JP2024035633A - Integration system, monitor integration system, facility management integration system, external linkage system, display system, integration method, and program - Google Patents

Abstract

To increase the speed of check work.SOLUTION: An integration system 1 includes a first acquisition unit 131, a second acquisition unit 132, and an output unit 134. The first acquisition unit 131 acquires first information. The second acquisition unit 132 acquires second information. The output unit 134 outputs adjustment information based on the first information and the second information to a display system 40. The first information includes first location information that is information indicating a predetermined area in a facility 5 and is used by a monitor system 20. The second information includes second location information that is information indicating a predetermined area and is used by a facility management system 30. The adjustment information includes at least one of first state information and second state information. In addition, the adjustment information is information for which a predetermined adjustment has been made so that the predetermined area indicated by the first location information and the predetermined area indicated by the second information are recognized to be at the same location in the display system 40.SELECTED DRAWING: Figure 1

Description

The present disclosure generally relates to an integrated system, a monitoring integrated system, an equipment management integrated system, an external cooperation system, a display system, an integrated method, and a program. More specifically, the present invention relates to an integrated system, a monitoring integrated system, an equipment management integrated system, an external cooperation system, a display system, an integrated method, and a program for acquiring information based on management results of an equipment management system.

BACKGROUND ART Conventionally, a system has been known that allows checking information regarding equipment systems installed in a facility (see Patent Document 1). In Patent Document 1, a control system includes a control unit and other units connected to the control unit. The other units include a power supply unit, a communication unit, and equipment related to the control unit, power supply unit, and communication unit. The control unit obtains information from each of the other units. The control unit manages and monitors other units.

JP2020-048090A

The control unit (integrated system) of Patent Document 1 needs to individually manage and monitor other units (monitoring system, equipment management system). Therefore, when an abnormality is detected in one unit, the status of the other units must be checked individually, which may cause a delay in the confirmation work.

The present disclosure has been made in view of the above issues, and includes a monitoring system that can speed up confirmation work and an integrated system that can reduce the hassle of separately managing and monitoring equipment management systems, an integrated monitoring system, and equipment management. The purpose is to provide integrated systems, external cooperation systems, display systems, integration methods, and programs.

An integrated system according to one aspect of the present disclosure includes a first acquisition unit, a second acquisition unit, and an output unit. The first acquisition unit acquires first information regarding a monitoring system installed in a facility. The second acquisition unit acquires second information regarding an equipment management system installed in the facility. The output unit outputs adjustment information based on the first information and the second information to a display system used by a manager of the facility. The first information is information representing a predetermined area within the facility and includes first position information used by the monitoring system. The second information is information representing the predetermined area and includes second position information used by the equipment management system. The adjustment information includes first status information regarding the status of the predetermined area, which is a monitoring result of the monitoring system in the predetermined area, and second status information regarding the status of the predetermined area, which is a management result of the equipment management system in the predetermined area. and status information. The adjustment information is subjected to a predetermined adjustment so that the predetermined area represented by the first position information and the predetermined area represented by the second position information are recognized as being in the same position by the display system. This is the information.

A monitoring integrated system according to an aspect of the present disclosure includes the integrated system and the monitoring system.

An integrated equipment management system according to an aspect of the present disclosure includes the integrated monitoring system and the equipment management system.

An external collaboration system according to one aspect of the present disclosure includes the integrated system and the display system.

A display system according to one aspect of the present disclosure includes an acquisition unit and a display unit. The acquisition unit acquires the adjustment information from the integrated system. The display section displays a screen based on the adjustment information.

An integration method according to one aspect of the present disclosure includes a first acquisition step, a second acquisition step, and an output step. The first acquisition step acquires first information regarding a monitoring system installed in the facility. The second acquisition step acquires second information regarding an equipment management system installed at the facility. The output step outputs adjustment information based on the first information and the second information to a display system used by a manager of the facility. The first information is information representing a predetermined area within the facility and includes first position information used by the monitoring system. The second information is information representing the predetermined area and includes second position information used by the facility management system. The adjustment information includes first status information regarding the status of the predetermined area, which is a monitoring result of the monitoring system in the predetermined area, and second status information regarding the status of the predetermined area, which is a management result of the equipment management system in the predetermined area. and status information. The adjustment information is subjected to a predetermined adjustment so that the predetermined area represented by the first position information and the predetermined area represented by the second position information are recognized as being in the same position by the display system. This is the information.

A program according to one aspect of the present disclosure is a program for causing a computer system to execute the integration method.

According to the present disclosure, it is possible to speed up the confirmation work.

FIG. 1 is a configuration diagram showing a system including an integrated system according to an embodiment. FIG. 2 is a conceptual diagram illustrating coordinate alignment performed in the integrated system. FIG. 3 is a conceptual diagram illustrating scale adjustment performed in the above integrated system. FIG. 4 is a flowchart illustrating the operation of the above integrated system. FIG. 5 is a screen diagram showing an example of a screen displayed by the display system according to one embodiment.

The embodiments and modified examples described below are merely examples of the present disclosure, and the present disclosure is not limited to the embodiments and modified examples. Even other than the embodiments and modified examples, various changes can be made according to the design etc. as long as they do not deviate from the technical idea of the present disclosure.

(Embodiment)
Hereinafter, an integrated system 1 according to the present embodiment, a monitoring integrated system 3 including the integrated system 1, and an equipment management integrated system 2 including the integrated monitoring system will be described using FIGS. 1 to 5.

(1) Overview The facility management integrated system 2 according to the embodiment includes a monitoring integrated system 3 and a facility management system 30, as shown in FIG. The integrated monitoring system 3 includes an integrated system 1 and a monitoring system 20, as shown in FIG. Further, the external cooperation system 4 includes an integrated system 1 and a display system 40, as shown in FIG.

The integrated system 1 is configured to be able to communicate with a monitoring system 20, an equipment management system 30, and a display system 40 via a network NT1 such as the Internet.

In this embodiment, the monitoring system 20 and the facility management system 30 are configured to be able to communicate with the integrated system 1 via the gateway 50 and the network NT1. The gateway 50 is a communication device for communicatively connecting different systems, and in this embodiment, communicably connects the monitoring system 20, the equipment management system 30, and the integrated system 1.

As shown in FIG. 1, the facility management system 30 includes a lighting system 31, an entry/exit system 32, and a surveillance camera system 33. A lighting system 31, an entrance/exit system 32, and a surveillance camera system 33 are provided in the facility 5. The lighting system 31 is included in the facility 5 and controls one or more lighting devices provided in each space (room, hallway, etc.) separated by a wall or the like. The room entry/exit system 32 detects the entry and exit of people for each space included in the facility 5, and manages the number of people in the space. The surveillance camera system 33 monitors the inside of each space included in the facility 5 by capturing an image of the inside of the space using one or more cameras provided in the space.

The monitoring system 20 monitors the conditions within the facility 5. The monitoring system 20 monitors (detects) whether or not a predetermined event has occurred within the facility 5 to monitor the state within the facility 5 . For example, the monitoring system 20 is a disaster prevention system that detects the occurrence of a fire in the facility 5, and detects the occurrence of a predetermined event (fire in a space) on each floor included in the facility 5.

The display system 40 is a system used by the administrator of the facility 5, acquires information transmitted from the integrated system 1, and displays it on the display unit 43. The display system 40 may be provided within the facility 5 or may be provided outside the facility 5.

