WO2023127169A1 - Surveillance system and surveillance program - Google Patents

Abstract

The present invention provides a surveillance system and a surveillance program with which suitable monitoring can be achieved. Provided is a monitoring band surveillance system comprising a monitoring band 1, a smartphone 2, and a server 3, wherein, on the condition that interconnection between the monitoring band 1 and the smartphone 2 becomes unavailable, a withdrawal signal is transmitted from the smartphone 2 to the server 3 to indicate that the monitoring band 1 has withdrawn from a connection area of the smartphone 2.

Description

Monitoring system and monitoring program

The present invention relates to a monitoring system and a monitoring program. More specifically, the present invention relates to a monitoring system and a monitoring program capable of realizing more suitable monitoring.

Mimamori Band can contribute to society by appropriately utilizing various information collected by Mimamori Band, such as avoiding lonely deaths of elderly people and ensuring safety by tracking the trajectory of wandering elderly people. can contribute.

Therefore, the inventor of the present invention has proposed a technique for realizing suitable monitoring of the monitoring band (see Patent Document 1).

Japanese Patent Application Laid-Open No. 2021-96828

By the way, there are various objects to be monitored by the monitoring band, and their situations are also various.

The present invention was devised in view of the above points, and aims to provide a monitoring system and a monitoring program that can realize more adequate and suitable watching over.

In order to achieve the above object, the monitoring system of the present invention is a monitoring system comprising predetermined equipment, a server, and a portable relay device for relaying communication between the equipment and the server. , the device has detection means for acquiring predetermined monitoring information from a monitoring target wearing the device, and monitoring information transmission means for transmitting the monitoring information acquired by the detection means to the relay device. , the relay device includes relay means for receiving transmission data from the equipment and the server and transmitting the data to the server and the equipment, respectively; Identifying the model of the device that has transmitted the monitoring information based on the device identifier in each, and identifying which monitoring information in the monitoring system the monitoring information received from the device corresponds to and identification means for identifying, based on a machine learning model, whether the device has left the connection area of the relay device on the condition that interconnection with the device has become impossible. to the server, and the server has control signal transmission means for transmitting a control signal for controlling the equipment to the equipment via the relay device.

Further, the monitoring system of the present invention includes a portable relay device that relays communication between a predetermined device and a server, and transmission data received by the relay device from the device is acquired from a monitored object wearing the device. and the transmission data received by the relay device from the server includes a control signal for controlling the equipment, wherein the relay device receives the transmission data from the equipment and the server and transmitting the monitoring information based on the relay means for transmitting to the server and the device, respectively, and the device identifier indicating the device, and the device identifier in each of the plurality of devices of different models. Identification means for identifying which model the device is, and identifying, based on a machine learning model, which monitoring information in the monitoring system the monitoring information received from the device corresponds to and, on the condition that interconnection with the device has become impossible, a leaving signal indicating that the device has left the connection area of the relay device can be transmitted to the server. there is

Further, in order to achieve the above object, the monitoring program of the present invention provides a portable information device that relays communication between a predetermined device and a server, and performs a A monitoring program for functioning as a relay device that receives transmission data including acquired predetermined monitoring information and receives transmission data including a control signal for controlling the device from the server, wherein the relay device is the device and relay means for receiving transmission data from the server and transmitting the data to the server and the device, respectively; A machine learning model that identifies the model of the device that has sent the monitoring information, and identifies which monitoring information in the monitoring system the monitoring information received from the device corresponds to. and, on the condition that interconnection with the device has become impossible, a leaving signal indicating that the device has left the connection area of the relay device is sent to the server. configured to be sent.

Here, by having the monitoring information transmission means in the device, the monitoring information acquired by the detection means can be transmitted to the relay device. Since the monitoring information transmitted to the relay device is transmitted to the server by the relay means described later, the monitoring information can be monitored by the server.

In addition, since the relay device is configured to be portable, compared to the case where the relay device is not portable (for example, when a beacon terminal is installed in a specific place), the area where communication between the device and the server can be relayed is reduced. is expanded, and the expansion of the area in which the monitoring information of the monitoring target can be monitored is realized.
In addition, as a "portable relay device", electronic devices, such as a smart phone, a tablet, and a laptop, are mentioned, for example.

In addition, since the relay device has relay means, it is possible to receive transmission data from the device and the server and transmit the data to the server and the device, respectively, thereby realizing exchange of information between the device and the server.

Although it is technically possible for a device and a server to exchange information directly without going through a relay device, if the relay device is not used, the role played by the relay device can be replaced by the device. will be responsible, making it difficult to reduce the size and weight of the equipment. Therefore, in the present invention, by adopting a configuration in which information is indirectly exchanged between the device and the server via a relay device, the size and weight of the device can be reduced.

Furthermore, by having the identification means in the relay device, based on the device identifier of each of a plurality of devices of different models, it is possible to identify the model of the device that has transmitted the monitoring information, and Based on the machine learning model, it is possible to identify which monitoring information in the monitoring system the obtained monitoring information corresponds to, and a highly versatile system is realized.
For example, even if the device worn by the monitored object (or worn by the monitored object) is replaced, the data is shaped according to the model worn by the monitored object (or worn by the monitored object). After that, it is possible to respond by transmitting the monitoring information to the server.

