WO2020235289A1 - Management system, management method, and program - Google Patents

Abstract

The present invention provides a management system, a management method, and a program with which it is possible to set and manage a plurality of zones in accordance with the utilization state of a space. A management system (1) manages each of the plurality of divided zones in the space. The management system (1) comprises an attribute information acquisition unit (101), a layout information acquisition unit (102), a presence/absence management unit (104), and a zone-setting unit (105). The attribute information acquisition unit (101) acquires attribute information associated with a user of the space. The layout information acquisition unit (102) acquires layout information of the space that includes the installed positions of a static and a dynamic facility installed in the space. The presence/absence management unit (104) manages the presence and absence of people in the space. The zone-setting unit (105) sets a plurality of zones to the space on the basis of the attribute information, the layout information and the result of management by the presence/absence management unit (104).

Description

Management system, management method and program

The present disclosure relates generally to management systems, management methods and programs, and more specifically to management systems, management methods and programs that manage multiple zones divided in space.

Conventionally, there is known a lighting system that can contribute to workability or comfort by adjusting the output of a lighting fixture in an unmanned area depending on whether the number of personnel in the manned area is one or more (see Patent Document 1).

The lighting system of Patent Document 1 is designed so that the output of the lighting means in each area decreases in order from the manned area to the first unmanned area around the area and then to the second unmanned area outside the manned area. It is designed so that the output of the lighting means in the first unmanned area is larger when the number of people in the corresponding manned area is more than one.

In this management system, it is desired to set and manage multiple zones according to the usage status of the space. In Patent Document 1, each area is ordered from a person area to a first unmanned area around the manned area and a second unmanned area outside the manned area according to the number of people in the manned area that is a part of the space. The output of the lighting means can be changed. However, in Patent Document 1, a plurality of zones are not set according to the space usage situation.

JP-A-2010-147014

This disclosure is made in view of the above problems, and an object of the present disclosure is to provide a management system, a management method, and a program capable of setting and managing a plurality of zones according to the space usage situation.

The management system according to one aspect of the present disclosure manages each of a plurality of zones divided in space. The management system includes an attribute information acquisition unit, a layout information acquisition unit, an absence management unit, and a zone setting unit. The attribute information acquisition unit acquires attribute information related to the user of the space. The layout information acquisition unit acquires layout information of the space including installation locations of static equipment and dynamic equipment installed in the space. The absence management unit manages the presence or absence of a person in the space. The zone setting unit sets the plurality of zones for the space based on the attribute information, the layout information, and the management result by the absence management unit.

The management method according to one aspect of the present disclosure is used in a management system that manages each of a plurality of zones divided in space. The management method includes an attribute information acquisition step, a layout information acquisition step, an absence management step, and a zone setting step. The attribute information acquisition step acquires attribute information related to the user of the space. The layout information acquisition step acquires layout information of the space including installation locations of static equipment and dynamic equipment installed in the space. The absence management step manages the presence or absence of a person in the space. The zone setting step sets the plurality of zones for the space based on the attribute information, the layout information, and the management result of the absence management step.

The program according to one aspect of the present disclosure is a program for causing a computer to execute the management method.

FIG. 1 is a diagram illustrating a configuration of a zone management device according to an embodiment of the present disclosure. FIG. 2 is a diagram illustrating a configuration of a device control system including the same zone management device. FIG. 3 is a diagram illustrating an example of an image displayed on the display unit based on the zone information output by the zone management device of the same. FIG. 4 is a diagram illustrating the operation of the same zone management device when predicting the presence or absence of a person. FIG. 5 is a diagram illustrating the operation of the zone management device of the same when resetting the zone. FIG. 6 is a diagram illustrating the operation of the zone management device of the same as above when updating the attribute information. FIG. 7 is a diagram illustrating a specific example in which the zone is changed by the zone management device of the same.

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

(Embodiment)
Hereinafter, the management system 1 according to the present embodiment will be described with reference to FIGS. 1 to 7.

(1) Outline As shown in FIG. 2, the device control system 2 according to the present embodiment includes a zone management device 10 as a management system 1, a position information system 3, a relay device 20, and a plurality of lighting devices 50. A plurality of air conditioners 60 and a notification device 70 are provided. The zone management device 10 is configured to be able to communicate with the information terminal 80 of the user who uses the relay device 20 and the floor F1 via a network NT1 such as the Internet. Here, the information terminal 80 is, for example, a smartphone, a tablet terminal, or the like.

As shown in FIG. 2, the position information system 3 includes a plurality of receivers 30 and a plurality of tags 40. Each of the plurality of receivers 30 is configured to be able to communicate with the relay device 20. As a result, each of the plurality of receivers 30 can communicate with the zone management device 10.

The plurality of receivers 30 are provided on the floor F1 provided in the facility. The floor F1 includes a plurality of zones (here, three zones R1, R2, R3). In other words, the floor F1 is divided into a plurality of zones. In addition, each zone has at least one control area (here, two or three areas). In the present embodiment, the zone R1 has three control areas R11, R12 and R13, the zone R2 has two control areas R21 and R22, and the zone R3 has two control areas R31 and R32. Each control area has one or more detection areas. For example, the control area R11 has two detection areas D11 and D12. The control area R21 has two detection areas D21 and D22. The control area R31 has two detection areas D31 and D32. A receiver 30 is provided in each detection area. That is, the detection area is the detection range of the receiver 30. Here, the facility is an office building or an office. Further, the zone R1 is a zone used by a user who wants to improve his / her concentration in work or the like. Zone R2 is a zone for use by users who want to relax. Zone R3 is a zone used by a user who wants to communicate with another user. Hereinafter, zone R1 may be referred to as a concentration zone, zone R2 may be referred to as a relaxation zone, and zone R3 may be referred to as a communication zone.

Each of zones R1 to R3 is provided with one or more lighting devices 50 and one or more air conditioning devices 60. Specifically, for each of the zones R1 to R3, one or more lighting devices 50 (one lighting device 50 in the illustrated example) and one or more air conditioning devices 60 (in the figure) for each detection area included in the zone. In the illustrated example, one air conditioner 60) is provided.

Each of the plurality of tags 40 can communicate with the receiver 30. The tag 40 is possessed by the user. When the user enters the detection area, it communicates with the receiver 30 provided in the detection area. When the receiver 30 receives the information (for example, the identifier of the tag 40) from the tag 40, the relay device 20 transmits the detection position information including the identifier of the tag 40 (tag identifier) and indicating that the user has been detected. And transmission to the zone management device 10 via the network NT1. Each receiver 30 periodically communicates with the tag 40 existing in the corresponding detection area, and each time the communication is performed, the detection position information is transmitted to the zone management device 10.

The zone management device 10 manages each of a plurality of zones (here, zones R1 to R3) divided on the floor F1 (space). The zone management device 10 acquires the attribute information related to the user of the floor F1, the layout information of the floor F1 including the installation location of the static equipment and the dynamic equipment installed on the floor F1. Here, the static equipment is a fixture, for example, a desk, a chair, or the like. The dynamic equipment is, for example, a lighting equipment 50 and an air conditioning equipment 60.

