The present disclosure relates to an equipment management device, equipment management method, program, and equipment management system.
Equipment management devices monitoring/controlling facility equipments such as air conditioners and lighting apparatuses installed in a facility are known. Among such equipment management devices, those comprising a touch-panel display displaying the equipment state for the user (equipment administrator) and receiving operations from the user generally exist in the marketplace. Furthermore, many equipment management devices in which the display is embedded in a wall of the facility or on the control board are on the market as well.
The equipment administrators often work at their office desk. Therefore, it is difficult for an equipment administrator to constantly monitor an equipment management device installed on a wall or control board, and they sometimes overlook an abnormal event of a facility equipment or fail to immediately give an appropriate instruction to the facility equipment.
On the other hand, equipment management devices enabling management of facility equipments on a personal computer connected to the equipment management device via a LAN (local area network) or the like by displaying on the display of the personal computer a screen similar to the management screen displayed on the equipment management device are also known. However, in such a case, it is required to develop a web browser management screen complying with the version of the equipment management device in addition to the management screen displayed on the display of the equipment management device itself, which is a factor of increasing the development cost of the manufacturers.
Furthermore, the VNC (virtual network computing) and remote desktop system are known as techniques for displaying the screens retained in the server on the client as they are.
With the above techniques, as the server receives mouse input or other operation information from the client, the server creates new screen data for the client screen according to the received operation information and sends the screen data to the client. Then, the client switches the display to another screen or scrolls and displays an image based on the screen data received from the server. Therefore, with these techniques, each time the user operates the client, communication processing with the server occurs. Then, a problem is that it takes time to switch the screen displayed on the client or scroll and display an image.
Patent Literature 1 describes a technique for reducing the volume of communication between the server and client in a remote desktop system in order to solve the above problem.
More specifically, in the Patent Literature 1, the server saves image data sent to a client terminal in a table along with a characteristic value (for example, a hash value) of the image data. Then, for sending the image data to the client, the server determines whether the characteristic value of the image data is already saved in the table. If already saved, the server does not send the image data; the server sends only the characteristic value.
Patent Literature 1: Unexamined Japanese Patent Application Kokai Publication No. 2007-226635.
However, even with the remote desktop system described in the Patent Literature 1, like the prior art remote desktop system, communication processing between the server and client occurs each time the client is operated. More specifically, in the remote desktop system described in the Patent Literature 1, each time the client is operated, the client sends the operation information to the server and the server has to send to the client image data or a characteristic value of the image data based on the received operation information. Therefore, even with the remote desktop system described in the Patent Literature 1, some delay may occur in processing (connection processing and/or response confirmation processing) due to communication protocol as the client is operated, whereby it still possibly takes time to conduct processing such as an operation to switch the screen.
The present disclosure is invented with the view of the above situation and an exemplary objective of the present disclosure is to provide an equipment management device, equipment management method, program, and equipment management system that can improve the response of the management screens when operated by the user in comparison with the prior art.
In order to achieve the above objective, the equipment management device of the present disclosure is:
an equipment management device managing facility equipments installed in a facility, comprising:
a screen storage storing screen data for displaying management screens on the basis of management screen for the facility equipments and a screen action table associating the content of an operation conducted on the management screens with an action content of a display terminal due to the operation; and
a screen transmitter transmitting the screen data and screen action table corresponding to the management screens to the display terminal at given times.
The present disclosure can improve the response of the management screens when operated by the user in comparison with the prior art.
Embodiments of the present disclosure will be described in detail hereafter with reference to the drawings. In the figures, the same or corresponding components are referred to by the same reference numbers.
An equipment management system 1 according to Embodiment 1 of the present disclosure will be described. The equipment management system 1 is a system managing facility equipments installed in a facility. The equipment management system 1 comprises, as shown in
The equipment management device 10 is connected to facility equipments 301 to 30n, which are air conditioners and/or lighting apparatuses, via a dedicated communication line 40 and monitors/controls the facility equipments 301 to 30n. In the following explanation, the facility equipments 301 to 30n are referred to as the facility equipments 30 where they are not distinguished from each other. Furthermore, the equipment management device 10 wirelessly communicates with the display terminal 20, and transmits screen data for the screens for managing the facility equipments 30 (the management screens) and the like to the display terminal 20.
