JP2004046737A - Computer program, system, and method for grasping one's actions - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a program, a system, and a method for grasping one's actions, which enable a user to omit data entering for one's whereabouts. <P>SOLUTION: The system is equipped with a server 10, which connects to a mobile terminal 20 storing a schedule data and the data for one's whereabouts as well as a terminal 30, receives a request for the schedule data and the data for one's whereabouts, which is requested from the mobile terminal 20. The mobile terminal 20 provides a means for obtaining data for a location corresponding to the current date, which gives us an updates on the data for one's whereabouts using the data for the location obtained from the schedule data. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a behavior grasping method, a behavior grasping device, and a computer program for storing whereabouts data of a behavior grasping target in a computer.
[0002]
[Prior art]
As a method of grasping the behavior of each member such as an organization or a group, such as the schedule or whereabouts, use a schedule notice system that grasps the schedule up to several days or weeks ahead, or a place notice system that grasps the current place Is often used.
[0003]
In addition, the schedule posting system and the whereabouts posting system are devices that can be easily accessed from outside such as a Web server so that the addition or browsing of the schedule or the location can be performed not only in the building of the company or the like but also on the go. Is often used.
[0004]
[Problems to be solved by the invention]
However, the schedule posting system and the whereabouts posting system are separate systems, and both are operated separately. For example, the whereabouts notifying system is a system in which a user sequentially inputs the current whereabouts, while the schedule notifying system is a system in which the user inputs a schedule several days or weeks in advance. Therefore, it is necessary to re-enter the scheduled meeting place previously input to the schedule posting system to the whereabouts posting system at the time of the meeting. Entering the same location in both systems is a hassle twice.
[0005]
In addition, since the whereabouts notifying system is a system in which the user sequentially inputs the current whereabouts, the user often forgets to input. For example, when the user goes out for a meeting or the like and forgets to enter the location notification system, the registration data of the location notification system remains "at the seat" and an incorrect location is posted.
[0006]
Also, for example, if the user forgets to enter the location notification system when returning home, the registration data of the location notification system remains "at the seat" and an incorrect location is posted. Even if the whereabouts posting system posts "at present," it is often the case that the user actually goes out or goes home.
[0007]
The present invention has been made in view of such circumstances, and an object of the present invention is to provide a behavior grasping method, a behavior grasping apparatus, and a computer program which can omit input of location data.
[0008]
[Means for Solving the Problems]
The behavior grasping method according to the present invention includes a clock unit, a schedule information including location data and date / time data relating to a destination to be grasped, and a storage unit storing location data relating to a destination at a time measured by the clock unit. In the behavior grasping method using the information processing device for updating the schedule information and the location data, a step of obtaining location data corresponding to the time measured by the clock unit from the schedule information, and the location data from the schedule information. Updating to the acquired location data.
[0009]
Also, the behavior grasping device according to the present invention includes a clock section, and a storage section for storing schedule information and whereabouts data. In the behavior grasping apparatus for updating schedule information and whereabouts data, the clock section measures time from the schedule information. Means for acquiring location data corresponding to the set time, and updating the location data to location data acquired from the schedule information.
[0010]
Further, the computer program according to the present invention is a computer program for measuring time and storing location information in a computer storing schedule information. In the computer program, the computer obtains location data corresponding to the measured time from the schedule information. And a step of causing the computer to update the location data with location data acquired from the schedule information.
[0011]
Further, the computer program according to the present invention is a computer program for measuring time and storing the location information in a computer storing schedule information, wherein the location data usable for the location data and the location information corresponding to the location data are stored in advance. A procedure that is stored and causes the computer to receive location information about the destination of the time measured, a procedure that causes the computer to obtain location data corresponding to the received location information, and a procedure that causes the computer to obtain location data. And updating the updated location data.
[0012]
Further, the computer program according to the present invention is a computer program for measuring the time and storing the schedule information in a computer that stores schedule information. It is stored and includes a procedure for causing a computer to determine whether or not to modify the whereabouts data based on the modification condition, and a procedure for causing the computer to modify the whereabouts data in accordance with the determination.
