WO2016132513A1 - Dispositif de gestion, procédé de gestion et programme - Google Patents

Dispositif de gestion, procédé de gestion et programme Download PDF

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Publication number
WO2016132513A1
WO2016132513A1 PCT/JP2015/054644 JP2015054644W WO2016132513A1 WO 2016132513 A1 WO2016132513 A1 WO 2016132513A1 JP 2015054644 W JP2015054644 W JP 2015054644W WO 2016132513 A1 WO2016132513 A1 WO 2016132513A1
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WIPO (PCT)
Prior art keywords
history
user
unit
data
management device
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PCT/JP2015/054644
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English (en)
Japanese (ja)
Inventor
太一 石阪
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三菱電機株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Application filed by 三菱電機株式会社 filed Critical 三菱電機株式会社
Priority to JP2017500225A priority Critical patent/JP6351822B2/ja
Priority to PCT/JP2015/054644 priority patent/WO2016132513A1/fr
Publication of WO2016132513A1 publication Critical patent/WO2016132513A1/fr

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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
    • G06F3/01Input arrangements or combined input and output arrangements for interaction between user and computer
    • G06F3/048Interaction techniques based on graphical user interfaces [GUI]

Definitions

  • the present invention relates to a management device, a management method, and a program.
  • a management system that monitors the operating status of a plurality of equipment installed in a building, such as an air conditioner installed in a large building, and controls the operation of the equipment.
  • a user can not only instruct the operation of each facility device from a management apparatus capable of instructing operations of a plurality of facility devices, but also an operation terminal (so-called remote control) associated with each facility device in advance.
  • the user can instruct the operation to the equipment using the controller.
  • the operation of the equipment is instructed from both the management device and the operation terminal.
  • Patent Document 1 stores communication history information when facsimile communication is performed, such as start time, communication time, communication result, destination information, and the like for each facsimile communication.
  • An apparatus is disclosed that manages communication history and stores and manages various log information such as operation logs related to facsimile communication, operation logs of programs (tasks), and protocol logs in association with each communication history information.
  • the present invention has been made to solve the above-described problem, and is suitable for presenting information useful for analysis related to an event that has occurred in a system in which instructions can be input from a plurality of operation terminals to one facility device. It is an object to provide a management device, a management method, and a program.
  • the management device provides: A first operation data storage unit that stores a first history of operations performed by the first user on the first operation unit; A second operation data storage unit for storing a second history of operations performed by the second user on the second operation unit; When a predetermined extraction condition for extracting the third history is satisfied, the third including the history extracted from the stored first history and the history extracted from the stored second history An extractor for extracting history; A display instruction unit for instructing a display device to display the third history; Is provided.
  • a management device for presenting information useful for analysis related to an event that has occurred in a system in which instructions can be input from a plurality of operation terminals to one facility device. it can.
  • FIG. 1 shows a configuration of a management system 1 according to the present embodiment.
  • the management system 1 manages the equipment 2 (two equipment 2A and 2B in FIG. 1).
  • the equipment 2 includes N indoor units (N is an integer of 1 or more) installed in a building and M (M is an integer of 1 or more) installed outside the building.
  • An air conditioner provided with an outdoor unit.
  • the equipment 2 may not be an air conditioner, and may be a lighting device, a ventilator, a water heater, or the like.
  • the outdoor unit is fixedly installed on the roof of a building or outside a window, for example.
  • the outdoor unit performs heating or cooling by switching the recirculation direction of the refrigerant compressed by the compressor and performing either a heating operation cycle or a cooling operation cycle, and evaporating or condensing the refrigerant to exchange heat with air. I do.
  • the indoor unit is fixedly installed on the ceiling or wall of a building room, for example.
  • the indoor unit exchanges heat between the refrigerant and the surrounding air by passing the refrigerant through the pipe, and cools or heats the refrigerant.
  • the indoor unit cools the air by evaporating the refrigerant and absorbing heat from the air around the heat exchanger.
  • the indoor unit heats the air by condensing the refrigerant and releasing heat to the air around the heat exchanger.
  • the indoor unit has a built-in measuring device that measures the temperature and humidity in the room, and transmits environmental data indicating the measured temperature and humidity to the management device 4.
  • the facility device 2 and the management device 4 are connected to each other via a communication line 5 so as to communicate with each other.
  • the facility devices 2 may communicate with each other via the communication line 5.
  • the equipment 2 operates under the management of the management device 4. Examples of the operation mode that can be set in the facility device 2 include cooling, heating, and air blowing.
  • the equipment 2 operates by setting an operation mode based on an instruction from the user.
  • the equipment 2 transmits operation data including the set operation mode, the set target temperature, and information indicating the operation state to the management device 4 via the communication line 5. .
  • the facility device 2 transmits environmental data indicating the measured temperature and humidity to the management device 4 via the communication line 5.
  • the management device 4 receives and stores operation data and environmental data.
  • the plurality of facility devices 2 are collectively referred to as a facility device group 6.
  • the operation terminal 3 receives an instruction input from the user to the equipment device 2 and transmits instruction data indicating the received instruction input to the equipment device 2.
  • the user can input an instruction to start or stop the operation of the facility device 2, an instruction to switch the operation mode, and the like using the operation terminal 3.