In addition, on the condition that the relay device becomes unable to interconnect with the device (interconnection between the relay device and the device), a leaving signal indicating that the device has left the connection area of the relay device is sent to the server. By being configured to be able to transmit, the server can grasp the situation where interconnection between the relay device and the equipment is disabled (state of non-monitoring).

Further, since the server has the control signal transmission means, the control signal for controlling the equipment can be transmitted to the equipment via the relay device, and the equipment can be controlled from the server according to the monitoring contents of the monitored object. can be done.

In addition, if the leaving signal includes the location information of the relay device when interconnection (interconnection between the relay device and the device) becomes impossible, the location of the relay device when the device cannot be monitored Location information can be grasped by the server.

Furthermore, if the disconnection signal includes the location information of the device held by the relay device when interconnection (interconnection between the relay device and the device) becomes impossible, the device cannot be monitored. When this happens, the server can grasp the position information of the device held by the relay device.

In addition, when there is a high probability that interconnection (interconnection between the relay device and equipment) will not be possible for the relay device, in other words, when there is a high probability that the equipment will leave the connection area of the relay device, interconnection will not be possible. In the case where a warning signal indicating the possibility of being disabled can be transmitted to the device, it is possible to call attention to the monitored object wearing the device.

Similarly, when there is a high probability that interconnection (interconnection between the relay device and equipment) will not be possible for the relay device, in other words, when there is a high probability that the equipment will leave the connection area of the relay device, interconnection If the server is configured to be able to send a warning signal indicating the possibility that the monitoring is impossible, the server can grasp the situation that the monitored object wearing the device may leave.

In addition, if the server is configured to display on the management screen that interconnection (interconnection between the relay device and the device) is impossible on the condition that the server receives a leaving signal, the device will be monitored. The impossibility can be visually grasped through the management screen.

Furthermore, on the condition that interconnection (interconnection between the relay device and the device) becomes possible after the server receives the leaving signal, it is configured to be able to display on the management screen that the interconnection has resumed. If so, it is possible to visually recognize through the management screen that the monitoring of the device has resumed (changed from an unmonitoring state to a monitoring possible state).

In addition, on the condition that the location information of the relay device associated with the monitoring target is outside the monitoring area set corresponding to the monitoring target, the server displays on the management screen that it is outside the monitoring area. If it is configured to be displayable, it is possible to visually grasp through the management screen that the relay device has reached the outside of the monitoring area.

Furthermore, the server determines that the location information of the relay device associated with the monitoring target is inside the monitoring area set for the monitoring target (changed from outside to inside the monitoring area). can be displayed on the management screen, it is possible to visually grasp that the relay device has returned to the inside of the monitoring area through the management screen.

In addition, on the condition that the location information of the device associated with the monitoring target is outside the monitoring area set corresponding to the monitoring target, the server displays on the management screen that it is outside the monitoring area. If it is configured to be possible, it is possible to visually grasp through the management screen that the device has reached the outside of the monitoring area.

Further, the server confirms that the position information of the device associated with the monitoring target has become inside the monitoring area set corresponding to the monitoring target (changed from outside to inside the monitoring area). If it is configured to be displayable on the management screen, it is possible to visually grasp through the management screen that the device has returned to the inside of the monitoring area.

By the way, the "equipment (predetermined equipment)" here means any device as long as it can be worn by the monitored object (person) or can be worn by the monitored object (object). Also good. For example, there is a wearable device (a computer device worn on a wrist or a leg) such as a monitoring band attached to the wrist of a monitored object (person).

Also, the "monitoring target" here is not limited to humans, but may be animals such as dogs and cats, or may be objects such as drones.

Furthermore, the “monitoring information” here includes vital data (eg, body temperature data, sleep data, pulse data, blood pressure data, blood oxygen data, electrocardiogram data, etc.) obtained from the monitored object (person), Data acquired from (things) (for example, information on the remaining battery level, information on whether various parts are operating normally, etc.) can be mentioned.

With the monitoring system and monitoring program of the present invention, it is possible to realize more suitable monitoring.

1 is a schematic diagram (1) for explaining a monitoring band monitoring system X; FIG. 2 is a schematic diagram (2) for explaining the monitoring band monitoring system X. FIG. It is a diagram (1) for explaining how to use the monitoring band monitoring system X. FIG. It is a diagram (2) for explaining how to use the monitoring band monitoring system X. FIG. It is a diagram (3) for explaining how to use the monitoring band monitoring system X. FIG. 4 is a diagram (4) for explaining how to use the monitoring band monitoring system X. FIG. It is a figure (5) explaining the usage method of the monitoring band monitoring system X. FIG. 6 is a diagram (6) for explaining how to use the monitoring band monitoring system X. FIG. 7 is a diagram (7) for explaining how to use the monitoring band monitoring system X. FIG. 8 is a diagram (8) for explaining how to use the monitoring band monitoring system X. FIG. It is a figure (9) explaining the usage method of the monitoring band monitoring system X. FIG. It is a figure (10) explaining the usage method of the monitoring band monitoring system X. FIG. 11 is a diagram (11) for explaining how to use the monitoring band monitoring system X. FIG. It is a diagram (12) explaining how to use the monitoring band monitoring system X. FIG. 13 is a diagram (13) for explaining how to use the monitoring band monitoring system X. FIG. 13 is a diagram (13) for explaining how to use the monitoring band monitoring system X. FIG. FIG. 2 is a schematic diagram for explaining a monitoring band monitoring system Y;

