JP2013196535A - Habitant action support schedule automatic adjustment system, habitant action support schedule automatic adjustment method and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a habitant action support schedule automatic adjustment system for, when a task whose deadline is set suddenly occurs in a personal daily life, sharing one or more sub-tasks included in the task among members of a group.SOLUTION: A terminal 7 accepts from a user the selection of a task, a candidate who takes charge of the execution of the task, and information on a deadline when the task is completed or the like. A schedule automatic adjustment server 3 receives the information relating to the task input from the terminal 7, and allocates one or more sub-tasks included in the task to a sub-task execution candidate, and updates the schedule of the sub-task execution candidate to which the sub-task has been assigned. The schedule automatic adjustment server 3 transmits results of schedule automatic adjustment to the terminal 7. The terminal 7 displays results of the schedule automatic adjustment.

Description

The present invention relates to a consumer behavior support schedule automatic adjustment system for sharing subtasks included in a task among members of a group at the time of occurrence of a task whose deadline is suddenly set in an individual's daily life.

  In an individual's daily life, in addition to work that has a predetermined date and time, a task with a deadline suddenly occurs, and if the individual cannot execute a subtask included in the task, a collaborator such as a group member Sometimes, subtasks are shared and executed.

The scheduling support system disclosed in Patent Document 1 discloses a method in which a task is divided into subtasks and the subtasks are assigned to an individual work plan.
The group-based work sorting and correction system of Patent Document 2 extracts a member closest to the subtask work place at the time when a subtask including work start time and work place data occurs as ancillary information. It discloses a method of assigning subtasks when they can arrive.

JP 2006-146530 A JP 2010-33587 A

However, in the scheduling support system described in Patent Document 1, subtasks are assigned based on the subtask deadline and the condition settings such as the idle time and working hours of the members previously input, but the subtask can be executed. No consideration is given to conditions such as the location and time.
In the group-by-group work sorting and correction system described in Patent Document 2, the work start time of the subtask is considered, but it is not determined whether the task is completed within the time limit. In addition, the case where there are a plurality of places where the subtask can be operated is not considered.

  The present invention has been made in view of such problems, and the object of the present invention is to provide one or a plurality of subtasks included in a task when a task suddenly has a deadline set in an individual's daily life. It is to provide a consumer behavior support schedule automatic adjustment system and the like that can be shared among the members of the group and complete the task within the time limit.

In order to achieve the above-described object, the first invention is a consumer behavior support schedule automatic adjustment system in which a terminal and a server are connected via a network, and the server starts for each member of a group. Means for holding schedule data having time, end time, location, moving flag, free action flag, means for holding task data relating to a task having one or more subtasks, required time, executable day of week time, 1 Or means for holding subtask data relating to the subtask having a plurality of executable locations and persons to be executed, wherein the terminal is information related to the selected task and the execution time of the selected task And a task selection accepting means for accepting one or a plurality of execution subjects and transmitting them to the server. A schedule automatic allocation for assigning the subtask to the execution target person based on the information related to the execution time of the selected task and the subtask data for each of the one or more subtasks of the task. It is a consumer behavior support schedule automatic adjustment system characterized by comprising adjustment means.
According to the first invention, a task that occurs unexpectedly can be divided into subtasks and assigned to the members of the group, and the task can be executed within the time limit.

The automatic schedule adjustment means extracts the execution target person's vacant time, and based on the vacant time, the required time of the subtask, and the movement time of the subtask to the executable location It is determined whether the person can execute the subtask.
As a result, the member who can execute the subtask can acquire the free time as the time during which the subtask can be executed, and can easily determine whether the member can execute the subtask within the free time.

The idle time is a total time of a free time in which the free action flag of the schedule data of the execution target person is on and a moving flag just before the free time is on, or the free time. is there.
As a result, the traveling time immediately before the free time of the members of the group is also regarded as free time, and it is possible to adjust the schedule so that the subtask is executed by taking a detour.

A second invention is a consumer behavior support schedule automatic adjustment method in a consumer behavior support schedule automatic adjustment system in which a terminal and a server are connected via a network, wherein the server starts for each member of the group Schedule data with time, end time, location, moving flag, free action flag, task data for tasks with one or more subtasks, duration, executable day of the week, one or more executable locations, execution Subtask data relating to the subtask having a target person, and the terminal accepts the selected task, information related to the execution time of the selected task, and one or a plurality of execution target persons A task selection receiving step to be transmitted to the server, and the server has one or more A schedule automatic adjustment step of assigning the subtask to the execution target person based on the information related to the execution time of the selected task and the subtask data for each of the plurality of subtasks, It is a consumer behavior support schedule automatic adjustment method.
According to the second invention, a task that occurs unexpectedly can be divided into subtasks and assigned to the members of the group, and the task can be executed within the time limit.