[0013]
In the present invention, location data corresponding to the time (including the date) measured by the clock unit is acquired from the schedule information, and the location data acquired from the schedule information is stored as location data. The schedule information includes, for example, the scheduled date and time (date and time data) of the meeting and the scheduled location (location data), and the location in the time zone of the scheduled date and time is considered to be the scheduled location. Therefore, in the time zone of the scheduled date and time, the scheduled location can be regarded as a location. The acquisition of the location data from the schedule information is performed, for example, when a request for browsing the location data is received, or at predetermined time intervals such as 10 minutes.
[0014]
In the present invention, position information (hereinafter, “current position information”) at a time (including a date) measured by a clock unit is received, location data corresponding to the received current position information is acquired, and the acquired location data is acquired. Is stored as location data. The current position information is received, for example, from a GPS (Global Positioning System) receiver or the like. In addition, a place such as a business partner who frequently visits and position information of the place are stored in the storage unit in advance. As the position information to be stored, for example, a rectangular area can be designated by two points. By comparing the received current location information with the stored location information, it is possible to detect that the user is at a previously stored location such as a business partner, and to store the location as location data. The reception of the current position information is performed, for example, at a predetermined time interval such as one minute, or when a request to browse the location data is received.
[0015]
In the present invention, the presence / absence of the whereabouts data is determined based on the correction condition, and the whereabouts data is corrected according to the determination. The modification condition of the location data and the modification location data when the modification condition is satisfied are stored in the storage unit in advance. For example, when the user is at a place other than the workplace, the place to go data or a state such as “going out” is stored in the place to go data, but when the current time is outside working hours, the place to go data is corrected to “go home”. Thus, it is possible to set the correction condition and the correction place data.
[0016]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be specifically described with reference to the drawings showing the embodiments.
FIG. 1 shows an example of a behavior grasping system including a behavior grasping device (portable terminal 20) according to the present invention. The behavior comprehension system includes a server 10, a mobile terminal 20, and a terminal device 30. The server 10 and the mobile terminal 20 are connected to a communication network 40 such as the Internet. The server 10 and the terminal device 30 are connected to a communication network 42 such as an in-house LAN.
[0017]
FIG. 2 shows an example of the server 10. The server 10 includes a CPU (Central Processing Unit) 11, a RAM (Random Access Memory) 12 such as a DRAM, a hard disk 13, an external storage unit 14 such as a flexible disk drive or a CD-ROM drive, and a mouse and a keyboard. An input unit 15, an output unit 16 such as a monitor and a printer, and communication units 17a and 17b for controlling communication with the communication networks 40 and 42 are provided.
[0018]
The CPU 11 controls the above-described units 12 to 17b of the server 10. The CPU 11 stores the program or data received from the input unit 15 or the communication units 17a and 17b, the program or data read from the hard disk 13 or the external storage unit 14 in the RAM 12, and executes or executes the program or data stored in the RAM 12. And various kinds of processing such as calculation of the above, and temporary data used for various kinds of processing or various kinds of processing are stored in the RAM 12. The data such as the calculation result stored in the RAM 12 is stored in the hard disk 13 by the CPU 11 or output from the output unit 16 or the communication units 17a and 17b.
[0019]
The hard disk (address storage unit) 13 stores the user information on the user who uses the mobile terminal 20 as the target for grasping the schedule and the whereabouts (target for grasping the behavior). As shown in FIG. 3, the user information includes a user number for identifying each user, a user name, and an address of a mobile terminal carried by the user (hereinafter, terminal address). The terminal address is an address capable of identifying each terminal such as IPv6 on the communication network 40.
[0020]
The communication unit 17b operates as a unit that receives, from the terminal device 30, a browsing request for schedule information or location information (location data) stored in each mobile terminal 20. For example, a request for browsing schedule information or location information and a user number of a user to be browsed are received. The CPU 11 operates as a unit that acquires, from the user information, the address of the mobile terminal of the user in which the schedule information or the whereabouts information requested to be browsed is stored.
