds) interval and biometric information acquired for each segment period are associated with each other. Stored. Further, the biometric information is stored in association with the character information without being converted into the determination result of the document creator (wearer) state (normal state / unnormal state) (the original data before conversion). Is done. Here, each input time point of each piece of character information is determined in units of words, but is not limited thereto, and may be determined in units of characters, lines, or one sentence.

  Further, when a certain part in a document is deleted during document creation, it is preferable that a “tag” corresponding to the biometric information at the time of deletion is arranged in the deleted part. Similarly, when a certain part in a document is overwritten during document creation, it is preferable that a “tag” corresponding to the biometric information at the time of overwriting is arranged in the overwritten part.

  Here, the entity data of the biometric information represented by “tag” is stored as data D2 (FIG. 6) different from the document data D1. However, the present invention is not limited to this. For example, the entity data of the biological information may be arranged as it is at the position of the “tag” in FIG. In other words, the entity data of biological information may be embedded in the document data D1.

<1-5. Operation during document review>
Next, the operation during document review will be described. The following review operation is performed on a document created by the operation shown in FIG.

  First, the document processing apparatus 30 acquires a review target document (specifically, data D (D1, D2) relating to the target document). When the review operation is performed by the same device 30a as the document creation device 30a, the document processing device 30a extracts the target document in the storage unit 35 and opens the target document. When the review operation is performed by a document processing device 30b (such as the document processing device 30b of the user U2) different from the document creation device 30a, the document processing device 30b communicates with the communication network from the storage unit 35 of the document processing device 30a. After the target document is extracted via, etc., the target document is opened. Alternatively, the document processing apparatus 30b may open the target document after moving the target document (including biometric information) to the storage unit 35 of the own apparatus 30b.

  When the document created by the user U1 (document creator) is reviewed, the document processing apparatus 30 (30a or 30b) relates the state (normal state / unnormal state) of the user U1 at the time of document creation to biometric information. The determination is made based on a predetermined determination criterion. For example, the state of the user U1 is determined based on the determination criterion that the user U1 has the “unnormal state” when “the pulse of (the user U1) is greater than 80”. More specifically, the state of the user U1 is determined for each segment period (time segment divided every 10 seconds) (for each segment period). Based on the determination criterion, as illustrated in FIG. 6, it is determined that the user U1 has an abnormal state in the input period corresponding to the data numbers “113” to “116”.

  Then, the document processing apparatus 30 displays the document on the display unit 36b reflecting the determination result based on the predetermined determination criterion. More specifically, processing such as highlighting of character information input by a document creator having an abnormal state is performed. In other words, the document processing apparatus 30 displays a warning for character information input in a “non-normal state” division period (a division period in which the document creator has an abnormal state) among a plurality of division periods. I do.

  FIG. 8 is a diagram showing a display state at the time of document review. As can be seen from comparison with FIG. 7, in FIG. 8, the document input period corresponding to the tags [/ 113] to [/ 116] (in other words, the document input period corresponding to the data numbers “113” to “116”). The character string “This fruit is good for health. Because it has a lot of” is highlighted. Here, the character string is emphasized by changing the background color of the character string to be emphasized to “gray” and changing the character color of the character string to “red”.

  A balloon image for the highlighted portion is also displayed. In the balloon image, a character string “<Important point to be confirmed> The pulse was input in a state higher than usual” is described.

  These displays (highlight display, balloon image display, and the like) are also expressed as “attention display” (display for calling attention to a specific character string among a large number of character strings in the document). If the target character string to be highlighted is character information (character string) input in an abnormal state (for example, in a state of being impatient) of the user U1, there is a possibility that there is an error (such as an error) in the character information. Is relatively high. Based on such circumstances, the document processing apparatus 30 has cautioned that the confirmation regarding the presence or absence of the error should be focused on the highlighted character string. The review user can particularly check the location of the alert display when checking all documents.

  According to the above aspect, it is more efficient to review a document in document review than in the case of finding a document error (such as a typographical error) while paying close attention to the entire range of the document. Can be discovered. In detail, by using the above-mentioned warning display, the reviewer of the document (for example, the user U2 or the user U1 himself) should focus on a portion where errors are likely to occur in all the documents. Is possible.

<1-6. Modification of First Embodiment>
In the above embodiment, the state of the document creator is determined on the basis of a predetermined determination criterion for each divided period (time interval divided every 10 seconds). More specifically, the state of the document creator in each segment period is determined based only on the biological information of each segment period (so-called independent of other segment periods).

