JP6873183B2 - Planning support device, planning support method and planning support program - Google Patents

Description

The present invention relates to techniques that assist in planning work that is affected by external factors.

When making a plan for work that is affected by external factors, it is necessary to estimate the time required for the work in consideration of the external factors, and then make a plan for the execution order of the work. In addition, if external factors change, the time required for work will change, so it is necessary to change the plan. When there are many facilities to carry out the work, it takes time and effort to make a plan manually.
It is conceivable that all plans will be made mechanically in consideration of external factors. However, if this is done, it may not be possible to meet the detailed requirements that change from time to time.

For example, snow removal work is a work that is affected by meteorological conditions such as the amount of snowfall, which is an external factor. When planning snow removal work for airport runways and taxiways, estimate the time required for snow removal work for the target runways and taxiways, and then perform snow removal work in order from which runway or taxiway. It is necessary to make a plan such as whether to do it. At large airports, there are many runways and many taxiways, and it takes time to make a manual plan.
Also, depending on the flight schedule at that time, the importance of a certain runway is high and it is necessary to perform snow removal work preferentially, whereas the importance of a taxiway is low and snow removal work should be postponed. There are various requirements such as being possible. It is difficult to construct a mechanical planning system in consideration of all such various requirements. On the other hand, if a plan that considers only some requirements is made mechanically, it will not be possible to meet detailed requirements.

Patent Document 1 describes an aircraft spot allocation management system. Patent Document 1 describes that several kinds of proposed changes are presented to recommend changes in spot allocation.

JP-A-2002-074437

With the technique of Patent Document 1, it is not possible to plan work that is affected by external factors.
It is an object of the present invention to facilitate the planning of work that is affected by external factors.

The planning support device according to the present invention is
Time calculation that acquires the factor information about the start time from a storage device that stores factor information that affects the target work for each time, and calculates the work time required for the target work based on the acquired factor information. Department and
A display unit that displays a schedule screen showing the start time and the work time calculated by the time calculation unit.
It is equipped with a time reception unit that accepts changes in the start time.
The time calculation unit acquires the factor information about the start time after the change from the storage device, recalculates the work time required for the target work based on the acquired factor information, and recalculates the work time.
The display unit displays a schedule screen showing the start time after the change and the work time recalculated by the time calculation unit.

In the present invention, by changing the start time, the working time is recalculated and reflected on the schedule screen. This makes it easier to plan work that is affected by external factors. In particular, by appropriately changing the start time in consideration of the detailed requirements that change from time to time, it becomes possible to make a work plan that satisfies the detailed requirements.

The block diagram of the plan support apparatus 10 which concerns on Embodiment 1. FIG. The explanatory view of the reference time table 31 which concerns on Embodiment 1. FIG. The explanatory view of the condition table 32 which concerns on Embodiment 1. FIG. The explanatory view of the factor information table 33 which concerns on Embodiment 1. FIG. FIG. 5 is a flowchart showing the overall operation of the planning support device 10 according to the first embodiment. The figure which shows the initial state of the schedule screen 40 which concerns on Embodiment 1. FIG. The figure which shows the state which displayed the working time on the schedule screen 40 which concerns on Embodiment 1. FIG. The figure which shows the state which displayed the work time after the change on the schedule screen 40 which concerns on Embodiment 1. FIG. The flowchart of the time calculation process which concerns on Embodiment 1. The block diagram of the plan support apparatus 10 which concerns on modification 2. The block diagram of the plan support apparatus 10 which concerns on Embodiment 2. FIG. FIG. 5 is a flowchart showing the overall operation of the planning support device 10 according to the second embodiment. The figure which shows the state which displayed the working time on the schedule screen 40 which concerns on Embodiment 2. FIG. The figure which shows the state which displayed the work time after the change on the schedule screen 40 which concerns on Embodiment 2. FIG. The figure which shows the state which displayed the working time after the first change on the schedule screen 40 which concerns on Embodiment 2. FIG. The figure which shows the state which displayed the working time after the second change on the schedule screen 40 which concerns on Embodiment 2. FIG.

Embodiment 1.
In the present embodiment, the planning support device 10 supports the user in determining the start time of the target work by displaying the schedule screen for changing the start time of the target work to the user. The user is the person in charge of executing the target work.

*** Explanation of configuration ***
The configuration of the planning support device 10 according to the first embodiment will be described with reference to FIG.
The planning support device 10 is a computer.
The planning support device 10 includes hardware for a processor 11, a memory 12, a storage 13, and a communication interface 14. The processor 11 is connected to other hardware via a signal line and controls these other hardware.