Further, the zone management device 10 manages the presence or absence of a person on the floor F1. The zone management device 10 sets a plurality of zones (zones R1 to R3) for the floor F1 based on the attribute information, the layout information, and the management result of the presence or absence of a person on the floor F1. FIG. 2 shows an example of setting zones R1 to R3.

The zone management device 10 notifies the user of zone information related to a plurality of zones. Specifically, the zone management device 10 superimposes a plurality of zones on an image of the layout of the floor F1 showing the installation location of the static equipment and the dynamic equipment on the floor F1 and displays them on the notification device 70 and the information terminal 80. Let me.

Further, the zone management device 10 controls each of the plurality of lighting devices 50 according to the zone to which the lighting device 50 belongs. The zone management device 10 controls each of the plurality of air conditioners 60 according to the zone to which the air conditioner 60 belongs.

The notification device 70 is configured to be able to communicate with the relay device 20. As a result, the notification device 70 can communicate with the zone management device 10. The notification device 70 is installed at the entrance / exit of the floor F1. The notification device 70 superimposes a plurality of zones (zones R1 to R3) set by the zone management device 10 on an image of a layout showing the installation locations of static equipment and dynamic equipment on the floor F1 on the display unit 71. indicate.

The information terminal 80 is configured to be able to communicate with the zone management device 10. The information terminal 80 superimposes a plurality of zones (zones R1 to R3) set by the zone management device 10 on an image of a layout showing the installation locations of static equipment and dynamic equipment on the floor F1 on the display unit 81. indicate.

(2) Configuration (2-1) Zone Management Device Here, the configuration of the zone management device 10 will be described.

As shown in FIG. 1, the zone management device 10 includes a communication unit 11, a storage unit 12, and a control unit 13. The zone management device 10 manages each of a plurality of zones divided on the floor F1 (space).

The zone management device 10 has, for example, a computer system having a processor and a memory. Then, when the processor executes the program stored in the memory, the computer system functions as the control unit 13. The program executed by the processor is recorded in advance in the memory of the computer system here, but may be recorded in a non-temporary recording medium such as a memory card and provided, or provided through a telecommunications line such as the Internet. May be done.

The communication unit 11 has a communication interface for communicating with the relay device 20 and the information terminal 80.

The storage unit 12 is composed of any storage device such as an HDD (Hard Disk Drive) or an SSD (Solid State Drive).

The storage unit 12 stores attribute information related to the user for each user. Attribute information includes at least one of static information and dynamic information. Static information is information that does not change due to external factors such as the environment (for example, floor temperature, brightness, quality of work, quantity, etc.). Dynamic information is information that changes due to external factors such as the environment. The static information includes, for example, the gender and age of the corresponding user. The dynamic information includes, for example, environmental information about the corresponding user (eg, hot, cold, desired brightness, etc.), work information (eg, focusing on intensive work, etc.). The attribute information further includes a tag identifier of the user's tag 40.

The storage unit 12 stores the layout information of the floor F1 including the installation locations of the static equipment (desk and chair) and the dynamic equipment (lighting equipment 50 and the air conditioning equipment 60) installed on the floor F1.

The storage unit 12 stores schedule information related to the schedule of the user for each user. The schedule information includes actions of the corresponding user during a predetermined period, such as a meeting schedule, work contents, business hours, and outing hours.

As shown in FIG. 1, the control unit 13 has an attribute information acquisition unit 101, a layout information acquisition unit 102, a schedule information acquisition unit 103, an absence management unit 104, a zone setting unit 105, a related information acquisition unit 106, and an update unit 107. A target environment setting unit 108, a zone environment control unit 109, and a notification unit 110 are provided.

The attribute information acquisition unit 101 acquires a plurality of attribute information corresponding to each of a plurality of users who use the floor F1. Specifically, the attribute information acquisition unit 101 acquires the attribute information corresponding to the user from the storage unit 12 for each user.

The layout information acquisition unit 102 acquires the layout information from the storage unit 12.

The schedule information acquisition unit 103 acquires a plurality of schedule information corresponding to each of a plurality of users who use the floor F1. Specifically, the schedule information acquisition unit 103 acquires the schedule information corresponding to the user from the storage unit 12 for each user.

The absence management unit 104 manages the absence of a person on the floor F1. Specifically, the absence management unit 104 manages the prediction of the presence or absence of people on the floor F1 and the entry and exit of people in each of the plurality of zones (zones R1 to R3).

The absence management unit 104 predicts the presence / absence of each of the plurality of users at a predetermined time based on the plurality of schedule information corresponding to the plurality of users acquired by the schedule information acquisition unit 103, and obtains the prediction result. It is a management result. For example, the absence management unit 104 predicts the absence of each of the plurality of users in each time zone. Specifically, when the schedule information includes the outing time zone, the absence management unit 104 predicts that the corresponding user is absent in the outing time zone. When the schedule information includes the meeting schedule, the absence management unit 104 predicts that the corresponding user is present in the room during the time zone when the meeting is scheduled to be held.

The absence management unit 104 manages the entry and exit of people in each zone based on the detection position information received from each receiver 30. Specifically, the absence management unit 104 manages the number of people existing in each zone based on the tag identifier included in the detection position information received from each receiver 30.

The zone setting unit 105 sets a plurality of zones (zones R1 to R3) for the floor F1 based on the layout information, the attribute information for each user, and the management result of the absence management unit 104.

When the absence management unit 104 predicts the absence of each of the plurality of users, the zone setting unit 105 is based on the layout information, the attribute information for each user, and the management result of the absence management unit 104. , A plurality of zones (zones R1 to R3) are set for the floor F1 at the start time (for example, 9:00 am). At this time, the zone setting unit 105 sets the zone R1 which is a centralized zone according to the number of users corresponding to the attribute information including the centralized work among the plurality of users. In other words, the zone setting unit 105 sets the zone R1 which is a centralized zone according to the ratio of the users corresponding to the attribute information including the centralized work to the plurality of users. For example, when the ratio of users corresponding to attribute information including mainly performing intensive work to a plurality of users is 0.6, the zone setting unit 105 has a total capacity of the floor F1. An area that can be used by 60% of the number of people is set as zone R1.

Alternatively, the zone setting unit 105 sets an area that can be used by 60 + α% of the total capacity of the floor F1 as the zone R1. Here, α is a predetermined value. In this case, all users corresponding to the attribute information including the centralized work can surely use the zone R1 (concentrated zone).

The zone setting unit 105 sets the zone R3, which is a communication zone, according to the meeting with the largest number of participants in the meeting held on the day. The zone setting unit 105 sets the remaining area of the floor F1 excluding the zones R1 and R3 as the relaxation zone zone R2.

Further, the zone setting unit 105 sets a plurality of zones and then sets a new plurality of zones again. For example, the zone setting unit 105 sets a plurality of zones based on the prediction of the absence management unit 104, and then sets a new plurality of zones again. The zone setting unit 105 resets a plurality of new zones during lunch breaks and the like. Since the presence / absence management unit 104 periodically manages the number of people existing in each zone based on the detection position information transmitted from each receiver 30, the zone setting unit 105 is at least in the latest management result. Reconfigure multiple new zones based on. For example, the zone setting unit 105 resets the zone R1 which is a new centralized zone according to the number of users existing in the zone R1 obtained from the latest management result. Further, the zone setting unit 105 resets the zone R3, which is a new communication zone, according to the meeting having the largest number of people among the meetings held after the resetting. The zone setting unit 105 resets the remaining areas of the floor F1 except for the reset zones R1 and R3 as a new relaxing zone R2.