  However, the present invention is not limited to this. For example, the state of the document creator in each segment period may be determined based on biometric information in a segment period (such as an adjacent segment period) other than each segment period (biometric information detection interval). More specifically, the state of the user U1 may be determined based on the following determination criteria. The criterion is that the user U1 is in an “unnormal state” when “the pulse of (user U1) is greater than 80” over a certain segment period and one or more subsequent segment periods (for example, two segment periods). ". In this way, when the time-series biological information exceeds the predetermined reference range for a certain time longer than the detection interval (is greater than or equal to the reference value), the state of the document creator is “unnormal state” (error It is also possible to determine that it is in a state where it is easy to create In other words, it is determined that the state of the user U1 is in an abnormal state in a period in which time-series biometric information continues beyond a predetermined reference range (three or more consecutively) outside the predetermined reference range. Also good.

  The same applies to other embodiments.

<2. Second Embodiment>
The second embodiment is a modification of the first embodiment. Below, it demonstrates centering on difference with 1st Embodiment.

  In the said 1st Embodiment, the aspect whose reference value of user state determination is a fixed value is illustrated.

  In this 2nd Embodiment, the reference value of user state determination is illustrated about the aspect changed according to a user's operation input.

  Specifically, in the first embodiment, “80” is always used as a reference value for user state determination using the biological information “pulse”, but in the second embodiment, the reference value is changed. Is done. The determination criteria after the change are criteria based on different threshold values (reference values) for determination compared to the determination criteria before the change.

  Also in the second embodiment, input of a document by the document creator (user U1) is executed in the same manner as in the first embodiment.

  Thereafter (in other words, after the document is created), a person who reviews the document (also referred to as a review user or a document checker) performs the predetermined operation in the document processing apparatus 30 (30a, 30b, etc.) A setting change screen is displayed on the display unit 36b. The review user may be, for example, a user U2 different from the document creator, or the document creator U1 itself.

  And the setting change operation using the said setting change screen (refer FIG. 9) is performed, and the determination criterion of a user state determination is changed. FIG. 9 is a diagram illustrating a setting change screen for the reference value.

  Specifically, when the reference value related to “pulse” is changed from “80” to “70”, for example, and the OK button in the setting change screen is pressed, the determination criterion of the user state determination is changed.

  Thereafter, when the document created by the user U1 is reviewed, the document processing apparatus 30 uses the state of the user U1 at each input time of each character information (the state at each input time of the document creator) as the determination criterion after the change. Judgment based on.

  Further, the document processing apparatus 30 displays the document with a warning display (highlighted display etc.) reflecting the determination result based on the changed determination criterion (see FIG. 10). Specifically, as shown in FIG. 10, as can be seen from comparison with FIG. 8, in the document input period corresponding to the tag [/ 117] (in other words, the document input period corresponding to the data number “117”). The input character string “nutritional elements.” And the like are also highlighted. In addition, other character string portions (specifically, other character string portions arranged slightly above the character strings input during the document input period corresponding to the data numbers “113” to “117”) are also included. , Highlighted.

  In this way, by changing the reference value for user state determination (threshold for determination) afterwards, it is possible to take more flexible measures.

  For example, when the initial reference value is not necessarily appropriate, it is possible to increase or decrease the number of classification periods that are determined to be abnormal by changing the reference value, and thus to be alerted. It is possible to change the area. Specifically, by reducing the reference value (narrowing the normal range), it is easy to determine that the user state is an abnormal state, and a relatively large number of alerting targets can be displayed. . Conversely, by increasing the reference value (expanding the normal range), it is difficult to determine that the user state is an abnormal state, and a relatively small number of alerting targets can be displayed.

  In other words, by changing the initial determination criteria (specifically, by using a subsequent reference value other than the original reference value), the user state can be determined more flexibly and at the time of user review It is possible to change the alert location more flexibly.

  In particular, as shown in FIG. 4, at the time when the biometric information is stored in association with the document, the biometric information is converted into a determination result of the document creator (wearer) state (normal state / unnormal state). There is no (original data) and it is stored in the storage unit 35 in association with the character information (see also FIGS. 6 and 7). Therefore, it is possible to take a flexible response as described above (afterwards, it is possible to change the determination result of the user state, etc.), and as a result, the user state is determined more flexibly and the user (document creator) It is possible to change the alert location at the time of reviewing more flexibly.