As shown in FIG. 1, the integrated system 1 includes a first acquisition section 131, a second acquisition section 132, and an output section 134. The first acquisition unit 131 acquires first information regarding the monitoring system 20 installed in the facility 5. The second acquisition unit 132 acquires second information regarding the equipment management system 30 provided in the facility 5. The output unit 134 outputs adjustment information based on the first information and the second information to the display system 40 used by the administrator of the facility 5. The first information is information representing a predetermined area within the facility 5 and includes first position information used by the monitoring system 20. The second information is information representing a predetermined area and includes second position information used by the facility management system 30. The adjustment information includes first state information regarding the state of the predetermined area, which is the monitoring result of the monitoring system 20 in the predetermined area, and second state information regarding the state of the predetermined area, which is the management result of the equipment management system 30 in the predetermined area. including at least one. Furthermore, the adjustment information is information that has been adjusted in a predetermined manner so that the predetermined area represented by the first position information and the predetermined area represented by the second position information are recognized as being in the same position on the display system 40. be.

According to this configuration, the integrated system 1 performs a predetermined adjustment so that the predetermined area represented by the first position information and the predetermined area represented by the second position information are recognized as being in the same position on the display system 40. The adjusted adjustment information is output to the display system 40. Thereby, the first status information and the second status information can be displayed together on the display system 40, so that the confirmation work can be speeded up.

Here, the term "facility" as used in the present disclosure includes non-residential facilities such as offices, stores, businesses, factories, buildings, schools, welfare facilities, or hospitals. Non-residential facilities include theaters, movie theaters, public halls, playgrounds, complexes, restaurants, department stores, hotels, inns, kindergartens, libraries, museums, art galleries, underground malls, stations, and airports. Furthermore, "facilities" as used in the present disclosure include outdoor facilities such as baseball stadiums, gardens, parking lots, grounds, and parks.

(2) Configuration The configuration of each system will be explained below.

(2.1) Monitoring System The monitoring system 20 monitors the conditions inside the facility 5. The monitoring system 20 monitors the occurrence of a predetermined event (first event) within the facility 5 to monitor the state within the facility 5 . The monitoring system 20 is, for example, a disaster prevention system, and monitors (detects) whether or not a fire has occurred as a state within the facility 5. The configuration of a disaster prevention system as an example of the monitoring system 20 will be described below.

The monitoring system 20 detects the occurrence of a predetermined event (fire in a space) on each floor included in the facility 5. Specifically, the monitoring system 20 includes a plurality of detection sensors that detect the occurrence of a fire, a monitoring server configured to be able to communicate with the plurality of detection sensors and the integrated system 1, and a plurality of sprinklers.

The monitoring server of monitoring system 20 includes, for example, a computer system having one or more processors and memory. Then, the processor executes the program stored in the memory, thereby realizing the function of the computer system as a monitoring server. Although the program executed by the processor is pre-recorded in the memory of the computer system here, it may also be provided recorded on a non-temporary recording medium such as a memory card, or provided via a telecommunications line such as the Internet. may be done.

The detection sensor is, for example, a smoke detector. Each floor is provided with one or more detection sensors.

The sprinkler sprays water to extinguish a fire under the control of the monitoring server. Each floor is equipped with one or more sprinklers.

The monitoring server receives detection results from multiple detection sensors. When the monitoring server receives a detection result indicating that the occurrence of a fire has been detected, the monitoring server specifies the location of the detection sensor that transmitted the detection result as the location where the fire has occurred. For example, a detection sensor transmits an identifier in addition to a detection result. The monitoring server stores the identifier of the detection sensor and the position where the detection sensor is installed in association with each other. The monitoring server can identify the location of the detection sensor that detected the occurrence of a fire by acquiring the location corresponding to the identifier received along with the detection result. The position of the detection sensor stored in the monitoring server is represented by two-dimensional coordinates with a certain point as the origin, for example in a plan view of a floor including one or more spaces among a plurality of spaces.

The monitoring server transmits monitoring result information (first information) including the detection results of the detection sensors to the integrated system 1 via the network NT1. Specifically, the monitoring server generates detection result information for each floor of the facility based on the detection results of one or more detection sensors provided on the floor. The monitoring server transmits the generated detection result information to the integrated system 1.

Here, the detection result information includes the detection results of one or more detection sensors provided on the floor and the operating state of one or more sprinklers. The operating state of the sprinkler refers to either "in operation" or "stopped". Furthermore, the detection result information includes first position information. The first position information is information representing a predetermined area (here, a floor) within the facility 5 and is information used by the monitoring system 20. The first position information is used by the monitoring system 20 and includes first coordinate information representing a position included in a predetermined area. For example, the first coordinate position information represents the respective positions of one or more detection sensors and one or more sprinklers provided in a predetermined area (floor).

Furthermore, the detection result information includes a first plan view for specifying a predetermined area (floor) represented by the first coordinate information and represented at a first scale, and a two-dimensional position of the detection sensor. It includes first origin information indicating the position of the origin, which is a reference for representing in coordinates.

Further, when the occurrence of a fire is detected, the monitoring server includes event information regarding a predetermined event in the generated detection result information. For example, the event information is information indicating that a fire has occurred.

Furthermore, when the monitoring server receives a detection result indicating that a fire outbreak has been detected, the monitoring server instructs the monitoring server to spray water to one or more sprinklers near the location where the detection sensor that detected the fire occurrence is installed. Control more than one sprinkler.

(2.2) Equipment Management System The equipment management system 30 manages the surrounding environment in which the equipment of the equipment management system 30 is installed. The equipment management system 30 transmits management result information (second information) representing the management results of the equipment management system 30 to the integrated system 1 via the gateway 50 and the network NT1.

As shown in FIG. 1, the facility management system 30 includes a lighting system 31, an entry/exit system 32, and a surveillance camera system 33. A lighting system 31, an entrance/exit system 32, and a surveillance camera system 33 are provided in the facility 5.

(2.2.1) Lighting System The lighting system 31 controls one or more lighting devices provided in each space on each floor of the facility 5. The lighting system 31 includes a plurality of lighting devices and a lighting control device that controls the plurality of lighting devices. Each space is provided with one or more lighting devices. The lighting control device is configured to be able to communicate with a plurality of lighting devices. Furthermore, the lighting control device is configured to be able to communicate with the integrated system 1 via the gateway 50.

The lighting control device of the lighting system 31 includes, for example, a computer system having one or more processors and memory. Then, the processor executes the program stored in the memory, thereby realizing the function of the computer system as a lighting control device. Although the program executed by the processor is pre-recorded in the memory of the computer system here, it may also be provided recorded on a non-temporary recording medium such as a memory card, or provided via a telecommunications line such as the Internet. may be done.

The lighting control device controls the on/off of a plurality of lighting devices and manages the state (on/off state) of the lighting devices, thereby managing the surrounding environment (brightness of space) of the lighting device. The lighting control device is information for a floor requested by the integrated system 1, and includes management result information (first management result) that includes, as a management result, the status of one or more lighting devices installed in each space included in the floor. information). The lighting control device transmits the generated first management result information to the integrated system 1.

Here, the first management result information is information representing a predetermined area (floor) and includes position information (second position information) used by the equipment management system 30 (here, the lighting system 31). The position information used by the illumination system 31 includes coordinate position information (second coordinate information) representing a position included in a predetermined area. For example, the coordinate position information used by lighting system 31 represents the position of each of one or more lighting devices provided on a floor. The position of the lighting device is expressed, for example, in a plan view of a floor by two-dimensional coordinates with a certain point as the origin.

The first management result information includes environmental information regarding the surrounding environment of the equipment of the equipment management system 30. Specifically, the first management result information includes information including the status of one or more lighting devices installed on the floor as environmental information regarding the surrounding environment of the equipment (lighting device) of the lighting system 31.

Furthermore, the first management result information is a plan view for specifying a predetermined area (floor) represented by coordinate position information (second coordinate information), and is a management result represented at a predetermined scale (second scale). management origin information representing the position of the origin serving as a reference for representing the position of the lighting device in two-dimensional coordinates.