Hereinafter, a form for carrying out the present invention (hereinafter referred to as "embodiment") will be described. The description will be given in the following order.
1. First Embodiment 2. Second Embodiment 3. Modification

In addition, in the present embodiment, a case where a person who is a monitoring target (watching target) (referred to as a “watching target person”) wears a monitoring band (an example of a predetermined device) will be described as an example. . Also, a person who watches over a person to be watched over is referred to as a "watcher".

<1. First Embodiment>
[Description of system configuration]
FIG. 1 is a schematic diagram for explaining a monitoring band monitoring system X, which is an example of the configuration of the monitoring system of the present invention. The monitoring band monitoring system X shown in FIG. 1c, 1d), smartphones 2 (2a, 2b, 2c, 2d) as relay devices, and a server 3.

In the present embodiment, by installing the "monitoring program" of the present invention in a smartphone (which is an example of a portable relay device), it functions as a relay device (in the present embodiment, a "smartphone ” means a smartphone with relay device functionality).

Further, in the present embodiment, the watching band worn by the watching target person is associated with the watching target person's own smartphone.
Specifically, the "watching band 1a" worn by the watching target person A (not shown) is associated with the "smartphone 2a" owned by the watching target person A, and the "watching band 1a" worn by the watching target person B (not shown) The "watching band 1b" is associated with the "smartphone 2b" owned by the watching target person B, and the "watching band 1c" worn by the watching target person C (not shown) is associated with the "smartphone 2c" owned by the watching target person C. The "watching band 1d" worn by the person D (not shown) is associated with the "smartphone 2d" possessed by the watching target person D.

Then, the monitoring band exchanges information with the server 3 via the associated smartphone.
Specifically, "watching band 1a" via "smartphone 2a", "watching band 1b" via "smartphone 2b", "watching band 1c" via "smartphone 2c", "watching band 1d" exchanges information with the server 3 via the "smartphone 2d".
In the present embodiment, a case in which one monitoring band and one smartphone are associated is described as an example, but two or more monitoring bands may be associated with one smartphone.

"Watching Band 1a", "Watching Band 1b", "Watching Band 1c", and "Watching Band 1d" are hereinafter collectively referred to as "Watching Band 1". Similarly, "smartphone 2a", "smartphone 2b", "smartphone 2c", and "smartphone 2d" are collectively referred to as "smartphone 2".

Here, the monitoring band 1 is configured to be interconnectable with the smartphone 2 via a wireless network. Also, the smartphone 2 is configured to be able to access the server 3 via the Internet 4 (wireless).

It should be noted that the "wireless network" is sufficient if the monitoring band 1 and the smartphone 2 can be wirelessly connected, and is not particularly limited to, for example, Bluetooth (registered trademark) or LoRaWAN (registered trademark).

In addition, the monitoring band 1 has "monitoring information detection means 11" and "monitoring information transmission means 12" (see FIG. 2).

Here, the monitoring information detection means 11 is configured to be able to acquire the vital data of the person being monitored wearing the monitoring band 1 .

The “vital data” is data indicating vital signs of the person being watched over, and examples thereof include body temperature data, sleep data, pulse data, blood pressure data, blood oxygen data, electrocardiogram data, and the like.
Furthermore, numerical values acquired as vital data include the lowest value, the highest value, the mode value, the average value, the deviation value, the binary value, and the like during a predetermined period.

In addition, the monitoring information transmission means 12 is configured to be able to transmit the "vital data" acquired by the monitoring information detection means 11 and the "remaining battery data of the monitoring band 1" to the smartphone 2.

Next, the smartphone 2 has "location information detection means 21", "relay means 22", and "identification means 23" (see FIG. 2).

Here, the position information detection means 21 is configured to be able to acquire the position coordinates of the smartphone 2.

The “positional coordinates” are typically acquired by positioning using GPS satellites. Estimate the number of steps, stride length, and direction of movement of the person who is watching over the person), and cumulatively estimate and calculate the location information of the person being watched over from the coordinates that serve as the starting point (the point where radio waves from GPS satellites no longer reach). good.

In addition, the relay means 22 can receive transmission data from the monitoring band 1 (specifically, data transmitted by the monitoring information transmission means 12), shape the data based on a predetermined data format, and transmit the data to the server 3. is configured to
It should be noted that the data shaping here uses a known or commonly used method, and there is no restriction on the aspect of the data format.

That is, the relay means 22 transmits data ("vital data" and "remaining battery level data of the monitoring band 1") from the monitoring band 1, and the position coordinates (the position coordinates of the smartphone 2) acquired by the position information detection means 21. , and the remaining battery level data of the smart phone 2 are also transmitted to the server 3 .

