JP5778470B2 - Action incentive device - Google Patents

Description

  The present invention relates to an action invocation device for inviting a person who is working in a predetermined first space to move to a second space different from the first space.

  Conventionally, various attempts have been made to automatically control the office environment in order to improve the intellectual productivity of office workers. For example, in order to reproduce environmental information in a remote location in an office, etc., collect environmental information in a remote location, extract feature component data of this environmental information, and output at least environmental information to the office etc. according to this feature component data An environmental information output control system has been proposed (see, for example, Patent Document 1).

JP 2008-4023 A

  However, since the conventional system performs environmental control of an office or the like in which an office worker is present, the air conditioning load and the lighting load often increase with the environmental control. For example, if the temperature of the office where the office is currently located is higher than the temperature in the remote area in summer, the environment in the remote area will be reproduced by lowering the office temperature, which will increase the air conditioning load. It was. Therefore, the conventional system has a problem that it is contrary to the recent demand for energy saving.

  The present invention has been made in view of the above, and does not control the environment of the space where the worker is currently located, but rather encourages the worker to move to another suitable space to save energy. It is an object to provide an action incentive device that can improve performance, intellectual productivity, and the like.

In order to solve the above-described problems and achieve the object, the action stimulating device according to claim 1 is configured to provide a plurality of predetermined first different from the first space to a target person in the predetermined first space. An action inducing device for inducing movement to at least one second space in two spaces, the environment information acquiring means for acquiring the environment information of the first space and the environment information of the second space; Based on the environmental information of the first space acquired by the environmental information acquisition means , a first action call index indicating the validity of the subject being in the first space is calculated, and the environment Based on the environmental information of the second space acquired by the information acquisition unit, a behavioral index calculation unit that calculates a second behavioral index indicating the validity of the subject being in the second space And calculated by the action call indicator calculation means Based on a result of comparison between the first behavioral arousal index and the second action evoked indices from each other, the output for evoking moving from the first space to the second space to the subject Output processing means for performing in the first space.
In addition, the action invocation device according to claim 2 is the action invocation device according to claim 1, wherein the action incentive index calculating means is the first action invocation index unique to the target person, or the target person. And calculating the second action inducing index specific to.

The action invocation device according to claim 3 is the action invocation device according to claim 1, wherein the action incentive index calculating means is a degree of comfort for the subject in the second space compared to the first space. And calculating the first action inducing index or the second action inducing index based on the calculated comfort index.

The action invocation device according to claim 4 is the action invocation device according to claim 1 or 3 , wherein the action incentive index calculating means indicates a degree of energy consumption of the second space compared to the first space. An energy saving index is calculated, and the first action calling index or the second action calling index is calculated based on the calculated energy saving index.

The action invocation device according to claim 5 is the action invocation device according to any one of claims 1 to 4 , wherein the action incentive index calculating means is an object of the second space compared with the first space. The business efficiency index indicating the degree of the business efficiency of the person is calculated, and the first action call index or the second action call index is calculated based on the calculated business efficiency index.

The action invocation device according to claim 6 is the action invocation device according to any one of claims 1 to 5 , wherein the action incentive index calculating means is an object of the second space compared with the first space. A preference index indicating the degree of preference of the user is calculated, and the first action inducing index or the second action inducing index is calculated based on the calculated preference index.

Behavior evoked apparatus according to claim 7, in behavioral arousal device according to any one of claims 1 to 6, wherein the action evoked index calculation means, that the subject is in a current of said first space A first action call index indicating the validity of the second action call index is calculated, or a second action call index indicating the validity of the subject being in the second space is calculated.

The behavior evoked device according to claim 8, in behavioral arousal device according to any one of claims 1 to 7, said action evoked index calculation means, the first after the subject is given the current time A first action call index indicating the validity of being in space is calculated, or a second action call index indicating the validity of the subject being in the second space after a predetermined time from the present time is calculated. .

The action stimulating device according to claim 9 is the action stimulating device according to any one of claims 1 to 8 , wherein the output processing means urges the subject to move to the second space. Therefore, a predetermined process is performed on the environment control means provided in the first space.

The action invocation device according to claim 10 is the action invocation device according to claim 9 , wherein the output processing means is provided in the second space among the plurality of environment control means provided in the first space. Predetermined processing is performed on the environment control unit so that the closer the environment control unit is located, at least one of temperature, humidity, and illuminance decreases or increases.

  According to the action inducing device according to claim 1, an action inducing index indicating whether or not the subject moves from the first space to the second space is calculated, and based on the action inducing index, Since the output for invoking the movement from the first space to the second space is performed in the first space, it is possible to alert the subject to move to the second space that is more suitable than the first space. . For this reason, for example, without specifically controlling the environment of the first space or the second space according to the target person, the target person is moved according to the environment at that time in each space. It is possible to improve the intellectual productivity and the like by moving the target person to a suitable space while preventing the increase in energy consumption and improving the energy saving performance.

According to the action inducing device according to claim 3 , the action inducing index is calculated based on the comfort index indicating the degree of comfort for the target person in the second space compared to the first space. The subject can be urged to move to the second space that is more comfortable for the subject than the space.

According to the action stimulating device of claim 4 , since the action stimulating index is calculated based on the energy saving index indicating the degree of energy consumption of the second space compared to the first space, energy saving compared to the first space. It is possible to urge the subject to move to the highly specific second space.

According to the action inducing device according to claim 5 , since the action inducing index is calculated based on the business efficiency index indicating the degree of the business efficiency of the target person in the second space compared to the first space, the first space It is possible to alert the target person to move to the second space with higher work efficiency.

According to the action inducing device according to claim 6 , since the action inducing index is calculated based on the preference index indicating the degree of preference of the target person in the second space compared to the first space, the first space It is possible to urge the subject to move to the second space that matches the preference of the subject.

According to the action inducing device according to claim 7 , since the action inducing index indicating whether or not the target person moves from the current first space to the current second space is calculated, Compared with the present suitable second space, the subject can be urged to move.

According to the action inducing device according to claim 8 , since the action inducing index indicating whether or not the subject moves from the first space after the predetermined time to the second space after the predetermined time is calculated, the predetermined time The subject can be urged to move to the second space after a suitable predetermined time compared to the later first space.

According to the action stimulating device of the ninth aspect , since a predetermined process is performed on the environment control means provided in the first space in order to alert the subject to the movement from the first space to the second space. The movement of the subject person to the second space can be naturally aroused through the environment of the first space. In this case, the environment of the first space is controlled, but it is sufficient to perform control to such an extent that the target person's action can be triggered, so that the environment of the first space is suitable for the target person. Therefore, even in this case, it is possible to improve the energy saving performance as compared with the conventional case.

According to the action stimulating device of claim 10 , the predetermined process for the environmental control means is performed so that at least one of temperature, humidity, and illuminance decreases or increases as the second space is approached. Since it is performed, the movement of the subject to the second space can be naturally evoked through changes in temperature, humidity, or illuminance.

