JP2023094449A - Watching system - Google Patents

Abstract

To provide a watching system capable of issuing a warning about heat stroke at appropriate timing according to an attribute of a resident in a house.SOLUTION: A watching system comprises sensors 001a to 008a that acquire a temperature and humidity of each room, and a home server 200. The home server 200 acquires an attribute of a resident such as an age associated with each room, and determines whether or not there is a risk of heat stroke in each room based on an index obtained from the temperature and humidity of each room and a criteria corresponding to the resident attribute associated with each room.SELECTED DRAWING: Figure 1

Description

TECHNICAL FIELD The present invention relates to a watching system, and more particularly to heat stroke countermeasures in a house.

Heat stroke occurs when the body's temperature regulation function does not work well in an environment with high temperature and humidity, and heat builds up inside the body. Such heat stroke may occur even in a house. In this regard, in the heatstroke warning system for residents disclosed in Patent Document 1 below, when the detection result of the at-home detection means indicates that they are at home, the heat is detected based on the detection result of the temperature detection means in the room of the dwelling unit. A WBGT (Wet Bulb Globe Temperature), which is an index, is calculated, and when the WBGT remains equal to or higher than a threshold for a predetermined time, a message is sent to a home monitoring device or the like.

JP 2016-66198 A

However, residents of houses may include those who are particularly susceptible to heat stroke, such as small children and the elderly. A warning is desirable.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and an object thereof is to provide a monitoring system capable of issuing a heat stroke warning at an appropriate timing according to the attributes of a resident in a house. .

In order to solve the above-mentioned problems, the monitoring system according to the present invention includes index acquisition means for acquiring an index related to at least one of temperature and humidity in each of a plurality of rooms in a house; Resident attribute acquiring means for acquiring attributes; corresponding to the indicators related to the respective rooms acquired by the index acquiring means and the resident attributes associated with the rooms acquired by the resident attribute acquiring means; and determination means for determining whether there is a risk of heatstroke in the room based on the criteria.

Here, the resident attribute acquisition means may acquire a plurality of resident attributes associated with each of the rooms. The determination means selects an index related to each room acquired by the index acquisition means and a criterion corresponding to each of the plurality of resident attributes associated with the room acquired by the resident attribute acquisition means. Whether or not there is a risk of heatstroke in the room may be determined based on the strictest criteria.

Further, the determining means may determine that there is a risk of heatstroke when the index of each room obtained by the index obtaining means is equal to or greater than a threshold value and continues for a predetermined reference time. The reference corresponding to the resident attribute may indicate the predetermined reference time of length corresponding to the resident attribute.

Further, the apparatus may further include at-home person determining means for determining who is currently at home in the house among the residents of the house. The determination means corresponds to the index related to each room acquired by the index acquisition means, and the resident attribute associated with the room acquired by the resident attribute acquisition means and related to the resident. The presence or absence of the risk of heatstroke in the room may be determined based on the criteria.

Moreover, it may further include means for transmitting information indicating the risk of heat stroke in each room to a display device.

ADVANTAGE OF THE INVENTION According to this invention, the warning regarding a heat stroke can be issued at suitable timing according to the attribute of the resident in a house.

It is a system configuration diagram of a watching system according to an embodiment of the present invention. It is a figure which shows arrangement|positioning of the sensor in a house. It is a figure which shows an example of room information. It is a figure which shows an example of resident information. It is a figure which shows an example of reference|standard information. It is a flowchart which shows the process of a watching part.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, embodiments of the present invention will be described in detail based on the drawings.

FIG. 1 is a system configuration diagram of a watching system according to an embodiment of the present invention. Moreover, FIG. 2 is a figure which shows the floor plan example of the house to which the watching system which concerns on embodiment of this invention is applied. As shown in FIG. 2, environment sensors 001a to 008a are attached to rooms 001 to 008 in the house. The environmental sensors 001a-008a may be attached to the ceilings and walls of the rooms 001-008. In the example shown in the figure, the home server 200 is also installed in the room 004 which is the kitchen.