In addition, the relay means 22 may transmit other data of the person being watched over to the server 3 (for example, step count data, band attachment/detachment determination data, calorie consumption data, fall determination data, etc.).
"Step count data", "band attachment/detachment determination data", and "calorie consumption data" can be calculated based on vital data. By measuring changes in body position and movement, it is possible to determine the presence or absence of a fall or a fall.

Further, the relay means 22 receives transmission data from the server 3 (specifically, data transmitted by the warning means 33 and the control signal transmission means 34, which will be described later), performs data shaping based on a predetermined data format, It is configured to be able to transmit to the watching band 1.
It should be noted that the data shaping here also uses a known or commonly used method, and there is no limit to the aspect of the data format. It is determined according to the hardware configuration and program configuration of the watching band 1 .

In addition, when there is a high probability that the interconnection between the monitoring band 1 and the smartphone 2 becomes impossible (for example, when the signal from the monitoring band 1 obtained via the wireless network becomes weak), the relay means 22 The monitoring band 1 and the smart phone 2 are configured to be capable of transmitting a warning signal indicating the possibility that mutual connection between the monitoring band 1 and the smartphone 2 will be disabled to the monitoring band 1 and the server 3 .
Note that the caution signal also includes location data when issuing the caution signal.
In addition, the watching band 1 that has received the caution signal performs a predetermined caution action (such as emitting a caution sound and vibrating).

Further, the relay means 22 is configured to prevent the monitoring band 1 and the smartphone 2 from being connected to each other (for example, when the monitoring band 1 and the smartphone 2 are separated from each other to such an extent that they cannot be connected via a wireless network). It is configured to be able to transmit a leaving signal to the server 3, which means that the band 1 has become unwatchable.
Note that the leaving signal also includes location data when mutual connection between the monitoring band 1 and the smartphone 2 becomes impossible.

In addition, the relay means 22 is configured to be able to transmit an "SOS signal" to the server 3 based on the intended input of the person being watched over.

In addition, the identifying means 23 identifies the model of the monitoring band 1 that transmitted the "vital data" based on the band identifier (not shown) indicating the monitoring band 1.

Furthermore, the identification means 23 identifies which data in the monitoring system X the "vital data" transmitted by the monitoring band 1 corresponds to, based on a machine learning model.

Here, the training data for machine learning is a combination of model information included in the band identifier of the monitoring band 1 and "vital data".
The input data in the machine learning is "vital data", and the output data is "model information (information indicating which model of the monitoring band 1 the corresponding monitoring band 1 is known or commonly used)". is.

Next, the server 3 is connected to the monitor 5 and has "management means 31", "display means 32", "warning means 33" and "control signal transmission means 34" (see FIG. 2).

Here, the management means 31 associates a watching target identifier (not shown) indicating a watching target person with a band identifier (not shown), Monitoring data is determined based on the amount data, the location data, and the remaining battery level data of the smart phone 2 .

In addition, the management means 31 determines the "watching area" corresponding to the band identifier.

The "monitoring area" may refer to a predetermined area such as a municipality, or may refer to a concentric range centered on a predetermined position coordinate. Also, the watching area may refer to a predetermined area such as a plurality of municipalities.

In addition, the management means 31 determines the "normal vital range" corresponding to the band identifier.

It should be noted that the "normal range of vitals" is determined by the management means 31 based on the intention input of the person being watched over. Such a "normal vital range" is individually determined for each of the watching target identifiers.

Also, the display means 32 outputs a signal (display signal) for displaying the management screen corresponding to the band identifier on the monitor 5 based on at least part of the monitoring data.

In addition, based on at least part of the monitoring data, the warning means 33 cooperates with the watching band 1 to perform alerting for the person being watched over in order to call attention to an abnormality related to the person being watched over.

Further, the warning means 33 cooperates with the display means 32 to perform alerting for the watcher on the management screen to call attention to an abnormality regarding the person being watched over, based on at least part of the monitoring data.

"Alerting" refers to notification based on a known or commonly used output device possessed by the monitoring band 1, smartphone 2, or server 3 (computer device). Such notifications include visual, auditory and tactile representations.

The alerting performed by the warning means 33 will be described below.

(1. Alerting based on SOS signal)
The warning unit 33 performs alerting for the watcher on condition that an SOS signal is received from the smartphone 2 .
Specifically, the reception of the SOS signal is displayed on the management screen to alert the watcher.

(2. Alerting based on location data)
Also, the warning means 33 performs alerting for the watcher on condition that the location data indicates the outer area of the watching area.

Further, the warning means 33 may replace the location data indicating the outer area of the watching area or in addition to the location data indicating the outer area of the watching area, and the location data may be located within the predetermined area. Alerting to the watcher may be performed on condition that the watcher is doing so.

Note that "indicating an outer area" means that (1) at least part of the position coordinates deviates from the watching area, and (2) at least part of the position coordinates is outside the watching area for a predetermined period of time. It means deviating.

