WO2016158801A1 - 作業計画システム、作業計画方法、意思決定支援システム、コンピュータプログラム、及び記録媒体 - Google Patents
作業計画システム、作業計画方法、意思決定支援システム、コンピュータプログラム、及び記録媒体 Download PDFInfo
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Definitions
- the present invention relates to a work plan system, a work plan method, a decision support system, a computer program, and a recording medium.
- Patent Document 1 and Patent Document 2 disclose an example of a decision support system.
- Patent Document 3 discloses an example of an image processing apparatus that transmits information when a disaster occurs.
- aspects of the present invention aim to provide a work plan system, a work plan method, a computer program, and a recording medium, capable of appropriately planning the work of measures against facility events at the time of abnormality such as disaster occurrence.
- Another object of the present invention is to provide a decision support system capable of effectively supporting decision making using data on planned tasks.
- an event data acquisition unit acquiring event data indicating an event of a facility, and a storage unit storing a plurality of operation data indicating contents of work that can be performed on the facility;
- a work planning system comprising: a determination unit that determines the importance of each of a plurality of pieces of work data based on the event data.
- the first aspect of the present invention it is possible to appropriately plan the work of measures against the events of the facility by determining the importance of each of the plurality of work data based on the event data.
- the event data may include scenario data indicating the inferred event of the facility.
- a display control unit may be provided that causes a display device to display a plurality of pieces of work data in association with importance data indicating the importance.
- the display control unit further includes a progress data acquisition unit that acquires progress data indicating the progress of each of the plurality of tasks, and the display control unit converts the task data and the importance data into the progress data. It may be displayed in association with the display device.
- the display control unit is configured to display time data indicating the scheduled end time on the display device, and an estimation unit configured to estimate the scheduled termination time of the work based on the progress data.
- the display control unit includes a work status data acquisition unit that acquires work status data indicating whether or not each of the plurality of tasks is normally performed, and the display control unit is normally implemented.
- the display data may be displayed on the display device in different designs, and the work data that is not properly implemented.
- a work planning system according to the first aspect, and information sharing abnormality data including the work data associated with the importance data necessary at the time of abnormality via a network.
- a decision support system is provided, which comprises a management unit and supports decision making of countermeasures in the event of an abnormality.
- the abnormality data including the work data is shared by the relevant parts, it is possible to effectively support the decision making using the abnormality data.
- the abnormality data may be data changed at a change rate exceeding a predetermined reference value.
- acquiring event data indicating an event of a facility acquiring a plurality of task data indicating contents of work that can be performed on the facility, and the event data And determining a degree of importance of each of the plurality of pieces of work data.
- a work planning system capable of appropriately planning the work of measures against facility events at the time of abnormality such as disaster occurrence.
- a decision support system capable of effectively supporting decision making using data on planned work.
- FIG. 1 is a figure which shows typically an example of the plant which concerns on 1st Embodiment.
- FIG. 2 is a block diagram showing an example of the hardware configuration of the portable terminal and the management system according to the first embodiment.
- FIG. 3 is a view showing an example of the portable terminal according to the first embodiment.
- FIG. 4 is a view showing an example of the portable terminal according to the first embodiment.
- FIG. 5 is a view showing an example of the display device according to the first embodiment.
- FIG. 6 is a functional block diagram showing an example of a management system according to the first embodiment.
- FIG. 7 is a flowchart showing an example of a work planning method according to the first embodiment.
- FIG. 8 is a view showing an example of the display device according to the first embodiment.
- FIG. 1 is a figure which shows typically an example of the plant which concerns on 1st Embodiment.
- FIG. 2 is a block diagram showing an example of the hardware configuration of the portable terminal and the management system according to the first embodiment
- FIG. 9 is a view showing an example of the display device according to the first embodiment.
- FIG. 10 is a view showing an example of the display device according to the first embodiment.
- FIG. 11 is a diagram showing an example of a decision support system according to the second embodiment.
- FIG. 12 is a view showing an example of a display device according to the third embodiment.
- FIG. 13 is a view showing an example of a recording medium according to the present embodiment.
- FIG. 1 is a figure which shows typically an example of the plant 1 which concerns on this embodiment.
- the plant 1 is a nuclear power plant that generates electricity using nuclear power.
- the plant 1 has a nuclear reactor system including a nuclear reactor, and a turbine system including a steam turbine and a generator.
- a nuclear reactor is a light water reactor that uses light water as a core coolant and a neutron moderator.
- the reactor system includes a primary cooling system through which primary cooling water circulates.
- the turbine system includes a secondary cooling system through which secondary cooling water circulates.
- the reactor system (primary cooling system) and the turbine system (secondary cooling system) are separated by a steam generator.
- the reactor system generates high-temperature and high-pressure primary cooling water (hot water), supplies the hot water to the steam generator, and the steam generator generates the primary cooling water (hot water) and the secondary cooling water.
- a pressurized water reactor PWR: Pressurized Water Reactor
- the nuclear power plant is a pressurized water nuclear power plant.
- the reactor system heats the primary cooling water with thermal energy generated by the nuclear reaction in a state where the primary cooling water is pressurized to raise the boiling point of the primary cooling water.
- the reactor system heats pressurized pressurized water to generate high temperature and high pressure hot water, and supplies the hot water to the steam generator.
- primary cooling water is heated so as not to boil.
- the turbine system converts the secondary cooling water into high temperature and high pressure steam by heat exchange with the primary cooling water (hot water).
- the steam operates a steam turbine. The operation of the steam turbine causes the generator to operate to generate power.
- a plurality of structures 2 are arranged in the site of plant 1.
- the structure 2 is a first structure (building) 2A in which a reactor system and a turbine system are arranged, and a second structure (management building) 2B in which at least a part of a management system 1000 for managing the plant 1 is arranged. And.
- the reactor system and the turbine system have a plurality of existing devices 3.
- the existing equipment 3 includes an existing pump 3A and an existing power supply 3B.
- the existing power supply 3B includes an internal power supply, an external power supply, an emergency power supply (emergency generator), and a battery power supply.
- the existing device 3 includes an electrical device operated by the supplied power.
- the electrical device includes, for example, an existing pump 3A.
- the management system 1000 manages the plant 1.
- the management system 1000 includes a computer system 4 and a display device 5.
- the computer system 4 and the display device 5 are disposed in the second structure 2B.
- a portable device 6 is provided in the plant 1.
- the portable device 6 is supported by the vehicle 7.
- the portable device 6 is transported by the vehicle 7.