It is a side view which shows typically the office building to which the action calling system is applied. It is the block diagram which showed the electrical structure of the action alerting system functionally conceptually. It is a figure which shows the structural example of office worker basic information. It is a figure which shows the structural example of spatial basic information. It is a figure which shows the structural example of office worker preference information. It is a figure which shows the structural example of an office worker schedule information. It is a figure which shows the structural example of apparatus information. It is a figure which shows the structural example of environmental information. It is a figure which shows the structural example of energy information. It is a figure which shows the structural example of weighting information. It is a flowchart of action calling processing. It is a flowchart of a worker selection process. It is a flowchart of an information acquisition process. It is a flowchart of an index calculation process. It is a flowchart of a 2nd space selection process. It is a flowchart of action call output processing. It is a figure which shows the example of a display of an action alert screen.

  Embodiments of an action inducing device according to the present invention will be described below in detail with reference to the accompanying drawings. However, the present invention is not limited to the embodiments.

  This action stimulating device urges a target person in a predetermined “first space” to move to at least one second space in a plurality of predetermined “second spaces” different from the first space. It is a device for doing.

  Here, the “first space” and the “second space” may be a space in the same building, or may be spaces in different buildings, whether they are indoor spaces or outdoor spaces. It doesn't matter. Hereinafter, when it is not necessary to distinguish between the first space and the second space, they are simply referred to as “space”. Hereinafter, as a typical example, a case where the space is an office building space will be described. More specifically, a case where the “office”, “meeting room”, “shared space”, and “dining room” inside the office building and the “terrace” outside the office building are “space” is explained. To do. Among these spaces, the space where the subject is currently located is the “first space”, and the space to which the subject is moved is the “second space”. Therefore, even if the space is physically the same, it may become a “first space” or a “second space” depending on the relationship with the subject.

  The “target person” is a person who is a target for encouraging action, and its specific attributes are arbitrary, but in the following, as a representative example, the “person” is the “worker” who works in an office building. A case will be described.

This action incentive device calculates an “action incentive index” based on “environment information”.
“Environmental information” is information acquired by the environmental information acquisition means, and is information that becomes a factor in evaluating the suitability of the first space and the second space for workers. Examples of the environmental information include temperature, humidity, illuminance, air cleanliness, wind speed, air volume, noise, vibration, and smell, and any other environmental information can be included. Below, the case where environmental information is temperature, humidity, or illumination intensity is demonstrated. When it is not necessary to distinguish these temperatures, humidity, and illuminance from each other, they are simply referred to as “environment”.

  The “behavior promotion index” is an index indicating the degree of validity of the office worker moving from the first space to the second space. In the present embodiment, as an action inducing index, an index indicating the validity level of the office worker in the first space and an index indicating the validity level of the office worker in the second space If the latter is larger than the former, it is considered appropriate for the office worker to move from the first space to the second space. The method for calculating the action incentive index is arbitrary, but in the present embodiment, the action incentive index is calculated in combination from a plurality of indices. There are four indexes, “comfort level index”, “energy saving index”, “business efficiency index”, and “preference index”. The “comfort level index” is an index indicating the degree of comfort for the office worker in the space. The “energy saving index” is an index indicating the degree of energy consumption in the space. The “business efficiency index” is an index indicating the degree of business efficiency of a worker in the space. The “preference index” is an index indicating the degree of agreement between the preference of the office worker and the environment of the space.

This action invocation device performs “current action invocation” and “action invocation after a predetermined time”.
“Current action awakening” refers to a second space (hereinafter referred to as the current first space) from the first space (hereinafter referred to as the current first space) where the worker is present at the time of executing the action calling process. This is a process for urging movement to (space 2).
On the other hand, the “calling action after a predetermined time” means from the first space (hereinafter referred to as the first space after a predetermined time) where the office worker is scheduled to exist at a time after a predetermined time from the time when the action calling process is executed. This is a process for urging the user to move to another second space (hereinafter, the second space after a predetermined time) at the time after the predetermined time.

(Composition-office building)
Next, a configuration of an office building to which the action alert system according to the present embodiment is applied will be described. FIG. 1 is a side view schematically showing an office building to which an action arousing system is applied. As shown in FIG. 1, the office building 1 is a two-story building, and each of the first and second floors has two offices, one meeting room, and one terrace. There is one shared space on the first floor and one dining room on the second floor. In any of these spaces, it is assumed that one or more office workers can work. The shared space is a space that can be shared by a plurality of office workers such as a free address space. In the following, in order to distinguish these rooms from each other, “first floor first office room”, “first floor second office room”, “second floor first office room”, “second floor second office room”, “ It is referred to as “first floor first meeting room”, “second floor first meeting room”, “first floor terrace”, “second floor terrace”, “first floor shared space”, “dining room”.

(Configuration-Action Awareness System)
The office building 1 configured as described above is provided with an action alert system. FIG. 2 is a block diagram functionally conceptually showing the electrical configuration of the action calling system. As shown in FIG. 2, the action invocation system 2 includes an action invocation device 10, a plurality of office terminals 20, a plurality of environment sensors 30, and a plurality of environment control devices 40. Each of the plurality of office work terminals 20, each of the plurality of environment sensors 30, and each of the plurality of environment control devices 40 is connected to the action stimulating device 10 via a network 50. Note that these devices and the like are not shown in FIG.

(Structure-Action Aware Device)
The action stimulating device 10 is an action for inviting a target person in a predetermined first space to move to at least one second space in a plurality of predetermined second spaces different from the first space. The stimulating device 10 includes an input / output interface (hereinafter, input / output IF) 11, a control unit 12, and a storage unit 13. Specifically, this action incentive device 10 is configured as a known personal computer or computer server, for example.

  The input / output IF 11 is an input unit that receives input of information necessary for various processes executed by the action stimulating device 10 and is an output unit that outputs information necessary for various processes executed by the action stimulating device 10. Specifically, it is configured as a network board.

  The control unit 12 is a control unit that controls the action stimulating device 10. Specifically, the control unit 12 is a CPU, various programs that are interpreted and executed on the CPU (a basic control program such as an OS, or a program that is started and specified on the OS). And an internal memory such as a RAM for storing the program and various data. In particular, the action calling program according to the present embodiment is stored in a computer-readable recording medium, and is installed in the action calling apparatus 10 from the recording medium, thereby substantially configuring each part of the control unit 12.

  This control unit 12 conceptually performs a worker selection unit 12a that performs a worker selection process, an information acquisition unit 12b that performs an information acquisition process, an index calculation unit 12c that performs an index calculation process, and a second space selection process. The 2nd space selection part 12d and the action call output part 12e which performs action call output processing are provided. In particular, the index calculation unit 12c calculates an action call index calculation that calculates an action call index indicating whether or not the office worker moves from the first space to the second space based on the environmental information acquired by the environment sensor 30. Means. In addition, the action call output unit 12e outputs an output for calling the office worker to move from the first space to the second space based on the action call index calculated by the index calculation unit 12c. It is an output processing means performed in space. Specific functions of these units will be described later.