[0021]
The CPU 11 requests the address acquired from the communication unit 17a to transmit schedule information or whereabouts information. The CPU 11 having received the requested schedule information or location information by the communication means 17a stores the received schedule information or location information in the RAM 12. The CPU 11 edits the schedule information or the whereabouts information stored in the RAM 12 into data for a display screen, and transmits the data to the terminal device 30 from the communication unit 17b.
[0022]
Although not shown, the terminal device 30 also includes a CPU, a RAM, a hard disk, an external storage unit, an input unit, an output unit, and a communication unit, like the server 10. The terminal device 30 can request schedule information or location information from the server 10 from a communication unit (not shown), and receive and display the requested data.
[0023]
FIG. 4 shows an example of the mobile terminal 20. The mobile terminal 20 includes a CPU 21, a RAM 22 such as a DRAM, a flash memory 23, a ROM 24, an input unit 25 such as a touch panel, an output unit 26 such as a liquid crystal panel, and a communication unit that controls communication with a communication network 40. 27, and a current position receiving unit 28 to which a GPS (Global Positioning System) receiver, a wireless receiver, and the like are connected.
[0024]
The CPU 21 controls the above-described units 22 to 28 of the mobile terminal 20. The CPU 21 stores the program or data received from the input unit 25 or the communication unit 27, the program or data read from the flash memory 23 or the ROM 24 in the RAM 22, and executes the program stored in the RAM 22 or calculates data. Various processes are performed, and the results of various processes or temporary data used for various processes are stored in the RAM 22. The data such as the operation result stored in the RAM 22 is stored in the flash memory 23 by the CPU 21 or output from the output unit 26 or the communication unit 27.
[0025]
The flash memory (storage unit) 23 includes schedule information on the schedule of the user of the mobile terminal 20, location information on the location of the user of the mobile terminal 20 at the current time, location information used to specify the location of the user, usage Correction information used to correct the whereabouts of the person is stored. The current time is measured by the CPU 21, and the measured time and date are stored in a nonvolatile memory such as the flash memory 23.
[0026]
As shown in FIG. 5A, the schedule information includes a schedule number for identifying each schedule, a date and time of the schedule (date and time data), the content of the schedule, a place number for identifying the location of the schedule, and Location name (location data). The schedule information is input from the input unit 25.
[0027]
As shown in FIG. 5B, the location information includes a location number for identifying the location and a location name. The location information is input from the input unit 25 or updated by the CPU 21 as described later. The whereabouts information includes not only the location but also, for example, a state such as “return home” or “during a meal”.
[0028]
As shown in FIG. 6A, the location information includes a location number for identifying the location, a location name, and location information (location range) of the location. As the place information, for example, information on places where business partners and the like frequently visit is registered. The location range is specified by, for example, two-dimensional position coordinates based on latitude and longitude detected by GPS. For example, it is possible to specify a rectangular area by specifying two points, or a circular area by specifying a middle point and a radius. Further, for example, it is also possible to install a plurality of wireless base stations in a building and acquire the range of the location based on the wireless base stations that communicate with the wireless receiver connected to the current position receiving means 28. For example, it is possible to install a wireless base station on each floor of a high-rise building and specify the floor where the user is located.
[0029]
As the location information, for example, common information is used in a unit for grasping the behavior of a company or the like. For example, the place number and place name of the place information can be used for the place number and place name of the schedule information and the place information. In this case, it is possible to select a place from the place list. A place that is not registered in the place information is input by the user using the input unit 26. For example, a place to be visited for the first time is input from the input means 26.
[0030]
As shown in FIG. 6B, the location correction information includes a corrected location number (hereinafter, a corrected location number), a corrected location name (hereinafter, a corrected location name), and a correction target location number. (Hereinafter, a correction target location number), a correction target time, and a correction condition. One or more of the place numbers of the place information shown in FIG. 6A are registered as the place number to be corrected.