  • the first user can input an instruction to the equipment device 2 using the first operation terminal 3, and the second user can input an instruction to the same equipment device 2 using the second operation terminal 3. May be input.
  • the management device 4 controls the equipment group 6 in an integrated manner, and manages the operation state, operation history, communication history, and the like.
  • the management device 4 displays a screen that accepts an input for instructing the equipment device 2 to operate.
  • the management device 4 receives an instruction input from the user and controls the equipment 2 based on the instruction input.
  • the user can input an instruction to the equipment device 2 via a screen displayed by the management device 4, and can also input an instruction to the equipment device 2 by operating the operation terminal 3.
  • the communication unit 201 transmits various data to the equipment 2 via the communication line 5 and receives various data from the equipment 2.
  • the image processing unit 202 generates screen data and displays it on the display device.
  • the management device 4 includes a display 251 as a display device.
  • the image processing unit 202 displays a screen for monitoring and controlling the equipment group 6 on the display 251 based on an instruction from the user under the control of the control unit 204.
  • the input unit 203 acquires a signal indicating a user operation on the touch panel 252 and inputs the signal to the control unit 204.
  • the management device 4 according to the present embodiment includes a touch screen on which a touch panel 252 is arranged so as to be superimposed on a display area of the display 251. The user can instruct the switching of the screen, the operation of the equipment 2 and the like by operating the touch screen.
  • the input unit 203 functions as a reception unit 301 that receives an instruction from the user to the equipment device 2 through a screen operation.
  • the touch panel 252 provided in the input unit 203 is also referred to as a first operation unit, and the operation terminal 3 is also referred to as a second operation unit.
  • the control unit 204 includes a CPU (Central Processing Unit), a ROM (Read Only Memory), and a RAM (Random Access Memory), and controls the entire management apparatus 4.
  • the control unit 204 controls the operation of the equipment device 2 based on an instruction to the equipment device 2 through a screen operation.
  • the control unit 204 functions as a device control unit 303 that controls the facility device 2 based on an instruction from the user.
  • the facility device management unit 261 is based on an instruction to the facility device 2 by the first operation unit or an instruction to the facility device 2 by the second operation unit, or based on a predetermined algorithm or a preset operation program. Then, the equipment 2 is controlled.
  • the screen operation history management unit 262 manages the history of instructions to the equipment 2 by the first operation unit. Specifically, the screen operation history management unit 262 stores, in the storage unit 205, a history of user operations on the screen displayed on the display 251.
  • the communication log management unit 263 acquires all or part of data included in the communication packet transmitted / received in the management system 1 and stores it in the storage unit 205 as a communication log.
  • the association management unit 264 extracts a part or all of the data from the acquired communication log, and stores the extracted data in the storage unit 205 in association with each other.
  • the storage unit 205 includes a nonvolatile storage device such as a flash memory, and stores various programs for controlling the management device 4, an operating system (OS), image data, audio data, text data, and the like.
  • OS operating system
  • the storage unit 205 stores operation data 271 and environment data 272 acquired from the equipment 2, object data 273 relating to objects arranged in the screen, and operation contents from the user to the screen displayed on the management device 4. ,
  • the other operation data 275 indicating the operation content from the user to the operation terminal 3, the communication log 276 indicating the communication history, and the extracted data 277 are stored.
  • the operation data 271 indicates the operation state of the facility device 2 such as information indicating whether the facility device 2 is operating or stopped, information indicating an operation mode such as cooling or heating, and information indicating a set target temperature. Contains information.
  • the operation data 271 stored in the storage unit 205 is transmitted to the control unit 4 periodically by the management device 4 or by communicating with the facility device 2 at the acquisition timing determined by the control unit 204. 204 is updated to the latest value at any time.
  • the environmental data 272 includes information indicating the indoor temperature and humidity measured by the equipment 2. However, the indoor temperature, humidity, and the like may be measured by the operation terminal 3 or a measuring device (not shown) instead of or in addition to the equipment 2.
  • the environment data 272 stored in the storage unit 205 is transmitted to the control unit 4 periodically by the management device 4 or by communicating with the facility device 2 at the acquisition timing determined by the control unit 204. 204 is updated to the latest value at any time.
  • the object data 273 includes a screen ID for identifying the screen displayed on the display 251, type information indicating the type of the object arranged on the screen, and an object ID for identifying the object.
  • An object is, for example, a button associated with an instruction for cancellation or application, a check box for receiving an instruction for selecting one or more of the presented options from the user, and one of the presented options
  • a radio button for receiving an instruction to select an item from the user, a text box for receiving an input of a numerical value or a character from the user, an area for displaying an image, and the like.
  • the screen ID is information for identifying a screen assigned to each screen displayed on the display 251, and a different value is set in advance for each screen.
  • Examples of the screen include a screen for accepting an instruction to the equipment device 2 from the user, a screen for displaying the latest state of the equipment device 2, and the like.
  • the type information is information indicating the type of the object arranged on the screen.
  • the object ID is information for identifying the object, and a different value is preset for each object.