The equipment management device 10 is a computer comprising a CPU (central processing unit), a ROM (read only memory), a RAM (random access memory), a hard disc drive or a readable/writable semiconductor memory such as a flash memory, and a communication interface and the like. The equipment management device 10 functionally comprises, as shown in
The controller 11 controls the entire action of the equipment management device 10. The controller 11 comprises a facility equipment manager 111, a screen data update manager 112, an image creator 113, and a screen action table creator 114.
The facility equipment manager 111 manages the facility equipments 30. More specifically, the facility equipment manager 111 successively receives information presenting the operation states from the facility equipments 30 to monitor the operation states of the facility equipments 30. Furthermore, the facility equipment manager 111 controls the operation of the facility equipments 30 according to user instruction and/or given conditions. For example, the control of the facility equipment manager 111 includes detecting an abnormal event of the facility equipments 30 from the operation states of the facility equipments 30 and stopping the operation of the facility equipment 30 with which the abnormal event is detected.
The screen data update manager 112 updates (creates at the time of start-up of the equipment management device 10) the screen data for the management screens at given update times and transmits the updated screen data to the display terminal 20.
The image creator 113 creates images (image data 122a and scrolling image data 122b) to display on the management screens.
The screen action table creator 114 creates a screen action table for each management screen in which the content of an operation conducted on the management screen is associated with the content of an action due to the operation.
The data storage 12 stores various data necessary for the equipment management device 10 to manage the facility equipments 30. For example, the data storage 12 saves facility equipment data 121, screen data 1221 to 122m, and screen metadata 123.
The facility equipment data 121 are data regarding facility equipments to be managed. For example, the facility equipment data 121 saves connection information 121a and operation state data 121b.
The connection information 121a is fixed information necessary for identifying and accessing the facility equipments 30 such as ID information, address information, an operation group number, and model identification information of each facility equipment 30.
The operation state data 121b are data presenting the current operation states of the facility equipments 30 received from the facility equipments 30 (for example, operation mode such as in operation/at rest, cooling, or heating, set temperatures, room temperatures, and the like in the case of air conditioners). The facility equipment manager 111 periodically (for example, in every one minute) receives the operation state data 121b from the facility equipments 30 and updates the operation state data 121b saved in the facility equipment data 121 to the latest data.
The screen data 1221 to 122m are data created for each management screen to be displayed on the display terminal 20 and defining the management screen. The management screens include, for example, a monitoring screen, schedule screen, and state list screen as shown in
The image data 122a are image data of images to be displayed on management screens. The image data 122a are data in the format of, for example, GIF (graphics interchange format), JPEG (joint photographic experts group), BMP (bitmap), or the like.
The scrolling image data 122b are image data of images to be scroll-displayed within a given region (scroll region) on the management screens. For example, on the management screens shown in
Here, the relationship between the image data 122a and scrolling image data 122b is explained using a specific example. (A) and (B) of
Returning to
Here, the screen action table 122c is explained using a specific example.
The screen ID is identification information of the management screen. Since
The operation region presents the portion where an operation such as touching or clicking is conducted on the management screen. The operation region of the first entry in the screen action table 122c shown in
The operation category presents what type of operation is conducted in the operation region, such as “touching,” “successive pressing,” dragging,” and “flipping with a finger.”
The action category presents the type of action to be conducted as the operation presented by the operation content is conducted, such as “screen shift” and “scroll.”
The processing details present what specific processing is executed in the above action.
For example, it can be known from the first entry in the screen action table 122c shown in
Furthermore, it can be known from the third entry that as the scroll button B3 on the monitoring screen is touched, the scrolling image data 122b are scrolled up by 100 dots.
Returning to
The facility equipment communicator 14 comprises a communication interface for connecting to the dedicated communication line 40, and transmits/receives various data to/from the facility equipments 30 connected to the dedicated communication line 40.
The display terminal communicator 13 comprises a given wireless communication interface and transmits/receives data to/from the display terminal 20.
The display terminal 20 will be described hereafter. The display terminal 20 functions as the user interface of the equipment management system 1. The display terminal 20 communicates with the equipment management device 10 by means of a given wireless scheme, and displays the management screens for managing the facility equipments 30 based on the screen data received from the equipment management device 10. Furthermore, the display terminal 20 transmits instruction information entered by the user to the equipment management device 10. Thus, the equipment management device 10 controls the facility equipments 30. The display terminal 20 comprises, as shown in
The display 21 is a liquid crystal display or the like, and displays the management screens based on control from the controller 23.