The zone setting unit 105 sets a new centralized zone according to the number of users existing in the zone R1 obtained from the latest management result to the number of users existing in the zone R2 obtained from the latest management result. A new relaxation zone may be set again accordingly. In this case, the zone setting unit 105 resets the remaining areas of the floor F1 except for the reset zones R1 and R2 as new communication.

Further, the zone setting unit 105 may repeat the resetting of a plurality of zones as appropriate.

The related information acquisition unit 106 acquires user-related information related to the user based on the environment of the zone used by the user among the plurality of zones. For example, the related information acquisition unit 106 acquires user-related information including information on the temperature (for example, hot, cold, etc.) in the zone used by the user among the plurality of zones from the user's information terminal 80. To do. Further, the related information acquisition unit 106 uses the user-related information including the information regarding the brightness of the lighting device 50 (for example, too bright, too dark, etc.) in the zone used by the user among the plurality of zones. Obtained from the information terminal 80 of the person.

The update unit 107 updates the attribute information of the corresponding user based on the user-related information acquired by the related information acquisition unit 106.

For example, when the related information acquisition unit 106 receives the user-related information including the information on the temperature, the update unit 107 includes the information corresponding to the information on the temperature in the attribute information of the corresponding user. To update. For example, when the related information acquisition unit 106 receives the user-related information including "cold" as the temperature information, the update unit 107 includes "cold" in the environment-related information included in the corresponding user attribute information. The attribute information of the user is updated so as to.

Further, when the related information acquisition unit 106 receives the user-related information including the information related to the brightness, the updating unit 107 causes the update unit 107 to include the information corresponding to the information related to the brightness in the attribute information of the corresponding user. Update attribute information. For example, when the related information acquisition unit 106 receives the user-related information including "too bright" as the information about the brightness, the update unit 107 determines the desired brightness for the information about the environment included in the attribute information of the corresponding user. Update the attribute information of the user so as to include "dark".

The target environment setting unit 108 is provided in each of the plurality of zones set by the zone setting unit 105, based on the layout information, the attribute information for each user, and the management result of the absence management unit 104. Set the target environment used for controlling dynamic equipment.

The target environment setting unit 108 specifies one or more lighting devices 50 and one or more air conditioning devices 60 included in the zone for each zone based on the layout information.

The target environment setting unit 108 obtains the number of people existing in each zone based on the management result of the absence management unit 104, that is, the management result based on the prediction result or the detection position information. For each zone, the target environment setting unit 108 sets the set illuminance of the lighting device 50 and the set temperature of the air conditioner 60 in the zone based on the number of people existing in the zone and the attribute information of the users existing in the zone. Each is required as a target environment.

For example, the set illuminance of the lighting device 50 in the zone R1 which is a centralized zone is preferably 700 to 1000 lux. The set illuminance of the lighting device 50 in the zone R2, which is a relaxing zone, is preferably 200 to 400 lux. Further, the set illuminance of the lighting device 50 in the zone R3, which is a communication zone, is preferably 400 to 700 lux.

The target environment setting unit 108 sets the set illuminance of 800 lux as a reference value, and responds to the ratio of the users existing in the zone R1 corresponding to the attribute information including the information that the desired brightness is “bright”. , The set illuminance of the lighting device 50 in the zone R1 is obtained. For example, when the ratio is 0.6 or more, the target environment setting unit 108 sets the set illuminance of the lighting device 50 in the zone R1 to a value higher than the set illuminance of 800 lux, for example, 900 lux. When the ratio is 0.4 or less, the target environment setting unit 108 sets the set illuminance of the lighting device 50 in the zone R1 to a value lower than the set illuminance of 800 lux, for example, 700 lux. When the ratio is 0.4 to 0.6, the target environment setting unit 108 sets the set illuminance of the lighting device 50 in the zone R1 to 800 lux.

The target environment setting unit 108 sets the set illuminance of 300 lux as a reference value, and responds to the ratio of the users existing in the zone R2 corresponding to the attribute information including the information that the desired brightness is "bright". , The set illuminance of the lighting device 50 in the zone R2 is obtained. For example, when the ratio is 0.6 or more, the target environment setting unit 108 sets the set illuminance of the lighting device 50 in the zone R2 to a value higher than the set illuminance of 300 lux, for example, 400 lux. When the ratio is 0.4 or less, the target environment setting unit 108 sets the set illuminance of the lighting device 50 in the zone R2 to a value lower than the set illuminance of 300 lux, for example, 200 lux. When the ratio is 0.4 to 0.6, the target environment setting unit 108 sets the set illuminance of the lighting device 50 in the zone R1 to 300 lux.

The target environment setting unit 108 sets the set illuminance of 500 lux as a reference value, and responds to the ratio of the users existing in the zone R3 corresponding to the attribute information including the information that the desired brightness is “bright”. , The set illuminance of the lighting device 50 in the zone R3 is obtained. For example, when the ratio is 0.6 or more, the target environment setting unit 108 sets the set illuminance of the lighting device 50 in the zone R3 to a value higher than the set illuminance of 500 lux, for example, 600 lux. When the ratio is 0.4 or less, the target environment setting unit 108 sets the set illuminance of the lighting device 50 in the zone R3 to a value lower than the set illuminance of 500 lux, for example, 400 lux. When the ratio is 0.4 to 0.6, the target environment setting unit 108 sets the set illuminance of the lighting device 50 in the zone R3 to 500 lux.

Further, for example, the set temperature of the air conditioner 60 in the zone R1 which is a centralized zone is preferably 22 degrees. The set temperature of the air conditioner 60 in the relaxation zone R2 is preferably 25 degrees. Further, the illuminance of the lighting device 50 in the zone R3, which is a communication zone, is preferably 24 degrees.

The target environment setting unit 108 uses the set temperature of 22 degrees as a reference value, and sets the zone according to the ratio of the users existing in the zone R1 who correspond to the attribute information including "cold" as the information about the environment. The set temperature of the air conditioner 60 in R1 is obtained. For example, when the ratio is 0.6 or more, the target environment setting unit 108 sets the set temperature of the air conditioner 60 in the zone R1 to a value higher than the set illuminance of 22 degrees, for example, 22.5 degrees. When the ratio is 0.4 or less, the target environment setting unit 108 sets the set temperature of the air conditioner 60 in the zone R1 to a value lower than the set temperature of 22 degrees, for example, 21.5 degrees. When the ratio is 0.4 to 0.6, the target environment setting unit 108 sets the set temperature of the air conditioner 60 in the zone R1 to 22 degrees.

The target environment setting unit 108 uses the set temperature of 25 degrees as a reference value, and sets the zone according to the ratio of the users existing in the zone R2 that correspond to the attribute information including "cold" as the information about the environment. The set temperature of the air conditioner 60 in R2 is obtained. For example, when the ratio is 0.6 or more, the target environment setting unit 108 sets the set temperature of the air conditioner 60 in the zone R2 to a value higher than the set illuminance of 25 degrees, for example, 25.5 degrees. When the ratio is 0.4 or less, the target environment setting unit 108 sets the set temperature of the air conditioner 60 in the zone R2 to a value lower than the set temperature of 25 degrees, for example, 24.5 degrees. When the ratio is 0.4 to 0.6, the target environment setting unit 108 sets the set temperature of the air conditioner 60 in the zone R2 to 25 degrees.