<3. Third Embodiment>
The third embodiment is a modification of the second embodiment. Below, it demonstrates centering on difference with 2nd Embodiment.

  In the second embodiment, the user state determination reference value is changed according to the user's operation input.

  In the third embodiment, the reference value for determining the user state is automatically changed according to the correction history information (specifically, the number of corrections) for the document.

  In the third embodiment, for example, it is assumed that a review on the created document (one or a plurality of documents) is performed by the user U1 using the same technique as in the first embodiment, and further, correction based on the review result is performed. . The operation for the correction is performed by the document creator (user U1) itself or a review user (for example, user U2). In the third embodiment, the number of corrections and the like are totaled, and the total result (correction history information) is used.

  FIG. 12 is a diagram illustrating a totaling result (history information) of correction processing based on a user's correction operation. FIG. 12 shows a frequency distribution and the like related to a correction location (such as the number of corrections) in the processing target document. The frequency distribution and the like are classified based on the magnitude of the “pulse” of the user U1 at the time of document input (see FIG. 4).

  Specifically, in the vertical direction of FIG. 12, the magnitude of the “pulse” of the user U1 at the time of document input is divided into five sections (classification sections). Specifically, the top row is a column of the classification section (first classification section) of “pulse is 60 or less”, and the second row from the top is “pulse is 61 or more (greater than 60) and 70 or less”. This is a column of the classification section (second classification section). The third row from the top is a column of a classification section (third classification section) of “pulse is 71 or more (greater than 70) and 80 or less”, and the fourth row from the top is “pulse is 81 or more ( This is a column of a classification section (fourth classification section) of “greater than 80” and 90 or less. Further, the fifth row (bottom row) from the top is a column of a classification section (fifth classification section) of “pulse is 91 or more (greater than 90)”.

  In the horizontal direction of FIG. 12, columns of “total frequency”, “number of corrections”, and “correction execution rate” are provided. The “total frequency” is a column indicating the total number (total number for each classification section) of segment periods (time sections divided in units of 10 seconds) during document input. The number of corrections is a column indicating the number of division periods (numbers for each classification section) that are actually corrected. Further, “correction execution rate” is a value obtained by dividing “number of corrections” by “total frequency”, and indicates a ratio (value for each classification section) in which correction was actually executed.

  Then, the values of “total frequency”, “number of corrections”, and “correction execution rate” are classified based on the size of the index value (“pulse”) related to the biological information at the time of document input by the user U1. It is shown aggregated for each section.

  For example, in the “total frequency” column at the top of FIG. 12, a segment period (10-second unit) in which an input (input of character information) by a user of “pulse is 60 or less” (first classification section) is accepted. The total number (“60”) of the time interval) is shown. In other words, the “total frequency” in the top row is the total number of “character string regions” input in the user state corresponding to the classification section (first classification section). The character string area is an area composed of one or more words (or character strings, etc.), and the character string in the document has a certain standard (length of input time or length of character string, etc.). It is divided and formed based on. Here, in the character string area, character strings in the document are classified based on the length of input time. Specifically, the character string area is an area configured by a character string input within a certain time (10 seconds).

  Further, in the “correction count” column at the top of FIG. 12, the character string input by the user whose “pulse is 60 or less” is displayed for the segment period in which the correction is actually performed in the above-described correction processing. A number (“1”) is shown. In other words, the uppermost “number of corrections” is the number of character string areas that are input in the user state corresponding to the classification section (first classification section) and actually corrected. It is.

  In the “correction execution rate” column at the top of FIG. 12, the ratio of “number of corrections” to “total frequency” when “pulse is 60 or less” (“0.4%” = 1/60) It is shown. In other words, the uppermost “correction execution rate” is actually corrected out of the total number “60” of character string regions input in the user state corresponding to the classification section (first classification section). This is a correction execution rate indicating the ratio of the number of character string areas.

  In the “total frequency” column in the third row from the top of FIG. 12, a segment period (in units of 10 seconds) in which an input by a user of “pulse is 71 or more and 80 or less” (third classification section) is accepted. The total number ("10") of the time interval) is shown. Further, in the “number of corrections” column in the third row from the top of FIG. 12, the character string input by the user whose “pulse is 71 or more and 80 or less” is actually corrected in the above correction processing. The number of segment periods (“2”) is shown. In the “correction execution rate” column in the third row from the top of FIG. 12, the ratio of “number of corrections” to “total frequency” when “pulse is 71 or more and 80 or less” (“20%” = 2/10) is shown.