The inputter 22 is an input device such as a touch panel and mouse. As the user operates the inputter 22 and touches or clicks on a management screen displayed on the display 21, the inputter 22 outputs to the controller 23 operation information presenting the coordinates of the position on the operated management screen and the operation type. Incidentally, if the inputter 22 is a touch panel, the inputter 22 is disposed on the display screen of the display 21.
The controller 23 controls the entire action of the display terminal 201. The controller 23 comprises a screen data update manager 231 and a screen display controller 232.
The screen data update manager 231 updates screen data 2411 to 241m stored in the data storage 24.
The screen display controller 232 controls the display of a management screen displayed on the display 21. For example, the screen display controller 232 shifts the managements screen or scroll-displays a scrolling image based on the operation information output from the inputter 22 and a screen action table 241c.
The data storage 24 stores screen data 2411 to 241m for the management screens on the basis of management screen. Each screen data 241 comprises image data 241a, scrolling image data 241b, and a screen action table 241c. Incidentally, the screen data 241 stored in the data storage 24 of the display terminal 20 are synchronized with the screen data 122 stored in the data storage of the equipment management device 10, and these data have the same contents.
The communicator 25 comprises a given wireless communication interface and transmits/receives data to/from the equipment management device 10.
The action of the equipment management system 1 will be described hereafter.
First, the action in the start-up procedure executed when the equipment management device 10 is started will be described using the flowchart of
As the user starts the equipment management device 10 by pressing down the start button or the like of the equipment management device 10, first, the facility equipment manager 111 makes reference to the connection information 121a in the facility equipment data 121, accesses the facility equipments 30, acquires the operation state data 121b presenting the operation states of the facility equipments 30, and stores the operation state data 121b in the facility equipment data 121 (Step S101). Incidentally, in the event that the facility equipments 30 have not been started (the power is off), it is possible that the facility equipment manager 111 starts the facility equipments 30 and then acquires the operation state data 121b.
Subsequently, the screen data update manager 112 creates the screen data 122 for the management screens. Incidentally, since the screen data 122 are not stored in the data storage 12 at this point of time, the screen data update manager 112 creates the screen data 122 for all management screens.
First, the screen data update manager 112 makes reference to the screen metadata 123 and identifies the management screens that have to be created. Then, the screen data update manager 112 selects one of the identified management screens for which no screen data are created yet (Step S102).
Subsequently, the screen data update manager 112 orders the image creator 113 to create image data for the selected management screen. Receiving the order, the image creator 113 creates the image data 122a with the addition of the operation state data 121b acquired in the Step S101 at a given position of a template image for the selected management screen (Step S103).
Subsequently, if the selected management screen contains a scroll region, the screen data update manager 112 orders the image creator 113 to create scrolling image data to display in the scroll region. Receiving the order, the image creator 113 creates the scrolling image data 122b with the addition of the operation state data 121b acquired in the Step S101 at a given position of the corresponding template image (Step S104).
Subsequently, the screen data update manager 112 orders the screen action table creator 114 to create a screen action table 122c for the selected management screen. Receiving the order, the screen action table creator 114 creates the screen action table 122c by analyzing the source codes stored in the data storage 12 in advance and describing the display action of the management screen or the like (Step S105). Incidentally, the screen action table 122c can be created and stored on a ROM or the like in advance before factory shipment of the equipment management device 10.
Subsequently, the screen data update manager stores the image data, scrolling image data, and screen action table 122c created in the Steps S103 to S105 in the data storage 12 as the screen data 122 for the selected management screen (Step S106).
Subsequently, the screen data update manager 112 determines whether there is any management screen for which the screen data 122 are not created yet (Step S107).
If there is any management screen for which no screen data are created (Step S107; Yes), the screen data update manager 112 selects that management screen and repeats the processing to create the screen data 122 (Steps S102 to S106).
If there is no management screen for which no screen data are created (Step S107; No), the screen data update manager 112 controls the display terminal communicator 13 to wirelessly transmit all created image data 122 to the display terminal 20 (Step S108). Then, the start-up procedure of the equipment management device 10 ends.