The target environment setting unit 108 uses the set temperature of 24 degrees as a reference value, and sets the zone according to the ratio of the users existing in the zone R3 that corresponds to the attribute information including "cold" as the information about the environment. The set temperature of the air conditioner 60 in R3 is obtained. For example, when the ratio is 0.6 or more, the target environment setting unit 108 sets the set temperature of the air conditioner 60 in the zone R3 to a value higher than the set illuminance of 24 degrees, for example, 24.5 degrees. When the ratio is 0.4 or less, the target environment setting unit 108 sets the set temperature of the air conditioner 60 in the zone R3 to a value lower than the set temperature of 24 degrees, for example, 23.5 degrees. When the ratio is 0.4 to 0.6, the target environment setting unit 108 sets the set temperature of the air conditioner 60 in the zone R3 to 24 degrees.

When the zone setting unit 105 resets a plurality of zones, the target environment setting unit 108 stores the attribute information corresponding to the tag identifier included in the detection position information received from each receiver 30. Obtain from 12. The target environment setting unit 108 sets the target environment of the dynamic equipment in each zone (zones R1 to R3) based on the acquired attribute information.

Further, the target environment setting unit 108 has a configuration in which information about the environment included in the attribute information is used when setting the target environment of the dynamic equipment in each zone (zones R1 to R3), but the configuration is not limited to this. .. The target environment setting unit 108 may set the target environment of the dynamic equipment in each zone (zones R1 to R3) by using the gender and age of the corresponding user included in the attribute information. For example, in the zone where the air conditioner 60 to be set is provided, the target environment setting unit 108 has a value larger than the reference value for the dynamic equipment in the zone when the number of men is larger than the number of women. Is set as the target environment (set temperature). When the number of men is less than the number of women in the zone where the air conditioner 60 to be set is provided, the target environment setting unit 108 targets a value smaller than the reference value for the dynamic equipment in the zone. Set as environment. When the number of men and the number of women are the same in the zone where the air conditioner 60 to be set is provided, the target environment setting unit 108 sets the reference value as the target environment for the dynamic equipment in the zone. Set. In addition, when the number of users in their 40s or older is larger than the number of users in their 30s or younger in the zone in which the lighting device 50 to be set is provided, the target environment setting unit 108 sets the target environment. A value larger than the reference value is set as the target environment (set illuminance) for the lighting device 50. When the number of users in their 40s or older is smaller than the number of users in their 30s or younger in the zone where the lighting device 50 to be set is provided, the target environment setting unit 108 uses the lighting device in the zone. A value smaller than the reference value with respect to 50 is set as the target environment. When the number of users in their 40s or older and the number of users in their 30s or younger are the same in the zone in which the lighting device 50 to be set is provided, the target environment setting unit 108 sets the target environment. A reference value is set as a target environment for the lighting device 50.

The zone environment control unit 109 controls the dynamic equipment provided in the zone based on the target environment of the dynamic equipment provided in the zone for each of the plurality of zones. Specifically, the zone environment control unit 109 controls the lighting equipment 50 provided in the zone based on the set illuminance of the lighting equipment 50 provided in the zone for each of the plurality of zones. The zone environment control unit 109 controls the air conditioner 60 provided in the zone based on the set temperature of the air conditioner 60 provided in the zone for each of the plurality of zones. For example, the zone environment control unit 109 transmits to each lighting device 50, lighting control information based on the set illuminance set according to the zone to which the lighting device 50 belongs via the relay device 20. The zone environment control unit 109 transmits, via the relay device 20, air-conditioning control information based on the set temperature set according to the zone to which the air-conditioning device 60 belongs to each air-conditioning device 60.

When the zone setting unit 105 sets a plurality of zones (zones R1 to R3) for the floor F1 at the start time, the zone environment control unit 109 lights each lighting device 50 at the time of the start time. Send control information. When the zone setting unit 105 sets a plurality of zones (zones R1 to R3) for the floor F1 at the start time, the zone environment control unit 109 is used for air conditioning in each air conditioner 60 at the start time. Send control information.

When the zone environment control unit 109 sets a plurality of zones (zones R1 to R3) for the floor F1 at the start time, the zone environment control unit 109 sets each zone (zones R1 to R3) at a predetermined time before the start time. Lighting control information may be transmitted to the lighting device 50. Similarly, when the zone environment control unit 109 sets a plurality of zones (zones R1 to R3) for the floor F1 at the start time, the zone environment control unit 109 sets the time before the start time by a predetermined time. The air conditioning control information may be transmitted to each air conditioning device 60.

The notification unit 110 notifies the user of zone information regarding a plurality of zones (zones R1 to R3) set by the zone setting unit 105. Specifically, the notification unit 110 includes a plurality of zones and set illuminance and set temperature set for each zone in the image of the layout of the floor F1 showing the installation location of the static equipment and the dynamic equipment on the floor F1. Information for superimposing the setting information and displaying it on the display unit 71 of the notification device 70 and the display unit 81 of the information terminal 80 is transmitted as zone information.

(2-2) Relay device The relay device 20 has, for example, a computer system having a processor and a memory. Then, when the processor executes the program stored in the memory, the computer system realizes the function as the relay device 20. The program executed by the processor is recorded in advance in the memory of the computer system here, but may be recorded in a non-temporary recording medium such as a memory card and provided, or provided through a telecommunications line such as the Internet. May be done.

The relay device 20 is configured to be able to communicate with the zone management device 10 via the network NT1. The relay device 20 is further configured to be able to communicate with a plurality of receivers 30, a plurality of lighting devices 50, and a plurality of air conditioning devices 60.

The relay device 20 transmits the detection position information received from each of the plurality of receivers 30 to the zone management device.

When the relay device 20 receives the lighting control information corresponding to each of the plurality of lighting devices 50 from the zone management device 10, the relay device 20 transmits the received lighting control information to the corresponding lighting device 50. When the relay device 20 receives the air-conditioning control information corresponding to each of the plurality of air-conditioning devices 60 from the zone management device 10, the relay device 20 transmits the received air-conditioning control information to the corresponding air-conditioning device 60.

In the present embodiment, the relay device 20 is configured to be installed on the floor F1, but is not limited to this configuration. The relay device 20 may be installed in the facility.

(2-3) Information terminal The information terminal 80 has, for example, a computer system having a processor and a memory. Then, when the processor executes the program stored in the memory, the computer system realizes the function as the information terminal 80. The program executed by the processor is recorded in advance in the memory of the computer system here, but may be recorded in a non-temporary recording medium such as a memory card and provided, or provided through a telecommunications line such as the Internet. May be done.

The information terminal 80 is configured to be able to communicate with the zone management device 10 via the network NT1.

The information terminal 80 includes a display unit 81. Based on the zone information received from the zone management device 10, the information terminal 80 superimposes a plurality of zones and setting information including set illuminance and set temperature set for each zone on an image of the layout of floor F1. The image G1 is displayed on the display unit 81.