  The storage unit 13 is a storage unit that stores various types of information necessary for the processing of the action stimulating device 10, and includes, for example, a hard disk or other known recording medium. 13a, spatial basic information DB 13b, office worker preference information DB 13c, office worker location information DB 13d, device information DB 13e, environment information DB 13f, energy information DB 13g, and weighting information DB 13h. Hereinafter, details of each DB in the storage unit 13 will be described. However, the information described below as information stored in each DB is merely an example, and in practice, some of the information can be omitted. Can be included or replaced with other information.

  The worker basic information DB 13a is a worker basic information storage unit that stores basic information about a worker (hereinafter, worker basic information). As shown in the configuration example of FIG. 3, the worker basic information includes information corresponding to the item “worker ID”, the item “name”, the item “age”, the item “gender”, and the item “job type”. Stored in association with each other. Information corresponding to the item “worker ID” is worker identification information for uniquely identifying the worker. Information corresponding to the item “name”, the item “age”, the item “gender”, and the item “job type” includes the name of the worker, the age of the worker, the sex of the worker, and the job type of the worker, respectively.

  The basic space information DB 13b is a basic space information storage unit that stores basic information about the space (hereinafter, basic space information). As shown in the configuration example of FIG. 4, the space basic information stores information corresponding to the item “space ID”, the item “space name”, and the item “indoor / outdoor” in association with each other. Information corresponding to the item “space ID” is space identification information for uniquely identifying a space. The information corresponding to the item “space name” is the space name of the space. Information corresponding to the item “indoor / outdoor” is information for distinguishing whether the space is an indoor space or an outdoor space.

  The office worker preference information DB 13c is an office worker preference information storage unit that stores information related to the environment preference of the office worker (hereinafter referred to as office worker preference information). As shown in the configuration example of FIG. 5, the office worker preference information corresponds to the item “officer ID”, the item “temperature”, the item “relative humidity”, the item “illuminance”, and the item “indoor / outdoor”. Information is stored in association with each other. The information corresponding to the item “worker ID” and the information corresponding to the item “indoor / outdoor” are the same as the information corresponding to the same item name described so far. The information corresponding to the item “temperature”, the item “relative humidity”, and the item “illuminance” is the temperature, relative humidity, and illuminance that the office worker prefers, respectively.

  The office worker location plan information DB 13d is a worker location plan information storage unit that stores information about the schedule of the space where the office worker is located (hereinafter, the worker location plan information). As shown in the configuration example of FIG. 6, the office worker location schedule information includes an item “officer ID”, an item “default space ID”, and an item “schedule information”. The item “schedule information” includes the item “schedule information”. The date and time ”, the item“ space ID ”, and the item“ space fixed flag ”are included, and the office worker schedule information is stored in association with information corresponding to these items. The information corresponding to the item “worker ID” is the same as the information corresponding to the same item name described so far. The information corresponding to the item “default space ID” is the space ID of the space where each worker is present when the item “schedule information” does not include the schedule information. The information corresponding to the item “schedule information” is schedule information of the worker, and the information corresponding to the item “date and time” is the date and time of the schedule of the worker. The information corresponding to the item “space ID” is a space ID of a space where a worker is scheduled to exist at the date and time of the worker's schedule. The information corresponding to the item “space fixed flag” is a flag indicating that the space where the worker is located is fixed (no movement of the space is performed). For example, when the space fixed flag is not set, This indicates that the space where the person is located is not fixed. When the space fixing flag is set, this indicates that the space where the worker is located is fixed.

  The device information DB 13e is a device information storage unit that stores information about each device installed in the space (hereinafter, device information). As shown in the configuration example of FIG. 7, the device information stores information corresponding to the item “space ID”, the item “environment sensor ID”, and the item “environment control device ID” in association with each other. . The information corresponding to the item “space ID” is the same as the information corresponding to the same item name described so far. Information corresponding to the item “environment sensor ID” is environment sensor identification information for uniquely identifying the environment sensor 30. Information corresponding to the item “environment control device ID” is environment control device identification information for uniquely identifying the environment control device 40.

  The environment information DB 13f is environment information storage means for storing information related to the history of the environment in each space (hereinafter referred to as environment information). As shown in the configuration example of FIG. 8, the environment information includes information corresponding to the item “space ID”, the item “date and time”, the item “temperature”, the item “relative humidity”, and the item “illuminance”. Stored in association. The information corresponding to the item “space ID” is the same as the information corresponding to the same item name described so far. The information corresponding to the item “date and time” is the date and time when the environmental information is acquired by the environmental sensor 30. The information corresponding to the item “temperature”, the item “relative humidity”, and the item “illuminance” is the temperature, the relative humidity, and the illuminance acquired by the environment sensor 30, respectively.

  The energy information DB 13g is energy information storage means for storing information about energy consumed for environmental control in each space (hereinafter referred to as energy information). As shown in the configuration example of FIG. 9, the energy information is obtained by associating information corresponding to the item “space ID”, the item “date and time”, the item “air conditioning power amount”, and the item “illumination power amount” with each other. Stored. The information corresponding to the item “space ID” is the same as the information corresponding to the same item name described so far. The information corresponding to the item “date and time” is the date and time when the energy information is acquired. The information corresponding to the item “air-conditioning power amount” is the power amount consumed for air-conditioning in the space. The information corresponding to the item “illumination power amount” is the amount of power consumed for lighting in the space.

  The weighting information DB 13h is weighting information storage means for storing information related to the weighting of each index (hereinafter referred to as weighting information). As shown in the configuration example of FIG. 10, the weighting information stores information corresponding to the item “index” and the item “weighting coefficient” in association with each other. The information corresponding to the item “index” is the name of the index calculated by the action stimulating device 10. The information corresponding to the item “weighting coefficient” is a coefficient for weighting the index calculated by the action stimulating device 10, and in this embodiment, the total value of these coefficients is set to be 1. Yes.

  For example, among the information of each DB, the office worker basic information, the spatial basic information, the device information, and the weighting information are transferred from an arbitrary terminal device to each DB via the network 50 by the administrator of the action stimulating device 10 or the like. Stored. The office worker preference information and the office worker location schedule information are stored in each DB from the office terminal 20 via the network 50 by each office worker. Further, when the office worker inputs a schedule to a known schedule management program that operates on the office terminal 20, the office worker schedule information may be extracted from the input data. As the environmental information, information periodically detected by the environmental sensor 30 is stored in the environmental information DB 13 f via the network 50. As the energy information, information automatically calculated by a known method based on the control state of the environmental control device 40 is stored in the energy information DB 13g via the network 50.