(3. Alerting based on vital data)
The warning means 33 also alerts the person being watched over on condition that the vital data deviates from the vital vital range.
Specifically, in order to inform the monitoring subject that the vital data deviates from the normal range, a message (SMS, e-mail, etc.) is sent to the smartphone 2, and the monitoring is performed via the smartphone 2. Send a vibration command signal to band 1. In addition, the watching band 1 that has received the vibration command signal performs a predetermined vibrating operation.
In addition, the message notifying that the vital data deviates from the normal range can be sent not only to the person being watched over, but also to the registered registrant (for example, the family members).

Moreover, the warning means 33 performs alerting for the watcher on condition that the vital data deviates from the vital vital range.
Specifically, it displays on the management screen that the vital data of the person being watched over is out of the normal range, alerting the person watching.

Note that if the vital data of the person being watched over does not deviate from the normal range after the warning means 33 has issued an alert to the person watching over, the display means 32 displays the message "Vital data is out of the normal range" on the management screen. It outputs a signal (display signal) for displaying on the monitor 5 so that it can be seen that the deviation occurred.

(4. Alerting based on caution signals)
Furthermore, the warning unit 33 performs alerting for the watcher on condition that a caution signal is received from the smartphone 2 .
Specifically, it displays on the management screen that there is a high probability that the mutual connection between the watch band 1 and the smartphone 2 will be disabled, and alerts the watcher. "Location data" is also displayed on the management screen.

Note that if the possibility of mutual connection becoming impossible is no longer high after the warning means 33 has performed the alerting for the watcher, the display means 32 displays on the management screen, "Condition of receiving a warning signal. It outputs a signal (display signal) for displaying on the monitor 5 so that it can be understood that the alerting has been performed.

(5. Alerting based on departure signal)
Also, the warning unit 33 performs alerting for the watcher on condition that a leaving signal is received from the smartphone 2 .
Specifically, mutual connection between the watching band 1 and the smartphone 2 is disabled, and the fact that the watching band 1 is disabled is displayed on the management screen to alert the watcher. "Location data" is also displayed on the management screen.

In addition, when the mutual connection becomes possible after the alerting for the watcher by the warning means 33, the display means 32 displays on the management screen, "Alerting on the condition that the leaving signal has been received. A signal (display signal) for displaying on the monitor 5 so that the user can understand that the

(6. Alerting based on remaining battery data)
In addition, the warning unit 33 performs alerting for the watching target on condition that the remaining battery level of the smartphone 2 is equal to or less than a predetermined reference value.
Specifically, a message (such as SMS or e-mail) is sent to the smartphone 2 in order to inform the monitoring target that the remaining battery level is below the reference value, and the monitoring band is sent via the smartphone 2. 1 to send a vibration command signal. In addition, the watching band 1 that has received the vibration command signal performs a predetermined vibrating operation.

In addition, the warning unit 33 performs alerting for the watcher on condition that the remaining battery level of the smartphone 2 is equal to or less than a predetermined reference value.
Specifically, it displays on the management screen that the remaining battery level is below a reference value to alert the watcher.

In addition, the control signal transmission means 31 determines a control signal for controlling the monitoring band 1 based on the intentional input (intentional input of the watcher) via the management screen displayed on the monitor 5, and transmits the control signal to the smartphone 2. Send to Mimamori Band 1 via

[Description of how to use the system]
An example of how to use the monitoring band monitoring system X will be described below.
FIGS. 3-1 to 3-14 are diagrams for explaining how to use the monitoring band monitoring system X, and show display screens of the monitor 5. FIG.

First, the watcher who uses the watch band monitoring system X logs in. Specifically, login is performed by entering a login ID and password (see Figure 3-1).

The screen immediately after login is shown in FIG. A "search tool" is displayed in the indicated area (hereinafter referred to as "sub-screen").

Specifically, on the main screen, the information of "watching target person A" is displayed in the area indicated by symbol a, the information of "watching over person B" is displayed in the area indicated by symbol b, and the area indicated by symbol c. , the information of the "watching target person C" is displayed in the area indicated by the symbol d, and the information of the "watching over target person D" is displayed in the area indicated by the symbol d.

Also, by using the "search tool" on the sub-screen, users can be narrowed down with various conditions, and the results of the narrowed-down search will be displayed on the main screen.

As for the user's narrowed search, for example, if you click the "select area" button and select an area (for example, select "Fukuoka City"), the user information corresponding to the selected area will be displayed on the main screen. be.
Similarly, when a group is selected by clicking the "Specify Group" button (for example, selecting "Facilities for the Elderly A"), user information corresponding to the selected group is displayed on the main screen.
Likewise, when a person in charge is selected by clicking the "select person in charge" button (for example, selecting "Mimamori Taro"), the information of the user corresponding to the selected person in charge is displayed on the main screen.
Furthermore, similarly, clicking the "Specify battery level" button and selecting the remaining battery level (for example, selecting "0 to 25%") displays the user's information corresponding to the selected battery level on the main screen. be done.

As a narrowed search for other users, for example, if you check "monitoring target", "SOS", "alert", and "out of area", the information of the user corresponding to the checked item will be displayed on the main screen.

Furthermore, as a narrower search for other users, for example, if you enter "registration number", "MACADDRESS", "name (kanji)", and "name (furigana)", the information of the user corresponding to the input items will be displayed on the main screen. .