The screen update procedure executed by the equipment management device 10 when the screen data created in the start-up procedure have to be updated will be described hereafter using the flowchart of
The screen data update manager 112 of the equipment management device 10 determines whether a given update condition is satisfied (Step S201). For example, the screen data update manager 112 may determine that an update condition is satisfied when the operation state data 121b changes from the currently retained value as a result of a facility equipment 30 being operated by the user or undergoing an abnormal event. Alternatively, the screen data update manager 112 may determine that an update condition is satisfied when a given length of time has elapsed or the date has changed.
If an update condition is satisfied (Step S201: Yes), the screen data update manager 112 identifies the management screens of which the display contents have to be updated (Step S202). For example, if an update condition is determined to be satisfied because the operation state data 121b has changed, the screen data update manager 112 identifies the management screens on which the changed operation state data 121b are displayed. Alternatively, if an update condition is determined to be satisfied because the date has changed, the screen data update manager 112 identifies the management screens on which the date is displayed.
Subsequently, the screen data update manager 112 selects one of the management screens identified in the Step S202 (Step S203).
Subsequently, the screen data update manager 112 creates new image data and scrolling image data for the selected management screen (Steps S204 and S205). Incidentally, this processing is substantially the same as the processing of the Steps S103 and S104 in the above-described start-up procedure.
Subsequently, the screen data update manager 112 updates the screen data 122 stored in the data storage 12 (Step S206). More specifically, the screen data update manager 121 updates the image data 122a and scrolling image data 122b in the screen data 122 stored in the data storage 122 and corresponding to the selected management screen to the image data 122a and scrolling image data 122b created in the Steps S204 and S205.
Subsequently, the screen data update manager 112 determines whether there is any management screen of which the screen data are not updated in the Step S206 among the management screens identified as having to be updated in the Step S202 (Step S207).
If there is any management screen of which the screen data are not updated (Step S207; Yes), the screen data update manager 112 selects that management screen and repeats the processing to update the screen data 122 (Steps S203 to S206).
If there is no management screen of which the screen data are not updated (Step S207; No), the screen data update manager 112 controls the display terminal communicator 13 to transmit only the screen data 122 updated in the Step S206 to the display terminal 20 (Step S208). Then, the screen update procedure ends.
The procedure of the display terminal 20 upon reception of the screen data for the management screens from the equipment management device 10 (the screen data reception procedure) will be described hereafter with reference to the flowchart of
Receiving the screen data 241 for the management screens from the equipment management device 10 via the communicator 25, the screen data update manager 231 of the display terminal 20 stores the received screen data 241 in the data storage 24 (Step S301). Incidentally, when the screen data 241 for the management screens are already stored in the data storage 24, the screen data update manager 231 updates the screen data 241 to the received screen data 241.
Subsequently, the screen data update manager 231 determines whether the screen data corresponding to the management screen displayed on the display 21 were updated in the processing of the Step S301 (Step S302). If not updated (Step S302; No), the screen update procedure ends.
If updated (Step S302; Yes), the screen data update manager 231 updates the management screen displayed on the display 21 based on the updated screen data 241 (Step S303). Then, the screen data reception procedure ends.
The screen control procedure when the user conducts an operation on the displayed management screen via the inputter 22 of the display terminal 20 will be described hereafter with reference to the flowchart of
The user conducts an operation such as a touch or click on the management screen displayed on the display 21 via the inputter 22. In response to the operation, the inputter 22 sends to the screen display controller 232 operation information presenting the coordinates of the operated position on the management screen, the operation type (touch or click), and the like. Receiving the operation information from the inputter 22 (Step S401), the screen display controller 232 identifies an entry in the corresponding screen action table 241c based on the position coordinates and operation type presented by the operation information (Step S402). For example, when the screen action table 241c corresponding to the displayed management screen is constructed as shown in
Returning to
As described above, in the equipment management system 1 according to Embodiment 1 of the present disclosure, the equipment management device 10 transmits in advance to the display terminal 20 the images (image data 122a and scrolling image data 122b) created on the basis of management screen and the screen action table 122c defining the action corresponding to an operation on the management screens. Therefore, at the display terminal 20, when an operation is conducted on a management screen, the display terminal 20 can switch to a screen corresponding to the operation or scroll-display by itself by making reference to the screen action table 122c without accessing the equipment management device 10. Therefore, the equipment management system 1 can improve the response of the management screens when operated by the user in comparison with the prior art.