According to a third aspect of the present invention, the server stores a schedule data having a start time, an end time, a location, a moving flag, and a free action flag for each member of the group, and a task related to a task having one or more subtasks Means for holding data, and means for holding subtask data relating to the subtask having the required time, executable day of the week time, one or a plurality of executable places, and an execution target person, and the terminal A task selection receiving unit configured to receive a task, information related to an execution time of the selected task, and one or a plurality of execution target persons, and transmit the information to the server, the server having the task For each of the one or more subtasks, based on the information related to the execution time of the selected task and the subtask data. There are, the sub-tasks to include a schedule automatic adjustment means, to be assigned to the execution subject is a program for causing a plurality of computers as the server and the terminal.
By installing the third invention in a general-purpose computer, the consumer behavior support schedule automatic adjustment system of the first invention can be constructed.

  According to the present invention, when a task with a deadline suddenly set in an individual's daily life occurs, one or more subtasks included in the task can be shared among the members of the group, and the task can be completed within the deadline. A consumer behavior support schedule automatic adjustment system and the like can be provided.

The figure which shows the outline | summary of the consumer behavior support schedule automatic adjustment system 1 which concerns on embodiment of this invention. Hardware configuration diagram of a computer that realizes the automatic schedule adjustment server 3, the position / route information acquisition API server 5, and the terminal 7 The figure which shows the detail of the memory | storage part 12 of the schedule automatic adjustment server 3 The figure which shows the detail of the schedule data 21 The figure which shows the details of task data 22 The figure which shows the detail of the subtask data 23 The figure which shows the detail of the route information data 24 The figure which shows an example of the task data 22 of "golf preparation" The figure which shows an example of the subtask data 23 which belongs to the task of "golf preparation" The figure which shows an example of the schedule data 21a of the father before an automatic schedule adjustment The figure which shows an example of the schedule data 21b of the mother before an automatic schedule adjustment The figure which shows an example of the schedule data 21c of the son before a schedule automatic adjustment The figure which shows an example of the movement required time 63 of the route information data 24 required by task execution of "golf preparation" The flowchart which shows the flow of a process of a consumer behavior support schedule automatic adjustment system 1 The figure which shows an example of the task selection screen 100 displayed on the terminal 7 The flowchart which shows the detail of the schedule automatic adjustment process performed by the schedule automatic adjustment server 3 of step S104. Flowchart showing the flow of processing for calculating the subtask execution time required 57 for executing the subtask during the selected free time Flow chart showing the flow of processing to register a subtask to the selected free time The figure which shows an example of schedule data 21b_1 of "mother" which registered subtask "preparation for changing clothes" The figure which shows an example of the schedule data 21b_2 of "mother" who registered subtask "golf set home delivery arrangement" The figure which shows an example of the schedule data 21c_1 of "son" who registered subtask "ticket arrangement"

  Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description and the accompanying drawings, the same reference numerals are given to components having substantially the same functional configuration, and redundant description will be omitted.

First, an outline of the consumer activity support schedule automatic adjustment system 1 according to the embodiment of the present invention will be described with reference to FIG.
FIG. 1 is a diagram showing an overview of a consumer behavior support schedule automatic adjustment system 1 according to an embodiment of the present invention.
In the consumer behavior support schedule automatic adjustment system 1, a schedule automatic adjustment server 3, a location route information acquisition API (Application Program Interface) server 5 and a terminal 7 are connected via a network 9.

The automatic schedule adjustment server 3 holds the schedule data of the members of the group, and when a member is suddenly scheduled and a task occurs, the subtask included in the task is assigned to the members of the group to adjust the schedule.
Details of the operation of the automatic schedule adjustment server 3 will be described later.
The position / route information acquisition API server 5 calculates the departure time, the travel time between the destinations specified by the automatic schedule adjustment server 3, and route information, and transmits the calculated information to the automatic schedule adjustment server 3.
The terminal 7 is a personal computer, a portable terminal or the like owned by a group member.

FIG. 2 is a hardware configuration diagram of a computer that implements the automatic schedule adjustment server 3, the position / route information acquisition API server 5, and the terminal 7. Note that the hardware configuration in FIG. 2 is an example, and various configurations can be adopted depending on the application and purpose.
In the computer, a control unit 11, a storage unit 12, an input unit 13, a display unit 14, a communication unit 15, and the like are connected via a bus 16.

The control unit 11 includes a CPU (Central Processing Unit), a ROM (Read Only Memory), a RAM (Random Access Memory), and the like.
The CPU calls a program stored in the storage unit 12, ROM, recording medium, etc. to a work memory area on the RAM, executes it, drives and controls each device connected via the bus 16, and is described later by the computer. Realize processing.
The ROM is a non-volatile memory and permanently stores programs, data, and the like.
The RAM is a volatile memory, and temporarily stores programs, data, and the like loaded from the storage unit 12, ROM, recording medium, and the like, and includes a work area used by the control unit 11 for performing various processes.

  The storage unit 12 is a flash memory or the like, and stores a program executed by the control unit 11, data necessary for program execution, and the like. Each of these program codes is read by the CPU of the control unit 11 as necessary, transferred to the RAM, and executed as various means.