Also, in the initial screen, details are displayed on the "main screen" (see Fig. 3-2), but by clicking the "Simple" button on the upper right of the screen, a simple display can be made on the "main screen". becomes (see Figure 3-3).
By clicking the "details" button on the upper right of the screen while the "main screen" is displayed in simplified form, detailed display will be performed in the "main screen".

Next, when the buttons "select No. 92" to "select No. 95" among the user information displayed on the "main screen" are clicked, detailed information of the corresponding user information is displayed.
For example, if the "Select No. 92" button is clicked in the information of the person being watched over A, the "user information (detailed information of the person being watched over A)" is displayed on the "main screen", and " menu information” is displayed (see FIG. 3-4).

Here, as "user information", "photo information", "personal number of the monitoring band 1", "device type of the monitoring band 1", "MAC address of the monitoring band 1", "auth key of the monitoring band 1", and "connection alert transmission". Destination (e-mail address, Skype ID)" "User registration number" "Administrative personal number" "User date of birth" "IMEI number" "User name (kanji)" "User name (furigana)" "User gender" "Dementia Presence" "Height (cm)" "Weight (kg)" "Group" "Region" "Zip code" "Prefecture" "Address" "Emergency contact name" "Relationship" "Emergency contact phone number" "Emergency contact Destination email address" "Safety confirmation date" "Contract place" "Contract start date (date)" "Contract cancellation date (date)" "Person in charge" "Device type" "Device version" "Smartphone model" "SIM card company", "phone number of smartphone", etc. are displayed.

In addition, "remaining battery level of watch band 1" and "remaining battery level of smartphone 2" are displayed in the area indicated by symbol U (hereinafter referred to as "lower screen").

Furthermore, various buttons for "measurement time setting", "GPS/SOS setting", "alert level setting", and "adjustment value setting" are displayed on the "lower screen".
Here, if you click the "Measurement time setting" button, (1) how many seconds the position measurement is performed by the monitoring band 1, (2) how many seconds the pulse measurement is performed by the monitoring band 1, can be set.
Further, by clicking the "GPS/SOS setting" button, it is possible to set (1) ON/OFF of the GPS function of the smartphone 2 and (2) ON/OFF of the user's SOS function.
Furthermore, by clicking the "alert level setting" button, the normal vital range can be set. Specifically, (1) upper and lower limits of heart rate, (2) upper and lower limits of systolic blood pressure, (3) upper and lower limits of diastolic blood pressure, (4) upper and lower limits of body temperature, (5) upper and lower limits of blood oxygen, can be set.
Also, by clicking the "Adjustment value setting" button, you can set the heart rate, systolic blood pressure, diastolic blood pressure, body temperature, and blood oxygen adjustment values (the difference between the values measured by the medical device and those measured by the monitoring band). be able to.

Next, by clicking the "Heart Rate" button in the "Menu Information" displayed on the "Sub Screen", heart rate data is displayed on the "Main Screen" (see FIG. 3-5).
Similarly, by clicking the "Blood Pressure" button in the "Menu Information" displayed on the "Sub Screen", the blood pressure data is displayed on the "Main Screen" (see FIG. 3-6).
Similarly, when the "body temperature" button is clicked in the "menu information" displayed on the "sub screen", body temperature data is displayed on the "main screen" (see Fig. 3-7).
Furthermore, in the same way, when the "blood oxygen" button in the "menu information" displayed on the "sub screen" is clicked, the blood oxygen data is displayed on the "main screen" (Fig. 3-8 reference).
Similarly, if you click the "pedometer" button in the "menu information" displayed on the "sub screen", the pedometer data will be displayed on the "main screen" (see Fig. 3-9). .
Similarly, if the button for "breathing" in the "menu information" displayed on the "sub-screen" is clicked, data on breathing is displayed on the "main screen" (see FIG. 3-10).
Likewise, if you click the "Electronic Medical Records" button in the "Menu Information" displayed on the "Sub Screen", the electronic medical record data will be displayed on the "Main Screen" (see Figure 3-11). .
By clicking the "return to search screen" button in the "menu information" displayed in the "sub-screen", the initial screen is displayed (see FIG. 3-2).

Here, when the warning means 33 performs alerting for the watcher, the corresponding user's information is displayed in color.
For example, when an “SOS signal” is received from the smartphone 2 of person A being watched over, the information of person A is displayed in color (see FIG. 3-12), and the vital data of person B is within the normal vital range. , the information on the person being watched over B is displayed in color (FIG. 3-13).
Further, for example, when a caution signal or a withdrawal signal is received from the smart phone 2 of the watching target person A, information on the watching target person A is displayed in color (see FIG. 3-14).
Note that, in the present embodiment, the display method is changed for each alert in consideration of the convenience of determining what type of alert it is.

[effect]
In the monitoring band monitoring system X to which the present invention is applied, since vital data is transmitted to the server 3 via the smartphone 2 carried by the person being monitored, the monitoring range (warning means 33 is The scope of alerting based on vital data) can be expanded.