(2.2.2) Room Entry/Exit System The room entry/exit system 32 detects the entry and exit of people for each space on each floor of the facility 5, and manages the number of people in the space. The room entry/exit system 32 includes a plurality of human detection sensors that detect the presence or absence of people in a predetermined range, and a room entry/exit management device. Each space is provided with one or more human detection sensors. The room entry/exit control device is configured to be able to communicate with a plurality of human detection sensors. Further, the room entry/exit control device is configured to be able to communicate with the integrated system 1 via the gateway 50.

When the person detection sensor receives a beacon containing an identifier of the person in the facility transmitted from a terminal owned by a user (person in the facility) of the facility 5, the person detection sensor detects the identifier included in the received beacon and the person detection sensor. The person detection result including the sensor identifier for identification is sent to the room entry/exit control device.

The entry/exit control device of the entry/exit system 32 includes, for example, a computer system having one or more processors and memory. The processor executes the program stored in the memory, so that the computer system realizes the function of a room entry/exit control device. Although the program executed by the processor is pre-recorded in the memory of the computer system here, it may also be provided recorded on a non-temporary recording medium such as a memory card, or provided via a telecommunications line such as the Internet. may be done.

The room entry/exit management device manages the number of people in each space by receiving human detection results from one or more human detection sensors for each space. The room entry/exit control device generates management result information (second management result information), which is information regarding the floor requested by the integrated system 1 and includes the number of people in each space included in the floor as a management result. The room entry/exit management device transmits the generated second management result information to the integrated system 1.

Here, the second management result information is information representing a predetermined area (floor) and includes position information (second position information) used by the facility management system 30 (in this case, the room entry/exit system 32). The position information used by the room entry/exit system 32 includes coordinate position information (second coordinate information) representing a position included in the predetermined area. For example, the coordinate position information used by the room entry/exit system 32 represents the respective positions of one or more human detection sensors provided on the floor. The position of the human detection sensor is expressed, for example, in a plan view of a floor, using two-dimensional coordinates with a certain point as the origin.

The second management result information includes environmental information regarding the surrounding environment of the equipment of the equipment management system 30. Specifically, the second management result information is information including the detection results of one or more human detection sensors provided for each space on the floor, that is, the number of people in each space on the floor, and the equipment of the entry/exit system 32 ( Included as environmental information regarding the surrounding environment of the human detection sensor).

Furthermore, the second management result information is a plan view for specifying a predetermined area (floor) represented by coordinate position information (second coordinate information), and is a management result represented at a predetermined scale (second scale). management origin information representing the position of the origin serving as a reference for representing the position of the human detection sensor in two-dimensional coordinates.

Note that the room entry/exit system 32 may manage entry/exit of people using a camera. For example, the room entry/exit control device calculates the number of people present in a space based on images captured by cameras provided in each space on a floor.

Alternatively, the room entry/exit system 32 may use a human sensor as the human detection sensor. For example, the room entry/exit control device determines the presence or absence of a person in a space based on the detection result of a human sensor provided in each space on the floor.

(2.2.3) Surveillance Camera System The surveillance camera system 33 monitors the space by capturing an image of the space using one or more cameras provided in each space on each floor of the facility 5. The surveillance camera system 33 includes one or more surveillance cameras that image a predetermined range in space, and a camera control device. Each space is provided with one or more surveillance cameras. The camera control device is configured to be able to communicate with a plurality of surveillance cameras. Furthermore, the camera control device is configured to be able to communicate with the integrated system 1 via the gateway 50.

The camera control device of the surveillance camera system 33 includes, for example, a computer system having one or more processors and memory. Then, the processor executes the program stored in the memory, thereby realizing the function of the computer system as a camera control device. Although the program executed by the processor is pre-recorded in the memory of the computer system here, it may also be provided recorded on a non-temporary recording medium such as a memory card, or provided via a telecommunications line such as the Internet. may be done.

The camera control device manages (monitors) the state of each space by receiving captured images from a plurality of monitoring cameras. The camera control device generates management result information (third management result information) that is information regarding the floor requested by the integrated system 1 and includes captured images for each space included in the floor as a management result. The camera control device transmits the generated third management result information to the integrated system 1.

Here, the third management result information is information representing a predetermined area (floor) and includes position information (second position information) used by the equipment management system 30 (here, the surveillance camera system 33). The position information used by the surveillance camera system 33 includes coordinate position information (second coordinate information) representing a position included in a predetermined area. For example, the coordinate position information used by the surveillance camera system 33 represents the position of each of one or more surveillance cameras provided on a floor. The position of the surveillance camera is represented by two-dimensional coordinates with a certain point as the origin, for example on a floor plan.

The third management result information includes environmental information regarding the surrounding environment of the equipment of the equipment management system 30. Specifically, the third management result information includes information including the imaging results (captured images) of one or more surveillance cameras provided for each space on the floor, and the information surrounding the equipment (surveillance cameras) of the surveillance camera system 33. Included as environmental information regarding the environment.

Furthermore, the second management result information is a plan view for specifying a predetermined area (floor) represented by coordinate position information (second coordinate information), and is a management result represented at a predetermined scale (second scale). management origin information representing the position of the origin serving as a reference for representing the position of the surveillance camera in two-dimensional coordinates.

(2.3) Integrated System The integrated system 1 includes a communication section 11, a storage section 12, and a control section 13, as shown in FIG.

The integrated system 1 includes, for example, a computer system having one or more processors and memory. The computer system functions as the control unit 13 by the processor executing the program stored in the memory. Although the program executed by the processor is pre-recorded in the memory of the computer system here, it may also be provided recorded on a non-temporary recording medium such as a memory card, or provided via a telecommunications line such as the Internet. may be done.

The communication unit 11 includes communication interfaces for communicating with the monitoring system 20 and the facility management system 30 via the gateway 50 and the network NT1, and communicating with the display system 40 via the network NT1.

The storage unit 12 is configured of a device selected from ROM (Read Only Memory), RAM (Random Access Memory), EEPROM (Electrically Erasable Programmable Read Only Memory), and the like.

The storage unit 12 stores information (for example, an e-mail address) representing the display system 40 to which the adjustment information is transmitted.

The control unit 13 includes a first acquisition unit 131, a second acquisition unit 132, an integration processing unit 133, and an output unit 134, as shown in FIG.

The first acquisition unit 131 acquires first information regarding the monitoring system 20 installed in the facility 5. For example, the first acquisition unit 131 acquires first information based on the monitoring results of the monitoring system 20. More specifically, the first acquisition unit 131 acquires detection result information (first information) from the monitoring system 20 provided in the facility 5. When the monitoring system 20 detects the occurrence of a predetermined event (fire) in a predetermined area, the first acquisition unit 131 obtains detection result information including event information regarding the predetermined event.

The second acquisition unit 132 acquires second information regarding the equipment management system 30 provided in the facility 5. For example, the second acquisition unit 132 acquires second information based on the management results of the equipment management system 30. More specifically, the second acquisition unit 132 acquires management result information (second information) from the equipment management system 30 provided in the facility 5. Specifically, the second acquisition unit 132 acquires the first management result information from the lighting system 31. The second acquisition unit 132 acquires second management result information from the room entry/exit system 32. The second acquisition unit 132 acquires third management result information from the surveillance camera system 33. For example, the second acquisition unit 132 acquires management result information (second information) from at least one system included in the equipment management system 30 in response to an operation by the administrator of the integrated system 1 and a request from the display system 40. . That is, the second acquisition unit 132 acquires management result information from at least one system among the lighting system 31, the room entry/exit system 32, and the surveillance camera system 33.

The integrated processing unit 133 performs processing to generate adjustment information based on detection result information and management result information. The integrated processing unit 133 generates adjustment information to be displayed on the display system 40 used by the administrator of the facility 5. In this embodiment, for example, when event information is included in the detection result information (first information), adjustment information is generated.