The input unit 13 inputs data and includes an input device such as a touch panel and a key. An operation instruction, an operation instruction, data input, and the like can be performed on the computer via the input unit 13.
The display unit 14 includes a logic circuit or the like (video adapter or the like) for realizing a video function of a computer in cooperation with a display device such as a liquid crystal panel. The input unit 13 and the display unit 14 may be integrated like a touch panel display.
The communication unit 15 is a communication interface that mediates communication between the computer and the network, and communicates with other computers and the like via the network. The network may be wired or wireless.
The bus 16 is a path that mediates transmission / reception of control signals, data signals, and the like between the devices.

Next, data held by the automatic schedule adjustment server 3 will be described.
FIG. 3 is a diagram illustrating details of the storage unit 12 of the automatic schedule adjustment server 3.
The storage unit 12 of the automatic schedule adjustment server 3 includes schedule data 21, task data 22, subtask data 23, route information data 24, and the like.

The schedule data 21 is data relating to the schedule of group members.
FIG. 4 is a diagram showing details of the schedule data 21.
The schedule data 21 includes a schedule title 31, a schedule date time 32, a schedule execution location 33, a moving flag 34, a free action flag 35, and the like.

The schedule title 31 is data representing the contents of the schedule.
The schedule date time 32 is data representing the start time and end time of the schedule.
The schedule execution location 33 is data representing the execution location of the schedule. When the schedule is a movement, the schedule execution place 33 is a departure point and an arrival point. The schedule execution location 33 is associated with latitude and route information.
The moving flag 34 is a flag indicating whether or not the schedule is moving, and has a value of “ON” indicating that the schedule is moving or “OFF” indicating that the schedule is not moving.
The free action flag 35 is a flag indicating whether or not other actions can be taken during the schedule, and is “ON” when other actions can be taken, and when other actions cannot be taken. Is “off”. For example, in the case of free time at home, the free action flag 35 is “ON”.

The task data 22 is data related to a task that is unexpectedly scheduled and occurred.
FIG. 5 is a diagram showing details of the task data 22.
The task data 22 includes a task title 41, a task setting input content 42, a subtask list 43, and the like.

The task title 41 is data representing the content of the task.
Input contents 42 at the time of task setting are data input and designated by members at the time of task setting, such as task start time, scheduled task end time, task execution target person, and the like.
The subtask list 43 is a list of subtasks included in the task.

The subtask data 23 is data related to the subtask included in the task.
FIG. 6 is a diagram showing details of the subtask data 23.
The subtask data 23 includes a subtask title 51, a subtask required time 52, a subtask executable day of the week time 53, a subtask executable place 54, a subtask executable place latitude / longitude 55, a subtask execution target person 56, a subtask execution required time 57, and a subtask execution. Time movement route information 58 and the like.

The subtask title 51 is data representing the contents of the subtask.
The subtask required time 52 is data indicating the time required for executing the subtask. The subtask required time 52 does not include the travel time to the place where the subtask can be executed. However, if movement is included during execution of a subtask, the movement time is also included.
The subtask executable day of the week time 53 is data set when there is a condition in the time or day of the week when the subtask can be executed.
The subtask executable location 54 is data indicating a location where the subtask can be executed when the location where the subtask can be executed is limited to a specific location such as a home, a station, or a store. If movement is included during execution of a subtask and the departure point and arrival point are limited, the subtask executable place 54 is set as the departure point and arrival point.
The subtask executable place latitude / longitude 55 is data indicating latitude and longitude information of the subtask executable place 54.
The subtask execution target person 56 is data indicating members who can execute the subtask. Normally, the task is executed by the person who set the task, but if the task is not completed within the time limit, the group member is also set as the subtask execution target person 56.

The subtask execution required time 57 is data calculated in the process of assigning the subtask to the subtask execution target person 56. The subtask execution required time 57 is the total time of the subtask required time 52 and the travel time required for the subtask execution target person 56 to execute the subtask.
The subtask execution movement route information 58 is data calculated in a process of assigning a subtask to the subtask execution target person 56. The movement path information 58 at the time of subtask execution includes movement path information for the subtask execution target person 56 to move from the place immediately before the subtask execution to the subtask executable place 54, and immediately after the subtask execution from the subtask executable place 54 immediately before the subtask execution. Or travel route information for moving to the next scheduled location. The subtask execution movement route information 58 is acquired by the automatic schedule adjustment server 3 transmitting the subtask executable location latitude / longitude 55 to the location route information acquisition API server 5 and making an inquiry.

The route information data 24 is data indicating route information of movement necessary for the subtask execution target person 56 to execute the subtask.
FIG. 7 is a diagram showing details of the route information data 24.
The route information data 24 includes a travel route departure point 61, a travel route arrival point 62, a travel time 63, and the like.
The movement route departure point 61 is position information of a movement departure point, and includes latitude, longitude, address, and the like.
The movement route arrival point 62 is position information at the arrival point of movement, and has latitude, longitude, address, and the like.
The required travel time 63 is data indicating the time required for travel from the departure point to the arrival point. The travel required time 63 is acquired by the automatic schedule adjustment server 3 transmitting the travel route departure point 61 and the travel route arrival point 62 to the position route information acquisition API server 5 and inquiring them.