(Configuration-office terminal)
Each of the plurality of office terminals 20 is a terminal mainly used for office work by each office worker, and is disposed at each of a plurality of office desks (not shown) disposed in the office room. Since this office terminal 20 is comprised by the well-known personal computer, a mobile telephone, a smart phone, etc., the detailed description is abbreviate | omitted.

(Configuration-Environmental sensor)
Each of the plurality of environmental sensors 30 is environmental information acquisition means for detecting environmental data of each space, and is arranged in each space. Since the plurality of environmental sensors 30 are configured by a known temperature sensor, a known humidity sensor, or a known illuminance sensor, detailed description thereof is omitted.

(Configuration-Environmental control equipment)
Each of the plurality of environment control devices 40 is environment control means for controlling the environment of each space, and is disposed in each space. Since the plurality of environmental control devices 40 are configured by known air conditioning devices or known lighting devices, detailed descriptions thereof are omitted.

(Configuration-Network)
The network 50 is a connection unit that connects each of the plurality of office terminals 20, each of the plurality of environment sensors 30, and each of the plurality of environment control devices 40 to the action stimulating device 10 in a communicable manner. The network 50 is shown as a single network in FIG. 2 for convenience of illustration, but can actually be configured as a plurality of different networks. For example, the network 50 is configured as a communication line that performs communication based on various communication standards such as the publicly known Internet, LAN, or DALI (Digital Addressable Lighting Interface).

(processing)
Next, the action invocation process executed by the action invocation system 2 configured as described above will be described. FIG. 11 is a flowchart of the action calling process. In the following description of each process, the step is abbreviated as “S”). This action calling process is started at an arbitrary timing after the power supply to the action calling device 10 is turned on.

  When the action calling process is started, the control unit 12 monitors the arrival of a predetermined timing for calling the worker's action (SA1). As this predetermined timing, for example, it is assumed that the intellectual productivity of the office worker is assumed to be lowered (after a predetermined time of continuous work or after lunch), or that the environment of the space has changed greatly. Timing (when sudden weather changes) is set.

(Processing-office worker selection processing)
When the predetermined timing has arrived (SA1, Yes), the control unit 12 activates the worker selection process by the worker selection unit 12a (SA2). FIG. 12 is a flowchart of the worker selection process. The office worker selection unit 12a acquires the office worker IDs of all office workers who are candidates for action arousal from the office worker basic information DB 13a (SB1). Specifically, the office worker who is a candidate for action promotion may be all office workers, may be an employee of a specific attribute, or the action promotion is performed through the office terminal 20. The office worker who has requested the device 10 may be used.

  Next, the office worker selection unit 12a specifies the first space of each office worker for each of all office workers who are candidates for action invocation (SB2). Specifically, by referring to the office worker location schedule information DB 13d based on each office worker ID acquired in SB1, the space ID corresponding to the current date and time is selected from the space ID corresponding to each office worker ID. get. When there is no space ID, a default space ID corresponding to each office worker ID is acquired.

  Thereafter, the office worker selection unit 12a determines whether or not the first space of each office worker is fixed for each of all office workers who are candidates for action invocation (SB3). Specifically, by referring to the office worker schedule information DB 13d based on the space ID acquired in SB3, it is determined whether or not the space fixing flag corresponding to the space ID is set. Determines that the first space is not fixed, and determines that the first space is fixed when standing.

  Then, when the first space of each worker is fixed (SB3, Yes), the worker selecting unit 12a prompts the worker to move from the first space to the second space. The worker is excluded from the workers who are candidates for action promotion (SB4). Thus, the office worker selection process is terminated, and the process returns to the action calling process of FIG.

(Processing-Information acquisition processing)
Next, in the action calling process of FIG. 11, the control part 12 calls the action without performing the subsequent processes when no office worker finally selected by the worker selecting part 12a remains. The process ends. On the other hand, when one or more office workers finally selected by the office worker selection unit 12a exist, information acquisition processing by the information acquisition unit 12b is activated for the office worker (SA3).

  FIG. 13 is a flowchart of the information acquisition process. In this process, the environment information of the first space and the environment information of the second space are acquired for each of all the workers finally selected by the worker selection unit 12a. As the second space, for each worker, all spaces other than the first space of each worker are defined as the second space. Also, as the environmental information, current environmental information and environmental information after a predetermined time from the present are acquired. For example, one hour later is set as the predetermined time (the same applies to the predetermined time in the following processes).

  That is, the information acquisition unit 12b acquires environmental information of the current first space of each worker (SC1). Specifically, the environment sensor ID corresponding to the space ID is acquired by referring to the space basic information DB 13b based on the space ID acquired for each worker in SB2 of the worker selection process of FIG. The output from the environmental sensor 30 specified by the acquired environmental sensor ID is acquired.

  Next, the information acquisition unit 12b acquires the environmental information of the current second space of each worker (SC2). Specifically, the environment corresponding to the space ID is referred to by referring to the space basic information DB 13b based on all the space IDs other than the space ID acquired for each worker in SB2 of the worker selection process of FIG. The sensor ID is acquired, and the output from the environmental sensor 30 specified by the acquired environmental sensor ID is acquired.

  Next, the information acquisition unit 12b acquires the environmental information of the first space after the lapse of a predetermined time for each office worker (SC3). For example, the output from the environment sensor 30 in each space is periodically accumulated in the environment information DB 13f at predetermined intervals, and the environmental change tendency of each space is identified by a known method from the accumulated output. Based on the environmental change tendency and the environmental information of the first space acquired in SC1, the environmental information after the elapse of a predetermined time is specified. Alternatively, for an outdoor space such as a terrace, weather forecast information may be acquired by a known method, and environment information after a predetermined time may be specified based on the weather forecast information.

  Next, the environmental information of the second space after the elapse of a predetermined time of each office worker is acquired (SC4). For example, the output from the environment sensor 30 in each space is periodically accumulated in the environment information DB 13f at predetermined intervals, and the environmental change tendency of each space is identified by a known method from the accumulated output. Based on the environmental change tendency and the environmental information of the second space acquired in SC2, the environmental information after a predetermined time has elapsed is specified. Alternatively, for an outdoor space such as a terrace, weather forecast information may be acquired by a known method, and environment information after a predetermined time may be specified based on the weather forecast information. This completes the information acquisition process, and returns to the action invocation process of FIG.