[0031]
The CPU 21 measures the time (including the date) and operates as a means for acquiring a place number and a place name (place data) corresponding to the current date and time from the schedule information. The CPU 21 updates the location information with the location number and the location name acquired from the schedule information.
[0032]
The current position receiving means 28 operates as a means for receiving current position information (hereinafter, current position information). The received current position information is stored in the RAM 22 by the CPU 21. Further, the CPU 21 operates as a unit that acquires location data corresponding to the received current location information. For example, the CPU 21 searches a place range including the position coordinates corresponding to the current position information stored in the RAM 22 from the place information, and obtains a place number and a place name of the searched place range. The CPU 21 updates the location information with the acquired location number and location name. In this case, it is possible to acquire the location from the location information even for locations that are not registered in the schedule information such as urgent business.
[0033]
In addition, the CPU 21 operates as a unit that determines whether to modify the whereabouts information (whereabouts data) based on the location modification information. For example, the CPU 21 determines whether or not the location number of the whereabouts information matches the correction target location number of the location correction information, and if they match, determines whether or not the correction target time and the correction condition are satisfied. If it is determined and satisfied, the location information (location data) is updated to the corrected location number and corrected location name (modified location data).
[0034]
For example, if the correction target location number is the workplace and business partner location number, the correction target time is a time other than working hours, the correction condition is "I am not here", and the corrected place name is "Home", If there is no office or business partner outside of working hours, the place name in the whereabouts information is modified to “go home”. Similarly, if the user is not in the office during the lunch break, the place name in the whereabouts information can be changed to "during meal". In this case, the location can be corrected according to a condition such as not being at the predetermined location at the predetermined time. By correcting such detailed location information, it is possible to accurately and easily cope with a telephone call.
[0035]
By using the communication unit 27 to receive a computer program from another device connected to the communication network 40, store the computer program in the flash memory 23, and cause the CPU 21 to execute the computer program, the CPU 21 can operate as each of the units described above. is there. Alternatively, a recording medium such as a flash memory card or a ROM card on which a computer program is recorded can be inserted into an expansion card slot (not shown) and stored in the flash memory 23.
[0036]
Next, a behavior grasping method using the behavior grasping device according to the present invention will be described.
FIG. 7 shows an example of a schedule browsing procedure. In this description, a case where the terminal device 30 requests the server 10 to view the schedule of the user A will be described as an example. The terminal device 30 requests the server 10 to browse the schedule of the user A (S30). For example, the user accesses an HTML page of a Web site operated by the server 10 and requests the user A to view a schedule on a predetermined date and time.
[0037]
Upon receiving the request (S32), the server 10 obtains the terminal address of the user A from the user information by the CPU 11 (S34), and requests the obtained terminal address for a schedule of a predetermined date and time of the user A (S36). ). The mobile terminal 20 that has received the request (S38) obtains the schedule of the user A at a predetermined date and time from the schedule information by the CPU 21 and transmits the schedule to the server 10 from the communication unit 27 (S40).
[0038]
The server 10 that has received the schedule stores the received schedule in the RAM 12 to create a display screen by the CPU 11, and transmits the created display screen to the terminal device 30 from the communication unit 17b (S42). The terminal device 30 displays the received display screen (S44).
[0039]
FIG. 8 shows an example of a location browsing procedure. Similarly to the schedule information described above, the terminal device 30 requests the server 10 to browse the location of the user A (S50). The server 10 that has received the request (S52) uses the CPU 11 to acquire the terminal address of the user A from the user information (S54), and requests the location of the user A from the acquired terminal address (S56).
[0040]
When the location of the user A is registered in the location information (S60: YES), the mobile terminal 20 that has received the request (S58) acquires the location of the user A from the location information by the CPU 21 (S62). Stored in the RAM 22. When the location of the user A is not registered in the location information (S60: NO), the CPU 21 acquires the location of the user A from the schedule information (S64) and stores it in the RAM 22. If the scheduled location of the current time is not registered in the schedule information, the CPU 21 obtains a location based on the current location information received by the current location receiving means 28 as described later, or a message instructing input of the location. Is output to output means 26 such as a liquid crystal panel, and an input of a location is accepted. The acquired location is transmitted from the communication means 27 to the server 10 by the CPU 21 (S66).