The adjustment information recognizes that the predetermined area (floor) represented by the first position information of the detection result information and the predetermined area represented by the position information (second position information) of the management result information are at the same position on the display system 40. This is information that has undergone predetermined adjustments so that the The adjustment information includes at least one of first state information and second state information. The first status information is information regarding the status of the predetermined area, which is the monitoring result of the monitoring system 20 in the predetermined area. The second status information is information regarding the status of the predetermined area, which is a management result of the equipment management system 30 in the predetermined area. In this embodiment, the predetermined event includes a fire. The first status information includes information indicating the status of the equipment (detection sensor) of the monitoring system 20 that has detected the occurrence of a fire in a predetermined area. For example, the first state information includes information indicating detection results of each detection sensor in a predetermined area. Furthermore, the first status information includes information representing the operating status of one or more sprinklers provided in the predetermined area. The second status information includes environmental information regarding the surrounding environment of the equipment of the equipment management system 30 in the predetermined area. For example, the second status information includes at least one of information indicating the status of each equipment (lighting device, human detection sensor, surveillance camera) and the status of the surrounding environment in the predetermined area. Here, the second status information includes both information indicating the status of each piece of equipment in the predetermined area and the status of the surrounding environment. For example, the state of each piece of equipment in a predetermined area included in the second state information represents the operating state of the equipment. Further, the state of the surrounding environment in the predetermined area included in the second state information represents the detection result detected by the equipment. The detection results detected by the equipment include, for example, the number of people entering the room detected by the person detection sensor of the room entry/exit system 32 and an image captured by a monitoring camera of the monitoring camera system 33.

The adjustment information includes map information that displays first state information and second state information. Specifically, the adjustment information includes a plan view of a predetermined area (floor) in which the first state information and the second state information are displayed.

The predetermined adjustment is based on the first coordinate information included in the first location information of the detection result information and the coordinate location information (second coordinate information) included in the location information (second location information) of the management result information. Includes alignment processing.

The integrated processing unit 133 uses the first plan view F1 (see FIG. 2) and first origin information O1 (see FIG. 2) included in the detection result information, and the positions of one or more detection sensors included in the first position information. Based on this, a predetermined position in the first plan view F1 (for example, the center O11 of the first plan view, the end point of the first plan view) is determined. The integrated processing unit 133 uses the management plan view F2 (see FIG. 2) and the management origin information O2 (see FIG. 2) included in the management result information, and one or more coordinate positions included in the position information of the management result information. Based on this information, a predetermined position (for example, the center O21 of the management floor plan, the end point of the management floor plan) on the management floor plan F2 is determined. Here, the first plan view F1 and the management plan view F2 are plan views of the same floor. The predetermined position in the first plan view F1 and the predetermined position in the management plan view F2 represent the same position on the same floor. The integration processing unit 133 performs alignment by superimposing the first plan view and the management plan view so that a predetermined position of the first plan view F1 and a predetermined position of the management plan view F2 overlap. Here, the center of the plan view is the center of the smallest rectangle that includes the outline of the object (here, the facility 5) represented in the plan view.

For example, the integrated processing unit 133 uses the first planar view F1 and the first origin information O1 included in the detection result information and the positions of one or more detection sensors included in the first position information to The center O11 of the first plan view F1 is determined as a predetermined position in the diagram F1. The integrated processing unit 133 creates a management plan view based on the management plan view F2 and management origin information O2 included in the management result information, and one or more coordinate position information included in the position information of the management result information. The center O21 of the management plan view F2 is determined as the predetermined position at F2. The integrated processing unit 133 determines the position by superimposing the first plan view and the management plan view so that the center O11 of the first plan view and the center O21 of the management plan view are included on the virtual axis A1. (See Figure 2).

The predetermined adjustment includes a process of adjusting the scale of the plan view including the predetermined area based on the first plan view and the management plan view (second plan view).

After aligning the first floor plan F1 and the management floor plan F2, the integration processing unit 133 aligns the first floor plan F1 and the management floor plan F2, and then aligns one of the first floor plan F1 and the management floor plan F2 with reference to one of the two. Scale adjustment is performed by enlarging or reducing the other plan view so that the scale is the same as that of the plan view. For example, the integration processing unit 133 enlarges and adjusts the scale of the first plan view F1 using the management plan view F2 as a reference (see FIG. 3).

Further, in the predetermined adjustment, when the display system 40 displays the adjustment information, the first display indicating the first state information and the second display indicating the second state information are superimposed on each other in the scale-adjusted plan view. In this case, the process includes adjusting the first display and the second display so that they do not overlap.

The integration processing unit 133 converts the coordinates represented by the first coordinate information into coordinates using a predetermined position at the time of alignment as a reference (origin). The integrated processing unit 133 sets the coordinates represented by the coordinate position information (second coordinate information) included in the position information (second position information) of the management result information with a predetermined position at the time of alignment as a reference (origin point). ) to the coordinates.

When the coordinates represented by the first coordinate information after coordinate transformation and the coordinates represented by the second coordinate information after coordinate transformation overlap, the integration processing unit 133 shifts one of the coordinates. For example, the integration processing unit 133 increases or decreases the X coordinate and the Y coordinate by a predetermined number with respect to the coordinates represented by the second coordinate information after the coordinate transformation, and sets the result as the second coordinate information after the coordinate transformation.

By performing the above-described predetermined adjustment, the integration processing unit 133 converts map information, which is a plan view of a predetermined area (floor) on which the scale has been adjusted, and the first coordinate information and coordinate information, which have been coordinate-converted. and second coordinate information.

The integrated processing unit 133 includes the detection results of each detection sensor represented by the coordinate-converted first coordinate information in the adjustment information. The integrated processing unit 133 also provides information regarding the display mode (shape) when displaying each detection sensor, and the display color is different between a detection sensor that has detected the occurrence of a fire and a detection sensor that has not detected a fire. The adjustment information includes the display color corresponding to each detection sensor. Thereby, each detection sensor is displayed in a predetermined display mode (graphic) and in a display color according to the detection result. The integrated processing unit 133 includes the operating state of each sprinkler represented by the coordinate-converted first coordinate information in the adjustment information. The integrated processing unit 133 includes, for each sprinkler, a display color according to the operating state of the sprinkler in the adjustment information.

The integrated processing unit 133 includes the management results of each facility represented by the coordinate-converted second coordinate information in the adjustment information. In addition, the integrated processing unit 133 adjusts information regarding the display mode (shape) when displaying each piece of equipment, and the display color corresponding to each piece of equipment so that the display color differs depending on whether the piece of equipment is in operation or stopped. Include in information.

Further, the adjustment information includes a system type representing the type of each system included in the system group 6 (see FIG. 1) including the monitoring system 20 and the facility management system 30. That is, the adjustment information includes system types representing the types of the monitoring system 20, the lighting system 31, the room entry/exit system 32, and the monitoring camera system 33. The integrated processing unit 133 includes the system types of the monitoring system 20, the lighting system 31, the room entry/exit system 32, and the monitoring camera system 33 in the adjustment information in order to display the system types in a selectable manner on the display system 40.

Note that the adjustment information may include equipment types representing the types of equipment of each system included in the system group 6. That is, the adjustment information may include the equipment type representing each equipment (detection sensor, lighting device, human detection sensor, surveillance camera) of the monitoring system 20, lighting system 31, room entry/exit system 32, and surveillance camera system 33. In this case, in order to display the equipment type on the display system 40 in a selectable manner, the integrated processing unit 133 includes each equipment of the monitoring system 20, lighting system 31, room entry/exit system 32, and surveillance camera system 33 in the adjustment information. Include equipment type.

That is, the adjustment information includes a system type representing the type of each system included in the system group 6 including the monitoring system 20 and the equipment management system 30, and an equipment type representing the type of equipment of each system included in the system group 6. At least one of these types is included.