(Processing-Indicator calculation processing)
Next, in the action calling process of FIG. 11, the control unit 12 activates the index calculation process by the index calculation unit 12c (SA4). FIG. 14 is a flowchart of the index calculation process. In this process, generally, after calculating the comfort index (SD1, SD2), the energy saving index (SD3, SD4), the work efficiency index (SD5, SD6), and the preference index (SD7, SD8), these are calculated. Based on each index and a predetermined weighting factor, an action call index is calculated (SD9, SD10). The calculation of each index is performed for each of all office workers finally selected by the office worker selection unit 12a. The calculation of each index is performed for the current first space, the current second space, the first space after a predetermined time, and the second space after a predetermined time. The first space is specified based on the space ID acquired for each worker in SB2 of the worker selection process in FIG. The second space is each of all spaces other than the first space of each worker, and is specified based on all space IDs other than the space ID acquired for each worker in SB2 of the worker selection process of FIG. To do. Each index is calculated in a predetermined numerical range common to each other (in this embodiment, it is an integer value from 0 to 10, and the larger the value, the better the index is) And

First, the index calculator 12c calculates a comfort index for the current first space (SD1). Specifically, the index calculation unit 12c calculates the PMD (Predicted Mean Vote) of the current first space as the comfort index. The formula for calculating PMV is PMV = (0.303e−0.036M + 0.028) × (M−W−Ed−Es−Ere−Cre−R−C), where M is the amount of metabolism (W / m ² ). , Ere: latent heat loss due to respiration (W / m ² ), W: mechanical work (W / m ² ), Cre: sensible heat loss due to respiration (W / m ² ), Ed: insensitive digestion ( w / m ² ), R: radiant heat loss (W / m ² ), Es: evaporation heat loss from the skin surface (w / m ² ), C: convective heat loss (W / m ² ) . In order to accurately measure each parameter, a large number of environmental sensors 30 are required. In the present embodiment, the storage unit 13 stores in advance the relationship data between the temperature and relative humidity and each parameter. . Also, fixed values are stored in the storage unit 13 for parameters that are not directly attributable to temperature and relative humidity. Then, the PMV is calculated based on the temperature and relative humidity of the first space measured by the environment sensor 30 and the relationship data and the fixed value stored in the storage unit 13. Note that PMV is usually calculated as a value from -3 to +3, but in this embodiment, the index is calculated as an integer value from 0 to 10 as described above, so -3 to +3. Are converted into integer values from 0 to 10. For example, after setting the neutral value 0 of PMV to index = 10, PMV-3 and +3 are index = 0, PMV-2 and +2 are index = 3, and PMV-1 and +1 are index = 6. For example, the degree of comfort index is increased as the PMV is closer to the neutral value. Similarly, the index calculation unit 12c calculates the comfort index of each current second space (SD1).

  Moreover, the index calculation unit 12c calculates a comfort index of the first space after a predetermined time (SD2). Specifically, the index calculator 12c calculates the PMV of the first space after a predetermined time as the comfort index. For this reason, the storage unit 13 stores in advance temperature and relative humidity change trend data for a combination of date and weather forecast. Then, the index calculation unit 12c measures the current temperature and relative humidity of the first space measured by the environmental sensor 30, the change tendency data stored in the storage unit 13, and the current acquired via the network 50 by a known method. Based on the date and weather forecast data, the temperature and relative humidity after a predetermined time are calculated as predicted values. Based on the temperature and relative humidity after the predetermined time, PMV is calculated in the same manner as in SD1. Similarly, the index calculation unit 12c calculates a comfort index for each second space after a predetermined time (SD2).

  Next, the index calculation unit 12c calculates the current energy saving index of the first space (SD3). Specifically, the index calculation unit 12c calculates the power consumption amount per one worker in the current first space as an energy saving index. For this reason, the index calculation unit 12c refers to the office worker location schedule information DB 13d and calculates the total number of office workers in the current first space. In addition, the index calculation unit 12c refers to the energy information DB 13g, and calculates the total of the current air conditioning power amount and illumination power amount in the first space. Then, by dividing the total of the air conditioning power amount and the lighting power amount by the total number of office workers, the power consumption amount per worker in the current first space is calculated. In this embodiment, since the index is calculated as an integer value from 0 to 10 as described above, the power consumption per worker is converted to an integer value from 0 to 10. For example, when the power consumption per worker is less than 0.1 kwh, the index = 10, and when the power consumption per worker is 0.1 kwh or more and less than 0.2 kwh, the index = 10. Conversion is performed based on a predetermined standard so that the energy saving index becomes larger as the amount of power consumption per worker is smaller, such as 9. Similarly, the index calculation unit 12c calculates the current energy saving index of each second space (SD3).

  Moreover, the index calculation unit 12c calculates the energy saving index of the first space after a predetermined time (SD4). Specifically, the index calculation unit 12c calculates the power consumption per one worker in the first space after a predetermined time as an energy saving index. For this reason, the index calculation unit 12c refers to the office worker schedule information DB 13d and calculates the total number of office workers in the first space after a predetermined time. In addition, the storage unit 13 stores in advance a change tendency of the air conditioning power amount and the lighting power amount of each space with respect to the combination of the date and the weather forecast for each total number of office workers. The index calculation unit 12c then calculates the total number of office workers in the first space after a predetermined time, the change tendency data stored in the storage unit 13, and the current acquired through the network 50 by a known method. Based on the date and weather forecast data, the air conditioning power amount and the lighting power amount of the first space after a predetermined time are calculated as predicted values. Based on the air-conditioning power and lighting power after the predetermined time and the total number of office workers in the first space after the predetermined time, the per-office worker in the first space after the predetermined time Calculate power consumption. Similarly, the index calculation unit 12c calculates an energy saving index for each second space after a predetermined time (SD4).

  Next, the index calculation unit 12c calculates the current business efficiency index of the first space (SD5). Specifically, in the storage unit 13, business efficiency indexes are stored in advance in correspondence with the age, sex, type of job, temperature, and relative humidity. And the index calculation part 12c respond | corresponds to these based on the temperature of the 1st space currently measured with the environmental sensor 30, and relative humidity which were acquired from the office worker basic information DB13a, and the occupation type, and these. Get business efficiency indicators. Here, conversion is performed so that the business efficiency index increases as the business efficiency increases. Similarly, the index calculation unit 12c calculates the current business efficiency index of each second space (SD5).

  In addition, the index calculation unit 12c calculates a work efficiency index of the first space after a predetermined time (SD6). Specifically, the storage unit 13 stores in advance data on the change tendency of the business efficiency index based on the age, sex, and type of job, temperature, and relative humidity. Then, the index calculation unit 12c is stored in the storage unit 13 with the age, sex, and job type acquired from the office worker basic information DB 13a, the current temperature and relative humidity of the first space measured by the environmental sensor 30, and the like. Based on the change tendency data and the current date and weather forecast data acquired via the network 50 by a known method, the work efficiency index of the first space after a predetermined time is specified. Similarly, the index calculation unit 12c calculates a work efficiency index of each second space after a predetermined time (SD6).