Next, an example of schedule automatic adjustment in the consumer activity support schedule automatic adjustment system 1 will be described in detail with reference to FIGS.
In this embodiment, in the group consisting of father, mother and son, the father suddenly made a plan to entertain golf at 5:00 tomorrow morning, and he completed the “golf preparation” task by that time. Automatic adjustment of mother, son schedule.
FIG. 8 is a diagram illustrating an example of the “golf preparation” task data 22.
The task title 41 is “golf preparation” indicating the contents of the schedule. The task setting input content 42 sets the date and time for leaving the home to go to golf as the deadline for task completion. The subtask list 43 is a list of subtasks necessary for the “golf preparation” task, and has three subtasks “preparation for changing clothes”, “arrangement for ticket”, and “arrangement for home delivery of golf set”.

FIG. 9 is a diagram illustrating an example of the subtask data 23 belonging to the task “golf preparation”.
The subtask data 23 for the task “golf preparation” includes data of three subtasks whose subtask title 51 is “preparation for changing clothes”, “arrangement for ticket”, and “arrangement for home delivery of golf set”.
The subtask title 51 of the subtask “preparation for changing clothes” is “preparation for changing clothes”, the subtask required time 52 is “30 minutes”, the day of the week for which the subtask can be executed 53 is “not specified”, the subtask execution place 54 is “home”, and the subtask execution target The person 56 is only “mother”.
The subtask title 51 of the subtask “Ticket Arrangement” is “Ticket Arrangement”, the subtask required time 52 is “30 minutes”, and the subtask executable day time 53 is the business hours of the store that executes the ticket arrangement “10: 0-17” 0:00 ”, and the sub-task executable place 54 is assumed to be three places of“ travel agent X ”,“ travel agent Y ”, and“ travel agent Z ”. The sub-task execution target person 56 is not limited and can be executed by anyone, so it is set as “no specification”.
The subtask title 51 of the subtask “golf set home delivery arrangement” is “golf set home delivery arrangement”, the subtask required time 52 is “30 minutes”, and the subtask executable day time 53 is the business hours of the delivery place “10: 0 to 19: “00”, and the subtask executable place 54 is assumed to be “delivery place P” that is the arrival point from “home” that is the departure point. The sub-task execution target person 56 is not limited and can be executed by anyone, so it is set as “no specification”.

The schedules of the father, mother, and son who are members of the group are stored as schedule data 21 in the storage unit 12 of the schedule automatic adjustment server 3.
FIG. 10 is a diagram illustrating an example of father's schedule data 21a before automatic adjustment of the schedule of the task “golf preparation”.
The schedule data 21a shows that the father's schedule on the afternoon of January 25, when the task "golf preparation" is executed, is 12: 0 to 14:30 working at company A, and 14:30 to 15:00 is from company A Moved to company, 15: 00 to 19:30 from Q company outside meeting, 19:30 to 20:00 moved from company Q to company A, 20: 00 to 20:30 worked at company A, 20:30 -21: 30 indicates that the company A has moved to the home, and 21:30 or later indicates that the user has returned to the home.
The moving flag relating to the movement from company A to company Q, from company Q to company A, and from company A to home is set to “ON”. Since it is free time after returning home at 21:00, the free action flag 36 is set to “ON”.

FIG. 11 is a diagram illustrating an example of mother schedule data 21b before automatic schedule adjustment of the task “golf preparation”.
The schedule data 21b shows that the mother's schedule on the afternoon of January 25, when the task “golf preparation” is executed, is 12:00 to 17:00 working at company B, and 17:00 to 17:20 is home from company B Move to, and after 17:20 indicate that you are home.
The moving flag relating to the movement from the company B to the home is set to “ON”. Since it is free time after returning home at 17:20, the free action flag 36 is set to “ON”.

FIG. 12 is a diagram illustrating an example of the son schedule data 21c before the schedule automatic adjustment of the task “golf preparation”.
The schedule data 21c shows that the son's schedule on the afternoon of January 25 when the task “golf preparation” is executed is a class at University C from 12:00 to 15:00, and home from University C at 15:00 to 15:30 15:30 to 17:20 return home at home, 17:20 to 17:30 move from home to byte D, 17:30 to 21:00 byte at byte D, 21: 0 to 21 : 10 indicates moving from the byte D to the home, and 21:10 or later indicates returning home.
The moving flag relating to the movement from the university C to the home, from the home to the byte destination D, and from the byte destination D to the home is set to “ON”. Since it is free time after returning home from 15:30 to 17:20 and 21:10, the free action flag 36 is set to “ON”.