Furthermore, in the equipment management system 1 according to Embodiment 1, when the screen data for the management screens are updated by the equipment management device 10, only the updated screen data are transmitted to the display terminal 20 and the screen data stored in the display terminal 20 are similarly updated. Therefore, the latest information can be displayed on the management screens displayed on the display terminal 20 while reducing the volume of communication between the display terminal 20 and equipment management device 10.
Furthermore, with the prior art equipment management device integrated with a display and installed on a wall, a problem with the workability that the operator has to be standing and facing the wall to work and/or management errors such as overlooking an abnormal event due to the fact that the device is away from where the supervisor actually works (generally at his office desk) sometimes occur. On the other hand, in the equipment management system 1 according to Embodiment 1 of the present disclosure, the equipment management device 10 is separated from the display terminal 20 and it is possible to bring the display terminal 20 to the desk to monitor and control the facility equipments, whereby the problems of the prior art equipment management device can be solved.
Furthermore, in the equipment management system 1 according to Embodiment 1 of the present disclosure, the display terminal 20 does not need to execute the screen creation procedure on its own and can simply display the screen data and scrolling image data received from the equipment management device 10 as they are. Therefore, a high performance GUI (graphical user interface) executable environment does not need to be prepared for the display terminal 20, and the processing load is low, whereby a relatively inexpensive CPU can be used. Then, the display terminal 20 can be manufactured at low cost.
Furthermore, in the equipment management system 1 according to Embodiment 1 of the present disclosure, a GUI executable environment including the browser is unnecessary for the display terminal 20. The problem of the display action being altered depending on the version of the GUI executable environment including the OS (operation system), browser, and Java (registered trademark) applet does not occur in displaying the management screens on the screen of a personal computer.
Furthermore, in the equipment management system 1 according to Embodiment 1 of the present disclosure, even if the equipment management device 10 is configured to comprise a display, the management screens displayed on the display of the equipment management device 10 and the management screens displayed by the display terminal 20 are the same. Therefore, there is no need of creating management screens specific for the browser, as in the case of the browser screen of a personal computer being used for monitoring, whereby the labor of developing duplicated management screens can be eliminated.
An equipment management system according to Embodiment 2 of the present disclosure will be described hereafter. The equipment management system according to Embodiment 2 of the present disclosure has substantially the same configuration as the equipment management system 1 according to Embodiment 1 except that the image data and scrolling image data for displaying the management screens are constructed by multiple layers of images. Here, substantially the same components as those of the equipment management device 10 and display terminal 20 according to Embodiment 1 are referred to by the same reference numbers and their explanation is omitted as appropriate.
Here, the relationship between the image data 122a/241a and image layers DL is specifically explained using
Subsequently,
Here, the relationship between the scrolling image data 122b/241b and scrolling image layers SL is specifically explained using
Furthermore, in this embodiment, as shown in
The screen control procedure to display a management screen created by layering and combining as the user conducts an operation on the displayed management screen via the inputter 22 of the display terminal 20 will be described hereafter with reference to the flowchart of
Receiving operation information from the inputter 22 upon operation by the user (Step S501), the screen display controller 232 of the display terminal 20 identifies an entry in the corresponding screen action table 241c based on the position coordinates and operation type presented by the operation information (Step S502). For example, when the screen action table 241c corresponding to the displayed management screen is constructed as shown in
Subsequently, the screen display controller 232 creates image data 241a (or scrolling image data 241b) of the layer images DL (or scrolling layer images SL) layered and combined based on the processing details of the identified entry (Step S503). For example, when the first entry in the screen action table 241c shown in
Subsequently, the screen display controller 232 displays the screen data created by layering and combining based on the action category of the identified entry (Step S504). For example, the screen display controller 232 switches the display 21 so that the management screen based on the image data 241a of the layered and combined image layers DL1 and DL1 is displayed.
As described above, in the equipment management system according to Embodiment 2 of the present disclosure, the image data for a management screen are created and displayed by superimposing multiple image layers. Therefore, for example, for displaying a message window and then hiding it again, there is no need of transmission/reception of the screen image between the display terminal 20 and equipment management device 10, whereby a high speed screen switching is available.
Furthermore, in the equipment management system according to Embodiment 2 of the present disclosure, a set of scrolling image data is created and displayed by superimposing multiple image layers. Therefore, for example, scrolling actions such as scrolling only the facility equipment icons without scrolling the background is available without necessity of transmission/reception of the screen image between the display terminal 20 and equipment management device 10, whereby a high speed scrolling display is available.