The output unit 134 outputs adjustment information based on the detection result information (first information) and management result information (second information) to the display system 40 used by the administrator of the facility 5. In this embodiment, when event information is included in the detection result information (first information), adjustment information is generated. That is, the output unit 134 outputs adjustment information when the detection result information (first information) includes event information.

Further, since the adjustment information includes at least one of the system type and the equipment type, the output unit 134 outputs the adjustment information and causes the display system 40 to selectably display the type included in the adjustment information.

When a type is selected in the display system 40, the integrated system 1 receives the selected type from the display system 40. For example, upon receiving the system type or equipment type of the system included in the equipment management system 30, the integrated processing unit 133 generates adjustment information using management result information and detection result information according to the received system type or equipment type. generate.

Further, upon receiving the system type or equipment type, the integrated system 1 displays the equipment corresponding to the received type in a plan view of a predetermined area using only the detection result information or management result information according to the received system type or equipment type. The status may be displayed. For example, when the integrated system 1 receives the system type of the monitoring system 20, the integrated system 1 displays the state of the equipment (detection sensor) corresponding to the received system type on a plan view of a predetermined area using only the detection result information on the display system 40. It may be displayed. Alternatively, upon receiving the system type of the lighting system 31, the integrated system 1 uses only the management result information (first management result information) to display the equipment (lighting device) corresponding to the received system type in a plan view of a predetermined area. The status may be displayed on the display system 40.

(2.4) Display System The display system 40 is a system used by the administrator of the facility 5. The display system 40 may be provided within the facility 5 or may be provided outside the facility 5. The display system 40 includes a communication section 41, a control section 42, and a display section 43, as shown in FIG.

Display system 40 includes, for example, a computer system having one or more processors and memory. The computer system functions as the control unit 42 by the processor executing the program stored in the memory. Although the program executed by the processor is pre-recorded in the memory of the computer system here, it may also be provided recorded on a non-temporary recording medium such as a memory card, or provided via a telecommunications line such as the Internet. may be done.

The communication unit 41 includes a communication interface for communicating with the integrated system 1 via the network NT1.

The control unit 42 includes an acquisition unit 421 and a display processing unit 422, as shown in FIG.

The acquisition unit 421 acquires adjustment information from the integrated system 1. More specifically, the acquisition unit 421 acquires adjustment information from the integrated system 1 via the network NT1 when the monitoring system 20 detects the occurrence of an event.

The acquisition unit 421 also acquires adjustment information from the integrated system 1 according to the type (system type or equipment type) selected by the administrator's input.

The display processing section 422 causes the display section 43 to display a screen according to the acquired adjustment information. When a selection of a type (system type or equipment type) is input while the display unit 43 is displaying a screen corresponding to adjustment information, the display processing unit 422 receives the selected type. The display processing unit 422 transmits the received type to the integrated system 1 via the network NT1.

The display unit 43 is, for example, a thin display device such as a liquid crystal display or an organic EL (electroluminescence) display. The display unit 43 displays a screen based on the adjustment information. Specifically, the display unit 43 displays a screen according to the adjustment information through the processing of the display processing unit 422.

(3) Operation Here, the operation of the integrated system 1, particularly the operation related to the generation of adjustment information, will be explained using FIG. 4.

The first acquisition unit 131 acquires detection result information (first information) from the monitoring system 20 provided in the facility 5 (step S1). Specifically, when the monitoring system 20 detects the occurrence of a predetermined event (fire) in a predetermined area, the first acquisition unit 131 acquires detection result information including event information regarding the predetermined event.

The second acquisition unit 132 acquires management result information (second information) from the equipment management system 30 provided in the facility 5 (step S2). Specifically, the second acquisition unit 132 acquires management result information (second information) from at least one system included in the equipment management system 30 in response to an operation by the administrator of the integrated system 1 and a request from the display system 40. get.

The integration processing unit 133 performs integration processing (step S3). The integrated processing unit 133 performs predetermined adjustments to the detection result information and management result information to generate adjustment information. More specifically, when the detection result information (first information) includes event information, the integration processing unit 133 performs a predetermined adjustment on the detection result information and the management result information to generate adjustment information. Specifically, the integration processing unit 133 performs a process of aligning the coordinates, adjusting the scale, and adjusting so that the first display and the second display do not overlap, and generates adjustment information.

The output unit 134 outputs adjustment information based on the detection result information (first information) and the management result information (second information) to the display system 40 (step S4). Specifically, the output unit 134 outputs adjustment information when the detection result information (first information) includes event information.

(4) Specific example Here, a screen based on adjustment information displayed on the display system 40 will be described. As an example, a screen based on adjustment information using detection result information of the monitoring system 20 and monitoring result information (second monitoring result information) of the room entry/exit system 32 will be described.

FIG. 5 shows a screen G1 based on adjustment information using detection result information of the monitoring system 20 and monitoring result information of the room entry/exit system 32 (second monitoring result information).

Screen G1 includes a plan view F10 and a type display area G10.

The plan view F10 is a plan view resulting from alignment and scale adjustment performed by the integrated processing unit 133.

Display modes D1 (black circles) and D2 (white circles) correspond to first displays indicating first status information representing the status of the detection sensor. The display mode D1 represents the state of the detection sensor that detected the fire. Display mode D2 represents the state of the detection sensor that is not detecting a fire. Display modes D3 (white squares) and D4 (black squares) correspond to a first display showing first state information representing the state of the sprinkler. Display mode D3 represents the state of the sprinkler in operation (discharging water). Display mode D4 represents the state of the sprinkler that is stopped (not discharging water). The display modes D1 to D4 are displayed at positions corresponding to the detection sensors and sprinklers, respectively, based on the coordinate-converted first coordinate information.

Display mode D5 (white triangle) corresponds to a second display indicating second status information indicating the status of the human detection sensor. Similarly, the black triangle display mode corresponds to a second display indicating second status information representing the status of the human detection sensor. Display mode D5 represents the state of the human detection sensor in operation. The display form of a black triangle represents the state of the human detection sensor when it is stopped. Display mode D5 is displayed at a position corresponding to the human detection sensor based on the second coordinate information subjected to coordinate conversion.

Furthermore, the display mode D6 corresponds to second information representing the state of the surrounding environment in the predetermined area. Here, the display mode D6 corresponds to second information representing the number of people entering the space. Display mode D6 is displayed at a position based on the second coordinate information subjected to coordinate transformation.

Here, for example, if the display mode D61 and the display mode D21 overlap in the plan view F10 where the scale adjustment has been performed, the integration processing unit 133 adjusts the display mode D61 and the display mode D21 so that they do not overlap. Perform the processing to do. Here, the integrated processing unit 133 changes the display position of one of the display modes D61 and D21. In the example of FIG. 5, the display position of display mode D61 has been changed.

The type display area G10 includes a first display area G11 and a second display area G12. In the first display area G11, a system type representing the type of each system included in the system group 6 and a check box B11 corresponding to the system type are displayed. In the second display area G12, equipment types representing the types of equipment of each system included in the system group 6 and check boxes B12 corresponding to the equipment types are displayed.

For example, when the checkbox B11 for the monitoring system 20 is selected among the system types shown in the first display area G11, the detection results of each detection sensor of the monitoring system 20 are displayed as black squares or white squares in the plan view F10. displayed in the following manner. At this time, other system types are not displayed.

Thereby, the administrator can display a screen based on adjustment information according to the type (system type or equipment type) desired to be displayed.