  Next, the index calculating unit 12c calculates the current first space preference index (SD7). Specifically, the index calculation unit 12c refers to the office worker preference information DB 13c, acquires the temperature, relative humidity, illuminance, and indoor / outdoor distinction preferred by each office worker, and refers to the basic space information DB 13b. Then, the distinction between the indoor and outdoor areas of the first space is acquired. Further, the index calculation unit 12c acquires the current temperature, relative humidity, and illuminance of the first space measured by the environment sensor 30. Then, the index calculation unit 12c includes the temperature, relative humidity, illuminance, and indoor / outdoor distinction preferred by each worker, and the acquired first space temperature, relative humidity, illuminance, and indoor / outdoor distinction. The degree of coincidence is calculated, and a preference index is calculated based on the degree of coincidence. For example, regarding the temperature, relative humidity, or illuminance, if the preference of each worker and the value measured by the environmental sensor 30 are completely the same, the degree of coincidence is set to 10 and the difference between each worker is If the preference is within 5%, the degree of coincidence is set to 9, and thereafter, the degree of coincidence is calculated to decrease as the difference increases. Further, regarding the distinction between indoor and outdoor, the degree of coincidence is set to 10 when the preference of each worker and the attribute of the first space match, and is set to = 5 when they do not match. As described above, the preference index is increased as the environment of the first space matches the preference of the office worker. Then, an average value of the degree of coincidence between the temperature, the relative humidity, the illuminance, and the distinction between indoor and outdoor is calculated, and the average value is set as a final preference index. Similarly, the index calculation unit 12c calculates the current preference index of each second space (SD7).

  In addition, the index calculation unit 12c calculates a preference index of the first space after a predetermined time (SD8). Specifically, the storage unit 13 stores in advance a change tendency of the temperature, relative humidity, and illuminance of each space with respect to the combination of the date and time and the weather forecast. Then, the index calculation unit 12c transmits the current temperature, relative humidity, and illuminance of the first space measured by the environment sensor 30, the change tendency data stored in the storage unit 13, and the network 50 using a known method. Based on the acquired current date and weather forecast data, the temperature, relative humidity, and illuminance of the first space after a predetermined time are calculated as predicted values. Then, the temperature, relative humidity, and illuminance of the first space after the predetermined time, the temperature, relative humidity, illuminance, and the distinction between the room and the outdoor that each office worker obtains from the office worker preference information DB 13c, and the basic space Based on the distinction between the indoor and outdoor areas of the first space acquired from the information DB 13b, the current preference index of the first space is calculated in the same manner as in SD7. Similarly, the index calculation unit 12c calculates a preference index for each second space after a predetermined time (SD8).

  Next, the index calculation unit 12c determines the current first space based on the comfort index, the energy saving index, the work efficiency index, the preference index, and the predetermined weighting coefficient calculated so far for the current first space. Is calculated (SD9). Specifically, the index calculation unit 12c acquires weighting coefficient information from the weighting coefficient information DB, multiplies each current index by a weighting coefficient corresponding to each current index, and totals the multiplication results. Therefore, the action call index is calculated. For example, in the case of the example in FIG. 9, regarding the current first space, when the comfort index = 5, the energy saving index = 9, the work efficiency index = 6, and the preference index = 7, an action call for the current first space Index = 5 × 0.2 + 9 × 0.5 + 6 × 0.4 + 7 × 0.1 = 8.6. Similarly, the index calculation unit 12c, for the first space after a predetermined time, based on the comfort index, energy saving index, work efficiency index, and preference index calculated so far, and a predetermined weighting factor, The action call index of the first space after a predetermined time is calculated (SD9). Similarly, for each second space, the index calculation unit 12c calculates an action inducing index for the current second space and an action inducing index for the second space after a predetermined time (SD10). This completes the index calculation process, and returns to the action calling process of FIG.

(Processing-second space selection processing)
Next, in the action invocation process of FIG. 11, the control unit 12 activates the second space selection process by the second space selection unit 12d based on the action invocation index calculated by the index calculation process (SA5). In this process, roughly, the second space for instructing the worker to move is selected based on the action call index calculated by the index calculation process. The selection of the second space is performed for each of all the workers finally selected by the worker selection unit 12a. As the second space, the current second space and the second space after a predetermined time are selected.

  FIG. 15 is a flowchart of the second space selection process. The second space selection unit 12d subtracts the current action alert index of the first space from the current action alert index of the second space calculated by the index calculating process (SE1), and the subtraction result is negative. If there is a space, the second space is excluded from the selection target candidates on the assumption that the office worker moving to the second space is negative from the viewpoint of the action inducing index (SE2). Next, the second space in which the subtraction result is positive is sorted in descending order of the subtraction result, and a predetermined number (two in the present embodiment) of the second space is finally given to the office worker from the top after the sorting. It is determined as the current second space for invoking action (SE3). If there is no second space in which the subtraction result is positive, the second space selection process and the action prompting process are terminated on the assumption that there is no second space capable of calling the worker. In addition, if the second space where the subtraction result is positive is less than the predetermined number, all of the second spaces where the subtraction result is positive is finally determined as the second space to call the office worker. To do.

  Similarly, the second space selection unit 12d subtracts the action alert index of the first space after a predetermined time from the action alert index of the second space after the predetermined time calculated by the index calculation process (SE4), Based on the subtraction result, the second space in which the subtraction result is negative is excluded from the selection target candidates (SE5). Next, the second space in which the subtraction result is positive is sorted in descending order of the subtraction result, and a predetermined number (two in the present embodiment) of the second space is finally given to the office worker from the top after the sorting. It is determined as a second space after a predetermined time for invoking action (SE6). This completes the second space selection process, and returns to the action arousing process of FIG.

(Processing-Action call output processing)
Next, in the action calling process of FIG. 11, the control unit 12 calls the action by the action calling output unit 12e based on the current second space selected by the second space selection process and the second space after a predetermined time. The output process is started (SA6). In this process, the worker is generally invited to move with respect to the current second space selected by the second space selection process and the second space after a predetermined time. This arousing is performed with respect to each of all office workers finally selected by the office worker selection unit 12a.

  FIG. 16 is a flowchart of action call output processing. The action call output unit 12e sets the space names of the current first space and the first space after a predetermined time, and the current second space and the second space after the predetermined time selected by the second space selection process. Acquired from the basic space information DB 13b (SF1), generates action call screen data in a predetermined format including the space name, and sends the generated action call screen data to the office terminal 20 of each office worker via the network 50. (SF2). As a result, an action call screen is displayed on the monitor of the office terminal 20. FIG. 17 shows a display example of the action call screen 21. The action call screen 21 includes an information display area 21a related to the current action call, a space name of the current first space, an action call index of the current first space, a space number of the current second space of a predetermined number, In addition, a predetermined number of current action indicators for the second space are displayed. In addition, the action call screen includes an information display area 21b regarding action call after a predetermined time, a space name of the first space after a predetermined time, an action call indicator of the first space after a predetermined time, and a predetermined number of predetermined times. The space name of the subsequent second space and the action arousal index of the second space after a predetermined number of predetermined times are displayed. Therefore, by referring to these pieces of information, each worker can easily and accurately grasp the second space to be moved now and the second space to be moved after a predetermined time, and then move into the second space. Can move.