- the portable device 6 includes a portable pump 6A and a portable power source 6B.
- the vehicle 7 includes a vehicle 7A that carries the portable pump 6A and a vehicle 7B that carries the portable power source 6B.
- the portable device 6 and the vehicle 7 are appropriately referred to as an equipment car 8
- the portable pump 6A and the vehicle 7A are appropriately referred to as a pump car 8A
- a portable power source 6B and a vehicle 7B is appropriately referred to as a power source car 8B
- the equipment car 8 includes a pump car 8A and a power car 8B.
- the existing device 3 When an abnormality occurs in the existing device 3, the existing device 3 is replaced by the portable device 6.
- the portable device 6 (device car 8) is arranged (stored) at the standby position PJ1 of the plant 1.
- the portable device 6 is transported from the standby position PJ1 to the predetermined position PJ2 for substitution, and operates in place of the existing device 3.
- the worker In the plant 1, a plurality of workers operate.
- the worker carries the portable terminal 9.
- the portable terminal 9 includes a portable computer such as a smartphone or a tablet personal computer.
- FIG. 2 is a block diagram showing the hardware configuration of the portable terminal 9 and the management system 1000 according to the present embodiment.
- the portable terminal 9 includes an arithmetic processing unit 9A, a storage unit 9B, a display unit 9C, an input unit 9D, an audio output unit 9E, an audio input unit 9F, a photographing unit 9G, and an input / output interface unit 9H. And a communication device 9K.
- the arithmetic processing unit 9A includes a microprocessor such as a CPU (Central Processing Unit).
- the storage device 9B includes a memory and a storage such as a read only memory (ROM) or a random access memory (RAM).
- ROM read only memory
- RAM random access memory
- the display device 9C includes a flat panel display such as a liquid crystal display (LCD) or an organic electroluminescence display (OLED).
- the input device 9D generates input data by being operated.
- the input device 9D includes a touch sensor provided on the display screen of the display device 9C.
- the display device 9C includes a touch panel.
- the audio output device 9E includes a speaker.
- the voice input device 9F includes a microphone.
- the photographing device 9G has a video camera function capable of acquiring moving image data of a subject, and a still camera function capable of acquiring still image data of the subject.
- the imaging device 9G includes an optical system and an imaging element that acquires imaging data of a subject via the optical system.
- the imaging device includes a charge coupled device (CCD) image sensor or a complementary metal oxide semiconductor (CMOS) image sensor.
- CCD charge coupled device
- CMOS complementary metal oxide semiconductor
- the input / output interface unit 9H performs data communication among the arithmetic processing unit 9A, the storage unit 9B, the display unit 9C, the input unit 9D, the voice output unit 9E, the voice input unit 9F, the photographing unit 9G and the communication unit 9K.
- the communication device 9 K wirelessly communicates data with the management system 1000.
- the communication device 9 ⁇ / b> K performs data communication with the management system 1000 using at least one of a cellular phone communication network, an internet connection, and a local area network.
- the management system 1000 includes a computer system 4.
- the management system 1000 includes an arithmetic processing unit 1002, a storage unit 1004, a display unit 5, an input unit 20, an audio output unit 5S, an input / output interface unit 1006, and a communication unit 21.
- the processing unit 1002 includes a microprocessor such as a CPU.
- the storage device 1004 includes memory and storage such as ROM or RAM.
- the arithmetic processing unit 1002 executes arithmetic processing in accordance with a computer program stored in the storage unit 1004.
- the display device 5 includes a flat panel display.
- the input device 20 generates input data by being operated.
- the input device 20 includes at least one of a keyboard and a mouse.
- the input device 20 may include a touch sensor provided on the display screen of the display device 5.
- the audio output device 5S includes a speaker.
- the input / output interface device 1006 performs data communication between the arithmetic processing unit 1002, the storage unit 1004, the display unit 5, the input unit 20, the audio output unit 5S, and the communication unit 21.
- the communication device 21 wirelessly communicates data with the portable terminal 9.
- the communication device 21 performs data communication with the mobile terminal 9 using at least one of a mobile telephone communication network, an internet connection, and a local area network.
- the portable terminal 9 and the management system 1000 may communicate data by wire. Further, the management system 1000 can perform data communication with the position detection device 22 provided in the portable device 6 and the monitoring camera 23 provided in the plant 1.
- FIG. 3 is a view showing an example of the portable terminal 9 according to the present embodiment.
- the worker can use the camera of the portable terminal 9 to acquire images or videos (moving images) of various positions (places) of the plant 1.
- the worker can use the voice input device 9F of the portable terminal 9 to obtain voices of various places of the plant 1.
- An operator can acquire an image of a runway (road) provided on the site of the plant 1 using the imaging device 9G.
- the operator can obtain an image of the inside of the structure 2 using the imaging device 9G.
- the image of the plant 1 acquired by the imaging device 9G of the portable terminal 9 is wirelessly transmitted to the management system 1000.
- FIG. 4 is a view showing an example of the portable terminal 9 according to the present embodiment.
- the equipment car 8 vehicle 7) is operated (driven) by the worker.
- the worker can drive the equipment car 8 while looking at the display device 9C of the portable terminal 9.
- the data transmitted from the management system 1000 to the portable terminal 9 is displayed on the display device 9C of the portable terminal 9.
- the worker can drive while watching the data displayed on the display device 9C of the portable terminal 9. Further, the worker can drive using the navigation function of the portable terminal 9.
- the navigation function of the portable terminal 9 includes audio navigation and image navigation.
- FIG. 5 is a diagram showing an example of the display device 5 of the management system 1000 according to the present embodiment.
- the display device 5 includes a touch panel.
- the operator can operate the screen displayed on the display device 5 by touching a touch sensor provided on the display screen of the display device 5.
- the worker can touch the touch sensor of the display device 5 to input an input signal (operation signal).
- the display device 5 includes a plurality of touch panels combined. In the present embodiment, two wide touch panels are arranged vertically and three horizontally. That is, in the present embodiment, the display device 5 includes six combined touch panels.
- the display device 5 includes a six-sided display and a large set of touch sensors covering six sides.
- the display device 5 can display the main screen 5A and the sub screen 5B.
- a plurality of main screens 5A can be displayed in the main screen area for displaying the main screen 5A.
- the sub screen 5B is disposed below the main screen 5A.
- the main screen 5A can display the display data input to the display device 5 using at least one of an image, a numerical value, and a character.