  • the object ID is assigned a unique value at least within the same screen. If the screen ID and the object ID are designated, it is possible to specify which object on which screen. Of course, a unique value among objects in all screens may be assigned to the object ID. In this case, if only the object ID is specified, it is possible to specify which object on which screen. .
  • the self-operation data 274 is data indicating a history of operations performed by the user on the touch panel 252 included in the management device 4.
  • the self-operation data 274 includes information indicating the date and time when the user operated, the screen ID indicating the screen operated by the user, the object ID indicating the object operated by the user, and the object state. .
  • the self-operation data 274 is also called a first history.
  • the storage unit 205 functions as a first operation data storage unit 302 that stores a first history of operations performed by the user on the first operation unit.
  • the object state is, for example, a numerical value input in a text box for designating a target temperature for air conditioning, or a current setting for a button that can alternately indicate start or stop of operation using one object.
  • This is information indicating a value, an image number associated with an object for selecting one of a plurality of options, and the like.
  • Other operation data 275 is data obtained by extracting a part or all of the communication log of communication between the operation terminal 3 and the equipment 2.
  • the other operation data 275 includes the date and time when the operation terminal 3 was operated by the user, an identifier (operation source address) that can identify the operation terminal 3 operated by the user, and the equipment that is the target of the instruction indicated by the operation by the user.
  • An identifier (operation destination address) that can identify the device 2 and information indicating the operation content by the user are included.
  • the other operation data 275 is also called a second history.
  • the storage unit 205 functions as a second operation data storage unit 305 that stores a second history of operations performed by the user on the operation terminal 3.
  • the operation terminal 3 and the equipment 2 communicate with each other by wire.
  • the control unit 204 of the management device 4 acquires the communication packet transmitted / received on the communication path between the operation terminal 3 and the equipment 2 and analyzes the acquired communication packet, thereby using the operation terminal 3 by the user.
  • indication to the installed equipment 2 is acquired.
  • the communication unit 201 and the control unit 204 cooperate to function as an acquisition unit 304 that acquires an instruction using the operation terminal 3 capable of communicating with the equipment device 2 and indicating an instruction to the equipment device 2 by the user. .
  • the operation terminal 3 and the equipment 2 may communicate wirelessly.
  • the transmission source address is an address assigned in advance to the operation terminal 3 operated by the user.
  • the transmission destination address is an address previously assigned to the instruction target equipment 2.
  • a unique number defined in the dedicated protocol is used for the address assigned to the operation terminal 3 and the equipment 2, but a character, a symbol, or the like may be used.
  • the communication log 276 indicates a history of communication between the facility device 2 and the management device 4, a history of communication between the facility devices 2, and a history of communication between the facility device 2 and the operation terminal 3.
  • the communication log 276 includes a header portion including a communication date and time, a transmission source address, and a transmission destination address, and a data portion (payload) that stores data to be transmitted and received.
  • the communication log 276 includes not only a communication history related to user operations, but also a communication history between the facility devices 2.
  • the storage unit 205 functions as a communication history data storage unit 306 that stores a history of communication between the facility device 2 and the management device 4.
  • a part of the extracted data 277 is extracted from the own operation data 274, the other operation data 275, and the communication log 276 by the control unit 204 when a predetermined extraction condition for extracting the extracted data is satisfied.
  • Associated data Data extracted from the self-operation data 274, data extracted from the other operation data 275, and data extracted from the communication log 276 are associated with each other and stored in the storage unit 205 as extracted data 277.
  • the data extracted from the own operation data 274 and the data extracted from the other operation data 275 are also referred to as a third history.
  • data extracted from the communication log 276 is also referred to as a fourth history.
  • the storage unit 205 functions as an extraction data storage unit 308 that stores the extraction data 277.
  • the extraction condition is, for example, “the management apparatus 4 receives an abnormality notification from the equipment device 2 that an abnormality has occurred in the equipment device 2”.
  • the control unit 204 of the management device 4 selects a certain period before and after the date and time indicated by the abnormality notification from all the self-operation data 274 stored in the storage unit 205 (for example, abnormality notification). 1 hour etc. from 30 minutes before the date and time when the error notification is received to 30 minutes after the date and time when the abnormality notification is received.
  • control unit 204 when the control unit 204 receives the abnormality notification from the equipment device 2, the data recorded in a certain period before and after the date and time indicated by the abnormality notification from all the other operation data 275 stored in the storage unit 205. To extract. In addition, when the abnormality notification is received from the equipment 2, the control unit 204 extracts, from all the communication logs 276 stored in the storage unit 205, data recorded for a certain period before and after the date and time indicated by the abnormality notification. To do. Then, the control unit 204 stores the extracted data in the storage unit 205 as the extracted data 277 in association with each other.
  • the control unit 204 extracts data within a target period including the date and time when the extraction condition is satisfied from the own operation data 274, other operation data 275, and the communication log 276 when a predetermined extraction condition is satisfied. Function.
  • the extraction condition may be “the user has instructed the operation to the equipment device 2”.