The processor 11 is an IC (Integrated Circuit) that performs processing. Specific examples of the processor 11 are a CPU (Central Processing Unit), a DSP (Digital Signal Processor), and a GPU (Graphics Processing Unit).

The memory 12 is a storage device that temporarily stores data. Specific examples of the memory 12 are SRAM (Static Random Access Memory) and DRAM (Dynamic Random Access Memory).

The storage 13 is a storage device for storing data. As a specific example, the storage 13 is an HDD (Hard Disk Drive). The storage 13 includes SD (registered trademark, Secure Digital) memory card, CF (CompactFlash, registered trademark), NAND flash, flexible disk, optical disk, compact disk, Blu-ray (registered trademark) disk, DVD (Digital Versaille Disk), and the like. It may be a portable recording medium.

The communication interface 14 is an interface for communicating with an external device. As a specific example, the communication interface 14 is a port of Ethernet (registered trademark), USB (Universal Serial Bus), HDMI (registered trademark, High-Definition Multimedia Interface).

The planning support device 10 includes a target reception unit 21, a time reception unit 22, a time calculation unit 23, a display unit 24, and a processing control unit 25 as functional components. The functions of each functional component of the planning support device 10 are realized by software.
The storage 13 stores a program that realizes the functions of each functional component of the planning support device 10. This program is read into the memory 12 by the processor 11 and executed by the processor 11. As a result, the functions of each functional component of the planning support device 10 are realized.

The storage 13 stores the reference time table 31, the condition table 32, and the factor information table 33.

In FIG. 1, only one processor 11 was shown. However, the number of processors 11 may be plural, and the plurality of processors 11 may execute programs that realize each function in cooperation with each other.

The operation of the planning support device 10 according to the first embodiment will be described with reference to FIGS. 2 to 9.
The operation of the planning support device 10 according to the first embodiment corresponds to the planning support method according to the first embodiment. Further, the operation of the planning support device 10 according to the first embodiment corresponds to the processing of the planning support program according to the first embodiment.

In the first embodiment, a case where a plan for snow removal work on an airport runway and a taxiway is made will be described as an example. Snow removal work is affected by weather conditions such as the amount of snowfall.

The reference time table 31 according to the first embodiment will be described with reference to FIG.
The reference time table 31 stores the reference time and the coefficient for each condition for each facility.
The facility is a facility that may perform the target work. In Embodiment 1, the facility is a runway and a taxiway. Further, in the first embodiment, the target work is snow removal work. The reference time is a time determined based on the time taken for the target work performed in the past. In the first embodiment, the reference time is the average value of the time taken for the snow removal work carried out when the amount of snowfall is 0 (there is a amount of snowfall). The conditions are determined based on the factor information that affects the target work. In the first embodiment, the conditions are determined based on the meteorological information affecting the snow removal work. The coefficient is a value to be multiplied by the reference time according to the conditions. By multiplying the coefficient by the reference time, the working time according to the conditions is calculated.

The condition table 32 according to the first embodiment will be described with reference to FIG.
The condition table 32 stores one or more condition elements for each condition. The conditional element is an element of factor information for determining the condition. In the first embodiment, the conditional elements are elements of meteorological information, such as the amount of snowfall, the air temperature, the surface temperature, and the underground temperature.

The factor information table 33 according to the first embodiment will be described with reference to FIG.
The factor information table 33 stores factor information that affects the target work for each time. In the first embodiment, the factor information is meteorological information, and the snowfall amount, the air temperature, the surface temperature, and the underground temperature are stored as the factor information. As for the weather information, the actual value is stored before the current time, and the predicted value is stored after the current time. The weather information is periodically acquired and updated from, for example, an external server.

The overall operation of the planning support device 10 according to the first embodiment will be described with reference to FIG.
(Step S11: First display process)
As shown in FIG. 6, the display unit 24 is a schedule screen showing a weather information display column 41 and a snow removal work schedule display column 42 for each facility for a certain period from the past to the future including the current time. 40 is displayed.
At this time, the display unit 24 acquires the weather information for a certain period from the past to the future including the current time from the factor information table 33, sets the acquired weather information in the weather information display field 41, and then sets the schedule screen. 40 is displayed.

(Step S12: Target reception process)
The target reception unit 21 accepts inputs of one or more facilities for which a plan for snow removal work is made.
Specifically, the facility is selected by the user from the facilities shown on the schedule screen 40 displayed in step S11. The target reception unit 21 accepts the selected facility as a target facility for making a plan.