- display data indicating the cooling system and the power supply system of the plant 1 is displayed on the main screen 5A.
- a plurality of sub screens 5B are provided. Each of the sub-screens 5B can display the display data input to the display device 5 using at least one of an image, a numerical value, and a character.
- the display device 5 can highlight a specific sub screen 5B among the plurality of sub screens 5B.
- the priority (importance) of display data is set to three levels.
- the sub screen 5B (5Bb) displaying the first priority display data having the highest priority is emphasized by the display having the pop-up or the motion.
- the sub-screen 5B (5Ba) displaying the second priority display data having the second highest priority to the first priority display data is emphasized by displaying a colored frame around it.
- the sub screen 5B (5Ba) may be emphasized by displaying a frame displayed in a blinking manner around the sub screen 5B (5Ba).
- the sub screen 5B displaying the third priority display data having the lowest priority is not emphasized.
- the display device 5 has an audio output device 5S that outputs audio data.
- the audio output device 5S includes a speaker.
- the display device 5 can generate a sound by using the audio output device 5S.
- FIG. 6 is a functional block diagram showing an example of a management system 1000 according to the present embodiment.
- the management system 1000 includes a computer system 4 and a display device 5.
- the management system 1000 includes a work planning system 10 that plans work in the plant 1.
- the management system 1000 includes a decision support system 100 that supports the decision making of measures against various events at the time of abnormality such as at the time of disaster occurrence.
- the functions of the work planning system 10 are exerted by computer programs stored in the processing unit 1002 and the storage unit 1004 of the computer system 4.
- the work plan system 10 plans the work to be performed based on the measures determined for the events.
- the contents of work that can be performed on the plant 1 are limited. There are multiple types of work contents that can be performed on the plant 1.
- work data indicating the contents of work that can be performed on the plant 1 is determined in advance. Also, it is possible to add work data that has not been determined in advance.
- event data indicating an event of the plant 1 is acquired. Based on the acquired event data, the importance of each of the plurality of work data is determined.
- the display device 5 displays a plurality of work data in association with the importance.
- progress data indicating the progress status of each of a plurality of tasks is acquired.
- the display device 5 displays the task data and the degree of importance of the task data in association with the progress status of the task.
- An operator can recognize the degree of importance and progress of work data via the display device 5. In this way, work planning is properly implemented.
- the computer system 4 of the management system 1000 includes an interface unit 11, a data acquisition unit 80, an information management unit 12, a determination unit 13, an estimation unit 14, a storage unit 15, a simulation unit 17, and a display control unit 18. And.
- the function of the interface unit 11 is exhibited by the input / output interface device 1006.
- the function of the storage unit 15 is exerted by the storage device 1004.
- the functions of the data acquisition unit 80, the information management unit 12, the determination unit 13, the estimation unit 14, the simulation unit 17, and the display control unit 18 are exhibited by the arithmetic processing unit 1002.
- the management system 1000 includes a database unit 19 connected to the computer system 4, an input device 20 connected to the computer system 4, a display device 5 connected to the computer system 4, a portable terminal 9, a position detection device 22, And a communication device 21 capable of communicating with the monitoring camera 23.
- the communication device 21 may be a wireless communication device or a wired communication device.
- the input device 20 includes at least one of a keyboard, a mouse, a microphone, and a camera, and generates an input signal (operation signal) when operated by an operator. There may be a plurality of input devices 20.
- the display device 5 includes a touch panel
- the input device 20 includes the display unit of the display device 5. An input signal generated by operating the input device 20 is supplied to the interface unit 11.
- the position detection device 22 detects the position of the portable device 6 (equipment car 8), and outputs position data indicating the position of the portable device 6.
- the position detection device 22 includes a GPS (global positioning system).
- a GPS receiver is mounted on the equipment car 8.
- the position detection device 22 includes a GPS receiver mounted on the equipment car 8.
- the position detection device 22 detects the position of the portable device 6 (device car 8) in the global coordinate system.
- Position data indicating the position of the portable device 6 detected by the position detection device 22 is supplied to the interface unit 11 via the communication device 21.
- the position data detected by the position detection device 22 may be temporarily stored and supplied to the wired interface unit 11.
- the monitoring cameras 23 are installed at a plurality of positions of the plant 1.
- the image data acquired by the monitoring camera 23 is supplied to the interface unit 11 via the communication device 21.
- the portable terminal 9 and the computer system 4 may be connected wirelessly or wired. Data communication may be performed in a state where the portable terminal 9 and the computer system 4 are connected by wire.
- the position detection device 22 and the computer system 4 may be connected wirelessly or wired. Data communication may be performed in a state where the position detection device 22 and the computer system 4 are connected by wire.
- the surveillance camera 23 and the computer system 4 may be connected by wire.
- the interface unit 11 acquires data supplied from an external device of the computer system 4.
- the interface unit 11 also supplies data from the computer system 4 to an external device.
- the data acquisition unit 80 has an event data acquisition unit 81 for acquiring event data of the plant 1, a progress data acquisition unit 82 for acquiring work progress data, and a work situation data acquisition unit 83 for acquiring work situation data. .
- the event data acquisition unit 81 acquires event data indicating an event of the plant 1.
- the event data includes one or both of damage data indicating the damage state of the plant 1 and restoration data indicating the restoration state of the damage of the plant 1.
- Event data indicating the damage status of the reactor system or turbine system of the plant 1 or the restoration status of the damage is acquired by the mobile terminal 9.
- Event data acquired by the mobile terminal 9 is supplied from the mobile terminal 9 to the event data acquisition unit 81 via the communication device 21 and the interface unit 11.
- event data indicating the damage status of the reactor system or turbine system of the plant 1 or the restoration status of the damage is acquired by the monitoring camera 23.
- Event data acquired by the monitoring camera 23 is supplied from the portable terminal 9 to the event data acquisition unit 81 via the communication device 21 and the interface unit 11.
- event data indicating an event of the plant 1 is acquired by various sensors provided in the plant 1. Event data acquired by the sensor is supplied from the portable terminal 9 to the event data acquisition unit 81.
- the progress data acquisition unit 82 acquires progress data indicating the progress of each of a plurality of tasks. For example, a worker who holds the portable terminal 9 inputs progress data indicating the progress of the work to the portable terminal 9. The portable terminal 9 acquires progress data. The progress data acquired by the portable terminal 9 is supplied from the portable terminal 9 to the progress data acquiring unit 82 via the communication device 21 and the interface unit 11.
- progress data indicating the progress status of the work may be acquired by various sensors provided in the plant 1.