[0041]
The server 10 that has received the whereabouts causes the CPU 11 to store the received location in the RAM 12 to create a display screen, and transmits the created display screen to the terminal device 30 from the communication unit 17b (S68). The terminal device 30 displays the received display screen (S70).
[0042]
FIG. 9 shows an example of a procedure for updating location information. The CPU 21 receives the current position coordinates from the current position receiving means 28 (S10), and stores it in the RAM 22. For example, position coordinates are received at 5-minute intervals, more preferably at 1-minute intervals. The location number and the location name corresponding to the received location coordinates are obtained from the location information by the CPU 21 (S12) and stored in the RAM 22. If the acquisition is not completed because the current location is not registered in the location information (S14: NO), the CPU 21 ends the location information update process.
[0043]
If the location cannot be obtained from the location information, the CPU 21 outputs a message instructing the input of the location to the output unit 26 such as a liquid crystal panel, and accepts the input of the location. Since an input interface such as a screen for inputting a place and a schedule can be unique to each mobile terminal, input can be performed easily as compared with a conventional HTML page.
[0044]
When the acquisition is completed (S14: YES), the CPU 21 determines whether or not the acquired place number is a modification target based on the modification target place number of the location modification information (S16). If it is a correction target (S16: YES), the CPU 21 determines whether the current time is a correction target based on the correction target time of the location correction information (S18). If it is a correction target (S18: YES), the CPU 21 determines whether or not to make correction based on the correction condition of the location correction information (S20).
[0045]
When the correction condition is satisfied (S20: YES), the CPU 21 updates the location information with the corrected place number and the corrected place name (S22). If the correction condition is not satisfied (S16: NO, S18: NO, S20: NO), the CPU 21 updates the location information with the acquired location number and location name (S24).
[0046]
In the above-described embodiment, a method of updating where-location data (location information) based on the date-and-time data (date and time) and location data (location number and location name) of the schedule information, and a method of updating the location data (location information) received from a GPS receiver or the like. A method of updating location data based on location information and location information stored in advance, and a method of modifying location data based on location correction information stored in advance are used. It is also possible to use any one or two of the above.
[0047]
In the embodiment described above, each mobile terminal 20 updates (a) the location data based on the date and time data and the location data of the schedule information, and (b) the current location information and the location information received from the GPS receiver or the like. The location data is updated based on the location information stored in advance, and (c) the location data is modified based on the location correction information stored in advance. Any one, two, or all of them can be performed by the server 10. In this case, the schedule information, the whereabouts information, the current location information, and the like are sent from the mobile terminal 20 to the server 10.
[0048]
(Supplementary Note 1) A clock unit, and a storage unit that stores schedule information including location data and date and time data relating to a destination to be grasped, and a storage unit that stores location data relating to a destination at a time measured by the clock unit. In the behavior grasp method using the information processing device that updates the location data,
Obtaining location data corresponding to the time measured by the clock unit from the schedule information;
Updating the location data with the location data obtained from the schedule information;
A behavior grasping method characterized by having:
(Supplementary Note 2) A clock unit, a storage unit for storing schedule information including location data and date and time data relating to a destination to be grasped, and a storage unit for storing location data relating to a destination at a time measured by the clock unit, In the behavior grasp method using the information processing device that updates the location data,
The information processing device includes a receiving unit that receives position information about the destination of the time measured by the clock unit, and stores location data that can be used as location data and location information corresponding to the location data,
Accepting location information about the destination of the time measured by the clock unit;
Obtaining location data corresponding to the received location information;
Updating the location data with the acquired location data;
A behavior grasping method characterized by having:
(Supplementary Note 3) A clock unit, and a storage unit that stores schedule information including location data and date and time data relating to the destination of the behavior grasping target, and a storage unit that stores location data relating to the destination at the time measured by the clock unit. In the behavior grasp method using the information processing device that updates the location data,
The information processing device stores a modification condition of the location data and modification location data when the modification condition is satisfied,
Determining whether to modify the location data based on the modification condition;
Correcting the location data according to the judgment; and
A behavior grasping method characterized by having:
(Supplementary Note 4) A clock unit, a storage unit for storing schedule information including location data and date and time data relating to the destination of the behavior grasp target, and a storage unit for storing whereabouts data relating to the destination at the time measured by the clock unit; In the behavior grasp device that updates the location data,
A means for acquiring location data corresponding to the time measured by the clock unit from the schedule information,
An activity comprehension device characterized by updating location data to location data acquired from schedule information.