FIG. 3 shows an example of the superimposed image G1. The superimposed image G1 corresponds to a layout image G10 showing the layout of each of a plurality of desks, a plurality of chairs, a plurality of lighting devices 50, and a plurality of air conditioners 60, and zones R1 to R3 set by the zone setting unit 105. The zone images G11, G12, and G13 are included. Further, the superimposed image G1 is set to display setting information including set illuminance and set temperature set for one or more lighting devices 50 and one or more air conditioning devices 60 included in each of zones R1 to R3. Includes images G21-G23. It is displayed so that the correspondence between each of the setting information included in the setting images G21 to G23 and the zones R1 to R3 can be identified. For example, in FIG. 3, the set images G21 to G23 are displayed in a balloon shape that can be identified as if they were ejected from the corresponding zone image.

(2-4) Notification device The notification device 70 has, for example, a computer system having a processor and a memory. Then, the processor executes the program stored in the memory, so that the computer system realizes the function as the notification device 70. The program executed by the processor is recorded in advance in the memory of the computer system here, but may be recorded in a non-temporary recording medium such as a memory card and provided, or provided through a telecommunications line such as the Internet. May be done.

The notification device 70 is configured to be able to communicate with the zone management device 10 via the network NT1.

The notification device 70 includes a display unit 71. The notification device 70 superimposes a plurality of zones and setting information including set illuminance and set temperature set for each zone on an image of the layout of the floor F1 based on the zone information received from the zone management device 10. The image is displayed on the display unit 71 of the own device.

The superimposed image displayed by the notification device 70 is the same as the superimposed image G1 displayed by the information terminal 80, for example.

(3) Operation (3-1) Operation at the time of prediction Here, the operation of the zone management device 10 when the zone management device 10 predicts the presence or absence of a user will be described with reference to FIG.

The attribute information acquisition unit 101 acquires the attribute information corresponding to the user from the storage unit 12 for each user (step S1).

The layout information acquisition unit 102 acquires the layout information from the storage unit 12 (step S2).

The schedule information acquisition unit 103 acquires the schedule information corresponding to the user from the storage unit 12 for each user (step S3).

The absence management unit 104 performs prediction processing (step S4). Specifically, the absence management unit 104 predicts the presence or absence of each of the plurality of users at a predetermined time based on the plurality of schedule information corresponding to the plurality of users acquired by the schedule information acquisition unit 103. Then, the prediction result is used as the management result.

The zone setting unit 105 sets a plurality of zones (zones R1 to R3) for the floor F1 based on the layout information, the attribute information for each user, and the management result (prediction result) of the absence management unit 104. (Step S5). For example, the zone setting unit 105 has a plurality of units for the floor F1 at the start time (for example, 9:00 am) based on the layout information, the attribute information for each user, and the management result of the absence management unit 104. Zones (zones R1 to R3) are set.

The notification unit 110 notifies the user of zone information regarding a plurality of zones (zones R1 to R3) set by the zone setting unit 105 (step S6). Specifically, the notification unit 110 superimposes a plurality of zones and setting information corresponding to each zone on the layout image of the floor F1 and displays the zone information on the notification device 70 and the information terminal 80. Send.

The target environment setting unit 108 is a dynamic facility provided in each of the plurality of zones based on the layout information, the attribute information for each user, and the management result (prediction result) of the absence management unit 104. The target environment used for controlling the above is set (step S7). Specifically, the target environment setting unit 108 sets the illuminance of the lighting device 50 and the air conditioner 60 of the zone based on the number of people existing in the zone and the attribute information of the users existing in the zone for each zone. Set the set temperature of each as the target environment.

The zone environment control unit 109 starts controlling each lighting device 50 and each air conditioning device 60 at a time that is the start time (step S8). For example, the zone environment control unit 109 sets the lighting control information based on the set illuminance set in the lighting device 50 for each lighting device 50 to the air conditioning device 60 in the air conditioning device 60 at the time of the start time. The control information for air conditioning based on the set temperature is transmitted.

(3-2) Operation at Zone Reset Here, the operation of the zone management device 10 when the zone management device 10 predicts the presence or absence of a user will be described with reference to FIG.

Absence management unit 104 performs management processing (step S11). Specifically, the absence management unit 104 manages the entry and exit of people in each zone based on the detection position information received from each receiver 30. For example, the absence management unit 104 manages the number of people existing in each zone based on the tag identifier included in the detection position information received from each receiver 30.

The attribute information acquisition unit 101 acquires the attribute information corresponding to the user from the storage unit 12 for each user when the zone is reset (step S12).

The layout information acquisition unit 102 acquires layout information from the storage unit 12 when the zone is reset (step S13).

Further, when the zone is reset, the zone setting unit 105 resets a plurality of new zones based on at least the latest management result (step S14). For example, the zone setting unit 105 resets the zone R1 as a new centralized zone according to the number of users existing in the zone R1 obtained from the latest management result. Further, the zone setting unit 105 resets the zone R3 as a new communication zone according to the meeting having the largest number of people among the meetings held after the resetting. The zone setting unit 105 resets the zone R2 with the remaining areas of the floor F1 other than the reset zones R1 and R3 as new relaxation zones.

The notification unit 110 notifies the user of the zone information regarding the new plurality of zones reset by the zone setting unit 105 (step S15). Specifically, the notification unit 110 superimposes the new plurality of zones and the setting information corresponding to each new zone on the layout image of the floor F1 and displays them on the notification device 70 and the information terminal 80. Send zone information for.

The target environment setting unit 108 controls the dynamic equipment provided in the zone based on the layout information, the attribute information for each user, and the management result of the absence management unit 104 for each of the new plurality of zones. The target environment used for is set (step S16). Specifically, the target environment setting unit 108 sets the lighting device 50 of the new zone based on the number of people existing in the new zone and the attribute information of the users existing in the new zone for each new zone. The set illuminance and the set temperature of the air conditioner 60 are set as the target environment.

The zone environment control unit 109 starts controlling each lighting device 50 and each air conditioning device 60 (step S17). For example, the zone environment control unit 109 provides lighting control information based on the set illuminance set in the lighting device 50 for each lighting device 50, and air conditioning based on the set temperature set in the air conditioning device 60 for the air conditioning device 60. Control information for each is transmitted.

(3-3) Update process Here, the operation of the zone management device 10 updating the attribute information will be described with reference to FIG.

The related information acquisition unit 106 provides user-related information including at least one of information on the temperature in the zone used by the user among the plurality of zones and information on the brightness of the lighting device 50. Obtained from the terminal 80 (step S21).

The update unit 107 updates the attribute information of the corresponding user based on the user-related information acquired by the related information acquisition unit 106 (step S22).

(4) Specific Example Here, a zone change (resetting) will be described using a specific example.

Here, it is assumed that three zones R1 to R3 are set on the floor F1 as shown in FIG.

In this case, the zone setting unit 105 resets a plurality of new zones based on at least the latest management result. For example, the zone setting unit 105 resets the zone R1 as a new centralized zone according to the number of users existing in the zone R1 obtained from the latest management result. Further, the zone setting unit 105 resets the zone R3 as a new communication zone according to the meeting having the largest number of people among the meetings held after the resetting.