- the progress data acquired by the sensor is supplied from the sensor to the progress data acquisition unit 82.
- the work status data acquisition unit 83 acquires work status data indicating whether or not each of a plurality of tasks is normally performed. For example, a worker who holds the portable terminal 9 inputs work status data indicating whether or not the work is normally performed to the portable terminal 9. The portable terminal 9 acquires work status data. The work status data acquired by the mobile terminal 9 is supplied from the mobile terminal 9 to the work status data acquisition unit 83 via the communication device 21 and the interface unit 11.
- the work condition data which shows whether the work is normally implemented may be acquired by the various sensors provided in the plant 1.
- the work situation data acquired by the sensor is supplied from the sensor to the work situation data acquisition unit 83.
- the storage unit 15 stores data necessary for work planning.
- the storage unit 15 stores a plurality of work data indicating the contents of work that can be performed on the plant 1.
- the contents of work that can be performed on the plant 1 are limited. There are multiple types of work contents that can be performed on the plant 1.
- the storage unit 15 stores a plurality of work data indicating the contents of work that can be performed on the plant 1. For example, the storage unit 15 stores task data indicating task A, task data indicating task B, task data indicating task C, ..., and task data indicating task Z.
- the determination unit 13 determines the degree of importance of each of the plurality of work data based on the event data acquired by the interface unit 11. For example, when the event A occurs, the determining unit 13 determines that the task B is the most important among the plurality of pieces of task data stored in the storage unit 15, the task E is the second task, and the task E is the second task. Then determine that task H is important. When the event B occurs, the determining unit 13 determines that the task C is the most important among the plurality of pieces of task data stored in the storage unit 15, the task A is the second task, and the task A is the second task Determine that task E is important. In other words, the determination unit 13 ranks the importance of the plurality of work data based on the event data.
- the content of events expected to occur is limited. There are multiple types of contents of events expected to occur.
- the relationship between an event that is expected to occur and the content of work of measures for that event is determined in advance (manualized).
- the relationship between the event that is expected to occur and the degree of importance of the operation of measures for that event is also predetermined (manualized). Those relationships are stored in the storage unit 15.
- the determination unit 13 When a certain event occurs based on the event data acquired by the event data acquisition unit 81 and the storage data stored in the storage unit 15, the determination unit 13 performs a plurality of operations performed on the event. Determine the importance of each task and rank the importance of each task.
- the estimation unit 14 estimates a scheduled end time of the work based on the progress data of the work acquired by the progress data acquisition unit 82.
- the estimation unit 14 is supplied with work progress data, resource data including the number data of the workers engaged in the work, and the skill data of the worker.
- the estimation unit 14 calculates the scheduled end time of the work based on the progress data and the resource data.
- the display control unit 18 controls the display device 5.
- the display control unit 18 processes the data supplied from the data acquisition unit 80 to generate display data to be displayed on the display device 5.
- the interface unit 11 is connected to the plant system 31 via the emergency operation parameter transmission system 32.
- the interface unit 11 is also connected to the subsystem 33.
- the plant system 31 manages plant data of the plant 1.
- the plant data includes operation data of the reactor system and is detected by a sensor disposed in the reactor system.
- the plant data includes, for example, temperature data of the reactor and flow rate data of primary cooling water of the reactor system.
- the data acquisition unit 80 can acquire plant data from the plant system 31.
- event data includes plant data.
- the emergency operation parameter transmission system 32 outputs an operation parameter of the plant 1 at an emergency (at the time of abnormality).
- the data acquisition unit 80 can acquire an emergency operation parameter from the emergency operation parameter transmission system 32.
- the subsystem 33 manages peripheral data of the plant 1 which is different from the plant data.
- the peripheral data includes, for example, weather data.
- the data acquisition unit 80 can acquire peripheral data from the subsystem 33.
- the information management unit 12 manages plant data supplied from the plant system 31.
- the information management unit 12 also manages data supplied from the subsystem 33, the input device 20, and the communication device 21.
- the information management unit 12 manages data stored in the database unit 19.
- the display control unit 18 generates display data to be displayed on the display device 5 from the data managed by the information management unit 12.
- the simulation unit 17 estimates the temporal change of the plant 1 based on the plant data, and generates scenario data (plant estimated data) indicating an event of the plant 1 estimated.
- the event data includes scenario data indicating an estimated plant 1 event.
- the database unit 19 stores event data acquired by the data acquisition unit 80.
- the database unit 19 stores the plant data supplied from the plant system 31, the scenario data generated by the simulation unit 17, and the display data generated by the display control unit 18.
- the information management unit 12 can extract data stored in the database unit 19. Further, the database unit 19 stores data from the subsystem 33, the input device 20, and the communication device 21.
- the event data acquisition unit 81 acquires event data indicating an event of the plant 1 (step SP1).
- the determination unit 13 Based on the event data acquired by the event data acquisition unit 81, the determination unit 13 acquires, from the storage unit 15, work data indicating the content of the operation to be performed for the countermeasure against the event (step SP2).
- the determination unit 13 determines the importance of each of the plurality of pieces of work data extracted from the storage unit 15 based on the event data (step SP3).
- the work by the operator is performed for the event that occurred.
- the contents of the work to be performed are predetermined (manualized) corresponding to the event that has occurred.
- the worker carries out the work corresponding to the event that has occurred.
- the progress data of the work is supplied to the progress data acquisition unit 82.
- the progress data may be supplied to the progress data acquisition unit 82 by the worker holding the portable terminal 9 inputting progress data indicating the progress of the work into the portable terminal 9.
- the progress data acquired by various sensors provided in the plant 1 may be supplied to the interface unit 11.
- the progress data acquisition unit 82 acquires progress data indicating the progress status of each of a plurality of tasks (step SP4).
- work status data acquisition unit 83 is supplied with work status data indicating whether or not each of a plurality of tasks is normally performed. As described above, the worker who holds the mobile terminal 9 inputs work status data indicating whether the work is normally performed to the mobile terminal 9 so that the work status data corresponds to the work status data acquisition unit 83. May be supplied to The work situation data acquired by various sensors provided in the plant 1 may be supplied to the work situation data acquisition unit 83. The work status data acquisition unit 83 acquires work status data indicating whether or not each of a plurality of tasks is normally performed (step SP5).
- the display control unit 18 causes the display device 5 to display the plurality of work data in association with the importance.
- the operation data and the importance are associated with the progress status of the work and displayed on the display device 5 (step SP6).