In addition, the relay means 22 of the smart phone 2 sends a caution signal to the smart watch band 1, and the smart watch band 1 performs a caution action. 1, and it can be expected to avoid a situation in which it is impossible to watch over.
That is, since the smart phone 2 having portability is adopted as the relay device, the watching target person cannot be watched over when the smart phone 2 is not carried (for example, misplaced). Therefore, by alerting the watching target person 1 and avoiding not carrying the smartphone 2, stable continuation of watching is realized.

Furthermore, it can be expected that a situation in which monitoring is not possible can be avoided by the relay means 22 of the smartphone 2 transmitting a caution signal to the server 3 and the warning means 33 alerting the watcher.
That is, with the alert for the watcher as a trigger, the watcher can alert the person being watched over by various means (e.g., telephone contact, email contact, etc.). By avoiding mobile phones, stable continuation of watching is realized.

In addition, the relay means 22 of the smart phone 2 transmits a leaving signal to the server 3, and the warning means 33 alerts the watcher, so that it can be expected to get out of the "unable to watch over situation" early.
That is, with the alert for the watcher as a trigger, the watcher can use various means (e.g., telephone contact, email contact, etc.) to alert the person being watched over and its related parties (e.g., family members, etc.). Therefore, by avoiding not carrying the smartphone 2 with such a warning, early improvement of the "unable to watch over situation" is realized.

Furthermore, the location information of the smartphone 2 is included in the leaving signal transmitted by the relay means 22 of the smartphone 2, which can be expected to be useful in searching for the person being watched over.
In other words, in a "situation where watching over is not possible", if the person being watched over cannot be contacted, the person being watched over will be searched. Early detection is realized.

In addition, since the monitoring band 1 does not have a ``position information detection means'' (for example, it does not have a GPS function), the miniaturization and weight reduction of the monitoring band 1 and the low power consumption of the monitoring band 1 are realized.
In addition, the low power consumption of the watching band 1 means that the battery of the watching band 1 lasts for a long time.

<2. Second Embodiment>
[Description of system configuration]
FIG. 4 is a schematic diagram for explaining a Mimamori band monitoring system Y, which is another example of the configuration of the monitoring system of the present invention. , and the server 3 .
In addition, in the second embodiment, only differences from the first embodiment will be described.

First, the monitoring band 1 has "position information detection means 13" in addition to "monitoring information detection means 11" and "monitoring information transmission means 12" (see FIG. 4).

The position information detection means 13 is configured to be able to acquire the position coordinates of the monitoring band 1.

As for the "positional coordinates", as in the case of the positional information detection means 21, it is typically obtained by positioning using GPS satellites. The geomagnetic sensor estimates the number of steps, stride length, and direction of movement of the person being watched over (the person wearing the Watch Band 1), and cumulatively counts from the starting point coordinates (point where radio waves from GPS satellites no longer reach). It may be calculated by estimating the position information of the person.

In addition to the "vital data" and the "remaining battery data of the monitoring band 1", the monitoring information transmitting means 12 transmits the "monitoring band 1 location data” is also transmitted to the smartphone 2.

Next, the smartphone 2 has "location information detection means 21", "relay means 22", and "identification means 23" (see FIG. 4).

Then, the relay means 22 receives transmission data from the monitoring band 1 ("vital data", "battery level data of the monitoring band 1" and "location data of the monitoring band 1"), and transmits the data based on a predetermined data format. It is configured so that it can be shaped and transmitted to the server 3 .
As in the first embodiment, the data shaping here uses a known or commonly used method, and there is no limit to the data format mode.

Furthermore, the relay means 22 transmits data ("vital data", "battery level data of the monitoring band 1", and "location data of the monitoring band 1") transmitted from the monitoring band 1, together with "battery level data of the smart phone 2". is also transmitted to the server 3.

In addition, the warning signal transmitted by the relay means 22 to the server 3 includes "location data of the monitoring band 1" at the time of issuing the warning signal.
Furthermore, "location data of the smart phone 2", which is the position coordinates (the position coordinates of the smart phone 2) acquired by the position information detection means 21 when issuing the caution signal, is also included.

In addition, when the interconnection between the monitoring band 1 and the smartphone 2 becomes impossible, the "location data of the monitoring band 1" that the smartphone 2 has is also included in the leaving signal that the relay means 22 transmits to the server 3. include.
Furthermore, the leaving signal also includes "location data of the smartphone 2" at the time of issuing the leaving signal.

Next, the server 3 is connected to the monitor 5 and has "management means 31", "display means 32", "warning means 33" and "control signal transmission means 34" (see FIG. 4).

Then, the management means 31 associates the monitoring target identifier (not shown) with the band identifier (not shown), and "vital data", "battery level data of the monitoring band 1", and "monitoring band 1" transmitted from the smartphone 2 1 location data” and “smartphone 2 remaining battery level data”, monitoring data is determined.

Also, the warning means 33 alerts the watcher on the condition that the location data of the watch band 1 indicates an area outside the watch area.

Furthermore, the warning means 33 replaces the location data of the monitoring band 1 indicating the outer area of the monitoring area or in addition to the location data of the monitoring band 1 indicating the outer area of the monitoring area. Alerting for the watcher may be performed on condition that the location data of band 1 is located within a predetermined area.