  Similar values are also recorded in the other columns.

  As a result, the right end column of FIG. 12 shows the “correction execution rate” of each classification section (first classification section to fifth classification section). In other words, for each classification section, out of the total number N of character string areas input in the user state corresponding to the classification section, the ratio related to the number (correction number) M of character string areas actually corrected A corrected execution rate γ (= M / N) is obtained. The correction execution rate γ of each classification section is also expressed as a value obtained for each classification section, which is the ratio of the actual correction number M to the total number N.

  In the third embodiment, after the document (one or a plurality of documents) created by the user U1 is corrected, the document processing apparatus 30 acquires the correction history information (see FIG. 12). The document processing apparatus 30 further uses the reference value to be used at the time of the next review (when reviewing another document (further created document) created by the user U1) as the correction history information (FIG. 12). ) To determine automatically. In other words, the criterion (the criterion after change) to be used when reviewing a certain created document is automatically based on the revision history information regarding at least one document created (and revised) before the created document. Changed (decided).

  Specifically, the correction execution rate is greater than or equal to a predetermined threshold value (for example, 20%) among the five sections (see the vertical direction in FIG. 12) regarding the magnitude of the “pulse” of the user U1 at the time of document input. It is determined that the section is a “attention required section” (section that requires more attention than other sections). In the case of FIG. 12, it is determined that each of the third, fourth, and fifth stages from the top is the “interesting area”. That is, it is determined that each section relating to “pulse is 71 or more” is a section requiring attention. Then, a threshold value (in this case, “70”) corresponding to the lowest pulse value of the section detected as the section requiring attention is determined as the changed reference value.

  When it is determined that a plurality of sections are sections requiring attention, a threshold value (here, “70”) corresponding to the lowest pulse value of the section having the lowest pulse among the sections requiring attention is set to “after change”. What is necessary is just to be determined as a reference value. For example, even if the correction execution rate in the fourth and fifth stages from the top is below a predetermined threshold (for example, 20%), the correction execution rate in the third stage from the top is a predetermined threshold. If it is above, the threshold value (here, “70”) corresponding to the lowest pulse value in the third step from the top may be determined as the changed reference value.

  In this way, in the correction history information, the index value (“pulse”, etc.) related to the biological information at the time of each document input is divided into a plurality of sections, and the correction execution rate (the ratio of the actual correction performed) in the plurality of sections. Are obtained). When the correction execution rate (correction frequency) of one of the plurality of sections exceeds a predetermined ratio (for example, 20%), the predetermined criterion is changed based on the value corresponding to the one section. .

  The new reference value (“70”) automatically determined in this way is used for the next review. At the time of the next review, attention should be paid to the character string (character information) input in a state having a pulse larger than the new reference value (pulse value) changed from “80” to “70”. A reminder is displayed.

  According to this, a warning display is performed for a character string related to a category that is highly likely to be corrected (a category that is corrected with a probability of a predetermined threshold (20%) or higher). It is possible to call attention to the user more appropriately. When the reference value is changed from “80” to “70” (in other words, when the reference value is reduced), a determination that is relatively stricter than the determination based on the reference value before the change is performed. A relatively large number of alerts are displayed. On the other hand, when the reference value increases (for example, when the reference value is changed from “80” to “90”), a relatively loose determination is performed as compared with the determination based on the reference value before the change. A small number of reminders are displayed.

<4. Modified example>
Although the embodiments of the present invention have been described above, the present invention is not limited to the contents described above.

  For example, in the second embodiment, the changed criteria and the pre-change criteria are criteria related to biological information of the same type (here, “pulse”), but are not limited thereto. Specifically, the determination criterion after the change and the determination criterion before the change may be criteria relating to different types of biological information.

  For example, as shown in FIG. 11, the “determination criterion before change” (specifically, the determination criterion regarding “pulse”) is “determination criterion after change” (specifically, the determination criterion regarding “blood pressure”). You may make it change to.

  In the setting change screen of FIG. 11, three pieces of biological information (“pulse”, “blood pressure”, “body temperature”) are displayed. The user selects a desired option from the three pieces of biological information (options). Specifically, the user can select a desired option by clicking a radio button corresponding to a desired option (here, “blood pressure”) of the three options with the mouse. Then, the selection is confirmed by pressing the OK button. As a result, the “determination criterion” is changed to a determination criterion using “blood pressure”.