  • the control unit 204 of the management apparatus 4 is stored in the storage unit 205 when any instruction is input from the user via the screen displayed by the management apparatus 4 or when any instruction is received from the operation terminal 3. From all the self-operation data 274, the other operation data 275, and the communication log 276, the data for a certain period before and after the date when the instruction is input from the user or the date when the instruction is received from the operation terminal 3 are extracted and associated with each other. Store as data 277.
  • the content of the instruction from the user is arbitrary.
  • the extraction condition may be “an instruction to cause the equipment 2 to perform a specific operation”. For example, when the user inputs an instruction to operate the equipment 2 in an operation mode in which heating or cooling is performed with less power consumption than usual, that is, a so-called energy saving mode, the control unit 204 of the management device 4 stores the storage unit 205, data of a certain period before and after the date and time when the operation in the energy saving mode is started are extracted from all the self-operation data 274, other operation data 275, and the communication log 276 stored in 205, and are extracted as the extracted data 277 in association with each other.
  • energy saving mode the control unit 204 of the management device 4 stores the storage unit 205, data of a certain period before and after the date and time when the operation in the energy saving mode is started are extracted from all the self-operation data 274, other operation data 275, and the communication log 276 stored in 205, and are extracted as the extracted data 277 in association with each other.
  • the extraction condition may be “the room temperature indicated by the environmental data has increased by a predetermined value or more”.
  • the control unit 204 of the management device 4 receives environmental data indicating that the indoor temperature has risen by a predetermined value or more from the equipment device 2, all of the self-operation data 274 stored in the storage unit 205 and other data are stored. From the operation data 275 and the communication log 276, data for a certain period before and after the date and time when the environmental data indicating that the indoor temperature has risen by a predetermined value or more are received from the equipment 2 are extracted and associated with each other. Store as 277.
  • the extraction condition may be “the target air conditioning temperature has been changed by the user”.
  • the control unit 204 of the management apparatus 4 Data of a certain period before and after the date and time when the instruction to change the target temperature is input is extracted from all the self-operation data 274, the other operation data 275, and the communication log 276 stored in the storage unit 205 and associated with each other. Stored as extracted data 277.
  • the control unit 204 of the management device 4 can arbitrarily set the extraction condition, and generates the extraction data 277 when determining that the set extraction condition is satisfied.
  • the extraction data 277 is generated by being triggered when it is determined that the extraction condition is satisfied.
  • satisfying the extraction condition is also expressed as an event occurring.
  • the control unit 205 of the management device 4 generates the extracted data 277.
  • the storage period for storing the own operation data 274, the other operation data 275, and the communication log 276 is arbitrary.
  • the control unit 204 of the management apparatus 4 determines the storage period of the self-operation data 274, the other operation data 275, and the communication log 276, for example, for the latest one month, and deletes old records that have passed this period. May be. This saves memory.
  • control unit 204 of the management device 4 sets the maximum size that can store the own operation data 274, the other operation data 275, and the communication log 276 in the storage unit 205. New records may be added while sequentially deleting from the oldest record.
  • the control unit 204 of the management apparatus 4 sets an upper limit on the number of records that can store the own operation data 274, other operation data 275, and the communication log 276 in the storage unit 205.
  • a new record may be added while sequentially deleting from the record with the oldest recorded date and time so as to fit in the number.
  • the user may be able to set a storage period for storing the own operation data 274, the other operation data 275, and the communication log 276.
  • the control unit 204 of the management device 4 may receive an input designating the retention period from the user and sequentially delete records that have exceeded the input retention period.
  • the control unit 204 of the management device 4 may set different storage periods for each type of the equipment 2 such as 1 month for an air conditioner and 10 days for a lighting device.
  • control unit 204 of the management device 4 may be configured such that one month if the source address or destination address is a living room air conditioner, and ten days if the source address or destination address is a bedroom air conditioner.
  • a different retention period may be set for each equipment device 2.
  • the control unit 204 of the management apparatus 4 receives the instruction from the user via the operation terminal 3 for one month.
  • a different storage period may be set for each operation unit to which an instruction from the user is input, such as 10 days.
  • FIG. 3 shows a functional configuration of the management device 4.
  • Fig. 4 shows an example of a screen that accepts input from the user.
  • Each object on the screen is associated with a unique object ID in advance.
  • the screen shown in FIG. 4 is associated with the screen ID “101”.
  • the component ID “1001” corresponds to the button 401 corresponding to the operation start instruction
  • the component ID “1002” corresponds to the instruction to set the operation mode to the cooling corresponding to the button 402 corresponding to the operation stop instruction.
  • the button 403 has a component ID “1003”
  • the button 404 corresponding to the instruction to set the operation mode to heating has the component ID “1004”
  • the button 405 corresponding to the instruction to set the operation mode to blow has a component.
  • the part ID “1006” is assigned to the button 406 corresponding to an instruction to increase or decrease the target temperature by a predetermined value with the ID “1005”, and the part ID is assigned to the button 407 corresponding to the instruction to cancel the input content.
  • the component ID “1008” is associated with the button 408 corresponding to the instruction to apply the input content “1007”.
  • FIG. 5 shows a flow of a saving process in which the management apparatus 4 saves the history that the object in the screen is operated by the user as the self-operation data 274.