(Supplementary Note 5) A clock unit, a storage unit for storing schedule information including location data and date and time data relating to a destination to which the behavior is to be grasped, and a storage unit for storing location data relating to a destination at a time measured by the clock unit; In the behavior grasp device that updates the location data,
A storage unit that stores location data that can be used as the location data and location information corresponding to the location data;
Means for receiving location information about the destination of the time measured by the clock unit;
Means for acquiring location data corresponding to the received location information;
A behavior grasping device characterized by comprising: updating the location data to the acquired location data.
(Supplementary Note 6) A clock unit, a storage unit for storing schedule information including location data and date and time data relating to a destination to be grasped, and a storage unit for storing location data relating to a destination at a time measured by the clock unit; In the behavior grasp device that updates the location data,
A storage unit for storing a modification condition of the location data and a modification location data when the modification condition is satisfied;
Means for determining whether or not to modify the location data based on the modification condition;
A behavior grasping device characterized by comprising: correcting the location data according to the determination.
(Supplementary Note 7) The behavior grasping device according to any one of Supplementary Notes 4 to 6,
Central device that acquires location data from the behavior grasp device
A behavior grasping system comprising:
(Supplementary Note 8) The behavior grasping device according to any one of Supplementary Notes 4 to 6,
An address storage unit for storing the address of each behavior grasping device, a means for receiving a request for browsing the location data of each behavior grasping device, and a means for acquiring the address of the behavior grasping device in which the location data requested to be browsed is stored are provided. A central unit that acquires location data from the behavior grasping device at the acquired address and transmits the data to the viewing request source.
A behavior grasping system comprising:
(Supplementary Note 9) The behavior grasping device according to any one of Supplementary Notes 4 to 6,
An address storage unit for storing an address of each behavior grasping device; a means for receiving a request for browsing schedule information of each behavior grasping device; and a means for acquiring an address of the behavior grasping device storing schedule information requested to be browsed. The central device acquires schedule information from the behavior grasping device at the acquired address and transmits the schedule information to the viewing request source.
A behavior grasping system comprising:
(Supplementary Note 10) A terminal device for inputting whereabouts data,
The behavior comprehension device according to any one of Supplementary notes 4 to 6, wherein the location data is received from the terminal device and stored.
A behavior grasping system comprising:
(Supplementary Note 11) An address storage unit that stores an address of the behavior grasping device according to any of Supplementary Notes 4 to 6,
Means for receiving a browsing request for the location data of each behavior grasping device;
Means for acquiring the address of the behavior grasping device in which the location data requested to be browsed is stored; and
A central device for acquiring location data from a behavior grasping device of the acquired address and transmitting the data to a viewing request source.
(Supplementary Note 12) In a computer program for measuring a time and storing a location data related to a destination at the time measured by a computer storing schedule information including a location data and a date / time data related to a destination of an activity grasp target,
A procedure for causing the computer to obtain location data corresponding to the time measured from the schedule information;
A procedure for causing the computer to update the location data with the location data obtained from the schedule information;
A computer program characterized by including:
(Supplementary Note 13) In a computer program that measures time and stores a location data related to a destination at the time measured by a computer that stores schedule information including location data and date / time data related to a destination to be grasped for an action,
Location data that can be used as the location data and location information corresponding to the location data are stored in advance,
Steps to allow the computer to accept location information about the destination of the clocked time;
Steps for causing the computer to obtain location data corresponding to the received location information;
Procedures for causing the computer to update the location data with the acquired location data
A computer program characterized by including:
(Supplementary Note 14) In a computer program that measures time and stores a location data related to a destination of the measured time in a computer that stores schedule information including location data and date / time data related to the destination of the behavior grasp target,
Correction conditions for the location data and correction location data when the correction conditions are satisfied are stored in advance,
A procedure for causing the computer to determine whether to modify the location data based on the modification condition;
Procedures for causing the computer to correct the whereabouts data according to the judgment
A computer program characterized by including:
(Supplementary Note 15) A computer-readable recording medium that records the computer program according to any one of Supplementary Notes 12 to 14.