  In response to such a change in the criterion, the document processing apparatus 30 changes the document creator's state (whether the document creator's state is normal or abnormal) at each input time of each character information. Judge based on later criteria. Then, the document processing apparatus 30 displays the document with a warning display (a warning display for the target character string) reflecting a determination result based on the changed determination criterion.

  In this way, the determination criterion after the change may be changed to a criterion relating to biological information of a type different from the type used in the determination criterion before the change.

  Such modification may be realized in combination with the second embodiment. That is, the determination criterion after the change and the determination criterion before the change are criteria relating to different types of biological information and may be criteria based on different determination thresholds (reference ranges). Specifically, on the setting change screen of FIG. 11, the type of biological information is changed from “pulse” to “blood pressure”, and the reference value of the blood pressure is changed from “100” to another value (eg, “120”). You may make it do.

  Moreover, in each said embodiment, both the display which changed the color of the character string etc. of emphasis target, and the display which added the balloon image are illustrated as an alerting display, However, It is not limited to this. For example, only one of these may be performed, or highlighting according to another aspect may be performed. When only the display with the balloon image added is performed, a display (for example, an arrow display) pointing to the line including the target character string may be performed in order to make it easy to determine the target character string to call attention. preferable.

  Moreover, in each said embodiment, based on the criteria common to all the users, the state determination regarding the specific user U1 (especially the state determination at the time of the first review) is performed, but it is not limited to this. .

  Specifically, state determination regarding each user may be performed based on individual determination criteria provided for each user.

  More specifically, if each user is set for each user based on the comparison result between the measurement value (adjustment measurement value) of the biometric information of each user and the standard value related to the biometric information of the standard user (standard user) Good.

  For example, biological information (adjustment data) at rest (normal time) related to a certain user U10 is measured over a predetermined period, and stored in a certain storage unit (the storage unit 35 of the document processing device 30 and the wearable terminal 50). Stored in the unit 55 or the storage unit of the server). Further, the standard value (standard value at rest) related to the index value related to the standard user is also the same or different storage unit (storage unit 35 of document processing device 30, storage unit 55 in wearable terminal 50, or storage unit of server). Etc.).

  Then, a measurement value (specifically, an average value regarding several measurement data) regarding a certain index value (“pulse”) in the measurement information of the user U10, and a standard value (resting time) regarding the index value regarding the standard user. The standard value) is compared, and a value obtained by correcting the standard value related to the index value based on the comparison result may be determined as the above-described reference value. For example, when the standard pulse value for a large number of users is “60” and the average value of the pulse of the user U10 is “50”, the user state determination is performed based on the difference value “10” (= 60-50). The reference value used in the above is set to “70” (= 80−10) instead of “80”.

  Alternatively, the state determination regarding each user may be performed based on different types of biological information for each user. For example, “pulse” may be used in the state determination of the user U11, and “blood pressure” may be used in the state determination of the user U12.

  In addition, regarding the second embodiment, the third embodiment, and the like, the determination criteria for each user is changed for each user, and the state determination of each user is performed at the second and subsequent reviews (including when reviewing another document). You may be made to be.

  In each of the above embodiments, the document processing apparatus 30 stores the biometric information and the character information in association with each other. However, the present invention is not limited to this. For example, biometric information and character information may be stored in association with each other in another server computer (also simply referred to as a server). The process of obtaining the document creator's time-series biometric information during the document creator's document input period may also be performed by a server or the like. For example, the server or the like may receive the information directly from the wearable terminal 50 or may receive the information from the wearable terminal 50 via the document processing device 30.

  Further, the process of determining the state of the document creator at each input time of each character information based on a predetermined determination criterion related to biometric information may be performed by an apparatus (for example, a server) other than the document processing apparatus 30. . Further, at the time of document review, display data including a warning display is generated by a server or the like and transmitted to the document processing device 30, and a display screen (including a warning display) based on the display data is processed by the document. It may be displayed on the device 30. In other words, the server may control the operation of displaying the document by the server generating the display data.

  Further, other processing may be appropriately performed by a server or the like. Communication between the server and each device may be performed using a communication network or the like.