(Step S13: Time reception process (first time))
The time reception unit 22 receives input of the start time of the snow removal work for each facility received in step S12.
Specifically, for each facility, the time is specified by the user on the schedule screen 40 displayed in step S11 for the target facility. The time reception unit 22 receives the time specified for the target facility as the start time for the target facility.

(Step S14: Time calculation process (first time))
The time calculation unit 23 acquires the weather information about the start time received in step S13 from the factor information table 33 for each facility received in step S12. Then, the time calculation unit 23 calculates the work time required for the snow removal work for the target facility based on the weather information.
The time calculation process will be described in detail later.

(Step S15: Second display process (first time))
The display unit 24 displays a schedule screen 40 showing the start time received in step S13 and the work time calculated in step S14 for each facility received in step S12.
Specifically, as shown in FIG. 7, the display unit 24 targets each facility received in step S12, and is a column of the target facility in the schedule display column 42 of the schedule screen 40 displayed in step S11. In, a figure showing the calculated working time for the target facility is set at the start time position. In FIG. 7, the runway A, the taxiway a, and the taxiway b are selected, and the working hours of the runway A, the taxiway a, and the taxiway b are shown by the length of the long side. The rectangular figure is set at the start time position.

(Step S16: End determination process)
Then, the user refers to the schedule screen displayed in step S15, and considers whether or not to adopt the plan shown in the schedule screen 40. When adopted, the registration button on the schedule screen 40 is pressed. Then, the processing control unit 25 ends the processing. At this time, the processing control unit 25 writes the start time and the working time displayed on the schedule screen 40 into the memory 12. Further, the processing control unit 25 may transmit the start time and the working time displayed on the schedule screen 40 to the user's terminal. Further, when there are a plurality of stakeholders regarding the target work, the same information as the information to be transmitted to the user's terminal may be transmitted to the terminal possessed by the stakeholders. Stakeholders in this embodiment include airport managers, air traffic controllers, airlines, airport buildings, and the like.
On the other hand, when the plan is changed, the process is returned to step S13.

The process when the process is returned to step S13 in step S16 will be described.
(Step S13: Time reception process (second and subsequent times))
When the time reception unit 22 receives a change in the start time for at least a part of the facilities received in step S12, the process shifts from step S16 to step S13.
Specifically, for each facility whose start time needs to be changed, the time is specified by the user on the schedule screen 40 displayed in step S11 for the target facility. The time reception unit 22 receives the time specified for the target facility as the start time for the target facility.

(Step S14: Time calculation process (second and subsequent times))
The time calculation unit 23 acquires the weather information about the start time after the change for each facility whose start time has been changed from the factor information table 33. Then, the time calculation unit 23 recalculates the work time required for the snow removal work for the target facility based on the acquired weather information.

(Step S15: Second display process (second and subsequent times))
The display unit 24 displays a schedule screen showing the start time after the change and the work time recalculated in step S14.
Specifically, as shown in FIG. 8, the display unit 24 is set in the target facility column in the schedule display column 42 of the schedule screen 40 for each facility whose start time has been changed in step S13. Change the length of the long side of the rectangular figure to the length indicating the recalculated working time, and change the position of the rectangular figure to the position of the start time after the change. In FIG. 8, the start times of the taxiway a and the taxiway b have been changed, and the lengths of the rectangular figures of the taxiway a and the taxiway b have been changed, and the positions have been changed. It is set at the start time position.
In step S13, the time reception unit 22 sets the reception of the designation or change of the start time from the user at the position of the bar (start position display bar) displayed vertically according to the start time of the schedule screen 40. It can be configured as follows. At this time, the user moves the start position display bar to an arbitrary position by mouse operation or touch operation, and then presses the plan button. In step S14, the time calculation unit 23 executes the time calculation process in which the start time is specified or changed according to the designation from the user.

The time calculation process according to the first embodiment will be described with reference to FIG.
(Step S141: Reference time acquisition process)
The time calculation unit 23 acquires the reference time for the target facility from the reference time table 31.

(Step S142: Condition specifying process)
The time calculation unit 23 refers to the condition table 32 and specifies the condition corresponding to the weather information about the start time. Specifically, the time calculation unit 23 refers to the condition table 32 and specifies the condition corresponding to the predicted value of the weather information immediately after the start time.
At this time, if the conditions corresponding to the meteorological information are not uniquely determined, the conditions that more closely match the condition elements may be selected. Alternatively, if there is no match, a more approximate condition may be selected. In this case, the conditions in the condition table 32 may be changed to include the relevant weather information.