  In addition, as shown in FIG. 16, the action awakening output unit 12e activates the environment control device 40 in the current first space so as to prompt the office worker to move from the current first space to the current second space. Control (SF3). Specifically, the action call output unit 12e acquires the environment control device ID corresponding to the current space ID of the first space from the space basic information DB 13b, and the acquired environment control device ID and each environment control device 40 A control signal including control information indicating control content is generated, and the generated control signal is transmitted to the environment control device 40 via the network 50. When each environment control device 40 receives a control signal via the network 50, the environment control device 40 determines whether or not the environment control device ID included in the control signal matches the environment control device ID registered in advance in itself. If they match, the operation is performed based on the control information included in the control signal.

  When performing this environmental control, the action call output unit 12e performs control so that the worker is naturally directed from the current first space to the current second space. Specifically, at least one of the current temperature, relative humidity, and illuminance of the first space is controlled to a value that matches the preference of the worker as the current second space is approached. For this reason, the action awakening output unit 12e acquires the preferred temperature, relative humidity, and illuminance of the worker from the worker preference information DB 13c, and among the environmental control devices 40 arranged in the current first space, The environmental control device 40 arranged at a position closest to the current second space is controlled so as to have the acquired temperature, relative humidity, and illuminance. In addition, among the environmental control devices 40 arranged in the current first space, the environmental control device 40 arranged in the second position from the position closest to the current second space, the acquired temperature, The relative humidity and the illuminance are controlled so as to be a temperature, a relative humidity, and an illuminance that are separated by a predetermined value. In the same manner, in the environment control device 40 arranged in the current first space, the preferred temperature and relative humidity of the office worker are such that the environmental control device 40 is arranged at a position farther from the position closest to the current second space. , And control to be in an environment away from illuminance. That is, control is performed such that at least one of temperature, humidity, and illuminance decreases or increases as the second space is approached. Furthermore, regarding the wind direction, the environment control device 40 is controlled so as to be directed from the current first space to the current second space. As a result, even if the information displayed on the action call screen in FIG. 17 is not viewed, it is possible to call the worker's action so that the worker naturally goes to the current second space. Become. This completes the action call output process and ends the action call process of FIG.

[Modifications to Embodiment]
Although the embodiments of the present invention have been described above, the specific configuration and means of the present invention can be arbitrarily modified and improved within the scope of the technical idea of each invention described in the claims. Can do. Hereinafter, such a modification will be described.

(About problems to be solved and effects of the invention)
First, the problems to be solved by the invention and the effects of the invention are not limited to the above-described contents, and the present invention solves the problems not described above or has the effects not described above. There are also cases where only some of the described problems are solved or only some of the described effects are achieved.

(About distribution and integration)
Further, each of the electrical components described above is functionally conceptual and does not necessarily need to be physically configured as illustrated. In other words, the specific form of distribution / integration of each part is not limited to the one shown in the figure, and all or a part thereof may be functionally or physically distributed / integrated in arbitrary units according to various loads and usage conditions. Can be configured. For example, the office work terminal 20 may have a part of the function of the action stimulating device 10 or the action stimulating device 10 may be configured by being distributed by a plurality of servers.

(About now and after a certain time)
Although the explanation has been made on the assumption that action is given to the current second space and the second space after a predetermined time, either one may be omitted or the second space after the predetermined time is one hour later The second space and the second space after 2 hours may be used to call up actions to the second space after a plurality of different predetermined times.

(About action call indicators)
The action incentive index has been described as being calculated in combination from the four indicators of comfort index, energy saving index, work efficiency index, and preference index, but either index may be omitted or other indices may be included. It may be calculated. In addition, the action incentive index has been described as being calculated based on these four indices and the weighting coefficient. However, the maximum or minimum value of the four indices is used as the action inducing index, or the weighting coefficient is the target for each time. The target person or the like may be arbitrarily set according to the purpose of the person.

(About comfort index)
Although the comfort index has been described as being calculated using PMV, any other index such as PPD (Predicted Percentage of Dissatisfied) may be used. Even when PMV is used, when a large number of environmental sensors 30 can be installed, the PMV may be directly calculated based on values measured by the large number of environmental sensors 30. Or you may calculate based on the well-known alternative formula of PMV.

(About energy saving index)
The energy-saving index has been described as being calculated using the air-conditioning power and lighting power of the space, but the energy consumption in each space is estimated based on the temperature and illuminance of each space measured by the environmental sensor 30. Then, it may be calculated using the estimated energy consumption.

(About business efficiency indicators)
The business efficiency index was explained as being calculated using the age of the worker, etc., but even if the work efficiency index for each space is calculated by allowing the worker in each space to enter the current work efficiency numerically Good.

(About preference index)
Although the preference index has been described as being calculated using the temperature or the like preferred by each worker, each worker has previously stored a history of using each space in the storage unit 13 and is based on this history information. Then, the degree of preference of each office worker for each space may be calculated, and the preference index may be calculated based on the degree of preference.