(5) Advantages As explained above, the integrated system 1 of this embodiment includes the first acquisition section 131, the second acquisition section 132, and the output section 134. The first acquisition unit 131 acquires first information based on the monitoring results of the monitoring system 20 installed in the facility 5. The second acquisition unit 132 acquires second information based on the management results of the equipment management system 30 provided in the facility 5. The output unit 134 outputs adjustment information based on the first information and the second information to the display system 40 used by the administrator of the facility 5. The first information is information representing a predetermined area within the facility 5 and includes first position information used by the monitoring system 20. The second information is information representing a predetermined area and includes second position information used by the facility management system 30. The adjustment information includes first state information regarding the state of the predetermined area, which is a monitoring result of the monitoring system in the predetermined area, and second state information regarding the state of the predetermined area, which is a management result of the equipment management system in the predetermined area. Furthermore, the adjustment information is information that has been adjusted in a predetermined manner so that the predetermined area represented by the first position information and the predetermined area represented by the second position information are recognized as being in the same position on the display system 40. be.

According to this configuration, the integrated system 1 performs a predetermined adjustment so that the predetermined area represented by the first position information and the predetermined area represented by the second position information are recognized as being in the same position on the display system 40. The adjusted adjustment information is output to the display system 40. Thereby, the first status information and the second status information can be displayed together on the display system 40, so that the confirmation work can be speeded up.

(5) Modification Examples Modification examples are listed below. Note that the modified examples described below can be applied in combination with the above embodiment as appropriate.

(5.1) Modification example 1
The facility management system 30 includes a lighting system 31, a room entry/exit system 32, and a surveillance camera system 33. However, the configuration is not limited to this.

The facility management system 30 includes a carbon dioxide detection system including a concentration sensor that detects the concentration of carbon dioxide on each floor, and a temperature detection system that includes a temperature sensor that detects the temperature of each floor or each space included in the floor. Good too.

That is, the facility management system 30 may have a configuration including at least one of a lighting system 31, an entry/exit system 32, a surveillance camera system 33, a carbon dioxide detection system, and a temperature detection system.

(5.2) Modification 2
In the embodiment described above, the integrated system 1 is configured to generate adjustment information when the occurrence of an event (fire) is detected. However, the configuration is not limited to this.

If the occurrence of an event (fire) is not detected, the integrated system 1 may generate adjustment information for a predetermined area (floor) designated by an operation by the administrator of the integrated system 1.

For example, when the second floor of the facility 5 is specified as the predetermined area, the first acquisition unit 131 acquires the detection result information (first information) for the second floor, and the second acquisition unit 132 acquires the detection result information (first information) for the second floor. Obtain management result information (second information) for.

Thereby, adjustment information can be displayed on the display system 40 even in a normal state where no event (fire) has been detected.

Note that the administrator of the facility 5 may use the display system 40 to specify a predetermined area when the occurrence of an event (fire) is not detected.

(5.3) Modification 3
In the embodiment described above, the monitoring system 20 includes a plan view of a predetermined area (floor) where the occurrence of an event has been detected and the first origin information in the detection result information, and transmits the result information to the integrated system 1. However, the configuration is not limited to this.

The storage unit 12 may store a plan view of each floor monitored by the monitoring system 20 and first origin information corresponding to the first plan view of each floor. In this case, the detection result information that the monitoring system 20 transmits to the integrated system 1 does not include the first plan view and the first origin information.

Similarly, the storage unit 12 stores management floor plans (second floor plans) of each floor managed by the facility management system 30 and management origin information (second origin information) corresponding to the floor plans of each floor. The storage unit 12 may store the information. That is, a management plan (second plan) of each floor managed by each of the lighting system 31, entrance/exit system 32, and surveillance camera system 33, and management origin information (second plan) corresponding to the plan of each floor. origin information) may be stored in the storage unit 12. In this case, the management result information that the facility management system 30 transmits to the integrated system 1 does not include the management plan view and the management origin information.

(5.4) Modification 4
In the integrated system 1, when the equipment management system 30 detects the occurrence of a predetermined event (second event) in a predetermined area (floor), the integrated processing unit 133 generates adjustment information; The adjustment information may be output by the output unit 134.

In this case, when the equipment management system 30 detects the occurrence of a predetermined event in a predetermined area, the management result information (second information) includes event information regarding the predetermined event. For example, when the lighting system 31 detects the occurrence of a predetermined event (failure of lighting equipment) in a predetermined area, it transmits management result information including event information indicating that the lighting equipment has failed to the integrated system 1. .

The second acquisition unit 132 of the integrated system 1 acquires management result information including event information regarding a predetermined event from the equipment management system 30. The first acquisition unit 131 acquires detection result information (first information) from the monitoring system 20 regardless of whether or not the occurrence of an event (fire) is detected. When the management result information includes event information, the integrated processing unit 133 generates adjustment information based on the detection result information acquired by the first acquisition unit 131 and the management result information acquired by the second acquisition unit 132. . The output unit 134 transmits the adjustment information generated by the integration processing unit 133 to the display system 40. That is, since the integrated processing unit 133 generates adjustment information when the management result information includes event information, the output unit 134 outputs adjustment information when the management result information (second information) includes event information. do.

(5.5) Modification 5
In the embodiment described above, the adjustment information includes at least one of the system type and the equipment type. However, the configuration is not limited to this.

The adjustment information includes the type of event detected by each system included in the system group 6 including the monitoring system 20 and the facility management system 30, and the priority order indicating the importance of the event detected by each system included in the system group 6. It may also include information on at least one of these.

The output unit 134 may output the adjustment information and cause the display system 40 to selectably display the information included in the adjustment information.

For example, when the adjustment information includes both the event type and the event priority, the first display area G11 of the type display area G10 included in the screen shown in FIG. Checkboxes corresponding to the event type are displayed. Furthermore, in the second display area G12, a priority order for each event and a check box corresponding to the priority order are displayed.

(5.6) Modification 6
The monitoring system 20 is configured to detect the occurrence of a fire. However, the configuration is not limited to this.

The monitoring system 20 may be a system that detects the occurrence of an earthquake. That is, the monitoring system 20 may be a system that detects disasters.

(5.7) Modification 7
In the above embodiment, the predetermined area is a floor. However, the configuration is not limited to this. The predetermined area may be a space such as a room including a floor.

(5.8) Modification 8
In the above embodiment, when both the monitoring system 20 and the equipment management system 30 image a predetermined area, the image when the occurrence of an event is detected is used for the integration process, and the positioning is performed with respect to each image. , scale adjustment, and adjustment so that the first display and the second display do not overlap may be performed to generate adjustment information including a composite image in which each image is superimposed.

(5.9) Modification 9
In the embodiment described above, in the predetermined adjustment, the integration processing unit 133 uses one of the first plan view F1 and the management plan view F2 as a reference, and sets the scale to be the same as that of the other plan view. The scale is adjusted by enlarging or reducing the other plan view. That is, the integration processing unit 133 associates the information of the monitoring system 20 with the space defined by the facility management system 30 in a predetermined adjustment. Alternatively, the integrated processing unit 133 associates information in the facility management system 30 with the space defined in the monitoring system 20 in a predetermined adjustment. However, the association between the information of the monitoring system 20 and the information of the facility management system 30 is not limited to these methods. The integrated processing unit 133 may associate the information of the monitoring system 20 and the information of the facility management system 30 with a space defined elsewhere. For example, in the predetermined adjustment, the integrated processing unit 133 enlarges or reduces the first plan view F1 and the management plan view F2 based on a plan view different from the first plan view F1 and the management plan view F2. to scale to another floor plan.

That is, the integrated system 1 may associate the detection result information with a space defined in the equipment management system 30 (for example, map information (plan view) set in the equipment management system 30). Alternatively, the integrated system 1 may associate the management result information with a space defined in the monitoring system 20 (for example, map information (plan view) set in the monitoring system 20). Alternatively, the integrated system 1 stores the detection result information and the management result information in a space defined elsewhere (for example, map information (plan view) set in a system different from the monitoring system 20 and the facility management system 30). It may also be associated with

(5.10) Modification 10
In the above embodiment, the first acquisition unit 131 and the second acquisition unit 132 are separate components. However, the configuration is not limited to this.

The first acquisition unit 131 and the second acquisition unit 132 may be the same component.