(Step S143: Working time calculation process)
The time calculation unit 23 acquires the coefficient corresponding to the condition specified in step S142 from the reference time table 31. The time calculation unit 23 multiplies the reference time acquired in step S141 by the acquired coefficient to calculate the work time required for the snow removal work for the target facility.

*** Effect of Embodiment 1 ***
As described above, in the planning support device 10 according to the first embodiment, the work time is recalculated and reflected on the schedule screen 40 by changing the start time. This makes it easier to plan work that is affected by external factors. In particular, by appropriately changing the start time in consideration of the detailed requirements that change from time to time, it becomes possible to make a work plan that satisfies the detailed requirements.

For example, as shown in FIG. 7, in the first process of step S13, an appropriate start time is specified and the working time for each facility is displayed. This makes it possible to grasp the rough working time for each facility. The rough working time is used because the working time changes depending on the start time.
Then, after grasping the rough work time, change the start time of at least some facilities in consideration of detailed requirements such as which facility has the highest priority and whether there is a facility that can work in parallel. To do. Every time the start time is changed, the change is reflected on the schedule screen 40 as shown in FIG. Therefore, it is possible to make an appropriate plan by repeating the change of the start time.

*** Other configurations ***
<Modification example 1>
In the first embodiment, it is assumed that the user inputs the start time for each facility in the process of step S13 executed for the first time. However, in the process of step S13 executed for the first time, it may be difficult for the user to input an appropriate start time for each facility. Therefore, a common start time may be input to all the facilities received in step S12. Further, the current time may be treated as a common start time for all facilities without allowing the user to input the start time.
As a result, in the processes from step S13 to step S15 executed for the first time, the work time as a rough guideline is displayed, and in the processes from step S13 to step S15 for the second and subsequent steps, the plan is gradually approached to an appropriate plan. You can go.

<Modification 2>
In the first embodiment, each functional component is realized by software. However, as a modification 2, each functional component may be realized by hardware. The difference between the second modification and the first embodiment will be described.

The configuration of the planning support device 10 according to the second modification will be described with reference to FIG.
When each functional component is realized by hardware, the planning support device 10 includes an electronic circuit 15 instead of the processor 11, the memory 12, and the storage 13. The electronic circuit 15 is a dedicated circuit that realizes the functions of each functional component, the memory 12, and the storage 13.

Examples of the electronic circuit 15 include a single circuit, a composite circuit, a programmed processor, a parallel programmed processor, a logic IC, a GA (Gate Array), an ASIC (Application Specific Integrated Circuit), and an FPGA (Field-Programmable Gate Array). is assumed.
Each functional component may be realized by one electronic circuit 15, or each functional component may be distributed and realized by a plurality of electronic circuits 15.

<Modification example 3>
As a modification 3, some functional components may be realized by hardware, and other functional components may be realized by software.

The processor 11, the memory 12, the storage 13, and the electronic circuit 15 are referred to as processing circuits. That is, the function of each functional component is realized by the processing circuit.

Embodiment 2.
The second embodiment is different from the first embodiment in that it is determined whether or not the target work needs to be performed again between the time when the work is performed and the time specified. In the second embodiment, these different points will be described, and the same points will be omitted.

*** Explanation of configuration ***
The configuration of the planning support device 10 according to the second embodiment will be described with reference to FIG.
The planning support device 10 is different from the planning support device 10 according to the first embodiment in that the determination unit 26 is provided as a functional component.

*** Explanation of operation ***
The operation of the planning support device 10 according to the second embodiment will be described with reference to FIGS. 12 to 14.
The operation of the planning support device 10 according to the second embodiment corresponds to the planning support method according to the second embodiment. Further, the operation of the planning support device 10 according to the second embodiment corresponds to the processing of the planning support program according to the second embodiment.

The overall operation of the planning support device 10 according to the second embodiment will be described with reference to FIG.
The processing of steps S21 to S24 is the same as the processing of steps S11 to S14 of FIG. Further, the process of step S29 is the same as the process of step S16 of FIG.