FIG. 13 is a diagram illustrating an example of the required travel time 63 of the route information data 24 required for executing the “golf preparation” task.
For example, the movement between home and company A is 60 minutes, the movement between home and company B is 20 minutes, the movement between home and university C is 30 minutes, the movement between home and byte D is 10 minutes, home, home delivery Travel between locations P is 10 minutes, travel between home and travel agency X is 20 minutes, travel between company A and travel agency Y is 10 minutes, travel between company B and travel agency Z is 10 minutes, The movement between University C and Home Delivery P is 40 minutes.

FIG. 14 is a flowchart showing a process flow of the consumer behavior support schedule automatic adjustment system 1.
When the father suddenly enters a golf entertainment schedule starting from 5:00 tomorrow morning, the father activates an application for automatic schedule adjustment on the terminal 7 and selects a “golf preparation” task. The control unit 11 of the terminal 7 receives an input of the task “golf preparation” (step S101).
FIG. 15 is a diagram illustrating an example of the task selection screen 100 displayed on the display unit 14 of the terminal 7.
The father operates a pull-down menu for task selection and selects a task “golf preparation”.

The control unit 11 of the terminal 7 receives information necessary for the task “golf preparation” input by the father via the task selection screen 100 on the display unit 14 (step S102), and shares the task “golf preparation”. The subject is accepted (step S103) and set as the task setting input content 42 of the task data 22.
The father is the date and time of departure on the task selection screen 100, “January 26, 5:00:00”, and the subjects who share the task “Golf preparation” are “Father”, “Mother”, “Son ”Is entered. It may be possible to specify the ranking of subjects who share tasks.

The control unit 11 of the automatic schedule adjustment server 3 receives the task data 22 input from the terminal 7 via the task selection screen 100, and assigns the subtask of the task “golf preparation” to the target persons “father”, “mother”, “ The schedule automatic adjustment to be assigned to “son” is executed (step S104), and the result of the schedule automatic adjustment is transmitted to the terminal 7. When the automatic schedule adjustment cannot be performed, the control unit 11 of the automatic schedule adjustment server 3 transmits a message to that effect to the terminal 7.
The control unit 11 of the terminal 7 displays the result of automatic schedule adjustment on the display unit 14 (step S105).

FIG. 16 is a flowchart showing details of the automatic schedule adjustment processing executed by the automatic schedule adjustment server 3 in step S104.
The control unit 11 of the automatic schedule adjustment server 3 selects one of the subtask execution target persons who execute the subtask (step S201).
The control unit 11 of the automatic schedule adjustment server 3 selects a remaining subtask list that is a list of subtasks not assigned to any subtask execution target from the subtask list 43 of the task data 22 of the task for which automatic schedule adjustment is performed. Initialization is performed (step S202).

The control unit 11 of the automatic schedule adjustment server 3 selects a subtask from the remaining subtask list (step S203), and determines whether the selected subtask execution target person can execute the selected subtask (step S204).
For example, since the subtask execution target person 56 of the subtask “preparation for changing clothes” of the task “golf preparation” is only “mother”, the “mother” can execute the subtask “preparation for changing clothes”. Cannot be executed.
When the selected subtask execution target person can execute the subtask (Yes in step S204), the control unit 11 of the automatic schedule adjustment server 3 acquires a list of free times of the selected subtask execution target person (step S205). .

The control unit 11 of the automatic schedule adjustment server 3 sets the free time at home and the total of free time at home and free time at home as free time.
When the free time at home is used as free time, it is assumed that the user moves from the home to the subtask executable place 54 and returns to the home after executing the subtask.
When the total of the travel time to return to the home and the free time at home is used as the free time, it is assumed that the user moves from the location before returning home to the subtask executable location 54 and returns to the home after executing the subtask.
For example, in the case of the son's schedule data 21c, the total time of 15: 00 to 15: 30 moving from the university C to the home and 15:30 to 17: 20 return time 15: 00 to 17: 20 and 21:10 to 21:10, 21:10 to 21:10, 21:10 to 21:10, 21:10 to 21:10 : Four times of 00: 00 and 21:10 time of returning home are acquired as free time.

The control unit 11 of the automatic schedule adjustment server 3 selects a free time from the free time list (step S207), and calculates a subtask execution required time 57, which is a time required to execute the subtask during the selected free time. (Step S208).
FIG. 17 is a flowchart showing the flow of processing for calculating the subtask execution time 57 for executing the subtask during the selected idle time.

  The control unit 11 of the automatic schedule adjustment server 3 refers to the subtask data 23 of the selected subtask, reads the subtask executable place 54 and the subtask executable place latitude / longitude 55 (step S301), and executes the subtask in the selected free time. The latitude and longitude of the current location where the potential person is present and the subtask executable location latitude / longitude 55 to be read are transmitted to the position / route information acquisition API server 5, and the time required for movement between the current location and the subtask executable location 54 is obtained. (Step S302). When there are a plurality of subtask executable locations 54 of the subtask data 23, the control unit 11 of the automatic schedule adjustment server 3 repeats the processes of steps S301 and S302 for each subtask executable location 54 (step S303).