[0049]
【The invention's effect】
According to the present invention, the location data can be acquired from the date and time data and the location data of the schedule information, and therefore, it is possible to omit the input of the location data for the location that has already been entered in the schedule information.
[0050]
Further, according to the present invention, since the location corresponding to the current location information can be acquired, the location where the location information is stored can be detected to update the location data by detecting that the location is present. It becomes possible to omit the input of the location data.
[0051]
Further, according to the present invention, since the location data can be corrected according to the correction condition, an erroneous location due to forgetting to input the location data can be corrected and updated to a correct location. It becomes possible to omit the input of the location data.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an example of a behavior grasping system provided with a behavior grasping device according to the present invention.
FIG. 2 is a block diagram illustrating an example of a server.
FIG. 3 is a diagram illustrating an example of user information.
FIG. 4 is a block diagram illustrating an example of a mobile terminal.
FIG. 5A is a diagram illustrating an example of schedule information, and FIG. 5B is a diagram illustrating an example of whereabouts information.
FIG. 6A is a diagram illustrating an example of location information, and FIG. 6B is a diagram illustrating an example of location correction information.
FIG. 7 is a flowchart illustrating an example of a schedule browsing procedure.
FIG. 8 is a flowchart illustrating an example of a location browsing procedure.
FIG. 9 is a flowchart illustrating an example of a procedure for updating location information.
[Explanation of symbols]
10. Server (central unit)
13 Hard disk (address storage unit)
20 Mobile terminal (behavior grasping device)
21 CPU (clock section)
23 Flash memory (storage unit)
28 Current position receiving means (receiving section)
30 Terminal device
42,44 Communication network

Claims (5)

A clock unit, and a storage unit for storing schedule information including location data and date and time data relating to the destination of the behavior grasp target, and a storage unit for storing location data regarding the destination at the time measured by the clock unit, update the schedule information and the location data. In an action grasping method using an information processing device,
Obtaining location data corresponding to the time measured by the clock unit from the schedule information;
Updating the location data with location data obtained from the schedule information. A clock unit, and a storage unit for storing schedule information including location data and date and time data relating to the destination of the behavior grasp target, and a storage unit for storing location data regarding the destination at the time measured by the clock unit, update the schedule information and the location data. Behavior grasping device,
A means for acquiring location data corresponding to the time measured by the clock unit from the schedule information,
An activity comprehension device characterized by updating location data to location data acquired from schedule information. In a computer program that measures the time and stores the location data and the schedule information including the date and time data on the destination of the behavior grasp target,
A procedure for causing the computer to obtain location data corresponding to the time measured from the schedule information;
Causing the computer to update the location data with the location data obtained from the schedule information. In a computer program that measures the time and stores the location data and the schedule information including the date and time data on the destination of the behavior grasp target,
Location data that can be used as the location data and location information corresponding to the location data are stored in advance,
Steps to allow the computer to accept location information about the destination of the clocked time;
Steps for causing the computer to obtain location data corresponding to the received location information;
Causing the computer to update the location data with the acquired location data. In a computer program that measures the time and stores the location data and the schedule information including the date and time data on the destination of the behavior grasp target,
Correction conditions for the location data and correction location data when the correction conditions are satisfied are stored in advance,
A procedure for causing the computer to determine whether to modify the location data based on the modification condition;
Causing the computer to modify the location data in accordance with the determination.

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