The processing of steps S25 to S27 is executed for each facility received in step S22.
(Step S25: Judgment process (first time))
The determination unit 26 acquires the weather information of the target facility after the work time has elapsed from the start time, that is, after the snow removal work, from the factor information table 33. Then, based on the acquired weather information, the determination unit 26 determines whether or not it is necessary to perform the snow removal work again between the time when the work time has elapsed from the start time and the time between the designated time. The designated time is, as a specific example, the operation end time of the airport. That is, in this case, the determination unit 26 determines whether or not it is necessary to perform the snow removal work again between the time when the snow removal work is completed and the time when the airport operation ends.
Specifically, the determination unit 26 determines whether or not the snow removal work needs to be performed again, depending on whether or not the weather information after the snow removal work satisfies the snow removal unnecessary condition. The conditions for not requiring snow removal are determined by the amount of snowfall, temperature, and so on. The snow removal unnecessary condition may be set by using the factor information stored in the factor information table 33.
When it is necessary to perform the snow removal work again, the determination unit 26 proceeds to step S26. On the other hand, when it is not necessary to perform the snow removal work again, the determination unit 26 proceeds with the process after step S27.

(Step S26: Required time identification process (first time))
The determination unit 26 identifies the required time when it is necessary to perform the snow removal work again.
Specifically, the determination unit 26 compares the weather information of the target facility after the work time has elapsed from the start time with the snow removal unnecessary condition in order, and sets the time when the snow removal unnecessary condition is not satisfied first as the required time. Identify as.

(Step S27: Second time calculation process (first time))
The time calculation unit 23 acquires the weather information about the required time from the factor information table 33, and calculates the rework time required for the snow removal work of the target facility based on the acquired weather information.
The second time calculation process is the same as the time calculation process described with reference to FIG. However, it is necessary to read the start time in the time calculation process as the required time.

(Step S18: Second display process (first time))
The display unit 24 displays a schedule screen 40 showing the start time received in step S23 and the work time calculated in step S24 for each facility received in step S22. At this time, the display unit 24 displays the schedule screen 40 showing the determination result determined in step S25. Further, the display unit 24 displays a schedule screen 40 indicating the required time specified in step S26 and the rework time calculated in step S27 when the determination result indicates that snow removal work is required.
Specifically, as shown in FIG. 13, the display unit 24 targets each facility received in step S22, and is a column of the target facility in the schedule display column 42 of the schedule screen 40 displayed in step S21. In, a figure showing the calculated working time for the target facility is set at the start time position. In addition, the display unit 24 sets the determination result in the column of the target facility in the display column 42 of the schedule. Further, when the determination result shows that the snow removal work is required, the display unit 24 sets a figure indicating the rework time at the position of the required time. In FIG. 13, it is determined that snow removal work is required for each of the runway A, the taxiway a, and the taxiway b, the character “necessary” indicating the determination result is set, and the rework time is set. The figure indicating is set at the required time position.

The process when the process is returned to step S23 in step S29 will be described.
Steps S23 to S24 are the same as the processes from step S13 to step S14 when the process is returned to step S13 in step S16 in the first embodiment.

The processing of steps S25 to S27 is executed for each facility whose start time has been changed in step S23.
(Step S25: Judgment process (second and subsequent times))
The determination unit 26 acquires the weather information of the target facility after the work time has elapsed from the start time after the change, that is, after the snow removal work, from the factor information table 33. Then, based on the acquired weather information, the determination unit 26 determines whether or not it is necessary to perform the snow removal work again between the start time after the change and the lapse of the work time and the designated time. ..
When it is necessary to perform the snow removal work again, the determination unit 26 proceeds to step S26. On the other hand, when it is not necessary to perform the snow removal work again, the determination unit 26 proceeds with the process after step S27.

(Step S26: Required time identification process (second and subsequent times))
The determination unit 26 respecifies the required time when it is necessary to perform the snow removal work again.
Specifically, the determination unit 26 compares the weather information of the target facility after the work time has elapsed from the start time after the change with the snow removal unnecessary condition in order, and does not satisfy the snow removal unnecessary condition at first. Respecify the time as the required time.

(Step S27: Second time calculation process (second and subsequent times))
The time calculation unit 23 acquires the weather information about the required time from the factor information table 33, and recalculates the rework time required for the snow removal work of the target facility based on the acquired weather information.