Furthermore, multiple image layers for displaying caption are saved on the basis of language apart from a background image layer. Then, display of the caption corresponding to each language can easily be switched by specifying the display/hide of the image layer in the screen action table 241c.
Furthermore, with a background layer and facility equipment icons layer being created separately, the equipment management device 10 can update and transmit to the display terminal 20 only the facility equipment icons layer when the states of some facility equipments have changed and the management screen has to be updated. In this way, the portions other than the facility equipment icons are in the same color (transparent color) and highly compressible, whereby the workload regarding communication can be reduced.
An equipment management system 1A according to Embodiment 3 of the present disclosure will be described hereafter. The equipment management system 1A according to Embodiment 3 of the present disclosure is different from the equipment management system 1 according to Embodiment 1 in that multiple display terminals 201 to 20n are provided as shown in
A common multicast address is set on the equipment management device 10 and multiple display devices 201 to 20n. Therefore, the equipment management device 10 can transmit updated image data 122a to the display devices 201 to 20n at a time (multicast transmission) through wireless communication.
The screen update procedure executed by the equipment management device 10 when some screen data have to be updated will be described hereafter using the flowchart of
The processing of Steps S601 to S607 to update the contents of the screen data 122 for a management screen that has to be updated when a given update condition is satisfied is substantially the same as the processing of Steps S201 to S207 in the screen update procedure described with the flowchart of
If there is no management screen of which the screen data 122a is not updated in the Step S607 (Step S607; No), the screen data update manager 112 determines whether its own set multicast address is valid (Step S608).
If not valid (Step S608; No), multicast transmission is not available and the screen data update manager 112 transmits the screen data 122 updated in the Step S606 to a specific display terminal 20 (for example, the display terminal 20 owned by the chief supervisor) (Step S609).
If valid (Step S608; Yes), the screen data update manager 112 simultaneously transmits the screen data 122 updated in the Step S606 to the multiple display terminals 201 to 20n on which the multicast address is set at a time (multicast). Then, the screen update procedure ends (Step S610).
Incidentally, in this embodiment, a multicast address is used to realize simultaneous transmission of the screen data 122a to multiple display terminals 201 to 20n. However, use of a multicast address is not essential. For example, a broadcast address system enabling multiple display terminals to receive at a single transmission can be used.
As described above in detail, the equipment management system 1A according to Embodiment 3 of the present disclosure enables simultaneous transmission of the screen data to multiple display terminals 20 at a time without increasing the transmission processing load of the equipment management device 10. Therefore, the facility equipments 30 can easily be monitored from multiple sites without lowering the performance of the equipment management device 10.
Furthermore, the display terminals 20 bear a low processing load and then can be manufactured with a low-cost CPU. In the case of monitoring and operation from multiple sites being desired, an equipment management system can be configured at low cost in comparison with use of conventional personal computers or tablets.
Incidentally, the present disclosure is not confined to the above-described embodiments and drawings. Needless to say, the embodiments and drawings can be modified to the extent that the gist of the present disclosure is not changed.
For example, the display terminal 20 can be an existing smart phone, PDA (personal digital assistant), or the like.
Furthermore, it is possible to apply the action programs defining the actions of the equipment management device according to the present disclosure to an existing personal computer, information terminal device, or the like to make the personal computer or the like function as the equipment management device according to the present disclosure.
The above programs can be distributed by any method and, for example, can be saved and distributed on a computer-readable recording medium such as a CD-ROM (compact disk read-only memory), DVD (digital versatile disk), MO (magneto optical disk), and memory card, or distributed via a communication network such as the Internet.
Various embodiments and modifications are available to the present disclosure without departing from the broad sense of spirit and scope of the present disclosure. The above-described embodiments are given for explaining the present disclosure and do not confine the scope of the present disclosure. In other words, the scope of the present disclosure is set forth by the scope of claims, not by the embodiments. Various modifications made within the scope of claims and scope of significance of the disclosure equivalent thereto are considered to fall under the scope of the present disclosure.
The present disclosure is preferably used with an equipment management device managing facility equipments installed in a building or the like.
This application is a U.S. national stage application of International Patent Application No. PCT/JP2012/051463 filed on Jan. 24, 2012.
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/JP2012/051463 | 1/24/2012 | WO | 00 | 6/17/2014 |