Home server 200 is a computer that includes a CPU, memory, display and I/O interfaces. The home server 200 is communicatively connected to a center server 202 outside the home via a communication network 201 such as the Internet. Each of the environmental sensors 001a to 008a incorporates a temperature sensor and a humidity sensor, and periodically transmits temperature and humidity data to the home server 200 through an unillustrated home wiring, for example, sequentially every 30 seconds. there is

A camera 100 capable of capturing moving images is installed at the entrance of the house, and captures the faces of residents entering and exiting the house. The moving image data generated by the camera 100 or the still image data representing the face of the resident extracted from the moving image data is transmitted to the home server 200 via an in-home wiring (not shown). A speaker 101 is also installed in the house, and the speaker 101 is also connected to the home server 200 via an in-home wiring (not shown). Sound transmitted from the home server 200 is output from the speaker 101 . In this embodiment, a warning sound or warning voice is output from the speaker 101 when there is a risk of heat stroke.

By executing the computer program according to the present embodiment, the home server 200 functionally functions as a watching unit 200a, a WBGT storage unit 200b, a room information storage unit 200c, a resident information storage unit 200d, a reference storage unit 200e, and home determination. 200f.

The room information storage unit 200c stores information (room information) about each of the rooms 001 to 008. FIG. 3 is a diagram showing an example of room information stored in the room information storage unit 200c. As shown in the figure, the room information storage unit 200c stores identification information (ID) of each room, the type of the room (for example, private room, kitchen, bath, dressing room, or living room), and The identification information (resident ID) of one or more residents, which is often the case, is associated and stored as room information.

The resident information storage unit 200d stores information (resident information) on each resident of the house. FIG. 4 is a diagram showing an example of resident information stored in the resident information storage unit 200d. As shown in the figure, the resident information storage unit 200d stores the resident ID of each resident, the attribute of the resident (here, age), and a flag indicating whether or not the resident is in the house. (at home flag) are associated with each other and stored as resident information.

The criterion storage unit 200e stores criteria for determining heat stroke risk corresponding to resident attributes (age). FIG. 5 is a diagram showing an example of reference information stored in the reference storage unit 200e. As shown in the figure, the reference storage unit 200e stores reference times as reference information indicating criteria for determining the risk of heatstroke in association with ranges of resident attributes. That is, the watching unit 200a determines that there is a risk of heatstroke when the WBGT is equal to or greater than a threshold value (for example, 25) for a reference time or longer. This reference time differs for each resident attribute (age). For example, as shown in FIG. 5, the reference time is 2 minutes if the age is 0 to 12 years old, the reference time is 10 minutes if the age is 13 to 55 years old, and the age is 56 to 65 years old. If so, the reference time is 5 minutes, and if the age is 66 or more, the reference time is 2 minutes. That is, the reference time is set shorter especially for the elderly and infants, and it is determined that there is a risk of heat stroke at an earlier timing.

Based on moving image data transmitted from the entrance camera 100 or still image data sequentially transmitted, the home determination unit 200f identifies a resident who is currently in the house. For example, a machine learning model determines who the face of the resident who entered through the front door is, and similarly determines who the face of the resident who leaves the front door is. The judgment result is stored as an at-home flag in the resident information storage unit 200 . That is, if it is determined that a certain resident has entered through the front door, the stay-at-home flag associated with the resident ID of the same resident is changed from 0 to 1. Also, if it is determined that a certain resident has left the front door, the stay-at-home flag associated with the resident ID of the same resident is changed from 1 to 0. Note that the at-home determining unit 200f may identify the resident who is currently in the house by another method. For example, each resident may carry an RFID tag, and the ID stored in the RFID tag may be read by an RFID reader installed at the entrance. Residents entering and exiting the front door can also be identified in this manner.

FIG. 6 is a flowchart showing the processing of the watching unit 200a. The processing shown in the figure is executed at predetermined time intervals. As shown in the figure, the monitoring unit 200a first sequentially acquires indices relating to at least one of temperature and humidity for each of the rooms 001 to 008 (S101). For example, the monitoring unit 200a may hold a table describing the relationship between temperature, humidity, and WBGT, and from the table, the WBGT values corresponding to the temperature and humidity sequentially transmitted from the sensors 001a to 008a are sequentially used as the index. may be obtained. Alternatively, a simple index related to the risk of heat stroke may be calculated from only the temperature. The watching unit 200a stores the calculated WBGT of each room in the WBGT storage unit 200b (S102).