- the display control unit 18 may cause the display device 5 to display time data indicating the scheduled end time of the work estimated by the estimation unit 14.
- the display control unit 18 associates the work status data acquired by the work status data acquisition unit 83 and indicating whether each of a plurality of tasks is normally performed with the work data, the importance, and the progress status. It may be displayed on the display device 5.
- FIG. 8 is a view showing an example of the display device 5 according to the present embodiment.
- the display control unit 18 displays a plurality of icons (tiles) 40 in the area on the left side of the main screen 5A.
- the icon 40 includes work data 41 indicating the contents of the work, importance data 42 indicating the importance of the work, and progress data 43 on the work.
- the display device 5 includes 12 types of tasks (tasks A, B, C, D, E, F, G, H, I, J, and K). Twelve icons 40 each including work data 41 indicating the contents of the work L) are displayed.
- the display control unit 18 causes the display device 5 to display the plurality of pieces of work data 41 in association with the importance degree data 42.
- the progress data 43 is displayed by a bar.
- the display control unit 18 causes the display device 5 to display the work data 41 and the importance degree data 42 in association with the work progress data 43.
- the display control unit 18 causes the display device 5 to display the work data 41 that is normally performed and the work data 41 that is not normally performed in different designs.
- the display device 5 distinguishes and displays the work data 41 that is normally performed and the work data 41 that is not normally performed by changing the color of the icon 40.
- the icon 40A eg, the task C
- the icon 40C eg, work H
- the display control unit 18 causes the area on the right side of the main screen 5A to display detailed data on one of a plurality of tasks. In the example shown in FIG. 8, the detailed data of the task D is displayed. The data regarding the start time of the work D, the report time when the report from the worker was performed, the instruction content, the instructor, and the reporter (person in charge) are displayed. The display control unit 18 may cause the display device 5 to display time data indicating the scheduled end time of the work D.
- FIG. 9 is a diagram showing another example of the screen of the display device 5.
- the display control unit 18 may graph the work data, the importance degree data, and the progress data and cause the display device 5 to display the graph.
- the work data, the importance degree data, and the progress data are displayed in association with each other.
- work status data is also displayed on the display device 5 in association.
- the horizontal axis of the graph indicates progress data
- the vertical axis of the graph indicates importance data
- the horizontal axis of the graph may indicate importance data
- the vertical axis of the graph may indicate progress data.
- alphabets (A, B, C, D, E, F, G, H, I, J, K, L) indicate work data.
- the figures ( ⁇ , ⁇ , ⁇ ) surrounding the alphabet indicate work status data.
- FIG. 10 is a diagram showing an example of a screen of the display device 5 on which scenario data is displayed.
- the simulation unit 17 estimates the temporal change of the plant 1 based on the plant data (event data), and generates scenario data (plant estimation data) indicating the estimated event of the plant 1 .
- event data acquisition unit 81 acquires event data indicating the event.
- the simulation unit 17 generates, based on the event data acquired by the event data acquisition unit 81, a plurality of scenario data (scenario A, scenario B, scenario C) to be estimated, and probability data of occurrence of these scenarios.
- scenario data scenario A, scenario B, scenario C
- probability data of occurrence of these scenarios.
- the simulation unit 17 generates three scenario data (scenario A, scenario B, scenario C) as scenario data, and the probability that each scenario occurs (60%, 30%, 10%) Generate
- the display control unit 18 causes the display device 5 to display the scenario data and the probability data.
- the determination unit 13 may determine the importance of each of the plurality of pieces of work data based on the scenario data. That is, the determination unit 13 may consider scenario data as event data to determine the importance of each of a plurality of work data.
- the data acquisition unit 80 acquires scenario data from the simulation unit 17.
- the determination unit 13 determines the importance of each of the plurality of work data based on the scenario data acquired by the data acquisition unit 80.
- the display control unit 18 may cause the display device 5 to display a plurality of pieces of work data in association with importance data indicating importance.
- the simulation unit 17 may further generate scenario data based on work data expected to be implemented. In the example shown in FIG. 10, the implementation of work ⁇ is expected.
- the simulation unit 17 may generate scenario data (scenario D) when the work ⁇ is performed and scenario data (scenario E) when the work ⁇ is not performed.
- the importance of each of the plurality of work data is determined based on the event data indicating the event of the plant 1, and the plurality of work data has importance data indicating the importance Since the display is made to correspond to the above, it is possible to appropriately plan the work of measures against the event of the plant 1 based on the display result.
- the worker (administrator) can appropriately plan work by recognizing the display unit of the display device 5 in which the work data and the importance degree data are associated with each other.
- the event data includes scenario data indicating an estimated event of the plant 1.
- progress data indicating the progress status of each of a plurality of tasks is acquired, and the display device 5 displays the task data and the importance data in association with the progress data.
- the scheduled end time of work is estimated based on the progress data, and the display device 5 displays time data indicating the scheduled ending time.
- work status data indicating whether or not each of a plurality of tasks is normally performed is acquired, and the display control unit 18 is normally implemented with the work data normally implemented.
- the display 5 is displayed with a different design from the operation data not being displayed. As a result, the progress of each task is recognized, and the task can be properly planned.
- FIG. 11 is a diagram showing an example of the decision support system 100 according to the present embodiment.
- the decision support system 100 supports decision making of measures in an emergency (abnormal time).
- a plurality of decision support system 100A, decision support system 100B, decision support system 100C, decision support system 100D, and decision support system 100E are capable of data communication via network 70.
- a reactor integrated disaster network is constructed by a plurality of decision support systems (100A, 100B, 100C, 100D, 100E) connected via the network 70.
- a network (reactor integrated disaster network) 70 is a network utilized at the time of integrated disasters related to the reactor.
- Each of the plurality of decision support systems (100A, 100B, 100C, 100D, 100E) has a configuration equivalent to that of the decision support system 100 described in the above embodiment.
- FIG. 11 shows an example in which five decision support systems (100A, 100B, 100C, 100D, 100E) are provided.
- the number of decision support systems connected via the network 70 is arbitrary.
- the decision support system 100A is disposed, for example, in a nuclear power plant.
- the decision support system 100B is disposed, for example, in a power company.
- the decision support system 100C is disposed, for example, in a relevant department of a local government.
- the decision support system 100D is disposed, for example, in relevant departments in the country.
- a country includes at least one of a government policy agency, a regulatory agency, and an off-site center.
- the decision support system 100E is disposed, for example, at a plant maker.