(5.11) Modification 11
In the above embodiment, the first position information is used in the monitoring system 20 and includes first coordinate information representing a position included in a predetermined area. However, the configuration is not limited to this. The first position information is used by the monitoring system 20 and may include a predetermined range (predetermined space) including first coordinate information representing a position included in the predetermined area.

The second position information is used in each system (lighting system 31, entry/exit system 32, surveillance camera system 33) of the facility management system 30, and is used to provide coordinate position information (second coordinate information) representing a position included in a predetermined area. The structure includes However, the configuration is not limited to this. The second position information is used by the facility management system 30 and may include a predetermined range (predetermined space) including second coordinate information representing a position included in the predetermined area.

(Other variations)
The embodiment described above is only one of various embodiments of the present disclosure. The embodiments described above can be modified in various ways depending on the design, etc., as long as the objective of the present disclosure can be achieved. Further, functions similar to those of the integration system 1 may be realized by an integration method, a computer program, a non-temporary recording medium on which the program is recorded, or the like.

An integration method according to one embodiment includes a first acquisition step, a second acquisition step, and an output step. The first acquisition step acquires first information (for example, detection result information) regarding the monitoring system 20 installed in the facility 5. The second acquisition step acquires second information (for example, management result information) regarding the equipment management system 30 provided in the facility 5. The output step outputs the adjustment information based on the first information and the second information to the display system 40 used by the administrator of the facility 5. The first information is information representing a predetermined area within the facility 5 and includes first position information used by the monitoring system 20. The second information is information representing a predetermined area and includes second position information used by the facility management system 30. The adjustment information includes first state information regarding the state of the predetermined area, which is the monitoring result of the monitoring system 20 in the predetermined area, and second state information regarding the state of the predetermined area, which is the management result of the equipment management system 30 in the predetermined area. including at least one. Furthermore, the adjustment information is information that has been adjusted in a predetermined manner so that the predetermined area represented by the first position information and the predetermined area represented by the second position information are recognized as being in the same position on the display system 40. be. A program according to one embodiment is a program for causing a computer system to execute the above-described integration method.

The integrated system 1 in the present disclosure includes a computer system. A computer system mainly consists of a processor and a memory as hardware. The functions of the integrated system 1 in the present disclosure are realized by a processor executing a program recorded in the memory of the computer system. The program may be pre-recorded in the memory of the computer system, may be provided through a telecommunications line, or may be recorded on a non-transitory storage medium readable by the computer system, such as a memory card, optical disc, hard disk drive, etc. may be provided. A processor in a computer system is comprised of one or more electronic circuits including semiconductor integrated circuits (ICs) or large scale integrated circuits (LSIs). The integrated circuits such as IC or LSI referred to herein have different names depending on the degree of integration, and include integrated circuits called system LSI, VLSI (Very Large Scale Integration), or ULSI (Ultra Large Scale Integration). Furthermore, an FPGA (Field-Programmable Gate Array), which is programmed after the LSI is manufactured, or a logic device that can reconfigure the connections inside the LSI or reconfigure the circuit sections inside the LSI, may also be used as a processor. Can be done. The plurality of electronic circuits may be integrated into one chip, or may be provided in a distributed manner over a plurality of chips. A plurality of chips may be integrated into one device, or may be distributed and provided in a plurality of devices. The computer system herein includes a microcontroller having one or more processors and one or more memories. Therefore, the microcontroller is also composed of one or more electronic circuits including semiconductor integrated circuits or large-scale integrated circuits.

Furthermore, it is not an essential configuration for the integrated system 1 that multiple functions of the integrated system 1 are integrated into one housing, and the components of the integrated system 1 are distributed and provided in multiple housings. You can leave it there. Furthermore, at least some of the functions of the integrated system 1 may be realized by a cloud (cloud computing) or the like.

(summary)
As described above, the integrated system (1) of the first aspect includes a first acquisition section (131), a second acquisition section (132), and an output section (134). The first acquisition unit (131) acquires first information (for example, detection result information) regarding the monitoring system (20) provided in the facility (5). The second acquisition unit (132) acquires second information (for example, management result information) regarding the equipment management system (30) provided in the facility (5). The output unit (134) outputs adjustment information based on the first information and the second information to the display system (40) used by the administrator of the facility (5). The first information is information representing a predetermined area within the facility (5) and includes first position information used by the monitoring system (20). The second information is information representing a predetermined area and includes second position information used by the equipment management system (30). The adjustment information includes at least one of first state information regarding the state of the predetermined area, which is a monitoring result of the monitoring system in the predetermined area, and second state information regarding the state of the predetermined area, which is the management result of the equipment management system in the predetermined area. including. Further, the adjustment information is subjected to a predetermined adjustment so that the predetermined area represented by the first position information and the predetermined area represented by the second position information are recognized as being in the same position on the display system (40). It is information.

According to this aspect, the integrated system (1) is arranged so that the predetermined area represented by the first position information and the predetermined area represented by the second position information are recognized as being in the same position by the display system (40). The adjusted information that has been adjusted is output to the display system (40). As a result, the first status information and the second status information can be displayed together on the display system (40), thereby speeding up the confirmation work.

In the integrated system (1) of the second aspect, in the first aspect, the adjustment information includes map information (for example, a plan view) that displays the first status information and the second status information.

According to this aspect, since the first status information and the second status information can be displayed as map information, confirmation work can be easily performed.

In the integrated system (1) of the third aspect, in the first or second aspect, the first position information includes first coordinate information representing a position included in a predetermined area used in the monitoring system (20). The second position information includes second coordinate information representing a position included in a predetermined area used by the equipment management system (30). The predetermined adjustment includes a process of aligning coordinates based on first coordinate information included in the first location information and second coordinate information included in the second location information.

According to this aspect, the origin of the coordinates used by the monitoring system (20) and the equipment management system (30) may be different. Therefore, by aligning the coordinates, the monitoring system (20) and the equipment management system (30) can use the same coordinates.

In the integrated system (1) of the fourth aspect, in the third aspect, the predetermined adjustment is a process of adjusting the scale of the plan view representing the predetermined area based on the first plan view and the second plan view. include. The first plan view is a plan view for specifying a predetermined area represented by first coordinate information, and is represented at a first scale. The second plan view is a plan view for specifying a predetermined area represented by second coordinate information, and is represented at a second scale.

According to this aspect, the scales of the plan views used by the monitoring system (20) and the facility management system (30) may be different. Therefore, by performing scale matching, the plan view can be shared between the monitoring system (20) and the facility management system (30).

In the integrated system (1) of the fifth aspect, in the fourth aspect, the predetermined adjustment is performed by adjusting the scales of the first display indicating the first state information and the second display indicating the second state information. When the first display and the second display overlap in the plan view, a process of adjusting the first display and the second display so that they do not overlap is included.

According to this aspect, by sharing the plan view, there is a possibility that the first display and the second display overlap. Therefore, when the first display and the second display overlap in the scale-adjusted plan view, the first display and the second display can be adjusted so that they do not overlap. It can be made easier to see.

In the integrated system (1) of the sixth aspect, in any of the first to fifth aspects, when the monitoring system (20) detects the occurrence of a predetermined event in a predetermined area, the first information is Contains event information regarding a predetermined event. The output unit (134) outputs adjustment information when the first information includes event information.

According to this aspect, it is possible to speed up the confirmation work when the monitoring system (20) detects the occurrence of an event.

In the integrated system (1) of the seventh aspect, in the sixth aspect, the predetermined event includes a fire. The first status information includes information indicating the status of equipment of the monitoring system (20) that has detected the occurrence of a fire in a predetermined area. The second status information includes environmental information regarding the surrounding environment of the equipment of the equipment management system (30) in the predetermined area.

According to this aspect, it is possible to speed up the confirmation work when the occurrence of a fire is detected.