Next, the watching unit 200a acquires a reference time corresponding to each room (S103). Specifically, the room information storage unit 200c is accessed and the resident ID associated with each room is read. Further, the resident information storage unit 200d is accessed to read the resident attributes associated with each of the resident IDs read out from the room information storage unit 200c. At this time, only the resident attributes associated with the resident ID whose home flag is 1 may be read. Then, the risk of heatstroke can be determined based only on those who are currently in the house.

The watching unit 200a then accesses the reference storage unit 200e and reads the reference time corresponding to the resident attribute read from the resident information storage unit 200d. Thus, one or more reference times corresponding to each room are obtained.

Next, the watching unit 200a selects the shortest reference time from among the reference times acquired in S103 for each room (S104). That is, if multiple resident IDs are associated with one room in the room information, multiple reference times corresponding to the room can be obtained. In this case, the strictest criterion, ie the shortest reference time, is chosen as the criterion for the room.

Thereafter, the watching unit 200a determines whether or not there is a risk of heat stroke in each room based on the time series of WBGT for each room stored in the WBGT storage unit 200b (S105). Specifically, the presence or absence of a room whose WBGT value is greater than or equal to the threshold for the reference time selected in S104 is checked.

The watching unit 200a outputs a warning sound or a warning voice from the speaker 101 if such a room exists. At this time, a message indicating the risk of heat stroke or other information indicating the risk of heat stroke may be transmitted to the center server 202 installed at a remote medical center or the like. Alternatively, a similar message or other information indicating the risk of heat stroke may be transmitted to a display device such as a smart phone of a cohabitant (not shown). In this case, the information to be transmitted may include information on the room in which the risk of heat stroke has occurred, and information on the resident associated with the room in the room information. The transmitted information may selectively include, as occupant information, only those occupants associated with the room with the shortest corresponding reference time.

According to the monitoring system described above, the room information storage unit 200c, the resident information storage unit 200d, and the reference storage unit 200e are provided, and based on the age of the resident who is or is often in each room, Since it is possible to determine whether or not there is a risk of heat stroke in each room, a warning regarding heat stroke can be issued at an appropriate timing.

The present invention is not limited to the above embodiments, and various modifications are possible. For example, although age was adopted as a resident attribute in the above description, other attributes of each resident that can affect heat stroke risk may be adopted. For example, body weight or degree of obesity may be used.

001a to 008a environment sensor, 100 entrance camera, 101 speaker, 200 home server, 200a watching unit, 200b WBGT storage unit, 200c room information storage unit, 200d resident information storage unit, 200e reference storage unit, 200f home determination unit, 201 communication network, 202 center server;

Claims (5)

index acquisition means for acquiring an index relating to at least one of temperature and humidity in each of a plurality of rooms in the house;
a resident attribute acquiring means for acquiring a resident attribute associated with each room;
Based on the index related to each room acquired by the index acquisition means and the criteria corresponding to the resident attributes associated with the room acquired by the resident attribute acquisition means, a determination means for determining the presence or absence of a risk of heat stroke;
Monitoring system including In the watching system according to claim 1,
The resident attribute acquisition means acquires a plurality of the resident attributes associated with each of the rooms,
The determination means selects an index related to each room acquired by the index acquisition means and a criterion corresponding to each of the plurality of resident attributes associated with the room acquired by the resident attribute acquisition means. Determine whether there is a risk of heat stroke in the room based on the strictest criteria,
monitoring system. In the watching system according to claim 1 or 2,
The determination means determines that there is a risk of heatstroke when the index for each room acquired by the index acquisition means is equal to or greater than a threshold value and continues for a predetermined reference time,
the reference corresponding to the resident attribute indicates the predetermined reference time of length corresponding to the resident attribute;
monitoring system. In the watching system according to any one of claims 1 to 3,
Further comprising a home person determination means for determining a home person who is currently in the house among the residents of the house,
The determination means corresponds to the index related to each room acquired by the index acquisition means, and the resident attribute associated with the room acquired by the resident attribute acquisition means and related to the resident. Based on the criteria and, to determine the presence or absence of the risk of heat stroke in the room,
monitoring system. In the watching system according to any one of claims 1 to 4,
Further comprising means for transmitting information indicating the heat stroke risk in each room to a display device,
monitoring system.

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