- decision support system 100 when it is not necessary to distinguish a plurality of decision support systems (100A, 100B, 100C, 100D, 100E), they are simply referred to as a decision support system 100.
- each of the plurality of decision support systems 100 includes a synchronization management unit 60.
- the synchronization management unit 60 is connected to each of the interface unit 11 and the information management unit 12.
- the synchronization management unit 60 is connected to the network 70.
- the synchronization management unit 60 of one decision support system 100 shares data with the synchronization management unit 60 of another decision support system 100.
- the synchronization management unit 60 transmits and receives data and updates data through the network 70.
- the synchronization management unit 60 of a certain decision support system 100 receives from the synchronization management unit 60 of another decision support system 100 when it is disconnected from the network 70 and connected again with the network 70 after a predetermined period has elapsed. Update data based on the data.
- the plurality of decision support systems 100 can share data via the network 70.
- a database unit 190 connected to the network 70 is provided.
- the plurality of decision support systems 100 share data with the database unit 190 via the network 70.
- the information management unit 12 causes the display control unit 18 to generate display data based on the abnormal data required at the abnormal time.
- Abnormal data includes data necessary for decision making.
- the information management unit 12 shares abnormal data via the network 70. That is, among the plurality of decision support systems 100, the information management unit 12 of one decision support system 100 shares abnormal data with the information management unit 12 of the other decision support system 100.
- the information management unit 12 transmits and receives abnormal data and updates the abnormal data through the network 70.
- the abnormal data includes the following data.
- personnel resource management information-input from input device 20 (2) backward support (goods transport) information-input from input device 20 (3) radiation monitoring (periphery, inside, in a building) information-network 70 from monitoring post Input via (4) weather information, wind direction information, earthquake information, tsunami information-via network 70 (5) damage situation in the plant (camera image, cliff collapse, recovery situation) information-via interface unit 11 Input from input device 20, portable terminal 9, and monitoring camera (6) Plant core information (fuel temperature, in-furnace temperature, in-furnace pressure, etc.)-input from emergency operation parameter transmission system 32 (7) Progress of plant status Estimated information-input from simulation unit 17 (8) Power transmission information around plant-input from power company via network 70 (9) In-plant response status (portable equipment status) information-input from input device 20 (10) information on materials required to be stored such as reactor design drawings-input from database section 190 via network 70 (11) task management information -Input from input device 20 (12) Fax image information
- the information management unit 12 selects the abnormality data necessary for decision making among the plurality of abnormality data, and generates display data in the display control unit 18 using the selected abnormality data. Let The information management unit 12 of a certain decision support system 100 shares display data with other decision support systems 100 via the network 70.
- Each of the plurality of decision support systems (100A, 100B, 100C, 100D, 100E) is arranged at different relations.
- the locations involved include nuclear power plants, power companies, local governments, countries, and plant manufacturers.
- the abnormal data required for the decision are often different.
- the information management unit 12 of each of the plurality of decision support systems determines the plurality of abnormal data based on the predetermined priority of the abnormal data. Among them, the abnormal state data having a high priority is selected, and the display control unit 18 is caused to generate display data using the selected abnormal state data.
- the selected abnormal data includes the latest data.
- the latest data includes real time data.
- the abnormal time data is input to the information management unit 12 in real time.
- the database unit 190 stores the abnormality data in association with the time when the data is input.
- the information management unit 12 causes the display control unit 18 to generate display data using the latest data.
- the display device 5 displays display data generated using the latest data.
- the selected abnormal data includes abnormal data satisfying the priority display criteria.
- Abnormality data meeting the priority display criteria include highly dangerous abnormality data and highly important abnormality data.
- the information management unit 12 causes the display control unit 18 to generate display data using the abnormality data that satisfies the priority display criteria.
- the display device 5 displays display data generated using the abnormal data that satisfies the priority display criteria.
- the abnormality data that satisfies the priority display criteria include, for example, plant data that has changed at a rate of change that exceeds a predetermined reference value in the plant 1.
- the plant data includes, for example, fuel temperature data indicating a fuel temperature changed at a change rate exceeding a predetermined reference value, an in-furnace temperature data indicating a furnace temperature changed at a change rate exceeding the reference value, and a reference In-furnace pressure data indicating the in-furnace pressure changed at a rate of change exceeding the value.
- the display device 5 displays display data generated based on plant data including the fuel temperature data, the in-furnace temperature data, and the in-furnace pressure data.
- the abnormality data that satisfies the priority display criteria include, for example, peripheral data (such as weather data) that has changed at a rate of change that exceeds a predetermined reference value.
- the surrounding data includes, for example, rainfall amount data indicating the amount of rainfall changed at a change rate exceeding a predetermined reference value, wind speed data indicating a wind speed changed at a change rate exceeding the reference value, Includes seismic intensity data that indicates seismic intensity that has changed in rate.
- the display device 5 displays display data generated based on the surrounding data including the rainfall amount data, the wind speed data, and the seismic intensity data.
- abnormality data that satisfies the priority display criteria may include data supplied from a predetermined organization (for example, a country).
- the information management unit 12 When displaying the display data generated based on the abnormality data satisfying the priority display criteria on the display device 5, the information management unit 12 emphasizes the display data and displays the display data based on the priority (importance). You may As described with reference to FIG. 5, the highlighting includes, for example, a pop-up display in which display data is displayed so as to pop out.
- the information management unit 12 may cause the display control unit 18 to generate display data organized for each countermeasure item based on the abnormal data required for the decision.
- the display device 5 displays the organized display data. Items of measures include the following items. (1) Evacuation time (2) Evacuation route (3) Evacuation site (4) Work procedure (5) Personnel arrangement (6) Worker route (7) Power supply route (8) Types and number of transported goods
- the database unit 190 stores a plurality of abnormal data.
- the information management unit 12 selects among the plurality of abnormality data stored in the database unit 190 the abnormality data required to determine the item of each countermeasure, and uses the selected abnormality data. Generate display data.
- the display device 5 displays the display data.
- the selected abnormal data includes estimated data generated by estimating and calculating temporal changes in abnormal data.
- the simulation unit 17 estimates and calculates temporal changes in plant data collected by the information management unit 12 to generate plant estimation data.
- the information management unit 12 causes the display control unit 18 to generate display data using the plant estimation data generated by the simulation unit 17.
- the display device 5 displays the display data.
- the information management unit 12 acquires necessary plant data (data at the time of abnormality) from the plant system 31. Further, the information management unit 12 acquires necessary peripheral data (data at the time of abnormality) from the subsystem 33. In addition, the information management unit 12 acquires various failure time data via the network 70.