DESCRIPTION OF SYMBOLS 1 Document processing system 30 Document processing apparatus 50 Wearable terminal D1 Document data U1 Document creator

Claims (16)

A document processing system,
Obtaining means for obtaining time-sequential biometric information of the document creator in a period in which document input is performed by the document creator;
Storage means for storing each character information input by the document creator in association with the biometric information of the document creator at each input time of each character information;
Determining means for determining the state of the document creator at each input time of each character information based on a predetermined criterion for the biological information;
A display control unit that controls an operation of displaying the document by reflecting a determination result by the determination unit based on the predetermined determination criterion when the document created by the document creator is reviewed, Display control means for performing a warning display on the character information input when the document creator has an abnormal state;
A document processing system comprising: The document processing system according to claim 1,
The document processing system, wherein the biological information is information that changes reflecting the mental state and / or physical condition of the document creator. The document processing system according to claim 1 or 2,
The document processing system, wherein the biological information includes information on at least one of a pulse wave, an electrocardiogram, a body temperature, a pulse, and a blood pressure. The document processing system according to any one of claims 1 to 3,
The document processing system, wherein the biometric information is detected by a wearable device attached to the document creator. The document processing system according to any one of claims 1 to 4,
The biological information is information detected at regular time intervals,
The storage means stores the character information input by the document creator in each divided period divided at the predetermined time interval and the biological information acquired for each divided period in association with each other,
In the review, the display control means determines the state of the document creator for each segment period, and for character information input in a segment period in which the document creator has an abnormal state among a plurality of segment periods. A document processing system characterized by a warning display. The document processing system according to any one of claims 1 to 5,
Change means capable of changing the predetermined criterion,
Further comprising
The determination unit determines the state of the document creator at each input time of the character information based on a determination criterion after the change by the change unit,
The display control means displays the document with a warning display reflecting a determination result based on the determination criterion after the change when the document created by the document creator is reviewed. Processing system. The document processing system according to claim 6.
The document processing system characterized in that the determination criterion after the change and the determination criterion before the change are criteria relating to the same type of biological information and criteria based on different determination thresholds. The document processing system according to claim 6.
The document processing system, wherein the determination criterion after the change and the determination criterion before the change are criteria relating to different types of biological information. The document processing system according to any one of claims 6 to 8,
The document processing system characterized in that the changing means changes the predetermined criterion based on a setting change operation by a user who reviews the document. The document processing system according to claim 6 or 7,
Means for obtaining correction history information relating to at least one document created before the document;
Further comprising
The document processing system, wherein the changing unit automatically changes the predetermined criterion based on the correction history information. The document processing system according to claim 10.
The changing means divides the index value related to the biometric information at the time of inputting each document into a plurality of sections in the correction history information, and for each of the plurality of sections, a character string input in a user state corresponding to the section A correction execution rate indicating a ratio related to the number of character string regions actually corrected in the total number of regions is obtained, and when the correction execution rate of one section of the plurality of sections exceeds a predetermined ratio, A document processing system, wherein the predetermined criterion is changed based on a value corresponding to one section. The document processing system according to any one of claims 6 to 11,
The document processing system, wherein the predetermined determination criterion is changed for each user by the changing unit. The document processing system according to any one of claims 1 to 5,
The document processing system, wherein the predetermined determination criterion is set for each user based on a comparison result between a measured value of biometric information of each user and a standard value related to biometric information of a standard user. The document processing system according to any one of claims 1 to 13,
The predetermined determination criterion is a criterion for determining that the document creator is in an abnormal state in a period in which the time-series biometric information continuously deviates from a predetermined reference range for a predetermined degree or more. Document processing system. A document processing device,
Means for acquiring data in which each character information input by the document creator and biometric information at each input time of each character information are associated with each other in a period in which the document input is performed by the document creator;
A determination means for determining a state of the document creator at each input time of the character information based on the data in accordance with a predetermined determination criterion regarding the biological information;
A display control unit that controls an operation of displaying the document by reflecting a determination result by the determination unit based on the predetermined determination criterion when the document created by the document creator is reviewed, Display control means for performing a warning display on the character information input when the document creator has an abnormal state;
A document processing apparatus comprising: On the computer,
a) obtaining data in which each character information input by the document creator and biological information at each input time of each character information are associated with each other in a period in which the document creator performs document input;
b) determining a state of the document creator at each input time of the character information based on the data in accordance with a predetermined criterion for the biometric information;
c) at the time of review of the document created by the document creator, controlling the operation of displaying the document reflecting the determination result in the step b) based on the predetermined determination criterion;
A program for executing
Said step c)
c-1) A step of performing a warning display on character information input when the document creator has an abnormal state among the documents,
The program characterized by having.