  • the control unit 204 of the management apparatus 4 detects that an object in the screen displayed on the display 251 is operated by the user, the control unit 204 starts the storage process illustrated in FIG.
  • control unit 204 of the management device 4 detects an operation on the object by the user, the date and time when the object was operated by the user, the screen ID indicating the screen operated by the user, and the object indicating the object operated by the user ID is discriminated (step S501).
  • the control unit 204 of the management device 4 acquires an object state indicating the state of the object operated by the user (step S502).
  • the control unit 204 of the management apparatus 4 has an object ID “1001” indicating the object operated by the user, In addition, it is determined that the object state corresponding to the object has changed from “non-selected” to “selected”.
  • the control unit 204 of the management device 4 determines that the object state of the button 402 has changed, and it is determined that the object state of the object whose object ID is “1002” has changed from “selected” to “not selected”.
  • control unit 204 of the management apparatus 4 stores the operation date / time, the screen ID, the object ID, and the information indicating the object state determined in step S501 in the storage unit 205 as the own operation data 274 (step S503).
  • the self-operation data 274 indicating the history of the screen operation by the user is stored in the storage unit 205.
  • the stored self-operation data 274 is searched using the date and time operated by the user as a key and displayed on the display 251.
  • the image processing unit 202 and the control unit 204 cooperate to function as a display instruction unit 309 that instructs the display 251 to display the extracted data 277.
  • the control unit 204 of the management device 4 determines the latest predetermined number from the own operation data 274 (for example, 10 items in order from the current time). And the date and time operated by the user, the screen ID, and the object ID are acquired. Based on the object data 273, the control unit 204 determines the screen corresponding to the acquired screen ID and the content of the operation corresponding to the acquired object ID. Then, as illustrated in FIG. 6, the control unit 204 displays the date and time operated by the user, the screen name corresponding to the screen ID, and the operation content corresponding to the object ID on the display 251.
  • control unit 204 of the management device 4 transmits an operation command to the equipment 2 based on the detected screen operation by the user, and operates the equipment 2 according to the operation command.
  • two operation terminals 3 can accept an instruction to the same equipment 2 from a user.
  • the first operation terminal When the first operation terminal detects an operation input by the user (step S701), the first operation terminal transmits an operation command based on the operation input to the equipment device 2 (step S702). For example, when the first operation terminal detects an instruction input to start the heating operation, the first operation terminal transmits an operation command to the facility device 2 to start the heating operation.
  • the facility device 2 executes an operation based on the operation command (step S703). For example, when the operation command transmitted in step S702 is a command for starting heating, the facility device 2 starts the heating operation.
  • the facility device 2 transmits response data for the received operation command to the first operation terminal that is the transmission source of the operation command (step S704).
  • the response data includes, for example, information indicating that the operation command has been normally received (or that the operation command has not been normally received), or information indicating that the operation based on the operation command has been successfully started (or has failed). included.
  • the facility device 2 transmits a state notification indicating that the operation state has been changed by executing an operation based on the operation command from the first operation terminal to the first operation terminal that is the transmission source of the operation command. (Step S705).
  • the equipment device 2 transmits a status notification to the second operation terminal (step S706).
  • the facility device 2 transmits a status notification to the management device 4 (step S707).
  • the control unit 204 of the management device 4 updates the operation data 271 and updates the communication log 276 based on the state notification.
  • the process flow when the second operation terminal detects an operation input by the user is the same. That is, when the second operation terminal detects an operation input by the user, the second operation terminal transmits an operation command based on the operation input to the equipment device 2.
  • the equipment 2 executes an operation based on the operation command, transmits response data to the received operation command to the second operation terminal, and sends a status notification to the second operation terminal, the first operation terminal, and the management device 4. Send.
  • step S801 When the control unit 204 of the management device 4 receives a communication packet transmitted from the operation terminal 3 to the equipment device 2 (or from the equipment device 2 to the operation terminal 3) (step S801), all or part of the communication packet is communicated.
  • the log 276 is stored in the storage unit 205 (step S802).
  • the control unit 204 of the management device 4 of the present embodiment stores the communication log 276 in which the communication time, the transmission source address, the transmission destination address, and the communication content included in the received communication packet are extracted in the storage unit 205.
  • the storage format is not limited by the present invention, and for example, data included in a communication packet including such information may be stored in the storage unit 205 as it is.
  • the control unit 204 of the management device 4 analyzes the data stored in the communication packet, and determines whether or not the management device 4 includes an instruction to the management target equipment 2 (step S803).
  • step S803 When it is determined that the operation instruction to the management target equipment 2 by the management apparatus 4 is included (step S803; YES), the control unit 204 of the management apparatus 4 transmits the date and time when the communication packet is transmitted, the transmission source address, and the transmission The destination address and the operation content are acquired (step S804), and stored in the storage unit 205 as other operation data 275 (step S805).
  • control part 204 of the management apparatus 4 does not preserve
  • the heartbeat signal periodically transmitted / received regardless of whether there is an input from the user or the history regarding the transmission / reception of data that does not require a response is not included in the other operation data 275.