- the information management unit 12 causes the display control unit 18 to generate display data based on the acquired abnormality data.
- the information management unit 12 may process the information input from the input device 20 to cause the display control unit 18 to generate display data.
- the display device 5 displays the generated display data.
- the decision support system 100 includes the work planning system 10 described in the above embodiment.
- the abnormal data includes work data associated with the importance data. In this way, each location can share data on work in the plant 1.
- the decision support system 100 includes the work planning system 10, and the information management unit 12 sharing data at the time of abnormality required via the network 70.
- the abnormal data includes work data associated with the importance data.
- the decision support system 100 is applied to a nuclear power plant.
- the decision support system 100 may be applied to at least one of a thermal power plant, a chemical plant, and an environmental plant.
- the decision support system 100 may be applied not only to the disaster of the plant 1 but also to disasters that occur in urban areas due to natural phenomena such as earthquakes, typhoons, and tsunamis. In addition, the decision support system 100 may be applied to disasters such as an airplane fall and a missile attack.
- the decision support system 100 is used when an actual accident or disaster occurs.
- the decision support system 100 may be applied to training for preparing for an accident or disaster performed in the plant 1.
- the decision support system 100 may be applied to training in preparation for an accident or disaster implemented in a country or local public entity.
- the time of emergency or abnormal is a concept including the time of abnormal operation of plant 1, the time of accident occurrence, the time of disaster occurrence, and the training which assumed the occurrence of accident or disaster.
- the decision support system 100 including the work planning system 10 is applied to a plant facility.
- the decision support system 100 may be applied not only to plant facilities but also to various applications such as transportation facilities such as roads or railroads, or building facilities such as apartment facilities or commercial facilities.
- the work planning system 10 plans the work to be performed based on the measures determined for the events.
- Examples of the abnormality of the transportation facility include a depression of a road surface, an accident on the road, a failure of a traffic light, and a failure of a guardrail.
- the contents of the work that can be performed for the traffic facility where the abnormality has occurred are limited. There are multiple types of work that can be performed on transportation facilities. Work data indicating the contents of work that can be performed on a transportation facility is determined in advance.
- the work planning system 10 includes the event data acquisition unit 81.
- Event data acquisition unit 81 acquires event data indicating an event of a transportation facility.
- the determination unit 13 determines the importance of each of the plurality of work data based on the acquired event data.
- the display control unit 18 causes the display device 5 to display the plurality of work data in association with the importance.
- the progress data acquisition unit 82 acquires progress data indicating the progress of each of a plurality of tasks
- the work status data acquisition unit 83 indicates an operation status indicating whether or not each of the plurality of tasks is normally performed. Get data
- the event data acquisition unit 81 acquires event data indicating an event on a freeway.
- the determination unit 13 Based on the event data acquired by the event data acquisition unit 81, the determination unit 13 extracts, from the storage unit 15, operation data indicating the content of the operation to be performed for the countermeasure against the event. Further, the determination unit 13 determines the importance of each of the plurality of extracted work data based on the event data.
- the display control unit 18 causes the display device 5 to display the plurality of work data in association with the importance.
- FIG. 12 is a diagram showing an example of the display device 5 according to the present embodiment.
- the display device 5 displays a plurality of icons (tiles) 400 in an area on the left side of the main screen 5A.
- the icon 400 includes work data 410 indicating the contents of the work, importance data 420 indicating the importance of the work, and progress data 430 on the work.
- the display device 5 displays 24 icons 400 each including work data 410 indicating the contents of 24 types of tasks (tasks (1) to (24)).
- contents of the work for example, “arrangement of emergency vehicle”, “convocation of temporary workers”, “dropping object processing”, “accident information announcement” and the like are exemplified.
- the display device 5 changes the color of the icon 400 to display the plurality of work data 410 in association with the importance degree data 420.
- the progress data 430 is displayed by a bar.
- the display device 5 displays the work data 410 and the importance degree data 420 in association with the work progress data 430.
- the display device 5 displays, in the area on the right side of the main screen 5A, detailed data on one of a plurality of tasks.
- the detailed data of the operation (4) is displayed.
- Data indicating an instruction time of operation (4), a report time when a report from an operator is performed, an instructor, a person in charge, an instruction content, a status report, and the like are displayed.
- the importance of each of the plurality of work data is determined based on the event data indicating the event of the traffic facility, and the plurality of work data has importance data indicating the importance Since the display is made to be associated with the above, it is possible to appropriately plan the work of measures against the event of the traffic facility based on the display result.
- the worker (administrator) can appropriately plan work by recognizing the display unit of the display device 5 in which the work data and the importance degree data are associated with each other.
- the abnormality data that satisfies the priority display criteria as described in the second embodiment includes facility data changed at a rate of change exceeding a predetermined reference value in, for example, a traffic facility or an oil and gas facility.
- the facility data is, for the traffic facility, for example, precipitation data indicating the amount of precipitation changed at a rate of change exceeding a predetermined reference value, wind speed data indicating a wind speed changing at a rate of change exceeding the reference value, It includes river water level data indicating river water level changed at a change rate exceeding a reference value and snow amount data indicating snow accumulation amount changed at a change rate exceeding the reference value.
- an oil and gas facility In the case of an oil and gas facility, it includes, for example, temperature data indicating equipment temperature that has changed at a rate of change that exceeds the reference value, and pressure data that indicates facility pressure that changes at a rate of change that exceeds the reference value.
- the display device 5 displays display data generated based on the data.
- the process of the work planning system 10 described in the above embodiment may be realized by a computer program to be executed by a computer.
- a computer program provided by a server or the like may be installed in the computer system 4 described above, and the computer system 4 may execute the processing described above according to the computer program.
- a computer program may be recorded on the recording medium 2000, and the computer program may be read by the computer system 4 to realize the processing described above.
- the recording medium 2000 a recording medium which records information optically, electrically or magnetically such as a CD-ROM, a flexible disk, a magneto-optical disc etc., information electrically such as a ROM, a flash memory etc.
- Various types of media can be used, such as semiconductor memories to record.