In the integrated system (1) of the eighth aspect, in any one of the first to seventh aspects, when the equipment management system (30) detects the occurrence of a predetermined event in a predetermined area, the second information is Contains event information about the event. The output unit (134) outputs adjustment information when the second information includes event information.

According to this aspect, it is possible to speed up the confirmation work when the occurrence of an event is detected in the facility management system (30).

In the integrated system (1) of the ninth aspect, in any one of the first to eighth aspects, the adjustment information is included in a system group (6) including a monitoring system (20) and a facility management system (30). It includes at least one of the system type representing the type of each system and the equipment type representing the type of equipment of each system included in the system group (6). The output unit (134) outputs the adjustment information and causes the display system (40) to selectably display the types included in the adjustment information.

According to this aspect, the administrator of the display system (40) can select the type and perform further confirmation work.

In the integrated system (1) of the tenth aspect, in any one of the first to ninth aspects, the adjustment information is included in a system group (6) including a monitoring system (20) and a facility management system (30). It includes information on at least one of the type of event detected by each system and the priority order representing the importance of the event detected by each system included in the system group (6). The output unit (134) outputs the adjustment information and causes the display system (40) to selectably display information included in the adjustment information.

According to this aspect, the administrator of the display system (40) can select the type and perform further confirmation work.

The integrated monitoring system (3) of the eleventh aspect includes the integrated system (1) of any one of the first to tenth aspects and a monitoring system (20).

According to this aspect, it is possible to speed up the confirmation work.

The equipment management integrated system (2) of the twelfth aspect includes the monitoring integrated system (3) of the eleventh aspect and the equipment management system (30).

According to this aspect, it is possible to speed up the confirmation work.

The external cooperation system (4) of the thirteenth aspect includes the integrated system (1) of any one of the first to tenth aspects and a display system (40).

According to this aspect, it is possible to speed up the confirmation work.

The display system (40) of the fourteenth aspect includes an acquisition section (421) and a display section (43). The acquisition unit (421) acquires adjustment information from the integrated system (1) of any one of the first to tenth aspects. The display unit (43) displays a screen based on the adjustment information.

According to this aspect, it is possible to speed up the confirmation work.

The integration method of the fifteenth aspect includes a first acquisition step, a second acquisition step, and an output step. The first acquisition step acquires first information (for example, detection result information) regarding the monitoring system (20) installed in the facility (5). The second acquisition step acquires second information (for example, management result information) regarding the equipment management system (30) provided in the facility (5). The output step outputs the adjustment information based on the first information and the second information to the display system (40) used by the administrator of the facility (5). The first information is information representing a predetermined area within the facility (5) and includes first position information used by the monitoring system (20). The second information is information representing a predetermined area and includes second position information used by the equipment management system (30). The adjustment information includes first state information regarding the state of the predetermined area, which is the monitoring result of the monitoring system (20) in the predetermined area, and second state information regarding the state of the predetermined area, which is the management result of the equipment management system (30) in the predetermined area. information. Further, the adjustment information is subjected to a predetermined adjustment so that the predetermined area represented by the first position information and the predetermined area represented by the second position information are recognized as being in the same position on the display system (40). It is information.

According to this aspect, it is possible to speed up the confirmation work.

The program according to the sixteenth aspect is a program for causing a computer system to execute the integration method according to the fifteenth aspect.

According to this aspect, it is possible to speed up the confirmation work.

1 Integrated system 2 Facility management integrated system 3 Monitoring integrated system 4 External cooperation system 6 System group 20 Monitoring system 30 Facility management system 40 Display system 43 Display section 131 First acquisition section 132 Second acquisition section 134 Output section 421 Acquisition section

Claims (16)

a first acquisition unit that acquires first information regarding a monitoring system installed in the facility;
a second acquisition unit that acquires second information regarding an equipment management system installed in the facility;
an output unit that outputs adjustment information based on the first information and the second information to a display system used by a manager of the facility,
The first information is information representing a predetermined area within the facility and includes first position information used by the monitoring system,
The second information includes second position information that is information representing the predetermined area and is used in the facility management system,
The adjustment information is
First state information regarding the state of the predetermined area, which is a monitoring result of the monitoring system in the predetermined area, and second status information regarding the state of the predetermined area, which is a management result of the equipment management system in the predetermined area. including at least one,
The predetermined area represented by the first position information and the predetermined area represented by the second position information are information that has been adjusted in a predetermined manner so that the display system recognizes the same position.
integrated system. The adjustment information includes map information that displays the first state information and the second state information.
An integrated system according to claim 1. The first position information includes first coordinate information representing a position included in the predetermined area used in the monitoring system,
The second position information includes second coordinate information representing a position included in the predetermined area used in the equipment management system,
The predetermined adjustment includes a process of aligning coordinates based on first coordinate information included in the first location information and second coordinate information included in the second location information.
An integrated system according to claim 1. The predetermined adjustment includes a first plan view for specifying the predetermined area represented by the first coordinate information and represented by a first scale, and a first plan view represented by the second coordinate information. a second plan view for specifying the predetermined area and represented at a second scale;
An integrated system according to claim 3. The predetermined adjustment is performed when the first display indicating the first state information and the second display indicating the second state information overlap in the plan view in which the scale adjustment is performed. and the second display so that they do not overlap.
An integrated system according to claim 4. When the monitoring system detects the occurrence of a predetermined event in the predetermined area, the first information includes event information regarding the predetermined event;
The output unit outputs the adjustment information when the first information includes the event information.
An integrated system according to claim 1. The predetermined event includes a fire;
The first status information includes information indicating the status of equipment of the monitoring system that detected the occurrence of the fire in the predetermined area,
The second state information includes environmental information regarding the surrounding environment of the equipment of the equipment management system in the predetermined area.
An integrated system according to claim 6. When the facility management system detects the occurrence of a predetermined event in the predetermined area, the second information includes event information regarding the predetermined event;
The output unit outputs the adjustment information when the second information includes the event information.
An integrated system according to claim 1. The adjustment information includes at least a system type representing the type of each system included in the system group including the monitoring system and the equipment management system, and an equipment type representing the type of equipment of each system included in the system group. Including one type,
The output unit outputs the adjustment information and causes the display system to selectably display the type included in the adjustment information.
An integrated system according to claim 1. The adjustment information includes a type of event detected by each system included in the system group including the monitoring system and the facility management system, and a priority level indicating the importance of the event detected by each system included in the system group. Contains information on at least one of
The output unit outputs the adjustment information and causes the display system to selectably display the information included in the adjustment information.
An integrated system according to claim 1. An integrated system according to any one of claims 1 to 10,
The monitoring system,
Surveillance integrated system. A monitoring integrated system according to claim 11,
The equipment management system;
Equipment management integrated system. An integrated system according to any one of claims 1 to 10,
The display system,
External collaboration system. an acquisition unit that acquires the adjustment information from the integrated system according to any one of claims 1 to 10;
a display unit that displays a screen based on the adjustment information;
display system. a first acquisition step of acquiring first information regarding a monitoring system installed in the facility;
a second acquisition step of acquiring second information regarding an equipment management system installed in the facility;
an output step of outputting adjustment information based on the first information and the second information to a display system used by a manager of the facility,
The first information is information representing a predetermined area within the facility and includes first position information used by the monitoring system,
The second information is information representing the predetermined area and includes second position information used by the equipment management system,
The adjustment information is
First state information regarding the state of the predetermined area, which is a monitoring result of the monitoring system in the predetermined area, and second status information regarding the state of the predetermined area, which is a management result of the equipment management system in the predetermined area. including at least one,
The predetermined area represented by the first position information and the predetermined area represented by the second position information are information that has been adjusted in a predetermined manner so that the display system recognizes the same position.
Integration method. A program for causing a computer system to execute the integration method according to claim 15.

Images