  • the management device 4 stores the other operation data 275. Therefore, the user operates which operation terminal 3 and which equipment It is possible to trace later whether an instruction to the device 2 has been input.
  • the extraction condition is, for example, that “the management apparatus 4 receives an abnormality notification from the equipment device 2 that an abnormality has occurred in the equipment device 2” or “an operation instruction from the user to the equipment device 2. It is optional.
  • the control unit 204 of the management device 4 determines whether or not the extraction condition is satisfied (step S901).
  • step S901; NO the control unit 204 of the management device 4 ends the management process.
  • step S901; YES the control unit 204 of the management device 4 acquires the self-operation data 274 within the target period including the time when it is determined that the extraction condition is satisfied (step S902). ).
  • control unit 204 of the management device 4 determines that the extraction condition is satisfied from the date and time when the instruction is input from the user among all the records of the self-operation data 274 stored in the storage unit 205. Records included between time T2 before time T1 and time T3 after time T1 are extracted.
  • the length from time T2 to time T1 and the length from time T1 to time T3 may be the same or different.
  • the length from time T2 to time T1 and the length from time T1 to time T3 are both the same fixed value.
  • the target period is determined, for example, from 30 minutes before time T1 to 30 minutes after time T1.
  • control unit 204 of the management device 4 acquires other operation data 275 within the target period including the time when it is determined that the extraction condition is satisfied (step S903).
  • control unit 204 of the management device 4 determines that the extraction condition is satisfied from the date and time when the instruction is input from the user among all the records of the other operation data 275 stored in the storage unit 205. Records included between time T4 before time T1 and time T5 after time T1 are extracted.
  • the length from time T4 to time T1 and the length from time T1 to time T5 may be the same or different. However, it is desirable to make time T2 and time T4 coincide, and make time T3 and time T5 coincide.
  • control unit 204 of the management device 4 acquires the communication log 276 within the target period including the time when it is determined that the extraction condition is satisfied (step S904).
  • control unit 204 of the management device 4 determines that the date and time when the instruction is input from the user among all the records of the communication log 276 stored in the storage unit 205 is that the extraction condition is satisfied. Records included between time T6 before T1 and time T7 after time T1 are extracted.
  • the length from time T6 to time T1 and the length from time T1 to time T7 may be the same or different. However, it is desirable that the time T2, the time T4, and the time T6 are matched, and that the time T3, the time T5, and the time T7 are matched.
  • the control unit 204 of the management apparatus 4 stores in the storage unit 205 instead of all the records of the communication log 276 stored in the storage unit 205. All records in the communication log 276 that have been determined and that include at least one of the determined transmission source address and transmission destination address may be extracted.
  • control part 204 of the management apparatus 4 respond
  • the extracted data 277 is stored in the storage unit 205 (step S905).
  • control unit 204 of the management device 4 displays the extracted data 277 generated in step S905 on the display 251 (step S906).
  • FIG. 10 shows a display example of the extracted data 277.
  • FIG. 10 shows the time (18:16) when the management apparatus 4 receives the abnormality report from the equipment 2 when the above extraction condition is “the management apparatus 4 has received the abnormality report from the equipment 2”.
  • the self-operation data 274, the other operation data 275, and the communication log 276 are displayed together for 15 minutes before and after (00 seconds) (that is, from 18:01:00 to 18:30:59).
  • the communication log 276 includes not only a communication log in communication between the management apparatus 4 and the equipment 2 but also an outdoor unit and an indoor unit.
  • Communication log in communication between communication equipment and communication log in communication between equipment device 2 and operation terminal 3 (when there are a plurality of operation terminals 3, each communication in communication between equipment device 2 and operation terminal 3) Log), a communication log or the like in communication between the facility devices 2 may be included.
  • the management system 1 causes the occurrence of an event even when there are a plurality of operation terminals 3 that can be operated by the user or even when there are a plurality of managed equipment 2. It is possible to present the user's operation history, communication history, and the like, which are useful for investigations, in an easy-to-understand manner.
  • the management system 1 can automatically extract information that is valuable to the user from the user's operation history, communication history, etc., and present it to the user, triggered by the extraction condition being satisfied. .
  • the operation analysis by the management system 1 is facilitated. For example, when a problem occurs in the management system 1, the user can obtain information useful for pursuing the cause of the problem by browsing the display of the extracted data 277 illustrated in FIG.
  • the user can view the extracted data 277 when the indoor environment such as the indoor temperature and humidity changes greatly or when the indoor environment deviates from the assumed range. Information can be obtained to help investigate the causes of environmental changes.
  • the user using the operation terminal 3 The operation history is also saved, and the user can view this history, so that the cause can be easily caused even when a complaint such as the equipment device 2 operating without permission or the equipment device 2 stopping without permission is received. It becomes possible to elucidate.
  • the self-operation data 274 stored in the storage unit 205 includes the date and time when the operation was performed by the user, the screen ID indicating the screen operated by the user, and the object ID indicating the object operated by the user. And information indicating the object state. Therefore, by using the self-operation data 274, the situation when the event occurs can be easily reproduced later. For example, when a failure occurs, a reproduction experiment or the like is performed using the self-operation data 274, thereby helping to investigate the cause of the failure.