For example, based on the number of users existing in the zone R1 obtained from the latest management result, the zone setting unit 105 sets the same area as the zone R1 shown in FIG. 2 as a centralized zone. That is, the zone setting unit 105 does not change the zone R1. It is assumed that the number of people varies between the conference with the largest number of conferences held after the resetting and the conference used when the zone R3 shown in FIG. 2 is set, that is, the number of people decreases. In this case, the zone setting unit 105 resets a new communication zone (zone R3a) in an area smaller than the area of zone R3 shown in FIG. 2 (see FIG. 7). The zone setting unit 105 sets the remaining areas of the floor F1 except for the reset zones R1 and R3a as new relaxation zones (zones R2a) (see FIG. 7).

(5) Advantages As described above, the zone management device 10 of the present embodiment manages the presence or absence of a person on the floor F1 (space), and uses the management result, the layout information of the floor F1 and the attribute information for each user. Based on this, a plurality of zones are set for the floor F1.

For example, the zone management device 10 predicts the presence or absence of each of a plurality of users at a predetermined time based on a plurality of schedule information corresponding to each of the plurality of users before the start time. The zone management device 10 uses the prediction result (management result), layout information, and attribute information for each user, and the centralized zone (zone R1) used by the user corresponding to the attribute information including the centralized work. ) Is set. In addition, a communication zone (zone R3) is set according to the situation of the meeting on the day. The zone management device 10 can predict the usage status of the floor F1 on the day by predicting the number of users in the floor F1 on the day. Therefore, the zone management device 10 can set and manage a plurality of zones according to the predicted usage status of the floor F1.

Further, the zone management device 10 manages the entry and exit of users in each zone after the plurality of zones are set, and sets a new plurality of zones again based on the management result. As a result, after setting multiple zones, it is possible to set and manage appropriate new multiple zones according to changes in the usage status in each zone, that is, the usage status of floor F1 by the subsequent movement of users. it can.

Further, the zone management device 10 updates the attribute information of the corresponding user based on the user-related information. As a result, the attributes of the user can be set to appropriate contents. As a result, the zone management device 10 can appropriately control the dynamic equipment of the zone used by the user.

(6) Modification example (6-1) Modification example 1
In the above embodiment, the zone management device 10 has a configuration in which the floor F1 is divided into a concentration zone, a relaxation zone, and a communication zone, but the configuration is not limited to this configuration.

In a plurality of zones in which the floor F1 is divided, an unused zone that cannot be used by any user may be included. In other words, at least one of the plurality of zones may be an unused zone that is unavailable.

For example, the schedule information includes vacation information of the corresponding user. The zone setting unit 105 sets an unused zone based on the total number of users who use the floor F1 on the day and the number of people accommodated on the floor F1 based on the vacation information of each user. Specifically, assuming that the total number of users who use the floor F1 on the day is 80 and the capacity of the floor F1 is 150, the zone setting unit 105 does not cover the area for 100 people, for example. Set as the usage zone.

(6-2) Modification 2
In the above embodiment, the device control system 2 is configured to use the position information system 3 in order to manage the presence / absence of the user on the floor F1, but is not limited to this configuration.

The device control system 2 may use the face authentication of the user in order to manage the presence / absence of the user on the floor F1, or may use the management result of the entry / exit management system that manages the entry / exit of the user. May be good. Alternatively, the device control system 2 may use at least two of the position information system 3, face recognition and entry / exit management system.

(6-3) Modification 3
In the above embodiment, the zone management device 10 is configured to manage the entry and exit of the user by communication between the receiver 30 and the tag 40 in the position information system 3, but is not limited to this configuration.

The zone management device 10 may manage the entry and exit of the user by communicating between the receiver 30 and the information terminal 80 of the user.

(6-4) Modification 4
In the above embodiment, the schedule information acquisition unit 103 may acquire the schedule information of the user from the information terminal 80 of the user. Alternatively, the schedule information acquisition unit 103 may acquire the schedule information of each user from the schedule management system that manages the schedule of each user. Alternatively, the schedule information acquisition unit 103 may acquire information on users who use each facility from the facility reservation system that manages facility reservations.

(6-5) Modification 5
In the above embodiment, the lighting device 50 and the air conditioning device 60 have been described as an example of the dynamic equipment, but the dynamic equipment is not limited to the lighting device 50 and the air conditioning device 60.

The dynamic equipment may be at least one of lighting equipment, air conditioning equipment, aroma diffuser and speaker.

When the dynamic equipment is an aroma diffuser, the zone management device 10 controls the strength of the scented airflow generated by the aroma diffuser or controls to change the scent generated by the aroma diffuser according to the type of zone. .. When the dynamic equipment is used as a speaker, the zone management device 10 controls the volume output from the speaker or changes the sound (for example, music) output from the speaker according to the type of the zone.

(6-6) Modification 6
In the above embodiment, the related information acquisition unit 106 of the zone management device 10 is configured to acquire user-related information from the information terminal 80, but is not limited to this configuration.

The related information acquisition unit 106 may acquire user-related information from an AI speaker (smart speaker), a camera, a heartbeat, and an electroencephalogram.

For example, when using an AI speaker, the AI speaker is installed for each zone (for example, for each control area). Each AI speaker receives user-related information by the voice of the user in the corresponding zone. Each AI speaker transmits the acquired user-related information to the zone management device 10.

When using a camera, the camera is installed in each zone (for example, in each control area). Each camera photographs the face of the user in the corresponding zone and transmits the captured image to the zone management device 10. The related information acquisition unit 106 is related to the user related to the user based on the environment of the zone in which the camera is installed, that is, the zone used by the user, based on the complexion of the user included in the image, the presence or absence of sweat, and the like. Get information. For example, when sweating, it is determined that the user feels hot in the corresponding zone, and user-related information including information indicating that it is hot is acquired.

When using a heartbeat or brain wave, the related information acquisition unit 106 acquires the heartbeat or brain wave measured by a wearable terminal, a smart watch, or the like worn by the user. The related information acquisition unit 106 determines whether or not the zone being used is a comfortable environment for the user based on the acquired heartbeat or brain wave, and acquires the result as the user-related information.

(6-7) Modification 7
In the above embodiment, the zone management device 10 is configured to notify the zone information to the notification device 70 and the information terminal 80, but is not limited to this configuration. The zone management device 10 may be configured to notify at least one of the notification device 70 and the information terminal 80 of the zone information.

(6-8) Modification 8
In the above embodiment, the zone management device 10 may be provided in the facility. For example, the zone management device 10 may be connected to the relay device 20, each receiver 30, each lighting device 50, and each air conditioning device 60 by a dedicated line.

Further, the zone management device 10 may be integrated with the relay device 20 when it is provided in the facility. Alternatively, the zone management device 10 may be integrated with the notification device 70 when it is provided in the facility. Alternatively, the zone management device 10 may be integrated with the relay device 20 and the notification device 70 when provided in the facility.

(6-9) Modification 9
In the above embodiment, the zone management device 10 has a configuration in which the floor F1 (space) is divided into three zones, but the configuration is not limited to this configuration. The zone management device 10 may be configured to divide the floor F1 into two or more zones.