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Abstract
Description
第1実施形態について説明する。図1は、本実施形態に係るプラント1の一例を模式的に示す図である。本実施形態において、プラント1は、原子力を使って発電する原子力発電プラントである。プラント1は、原子炉を含む原子炉系と、蒸気タービン及び発電機を含むタービン系とを有する。原子炉は、炉心冷却材及び中性子減速材として軽水を使用する軽水炉である。原子炉系は、1次冷却水が循環する1次冷却系を含む。タービン系は、2次冷却水が循環する2次冷却系を含む。原子炉系(1次冷却系)とタービン系(2次冷却系)とは、蒸気発生器で分離される。原子炉系は、高温高圧な1次冷却水(熱水)を生成し、その熱水を蒸気発生器に供給して、蒸気発生器において1次冷却水(熱水)と2次冷却水との熱交換を行うことにより2次冷却水の蒸気を生成する加圧水型原子炉(PWR:Pressurized Water Reactor)を含む。本実施形態において、原子力発電プラントは、加圧水型原子力発電プラントである。
第2実施形態について説明する。以下の説明において、上述の実施形態と同一又は同等の構成部分については同一の符号を付し、その説明を簡略又は省略する。
(1)人員リソース管理情報-入力装置20から入力
(2)後方支援(物資運搬)情報-入力装置20から入力
(3)放射線モニタリング(周辺、所内、建物内)情報-モニタリングポストからネットワーク70を介して入力
(4)気象情報、風向情報、地震情報、津波情報-ネットワーク70を介して入力
(5)プラント内の被害状況(カメラ映像、崖崩れ、復旧状況)情報-インターフェース部11を介して入力装置20、携帯端末9、及び監視カメラ23から入力
(6)プラント炉心情報(燃料温度、炉内温度、炉内圧力等)-緊急時運転パラメータ伝送システム32から入力
(7)プラント状況の進展推測情報-シミュレーション部17から入力
(8)プラント周辺の送電情報-電力会社からネットワーク70を介して入力
(9)プラント内対応状況(可搬式設備の状況)情報-入力装置20から入力
(10)原子炉設計図面など保管義務のある資料の情報-データベース部190からネットワーク70を介して入力
(11)タスク管理情報-入力装置20から入力
(12)FAX画像情報など-入力装置20から入力
(1)避難時期
(2)避難ルート
(3)避難場所
(4)作業手順
(5)人員配置
(6)作業者ルート
(7)電源ルート
(8)運搬物資の種類と数
第3実施形態について説明する。以下の説明において、上述の実施形態と同一又は同等の構成部分については同一の符号を付し、その説明を簡略又は省略する。
2 構造物
2A 第1構造物
2B 第2構造物
3 既設機器
3A 既設ポンプ
3B 既設電源
4 コンピュータシステム
5 表示装置
5A メイン画面
5B,5Ba,5Bb サブ画面
5S 音声出力装置
6 可搬機器
6A 可搬ポンプ
6B 可搬電源
7,7A,7B 車両
8 機器車
8A ポンプ車
8B 電源車
9 携帯端末
10 作業計画システム
11 インターフェース部
12 情報管理部
13 決定部
14 推測部
15 記憶部
17 シミュレーション部
18 表示制御部
19 データベース部
20 入力装置
21 通信装置
22 位置検出装置
23 監視カメラ
31 プラントシステム
32 緊急時運転パラメータ伝送システム
33 サブシステム
40,40A,40B,40C アイコン
41 作業データ
42 重要度データ
43 進捗データ
60 同期管理部
70 ネットワーク
100,100A,100B,100C,100D,100E 意思決定支援システム
190 データベース部
1000 管理システム
2000 記録媒体
Claims (11)
- 施設の事象を示す事象データを取得する事象データ取得部と、
前記施設に対して実施可能な作業の内容を示す作業データを複数記憶する記憶部と、
前記事象データに基づいて、複数の作業データそれぞれの重要度を決定する決定部と、
を備える作業計画システム。 - 前記事象データは、推測される前記施設の事象を示すシナリオデータを含む、
請求項1に記載の作業計画システム。 - 複数の前記作業データを、前記重要度を示す重要度データに対応付けて表示装置に表示させる表示制御部を備える請求項1又は請求項2に記載の作業計画システム。
- 複数の前記作業それぞれの進捗状況を示す進捗データを取得する進捗データ取得部を備え、
前記表示制御部は、前記作業データ及び前記重要度データを前記進捗データに対応付けて前記表示装置に表示させる、
請求項1から請求項3のいずれか一項に記載の作業計画システム。 - 前記進捗データに基づいて前記作業の終了予定時刻を推測する推測部を備え、
前記表示制御部は、前記終了予定時刻を示す時刻データを前記表示装置に表示させる、
請求項4に記載の作業計画システム。 - 複数の前記作業のそれぞれが正常に実施されているか否かを示す作業状況データを取得する作業状況データ取得部を備え、
前記表示制御部は、正常に実施されている作業データと正常に実施されていない作業データとを異なるデザインで前記表示装置に表示させる、
請求項1から請求項5のいずれか一項に記載の作業計画システム。 - 請求項1から請求項6のいずれか一項に記載の作業計画システムと、
ネットワークを介して異常時に必要な前記重要度データに対応付けられた前記作業データを含む異常時データを共有する情報管理部と、を備え、
異常時における対策の意思決定を支援する意思決定支援システム。 - 前記異常時データは、予め定められる基準値を超える変化率で変化したデータである請求項7に記載の意思決定支援システム。
- 施設の事象を示す事象データを取得することと、
前記施設に対して実施可能な作業の内容を示す作業データを複数取得することと、
前記事象データに基づいて、複数の作業データそれぞれの重要度を決定することと、
複数の前記作業データを、前記重要度を示す重要度データに対応付けて表示装置に表示させることと、
を含む作業計画方法。 - コンピュータに、
施設の事象を示す事象データを取得することと、
前記施設に対して実施可能な作業の内容を示す作業データを複数取得することと、
前記事象データに基づいて、複数の作業データそれぞれの重要度を決定することと、
を実行させるコンピュータプログラム。 - コンピュータに、
施設の事象を示す事象データを取得することと、
前記施設に対して実施可能な作業の内容を示す作業データを複数取得することと、
前記事象データに基づいて、複数の作業データそれぞれの重要度を決定することと、
を実行させるコンピュータプログラムが記録された記録媒体。
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EP16772682.7A EP3279852A4 (en) | 2015-03-31 | 2016-03-25 | Work planning system, work planning method, decision-making support system, computer program, and storage medium |
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US15/562,888 US10963826B2 (en) | 2015-03-31 | 2016-03-25 | Work planning system, work planning method, decision-making support system, computer program, and storage medium |
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US10963826B2 (en) | 2021-03-30 |
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