  • the management device 4 saves the own operation data 274 indicating the operation by the user and the other operation data 275 in the storage unit 205, but transmits them from the management device 4 to the equipment 2 regardless of the operation by the user.
  • Control information (for example, information related to operation schedule, operation or non-operation of energy saving control, restriction of target temperature, etc.) may be stored in the storage unit 205 and displayed together with the communication log 276. In this case, it is possible to determine whether the communication is triggered by the user's operation, such as transmission / reception of an operation command, or the communication not based on the user's operation by referring to the own operation data 274 and / or other operation data 275. is there.
  • the present invention is not limited to the above-described embodiment, and various modifications and applications are possible. Moreover, it is also possible to freely combine the constituent elements of the above-described embodiments.
  • the target period for generating the extraction data 277 is a fixed value such as 30 minutes before and after the time T1 when the extraction condition is satisfied.
  • the control unit 204 of the management device 4 may change the target period according to the event that occurs.
  • the extraction condition is the first condition “the management device 4 receives an abnormality notification from the equipment device 2 that an abnormality has occurred in the equipment device 2”
  • the control unit 204 of the management device 4 If the target period is set to a first value (for example, 30 minutes before and after time T1) and the extraction condition is the second condition “the user has issued an operation instruction to the equipment 2”, the target period Is set to a second value (for example, 10 minutes before and after time T1).
  • a first value for example, 30 minutes before and after time T1
  • the extraction condition is the second condition “the user has issued an operation instruction to the equipment 2”
  • the target period Is set to a second value for example, 10 minutes before and after time T1.
  • the first value and the second value can be arbitrarily changed.
  • the control unit 204 of the management device 4 may change the target period according to the time when the event occurs.
  • the control unit 204 of the management device 4 sets the target period to the first value (for example, the time T1).
  • the time T1 is the second time zone (for example, from 0:00 to 7:00, and from 22:00 to 24:00)
  • the target period is set to the second value (for example, the time T1).
  • the first value and the second value can be arbitrarily changed.
  • the definition of the time zone can be arbitrarily changed.
  • the control unit 204 of the management device 4 may change the target period according to the frequency of events that have occurred in the past.
  • the control unit 204 of the management device 4 sets the target period to the first value (for example, 30 minutes before and after the time T1) if the frequency that the extraction condition is satisfied is equal to or higher than a threshold (for example, 10 times or more in the past week) If the frequency at which the extraction condition is satisfied is less than a threshold (for example, 9 times or less in the past week), the target period is set to a second value (for example, 10 minutes before and after time T1).
  • a threshold for example, 10 times or more in the past week
  • the target period is set to a second value (for example, 10 minutes before and after time T1).
  • the first value and the second value can be arbitrarily changed. Further, the definition of the threshold value can be arbitrarily changed.
  • the management device 4 of the above embodiment includes a history of screen operations on the touch panel 252, a communication log of communication between the management device 4 and the facility device 2, and a communication log of communication between the facility device 2 and the operation terminal 3. From the above, the extraction data 277 is generated and displayed with the extraction condition being satisfied as a trigger. Since it is relatively easy to store operation and communication histories, the present invention can be applied to an existing system without greatly changing an existing software application.
  • the control unit 204 of the management device 4 reads out the extracted data 277 at an arbitrary timing and displays it on the display 251 not only when the extraction condition is satisfied. can do. For example, the user can call up and display the extracted data 277 generated with an event that occurred in the past as a trigger.
  • control unit 204 of the management device 4 may read the extracted data stored in the storage unit 205, reproduce the operation of the screen by the user using the extracted data 277, and display it on the display 251.
  • the control unit 204 of the management device 4 uses the extracted data 277 generated in response to the defect that occurred on the first date and time as the second date and time after the first date and time (for example, during maintenance of the management system 1). And the event that occurred on the first date and time can be reproduced on the second date and time. Thereby, the administrator can reproduce and verify the defect retroactively, and the efficiency of investigation of the cause of the defect by the administrator is improved.
  • the management device 4 of the above embodiment includes the display 251, the management device 4 may be connected to an external display device instead of the management device 4 not including the display 251.
  • the control unit 204 of the management device 4 instructs the external display device to display the generated extracted data 277, and the external display device acquires and displays the extracted data 277 generated by the management device 4. Good.
  • a program for operating the computer as all or part of the management device 4 is stored and distributed in a computer-readable recording medium such as a memory card, CD-ROM, DVD, or MO (Magneto Optical disk). This may be installed in another computer and operated as the above-described means, or the above-described steps may be executed.
  • a computer-readable recording medium such as a memory card, CD-ROM, DVD, or MO (Magneto Optical disk).
  • the program may be stored in a disk device or the like included in a server device on the Internet, and may be downloaded onto a computer by being superimposed on a carrier wave, for example.
  • a management apparatus suitable for presenting information useful for analysis relating to an event that has occurred in a system in which instructions can be input from a plurality of operation terminals to one facility device, A management method and a program can be provided.