  The control unit 11 of the automatic schedule adjustment server 3 selects the subtask executable location 54 having the shortest time required for movement from the calculated time required for movement between the current location and the subtask executable location 54 (step S304), the subtask executable location latitude / longitude 55 of the selected subtask executable location 54, and the latitude / longitude of the location where the subtask executable person returns after executing the subtask are transmitted to the location route information acquisition API server 5, and the time required for movement Is acquired (step S305).

  The control unit 11 of the automatic schedule adjustment server 3 moves the time required for movement between the current location and the subtask executable place 54, the subtask required time 52, and the movement from the subtask executable place 54 to the place where the subtask executable person returns. The time required for subtask execution is calculated (step S306), set as the subtask execution required time 57, and from the current location acquired from the location / route information acquisition API server 5 to the subtask executable location 54. And movement path information from the subtask executable place 54 to the place where the subtask executable person returns is set as subtask execution movement path information 58 (step S307).

Returning to the description of FIG.
The control unit 11 of the automatic schedule adjustment server 3 performs a subtask registration process for the selected free time (step S209).
FIG. 18 is a flowchart showing a flow of processing for registering a subtask in the selected free time.
The control unit 11 of the automatic schedule adjustment server 3 refers to the subtask executable day of the week time 53 of the subtask data 23 of the selected subtask, determines whether the selected free time is within the day of the week and the time when the subtask can be executed, and can be executed. If not (No in step S401), the subtask registration fails (step S404).

When the subtask can be executed in the free time (Yes in step S401), the control unit 11 of the automatic schedule adjustment server 3 compares the selected free time with the subtask execution time 57 and can execute the subtask within the free time. If it is not executable (No in step S402), the subtask registration is failed (step S404).
If the subtask can be executed within the free time (Yes in step S402), the control unit 11 of the automatic schedule adjustment server 3 registers the subtask in the free time and updates the schedule data 21 of the selected subtask executable person ( Step S403). In the schedule update, the control unit 11 of the automatic schedule adjustment server 3 moves to the subtask execution location, executes the subtask, and executes the subtask execution location from the subtask execution location to the next schedule location in the free time of the selected subtask execution target person 56. The schedule data 21 for moving back to is registered.

Returning to the description of FIG.
The control unit 11 of the automatic schedule adjustment server 3 determines whether or not the registration of the subtask in the free time selected in step S209 has succeeded. If the registration has failed (No in step S210), the process returns to step S206 to execute the subtask execution target. If there is another free time (Yes in step S206), the next free time is selected and the process of registering the subtask is continued.
The control unit 11 of the automatic schedule adjustment server 3 repeats the processing from step S206 to step S210 for all the free times included in the free time list of the selected subtask execution target person.

When the registration of the subtask to the free time selected in step S209 is successful (Yes in step S210), the control unit 11 of the automatic schedule adjustment server 3 sets free time for all the subtasks in the remaining subtask list in step S211. If there is another subtask (No in step S211), the next subtask is selected and the process is continued.
The control unit 11 of the automatic schedule adjustment server 3 repeats the processing from step S203 to step S211 for all the subtasks included in the remaining subtask list.

The control unit 11 of the automatic schedule adjustment server 3 determines whether or not all subtask execution target persons have been processed, and if there is another subtask execution target person (No in step S212), selects the next subtask execution target person, Continue processing.
The control unit 11 of the automatic schedule adjustment server 3 repeats the processing from step S201 to step S212 for all subtask execution subjects.
The control unit 11 of the automatic schedule adjustment server 3 determines whether or not the automatic adjustment processing of the schedules of all the subtasks included in the task has been completed. If completed, the adjusted schedule is performed. If not completed, the automatic adjustment processing is performed. The failure is transmitted to the terminal 7 (step S213).

The process of automatic schedule adjustment for completing the “golf preparation” task will be specifically described.
When the “golf preparation” task is set, the father automatically inputs the schedule of “father”, “mother”, “son” as the subtask execution target from the task selection screen 100 displayed on the display unit 14 of the terminal 7. In the adjustment process, “Father” is first selected as a subtask execution target person (step S201). The remaining subtask list has three subtasks, “preparation for changing clothes”, “arrangement for ticket”, and “arrangement for home delivery of golf set”.
When the control unit 11 of the automatic schedule adjustment server 3 selects the subtask “preparation for changing clothes” (step S203), since the subtask execution target 56 of the subtask “preparation for changing clothes” is only “mother”, “father” It determines with not being executable (No of step S024).

  After selecting the next subtask “ticket arrangement” (step S203), the control unit 11 of the automatic schedule adjustment server 3 moves from the company A from 20:30 to 21:30 and is free after returning home after 21:30. The vacant time 1 after 20:30 and the vacant time 2 after 21:30 after returning home are acquired (step S205). Since the idle time 1 has passed the subtask executable day of the week time 53 “10:00:00 to 17:00” that is the business hours of the subtask executable place 54 “travel agency Y” (No in step S401), registration of the subtask Is a failure (step S404). As for the idle time 2, the registration of the subtask fails as in the idle time 1 (step S404).