(Step S18: Second display process (second and subsequent times))
The display unit 24 displays a schedule screen showing the start time after the change and the work time recalculated in step S24. At this time, the display unit 24 displays a schedule screen 40 showing the determination result determined in step S25 and the required time and re-working time when the determination result requires snow removal work.
Specifically, as shown in FIG. 14, the display unit 24 is set in the target facility column in the schedule display column 42 of the schedule screen 40 for each facility whose start time has been changed in step S23. Change the length of the rectangular figure to the length indicating the recalculated working time, and change the position of the rectangular figure to the position of the start time after the change. In addition, the determination result and the required time and rework time are set as necessary. In FIG. 14, the start times of the runway A, the taxiway a, and the taxiway b are changed, and the lengths of the rectangular figures of the runway A, the taxiway a, and the taxiway b are different. It has been changed and is set to the position of the start time after the position has been changed. Further, in FIG. 14, it is determined that the runway A, the taxiway a, and the taxiway b do not require snow removal work, and "clear" is shown next to the figure showing the work time.

*** Effect of Embodiment 2 ***
As described above, the planning support device 10 according to the second embodiment determines whether or not the snow removal work is required again after the snow removal work, and if necessary, determines the required time and the rework time. Identify. This makes it possible to make a plan so that the snow removal work will not be required again after the snow removal work is completed.

For example, as shown in FIG. 13, it is assumed that the snow removal work is required again for all the facilities in the first treatment. At this time, first, as shown in FIG. 15, by adjusting the start time of the runway A having a high priority, the disclosure time is specified so that the snow removal work is not required again for the runway A. When the start time for runway A is determined and the work time for runway A is determined, as shown in FIG. 16, the start time for taxiway a and taxiway b is set after the work for runway A is completed. change. If it is necessary to remove snow from at least one of the taxiway a and the taxiway b again, try changing the start time of at least one of the taxiway a and the taxiway b. As a result, it is possible to make a plan for the snow removal work of each facility so that the snow removal work is not required again after the snow removal work is completed.

10 Planning support device, 11 Processor, 12 Memory, 13 Storage, 14 Communication interface, 15 Electronic circuit, 21 Target reception unit, 22 Time reception unit, 23 Time calculation unit, 24 Display unit, 25 Processing control unit, 26 Judgment unit, 31 reference time table, 32 condition table, 33 factor information table, 40 schedule screen, 41 weather information display column, 42 schedule display column.

Claims (7)

Time calculation that acquires the factor information about the start time from a storage device that stores factor information that affects the target work for each time, and calculates the work time required for the target work based on the acquired factor information. Department and
A display unit that displays a schedule screen showing the start time and the work time calculated by the time calculation unit.
It is equipped with a time reception unit that accepts changes in the start time.
The time calculation unit acquires the factor information about the start time after the change from the storage device, recalculates the work time required for the target work based on the acquired factor information, and recalculates the work time.
The display unit is a planning support device that displays a schedule screen showing the start time after the change and the work time recalculated by the time calculation unit. The planning support device according to claim 1, wherein the schedule screen shows a figure showing the working time at the position of the start time. The planning support device further
It is necessary to acquire the factor information after the work time has elapsed from the start time from the storage device and perform the target work again between the start time and the time after the work time has elapsed until the designated time. Equipped with a judgment unit that determines whether or not there is
The planning support device according to claim 1 or 2, wherein the display unit displays a schedule screen showing a result determined by the determination unit. The determination unit identifies the required time when it is necessary to perform the target work again.
The time calculation unit acquires the factor information about the required time from the storage device, calculates the rework time required for the target work based on the acquired factor information, and calculates the rework time required for the target work.
The planning support device according to claim 3, wherein the display unit displays a schedule screen showing the required time and the reworking time. The target work is snow removal work,
The planning support device according to any one of claims 1 to 4, wherein the factor information is meteorological information including the amount of snowfall. The time calculation unit acquires the factor information about the start time from the storage device that stores the factor information affecting the target work for each time, and the work time required for the target work based on the acquired factor information. Calculate and
The display unit displays a schedule screen showing the start time and the work time.
The time reception department accepts the change of the start time,
The time calculation unit acquires the factor information about the start time after the change from the storage device, recalculates the work time required for the target work based on the acquired factor information, and recalculates the work time.
A planning support method in which the display unit displays a schedule screen showing the start time after the change and the recalculated work time. Time calculation that acquires the factor information about the start time from a storage device that stores factor information that affects the target work for each time, and calculates the work time required for the target work based on the acquired factor information. Processing and
A display process for displaying a schedule screen showing the start time and the work time calculated by the time calculation process.
The computer is made to function as a planning support device that performs the time reception process for accepting the change of the start time.
In the time calculation process, the factor information about the start time after the change is acquired from the storage device, and the work time required for the target work is recalculated based on the acquired factor information.
The display process is a planning support program that displays a schedule screen showing the start time after the change and the work time recalculated by the time calculation process.

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