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  • Engineering & Computer Science (AREA)
  • General Engineering & Computer Science (AREA)
  • Theoretical Computer Science (AREA)
  • Human Computer Interaction (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Testing And Monitoring For Control Systems (AREA)
  • User Interface Of Digital Computer (AREA)
  • Selective Calling Equipment (AREA)

Abstract

L'invention concerne un dispositif de gestion (4), une première unité de mémoire de données d'opération (302) mémorise des premiers historiques d'opérations effectuées par un premier utilisateur dans une première unité d'opération. Une seconde unité de mémoire de données d'opération (305) mémorise des deuxièmes historiques d'opérations effectuées par un second utilisateur dans une seconde unité d'opération. Lorsque des conditions d'extraction prédéfinies destinées à extraire un troisième historique sont satisfaites, une unité d'extraction (307) extrait un troisième historique comprenant un historique extrait à partir des premiers historiques et un historique extrait à partir des deuxièmes historiques. Une unité d'instruction d'affichage (309) ordonne à un dispositif d'affichage d'afficher le troisième historique.
PCT/JP2015/054644 2015-02-19 2015-02-19 Dispositif de gestion, procédé de gestion et programme WO2016132513A1 (fr)

Priority Applications (2)

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JP2017500225A JP6351822B2 (ja) 2015-02-19 2015-02-19 管理装置、管理方法、及び、プログラム
PCT/JP2015/054644 WO2016132513A1 (fr) 2015-02-19 2015-02-19 Dispositif de gestion, procédé de gestion et programme

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2019031156A1 (fr) * 2017-08-08 2019-02-14 住友電気工業株式会社 Système de gestion, dispositif de gestion, procédé de gestion, et programme de gestion

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Publication number Priority date Publication date Assignee Title
JPH0950230A (ja) * 1995-08-07 1997-02-18 Hitachi Ltd プラント運転操作履歴監視シミュレーション方法,プラント運転操作履歴監視シミュレータ,プラント運転操作履歴監視方法及びその装置
JP2008015822A (ja) * 2006-07-06 2008-01-24 Hitachi Ltd プラント監視制御システムの遠隔保守システム
JP2011061693A (ja) * 2009-09-14 2011-03-24 Kddi Corp 操作対象装置を操作した遠隔操作装置を特定する方法及びシステム

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH0950230A (ja) * 1995-08-07 1997-02-18 Hitachi Ltd プラント運転操作履歴監視シミュレーション方法,プラント運転操作履歴監視シミュレータ,プラント運転操作履歴監視方法及びその装置
JP2008015822A (ja) * 2006-07-06 2008-01-24 Hitachi Ltd プラント監視制御システムの遠隔保守システム
JP2011061693A (ja) * 2009-09-14 2011-03-24 Kddi Corp 操作対象装置を操作した遠隔操作装置を特定する方法及びシステム

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2019031156A1 (fr) * 2017-08-08 2019-02-14 住友電気工業株式会社 Système de gestion, dispositif de gestion, procédé de gestion, et programme de gestion

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