The control unit 11 of the automatic schedule adjustment server 3 also sets the vacant time of “Father” in the sub-task executable place “Parcel delivery place P” for the next sub-task “Golf set delivery arrangement” as well as the sub-task “Ticket arrangement”. Since the subtask executable day of the week time 53 “10: 0 to 19:00” is exceeded (No in step S401), the subtask registration is failed (step S404).
Therefore, the subtask is not registered in the father's schedule, and the remaining subtask list includes “preparation for changing clothes”, “arrangement for ticket”, and “arrangement for home delivery of golf set”.

Next, the control unit 11 of the automatic schedule adjustment server 3 selects “mother” as the subtask execution target person (step S201).
When the control unit 11 of the automatic schedule adjustment server 3 selects the subtask “preparation for changing clothes” (step S203), the “mother” is the subtask execution target person 56 of the subtask “preparation for changing clothes” (Yes in step S024). : Move from company B to home from 00 to 17:20 and free time after 17:00 totaling free time after returning home after 17:20, and free time 2 after 17:20 after returning home (Step S205). When the subtask “preparation for changing clothes” is executed in the vacant time 1, the travel time from the company B at the current location to the home, which is the subtask executable place 54, is 20 minutes, the subtask required time 52 for changing clothes is 30 minutes, and the subtask executable place 54 Since the movement from home to home after returning from the subtask is 0 minutes, the subtask execution time 57 is 20 minutes + 30 minutes = 50 minutes (step S306).
The control unit 11 of the automatic schedule adjustment server 3 registers the subtask “preparation for changing clothes” in the schedule data 21b of “mother” because the subtask “preparation for changing clothes” can be executed within the free time 1 (Yes in step S402). ,Update.

FIG. 19 is a diagram illustrating an example of schedule data 21b_1 of “mother” who has registered the subtask “preparation for changing clothes”.
The subtask “preparation for changing clothes” is registered from 17:20 to 17:50 after returning home, and the free time of “mother” is 17:50 after the completion of “preparation for changing clothes”.

  The control unit 11 of the automatic schedule adjustment server 3 selects the next subtask “ticket arrangement” (step S203), and acquires a free time after 17:50 as a free time (step S205). The acquired vacant time is past the subtask executable day of the week time 53 “10: 00 to 17:00” that is the business hours of the sub-task executable place 54 “travel agency X” closest to home (in step S401) No), registration of the subtask fails (step S404).

Next, when the control unit 11 of the automatic schedule adjustment server 3 selects the subtask “Golf set home delivery arrangement” (step S203), the free time after 17:50 is acquired as a free time (step S205). When the subtask “Golf set home delivery arrangement” is executed in the free time, the travel time from the current location home to the home that is the subtask executable location 54 is 0 minutes, and the subtask executable location 54 moves from the home to the delivery location P. The subtask execution required time for arranging home delivery is 30 minutes, and the movement from the home delivery place P of the subtask executable place 54 to the home after the subtask execution is 10 minutes according to the route information data 24 of FIG. The required time 57 is 30 minutes + 10 minutes = 40 minutes (step S306).
Since the control unit 11 of the automatic schedule adjustment server 3 can execute the subtask “Golf Set Home Delivery Arrangement” within the free time (Yes in Step S402), the subtask “Golf Set Home Delivery Arrangement” is added to the schedule data 21b_1 of “Mother”. Register and update.

FIG. 20 is a diagram illustrating an example of schedule data 21b_2 of “mother” who has registered the subtask “golf set home delivery arrangement”.
Subtask “Golf Set Home Delivery Arrangement” is registered at 17:50 to 18:20 after the completion of the subtask “preparation for changing clothes”, and the subtask “Golf Set Home Delivery Arrangement” is executed at 18:20 to 18:30. It moves from the delivery place P to the home, and after 18:30, it returns home.
Accordingly, since the subtasks “preparation for changing clothes” and “home delivery for golf set” are registered in the mother's schedule, the remaining subtask list includes only “ticket arrangement”.

Next, the control unit 11 of the automatic schedule adjustment server 3 selects “son” as a subtask execution target person (step S201).
When the control unit 11 of the automatic schedule adjustment server 3 selects the subtask “ticket arrangement” (step S203), the movement from the university C to the home from 15: 00 to 15:30 and the free time from 15:30 to 17:20 1: 0 to 17:20 free time 1, 15:30 to 17:20 free time 2 at home, 21: 00 to 21:10 byte destination D to move to home Then, four free times of free time 3 after 21:00 and free time 4 after returning home are acquired at 21:10, which is a sum of free time after 21:00 (step S205).
When the subtask “Ticket Arrangement” is executed in the free time 1, the travel time from the current university C to the nearest travel agency X which is the subtask executable place 54 is 40 minutes, and the subtask required time 52 of the subtask “Ticket Arrangement” Is 30 minutes, and travel from the travel agent X, which is the subtask executable place 54, to the home is 20 minutes. Therefore, the subtask execution time 57 is 40 minutes + 30 minutes + 20 minutes = 90 minutes (step S306).
The control unit 11 of the automatic schedule adjustment server 3 registers the subtask “ticket arrangement” in the schedule data 21c of “son” because the subtask “ticket arrangement” can be executed within the free time 1 (Yes in step S402). ,Update.