(6-10) Modification 10
In the above embodiment, the notification unit 110 superimposes a plurality of zones and setting information including the set illuminance and the set temperature set for each zone on the image of the layout of the floor F1, and the display unit 71 of the notification device 70 and It is configured to be displayed on the display unit 81 of the information terminal 80. However, it is not limited to this configuration.

The notification unit 110 may notify the user of the arrangement of each zone (zones R1 to R3) by voice.

(6-11) Modification 11
In the above embodiment, the target environment setting unit 108 is configured to set the set temperature as the target environment for the air conditioner 60, but is not limited to this configuration.

The target environment setting unit 108 may set the set humidity as the target environment for the air conditioner 60, or may set both the set temperature and the set humidity.

(6-12) Modification 12
In the above embodiment, the floor F1 of the facility has been described as an example of the space. However, the space is not limited to the floor F1 of the facility.

For example, the space may be a space inside a moving body. For example, the space may be inside a vehicle such as the Shinkansen. In this case, when the Shinkansen user makes a seat reservation using the user's information terminal, the zone management device 10 acquires the attribute information corresponding to the user. Further, the zone management device 10 acquires layout information about the Shinkansen and reservation information including the reservation status, and sets the zone and sets the zone based on the acquired layout information, the reservation information of the Shinkansen to be set for the zone, and the attribute information. Manage. Here, the reservation information corresponds to both the schedule information and the management result of absence.

(6-13) Modification 13
In the above embodiment, the gender and age of the user are taken as an example of the data included in the static information. However, the data included in the static information is not limited to the gender and age of the user. The static information may include the job title, job title, physical characteristics (eg, height, weight, etc.) of the corresponding user and the presence or absence of physical disability. In short, the static information includes at least one data of the corresponding user's gender, age, occupation, job title, physical characteristics and the presence or absence of physical disability. In this case, the zone management device 10 collects one or more data of the corresponding user's gender, age, occupation, job title, physical characteristics, and the presence or absence of physical disability contained in the static information. Use to do at least one of zone setting and environmental goal setting.

Similarly, data that includes environmental information about the corresponding user (eg, hot, cold, desired brightness, etc.) and work information (eg, focusing on intensive work, etc.) in the dynamic information. As an example. However, the data included in the dynamic information is not limited to the information about the environment and the information about the work of the user. The dynamic information includes the corresponding user's health status (for example, health status within one week, physical condition of the day, etc.), medical history (for example, medical history within one month), and sleep status (for example, sleep time within one month). (Eg, average hours of working hours), working hours (eg, total hours or average hours of working hours within one month), smile amount (for example, average smile amount within one month) may be included. The dynamic information further includes the exposure temperature on floor F1 (eg, exposure temperature within a month), the amount of carbon dioxide (eg, the average amount of carbon dioxide within a month), and the corresponding user's body temperature (eg,). May include: average body temperature within 1 month), blood glucose (eg, average blood glucose within 1 month), blood oxygen concentration (eg, average blood oxygen within 1 month). .. In short, dynamic information includes environmental information, work information, health status, medical history, sleep status, working hours, smile amount, body temperature, blood sugar level, blood oxygen concentration, and floor F1 for the corresponding user. Includes at least one data of exposure temperature and amount of carbon dioxide. In this case, the zone management device 10 includes environmental information about the corresponding user, work information, health condition, medical history, sleeping condition, working hours, smile amount, body temperature, blood glucose level, and blood included in the dynamic information. At least one of zone setting and environmental target setting is performed using one or more data of medium oxygen concentration, exposure temperature on floor F1 and amount of carbon dioxide.

Also, the environmental information about the user may include the desired set temperature. Information about work includes activity amount (for example, average value of activity amount within one month), communication time (for example, average time of communication time within one month), and concentration time (for example, average concentration time within one month). Time) and schedule of the day (business schedule) may be included. In this case, when the zone management device 10 performs at least one of zone setting and environmental target setting using the information about the environment of the user, when a plurality of data are included in the information, for example, the information When the desired set temperature and brightness are included, at least one of the plurality of data is used. When the zone management device 10 performs at least one of zone setting and environmental goal setting using information about work about the user, when a plurality of data are included in the information, for example, activity amount, communication time, and so on. When the concentration time and the schedule of the day are included in the information, at least one of the plurality of data is used.

Further, the zone management device 10 may combine one or more data included in the static information and the next higher data included in the dynamic information to perform at least one of zone setting and environmental target setting. Good.

(6-14) Modification 14
In the above embodiment, the retention period may be set in the attribute information of the user. For example, "hot" and "cold" are the surrounding environment of the user and the psychological reaction to abdicate to that environment, and in the ever-changing temperature environment of floor F1, the information ("hot") as time passes. The meaning of "information such as" and "cold") is diminished. Therefore, when the target environment setting unit 108 sets the target environment, if the retention period of a predetermined period (for example, 2 to 3 hours) or more has elapsed, the attribute information is excluded from the target used for control. May be good.

(Other variants)
The above embodiment is only one of the various embodiments of the present disclosure. The above-described embodiment can be changed in various ways depending on the design and the like as long as the object of the present disclosure can be achieved. Further, the same function as that of the management system 1 may be realized by a management method, a computer program, a recording medium on which the program is recorded, or the like. The management method according to one aspect is used in a management system that manages each of a plurality of zones (for example, zones R1 to R3) divided in a space (floor F1). The management method includes an attribute information acquisition step, a layout information acquisition step, an absence management step, and a zone setting step. The attribute information acquisition step acquires attribute information related to the user of the space. The layout information acquisition step acquires the layout information of the space including the installation location of the static equipment (for example, desk, chair) and the dynamic equipment (for example, lighting equipment 50, air conditioning equipment 60) installed in the space. The absence management step manages the presence or absence of a person in space. The zone setting step sets a plurality of zones for the space based on the attribute information, the layout information, and the management result of the absence management step. The program according to one aspect is a program for making a computer system function as the management method described above.

The management system 1 or the execution body of the management method in the present disclosure includes a computer system. A computer system has a processor and memory as hardware. When the processor executes the program recorded in the memory of the computer system, the function as the execution subject of the management system 1 or the management method in the present disclosure is realized. The program may be pre-recorded in the memory of the computer system or may be provided through a telecommunication line. The program may also be provided recorded on a non-temporary recording medium such as a memory card, optical disk, or hard disk drive that can be read by a computer system. A processor in a computer system is composed of one or more electronic circuits including a semiconductor integrated circuit (IC) or a large scale integrated circuit (LSI). A plurality of electronic circuits may be integrated on one chip, or may be distributed on a plurality of chips. The plurality of chips may be integrated in one device, or may be distributed in a plurality of devices.

The management system 1 which is a computer system may be a system composed of one or a plurality of computers. For example, at least a part of the functions of the management system 1 may be realized by the cloud (cloud computing).