(About environmental control equipment)
As the environmental control device, various devices other than the above-described devices can be used. For example, a blind, a ventilation fan, an odor emitting device, and the like can be used.
(Appendix)
The action stimulating device of Supplementary Note 1 urges a target person in a predetermined first space to move to at least one second space in a plurality of predetermined second spaces different from the first space. And an environment information acquisition unit that acquires environmental information of the second space, and the target person from the first space based on the environmental information acquired by the environment information acquisition unit. Based on the action incentive index calculating means for calculating the action incentive index indicating whether or not to move to the second space, and the action incentive index calculated by the action incentive index calculating means, Output processing means for performing an output in the first space for inducing movement from the first space to the second space.
The behavioral incentive device of appendix 2 is the behavioral alerting device according to appendix 1, wherein the behavioral index calculation means is a degree of comfort indicating the degree of comfort for the subject in the second space compared to the first space. An index is calculated, and the action inducing index is calculated based on the calculated comfort index.
The action incentive device in appendix 3 is the action invoking device according to appendix 1 or 2, wherein the action incentive index calculating means calculates an energy saving index indicating a degree of energy consumption in the second space compared to the first space. Then, the action incentive index is calculated based on the calculated energy saving index.
The action stimulating device according to appendix 4 is the action stimulating device according to any one of appendices 1 to 3, wherein the action stimulating index calculating means is a task efficiency of the target person in the second space compared to the first space. A business efficiency index indicating the degree of the above is calculated, and the action promotion index is calculated based on the calculated business efficiency index.
The action stimulating device according to appendix 5 is the behavior stimulating device according to any one of appendices 1 to 4, wherein the action stimulating index calculating means is configured to determine the preference of the subject in the second space compared to the first space. A preference index indicating the degree of match is calculated, and the action inducing index is calculated based on the calculated preference index.
The action stimulating device according to appendix 6 is the action stimulating device according to any one of appendices 1 to 5, wherein the action stimulating index calculating means is configured so that the target person moves from the current first space to the current second space. Calculate a call-to-action index that shows the suitability of moving.
The action invocation device according to appendix 7 is the action invocation device according to any one of appendices 1 to 6, wherein the action incentive index calculating means is configured such that the target person takes the predetermined time from the first space after a predetermined time from now. An action call index indicating whether or not to move to the second space later is calculated.
The action stimulating device of supplementary note 8 is the behavior stimulating device according to any one of supplementary notes 1 to 7, wherein the output processing means arouses movement to the second space with respect to the subject. Predetermined processing is performed on the environmental control means provided in the first space.
The action stimulating device according to appendix 9 is the action stimulating device according to appendix 8, wherein the output processing means is configured to decrease or increase at least one of temperature, humidity, and illuminance as the second space is approached. Then, a predetermined process for the environmental control means is performed.
(Additional effects)
According to the action incentive device described in Appendix 1, an action inducing index indicating whether or not the target person moves from the first space to the second space is calculated, and based on the action inducing index, Since the output for invoking the movement from the first space to the second space is performed in the first space, it is possible to alert the subject to move to the second space that is more suitable than the first space. For this reason, for example, without specifically controlling the environment of the first space or the second space according to the target person, the target person is moved according to the environment at that time in each space. It is possible to improve the intellectual productivity and the like by moving the target person to a suitable space while preventing the increase in energy consumption and improving the energy saving performance.
According to the action stimulating device described in appendix 2, the action stimulating index is calculated based on the comfort index indicating the degree of comfort for the target person in the second space compared to the first space. It is possible to urge the subject to move to the second space that is more comfortable for the subject.
According to the action inducing device described in Appendix 3, the action inducing index is calculated based on the energy saving index indicating the degree of energy consumption in the second space compared to the first space, and thus energy saving performance compared to the first space. The target person can be urged to move to the second space having a high height.
According to the action incentive device described in Appendix 4, the action incentive index is calculated based on the business efficiency index indicating the degree of the business efficiency of the target person in the second space compared to the first space. Compared to the second space with higher work efficiency, it is possible to alert the target person.
According to the action stimulating device described in appendix 5, since the action stimulating index is calculated based on the preference index indicating the degree of preference of the target person in the second space compared to the first space, In comparison, it is possible to urge the subject to move to the second space that matches the preference of the subject.
According to the action stimulating device described in appendix 6, since the action stimulating index indicating the suitability of the target person to move from the current first space to the current second space is calculated, compared to the current first space. It is possible to alert the subject to move to the present suitable second space.
According to the action stimulating device described in appendix 7, the action inducing index indicating whether or not the subject moves from the first space after the predetermined time to the second space after the predetermined time is calculated. The target person can be urged to move to the second space after a predetermined time that is more suitable than the first space.
According to the action stimulating device described in appendix 8, in order to urge the subject to move from the first space to the second space, a predetermined process is performed on the environmental control means provided in the first space. Through the environment of the first space, the movement of the subject person to the second space can be naturally aroused. In this case, the environment of the first space is controlled, but it is sufficient to perform control to such an extent that the target person's action can be triggered, so that the environment of the first space is suitable for the target person. Therefore, even in this case, it is possible to improve the energy saving performance as compared with the conventional case.
According to the action stimulating device described in attachment 9, the predetermined process for the environmental control unit is performed so that at least one of temperature, humidity, and illuminance decreases or increases as the second space is approached. Therefore, the movement of the subject to the second space can be naturally evoked through changes in temperature, humidity, or illuminance.

1 Office Building 2 Action Aware System 10 Action Aware Device 11 Input / Output IF
12 control part 12a office worker selection part 12b information acquisition part 12c index calculation part 12d second space selection part 12e action call output part 13 storage part 13a office worker basic information DB
13b Spatial basic information DB
13c Office worker preference information DB
13d Office worker schedule information DB
13e Device information DB
13f Environment information DB
13g Energy information DB
13h Weighting information DB
20 Office terminal 21 Action screen 21a, 21b Information display area 30 Environmental sensor 40 Environmental control device 50 Network

Claims (10)

An action inducing device for inviting a target person in a predetermined first space to move to at least one second space in a plurality of predetermined second spaces different from the first space. ,
Environmental information acquisition means for acquiring environmental information of the first space and environmental information of the second space;
Based on the environmental information of the first space acquired by the environmental information acquisition means , a first action call index indicating the validity of the subject being in the first space is calculated, and the environment Based on the environmental information of the second space acquired by the information acquisition unit, a behavioral index calculation unit that calculates a second behavioral index indicating the validity of the subject being in the second space When,
Based on a result of comparing the first action incentive index and the second action incentive index calculated by the action incentive index calculating means, the second person is moved from the first space to the second space. Output processing means for performing an output in the first space for inducing movement to the space;
An action arousing device comprising: The action call index calculation means calculates the first action call index specific to the target person, or the second action call index specific to the target person,
The action alerting device according to claim 1. The action arousal index calculating means calculates a comfort index indicating a degree of comfort for the target person in the second space compared with the first space, and the first index is calculated based on the calculated comfort index. Calculating an action call indicator or the second action call indicator,
The action alerting device according to claim 1 . The action inducing index calculating means calculates an energy saving index indicating a degree of energy consumption of the second space compared to the first space, and the first action inducing index or the first is based on the calculated energy saving index. Calculate the action call index of 2.
The action alerting device according to claim 1 or 3 . The action incentive index calculating means calculates a work efficiency index indicating the degree of work efficiency of the target person in the second space compared to the first space, and the first action based on the calculated work efficiency index Calculating the incentive index or the second action incentive index;
The action alerting device according to any one of claims 1 to 4. The action arousal index calculating means calculates a preference index indicating a degree of preference of the target person in the second space compared to the first space, and the first action arousal is based on the calculated preference index. Calculating the indicator or the second action call indicator,
The action alerting device according to any one of claims 1 to 5. The action inducing index calculating means calculates a first action inducing index indicating the validity of the subject being in the current first space, or that the subject is in the current second space. Calculating a second action call indicator indicating the validity of
The action alerting device according to any one of claims 1 to 6. The action call index calculation means calculates a first action call index indicating the validity of the subject being in the first space after a predetermined time from the present time, or the target person is a predetermined time after the current time. Calculating a second action call indicator indicating the validity of being in the second space;
The action alerting device according to any one of claims 1 to 7. The output processing means performs a predetermined process on the environment control means provided in the first space in order to urge the subject to move to the second space.
The action alerting device according to any one of claims 1 to 8 .   The output processing unit is at least one of temperature, humidity, and illuminance as the environmental control unit is located near the second space among the plurality of environmental control units provided in the first space. Performing predetermined processing on the environmental control means so that one of the two is reduced or increased;
The action alerting device according to claim 9.

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