FIG. 21 is a diagram illustrating an example of schedule data 21c_1 of “son” who has registered the subtask “ticket arrangement”.
After the class, the student moved from University C to Travel Agent X at 15:00 to 15:40, and executed the subtask “Ticket Arrangement” at Travel Agent X at 15:40 to 16:10, and 16:10 to 16 : Move to home from travel agency X at 30. After returning home at 16:30, his son's free time is until 17:20 when he moves to the byte D.

  As described above, in the consumer activity support schedule automatic adjustment system 1 according to the present invention, a task having one or a plurality of subtasks restricted by the subtask executable day of the week 53, the subtask executable place 54, and the subtask execution target person 56. Therefore, the free time and the movement time immediately before the free time are extracted as free time from the schedule data 21 of the group members, subtasks are assigned to the free time, and the schedule is automatically adjusted. As a result, a task that occurs suddenly can be divided among the members of the group, and the task can be completed within the time limit.

  The preferred embodiments of the consumer behavior support schedule automatic adjustment system and the like according to the present invention have been described above with reference to the accompanying drawings, but the present invention is not limited to such examples. It will be apparent to those skilled in the art that various changes or modifications can be conceived within the scope of the technical idea disclosed in the present application, and these naturally belong to the technical scope of the present invention. Understood.

DESCRIPTION OF SYMBOLS 1 ......... Consumer action support automatic schedule adjustment system 3 ......... Schedule automatic adjustment server 5 ......... Location route information acquisition API server 7 ......... Terminal 11 ......... Control part 12 ......... Storage part 13 ... ... Input unit 14 ......... Display unit 15 ......... Communication unit 16 ......... Bus 21 ......... Schedule data 22 ......... Task data 23 ......... Subtask data 24 ......... Route information data

Claims (5)

A consumer behavior support schedule automatic adjustment system in which a terminal and a server are connected via a network,
The server
Means for holding schedule data having a start time, an end time, a location, a moving flag, and a free action flag for each member of the group;
Means for holding task data relating to a task having one or more subtasks;
Means for holding subtask data relating to the subtask having a required time, an executable day of the week time, one or a plurality of executable locations, and an execution target person;
Comprising
The terminal
A task selection receiving means for receiving the selected task, information related to the execution time of the selected task, and one or a plurality of execution target persons, and transmitting the information to the server;
Comprising
The server
Automatic schedule adjustment means for assigning the subtask to the execution target person based on the information related to the execution time of the selected task and the subtask data for each of the one or a plurality of subtasks included in the task;
A consumer behavior support schedule automatic adjustment system characterized by comprising:   The automatic schedule adjustment means extracts the execution target person's vacant time, and based on the vacant time, the required time of the subtask, and the movement time of the subtask to the executable location The consumer behavior support schedule automatic adjustment system according to claim 1, wherein a person judges whether or not the subtask can be executed.   The idle time is a total time of a free time in which the free action flag of the schedule data of the execution target person is on and a moving flag just before the free time is on, or the free time. The consumer behavior support schedule automatic adjustment system according to claim 2, wherein the system is provided. A consumer behavior support schedule automatic adjustment method in a consumer behavior support schedule automatic adjustment system in which a terminal and a server are connected via a network,
The server
Schedule data having start time, end time, location, moving flag, free action flag for each member of the group,
Task data relating to a task having one or more subtasks;
Subtask data relating to the subtask having a required time, an executable day of the week time, one or a plurality of executable locations, and an execution target person;
Hold
A task selection receiving step in which the terminal receives the selected task, information related to the execution time of the selected task, and one or a plurality of execution target persons, and transmits the information to the server;
A schedule in which the server assigns the subtask to the execution target person based on the information related to the execution time of the selected task and the subtask data for each of the one or more subtasks of the task. An automatic adjustment step;
A consumer behavior support schedule automatic adjustment method characterized by comprising: The server
Means for holding schedule data having a start time, an end time, a location, a moving flag, and a free action flag for each member of the group;
Means for holding task data relating to a task having one or more subtasks;
Means for holding subtask data relating to the subtask having a required time, an executable day of the week time, one or a plurality of executable locations, and an execution target person;
Comprising
The terminal
A task selection receiving means for receiving the selected task, information related to the execution time of the selected task, and one or a plurality of execution target persons, and transmitting the information to the server;
Comprising
The server
Automatic schedule adjustment means for assigning the subtask to the execution target person based on the information related to the execution time of the selected task and the subtask data for each of the one or a plurality of subtasks included in the task;
A program for causing a plurality of computers to function as the server and the terminal.

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