(Summary)
As described above, the management system (1) of the first aspect manages each of a plurality of zones (R1 to R3) divided in the space (floor F1). The management system (1) includes an attribute information acquisition unit (101), a layout information acquisition unit (102), an absence management unit (104), and a zone setting unit (105). The attribute information acquisition unit (101) acquires attribute information related to the user of the space. The layout information acquisition unit (102) acquires the layout information of the space including the installation location of the static equipment (desk, chair) and the dynamic equipment (lighting equipment 50, air conditioning equipment 60) installed in the space. The absence management unit (104) manages the presence or absence of a person in the space. The zone setting unit (105) sets a plurality of zones (R1 to R3) for the space based on the attribute information, the layout information, and the management result by the absence management unit (104).

According to this configuration, a plurality of zones (R1 to R3) can be set and managed according to the space usage status.

The management system (1) of the second aspect further includes a schedule information acquisition unit (103) that acquires schedule information related to the user's schedule in the first aspect. The absence management unit (104) predicts the presence or absence of the user at a predetermined time based on the schedule information, and uses the prediction result as the management result.

According to this configuration, it is possible to set and manage a plurality of zones (R1 to R3) according to the predicted usage status of the space.

In the management system (1) of the third aspect, in the first or second aspect, the zone setting unit (105) sets a plurality of zones (R1 to R3) and then sets a new plurality of zones again. To do.

According to this configuration, a plurality of zones (R1 to R3) can be changed as appropriate.

In the management system (1) of the fourth aspect, in the third aspect, the absence management unit (104) manages the entry and exit of people in each of the plurality of zones (R1 to R3). The zone setting unit (105) sets a plurality of new zones by using at least the result of managing the entry and exit of people by the absence management unit (104).

According to this configuration, it is possible to set and manage a plurality of appropriate new zones according to the usage status in each zone, that is, the change in the usage status of the space.

The management system (1) of the fifth aspect further includes a related information acquisition unit (106) and an update unit (107) in any one of the first to fourth aspects. The related information acquisition unit (106) acquires user-related information related to the user based on the environment of the zone used by the user among the plurality of zones (R1 to R3). The update unit (107) updates the attribute information related to the user based on the user-related information.

According to this configuration, the user's attributes can be set to appropriate contents.

The management system (1) of the sixth aspect further includes a notification unit (110) in any one of the first to fifth aspects. The notification unit (110) notifies the user of zone information regarding a plurality of zones (R1 to R3) set by the zone setting unit (105).

According to this configuration, the user can know the zone he / she wants to use.

In the management system (1) of the seventh aspect, in the sixth aspect, the notification unit (110) has a zone setting unit (105) in the layout of the space representing the installation location of the static equipment and the dynamic equipment in the space. A plurality of zones (R1 to R3) set by are superimposed and displayed on a display unit (for example, display units 71 and 81).

According to this configuration, the user can easily know the position of the zone that he / she wants to use.

The management system (1) of the eighth aspect further includes a target environment setting unit (108) and a zone environment control unit (109) in any one of the first to seventh aspects. The target environment setting unit (108) has a target environment (for example, set illuminance) used for controlling dynamic equipment provided in the zone for each of the plurality of zones (R1 to R3) set by the zone setting unit (105). , Set temperature). The zone environment control unit (109) controls the dynamic equipment provided in the zone based on the target environment of the dynamic equipment provided in the zone for each of the plurality of zones (R1 to R3).

According to this configuration, appropriate control can be performed for the dynamic equipment in the zone.

In the management system (1) of the ninth aspect, in any one of the first to eighth aspects, at least one of the plurality of zones is an unused zone that cannot be used.

According to this configuration, one or more usable zones can be set according to the total number of users who use the space.

The management method of the tenth aspect is used in a management system that manages each of a plurality of zones (R1 to R3) divided in a space (floor F1). The management method includes an attribute information acquisition step, a layout information acquisition step, an absence management step, and a zone setting step. The attribute information acquisition step acquires attribute information related to the user of the space. The layout information acquisition step acquires the layout information of the space including the installation location of the static equipment (desk, chair) and the dynamic equipment (lighting equipment 50, air conditioning equipment 60) installed in the space. The absence management step manages the presence or absence of a person in space. The zone setting step sets a plurality of zones (R1 to R3) for the space based on the attribute information, the layout information, and the management result of the absence management step.

According to this management method, a plurality of zones (R1 to R3) can be set and managed according to the space usage status.

The program of the eleventh aspect is a program for causing a computer to execute the management method of the tenth aspect.

According to this program, multiple zones (R1 to R3) can be set and managed according to the space usage status.

1 Management system 10 Zone management device 50 Lighting equipment (dynamic equipment)
60 Air conditioning equipment (dynamic equipment)
71, 81 Display unit 101 Attribute information acquisition unit 102 Layout information acquisition unit 103 Schedule information acquisition unit 104 Absence management unit 105 Zone setting unit 106 Related information acquisition unit 107 Update unit 108 Target environment setting unit 109 Zone environment control unit 110 Notification unit R1, R2, R3, R2a, R3a zone F1 floor (space)

Claims (11)

A management system that manages each of multiple zones divided in space.
An attribute information acquisition unit that acquires attribute information related to the user of the space, and
A layout information acquisition unit that acquires layout information of the space including installation locations of static equipment and dynamic equipment installed in the space, and
The absence management department that manages the absence of people in the space,
It includes a zone setting unit that sets the plurality of zones with respect to the space based on the attribute information, the layout information, and the management result by the absence management unit.
Management system. A schedule information acquisition unit for acquiring schedule information related to the user's schedule is further provided.
The absence management unit predicts the presence or absence of the user at a predetermined time based on the schedule information, and uses the prediction result as the management result.
The management system according to claim 1. After setting the plurality of zones, the zone setting unit sets a new plurality of zones again.
The management system according to claim 1 or 2. The absence management unit manages the entry and exit of people in each of the plurality of zones.
The zone setting unit sets a plurality of new zones by using at least the result of managing the entry and exit of people by the absence management unit.
The management system according to claim 3. A related information acquisition unit that acquires user-related information related to the user based on the environment of the zone used by the user among the plurality of zones.
It further includes an update unit that updates the attribute information related to the user based on the user-related information.
The management system according to any one of claims 1 to 4. A notification unit for notifying the user of zone information regarding the plurality of zones set by the zone setting unit is further provided.
The management system according to any one of claims 1 to 5. The notification unit superimposes the plurality of zones set by the zone setting unit on the layout of the space representing the installation location of the static equipment and the dynamic equipment in the space, and displays them on the display unit.
The management system according to claim 6. For each of the plurality of zones set by the zone setting unit, a target environment setting unit that sets a target environment used for controlling the dynamic equipment provided in the zone, and a target environment setting unit.
For each of the plurality of zones, a zone environment control unit for controlling the dynamic equipment provided in the zone based on the target environment of the dynamic equipment provided in the zone is further provided.
The management system according to any one of claims 1 to 7. At least one of the plurality of zones is an unused zone that is unavailable.
The management system according to any one of claims 1 to 8. It is a management method used in a management system that manages each of a plurality of zones divided in a space.
The attribute information acquisition step for acquiring the attribute information related to the user of the space, and
A layout information acquisition step for acquiring layout information of the space including the installation location of static equipment and dynamic equipment installed in the space, and
The absence management step that manages the presence or absence of a person in the space,
Includes a zone setting step for setting the plurality of zones for the space based on the attribute information, the layout information, and the management result of the absence management step.
Management method. A program for causing a computer to execute the management method according to claim 10.

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