In addition, the warning unit 33 performs alerting for the watcher on condition that a caution signal is received from the smartphone 2 .
Specifically, it displays on the management screen that there is a high probability that the mutual connection between the watch band 1 and the smartphone 2 will be disabled, and alerts the watcher. The management screen also displays "location data of the monitoring band 1" and "location data of the smart phone 2".

Also, the warning unit 33 performs alerting for the watcher on condition that a leaving signal is received from the smartphone 2 .
Specifically, mutual connection between the watching band 1 and the smartphone 2 is disabled, and the fact that the watching band 1 is disabled is displayed on the management screen to alert the watcher. The management screen also displays "location data of the monitoring band 1" and "location data of the smart phone 2".
It should be noted that the "location data of the monitoring band 1" here means the latest data held by the smartphone 2. not meant).

[effect]
In the Mimamori band monitoring system Y to which the present invention is applied, as in the Mimamori band monitoring system X described above, vital data is transmitted to the server 3 via the smartphone 2 carried by the person being monitored. , the monitoring range (the range in which the warning means 33 can perform alerting based on the location data and vital data of the monitoring band) can be expanded.

In addition, it is the same as the above-mentioned Mimamori Band monitoring system X in that the warning signal realizes stable continuation of monitoring, and the withdrawal signal realizes early improvement of the "situation where monitoring is not possible".

In addition, the leaving signal includes not only the location information of the smartphone 2, but also the location information of the monitoring band 1, so it can be expected to be even more useful in searching for the person being watched over.

<3. Variation>
[Modification 1]
In the second embodiment described above, the case where the smartphone 2 has the "location information detection means 21" is described as an example. In order to be able to watch over the target person, the smartphone 2 does not necessarily have to have the "positional information detection means 21".

[Modification 2]
In the first embodiment and the second embodiment described above, the case where the person to be watched over is a "person" is described as an example, but the monitoring system of the present invention is applied to " The person to be watched over may be an "object" instead of being limited to a "person".

1 Monitoring Band 2 Smartphone 3 Server 4 Internet 5 Monitor 11 Monitoring Information Detection Means 12 Monitoring Information Transmission Means 13 Location Information Detection Means 21 Location Information Detection Means 22 Relay Means 23 Identification Means 31 Management Means 32 Display Means 33 Warning Means 34 Control Signal Transmission means

Claims (11)

1. A monitoring system comprising a predetermined device, a server, and a portable relay device that relays communication between the device and the server,
   Said device comprises:
   a detection means for acquiring predetermined monitoring information from a monitoring target wearing the same device;
   monitoring information transmitting means for transmitting the monitoring information acquired by the detecting means to the relay device;
   The relay device is
   relay means for receiving transmission data from the device and the server and transmitting the data to the server and the device, respectively;
   identifying the model of the device that has transmitted the monitoring information based on the device identifier that indicates the device, and the device identifier of each of the plurality of devices of different models; identification means for identifying, based on a machine learning model, which monitoring information in the monitoring system the monitoring information received from the device corresponds to, and
   on the condition that interconnection with the device is disabled, a leaving signal indicating that the device has left the connection area of the relay device can be transmitted to the server;
   The server is
   A monitoring system comprising control signal transmission means for transmitting a control signal for controlling the equipment to the equipment via the relay device.
2. The leaving signal is
   location information of the relay device when the interconnection becomes impossible;
   or
   location information of the device held by the relay device when the interconnection becomes impossible;
   2. The surveillance system of claim 1, comprising at least one of:
3. The relay device is
   2. The configuration of claim 1, wherein when there is a high probability that the interconnection will be impossible, an alert signal indicating the possibility that the interconnection will be impossible can be transmitted to at least one of the device and the server. A surveillance system as described.
4. The server is
   2. The monitoring system according to claim 1, wherein on the condition that said disconnection signal is received, said mutual connection is impossible can be displayed on a management screen.
5. The server is
   5. The monitoring system according to claim 4, wherein, on condition that said interconnection becomes possible after said leaving signal is received, said management screen is configured to be able to display that said interconnection has been restarted.
6. The server is
   Displaying on the management screen that the location information of the relay device associated with the monitoring target is outside the monitoring area, provided that the location information is outside the monitoring area set for the monitoring target. 2. The surveillance system of claim 1, configured to enable:
7. The server is
   7. The management screen is configured to be able to display that the location information of the relay device has changed from being outside the monitoring area to being inside the monitoring area as a condition. A surveillance system as described.
8. The server is
   On the condition that the position information of the device associated with the monitoring target is outside the monitoring area set corresponding to the monitoring target, it is possible to display on the management screen that it is outside the monitoring area. The surveillance system of claim 1, wherein:
9. The server is
   9. The management screen is configured to be able to display that the location information of the device has changed from being outside the monitoring area to being inside the monitoring area as a condition. monitoring system.
10. Equipped with a portable relay device that relays communication between a predetermined device and a server,
    the transmission data received by the relay device from the equipment includes predetermined monitoring information obtained from a monitoring target wearing the equipment;
    The monitoring system, wherein the transmission data received by the relay device from the server includes a control signal for controlling the equipment,
    The relay device is
    relay means for receiving transmission data from the device and the server and transmitting the data to the server and the device, respectively;
    identifying the model of the device that has transmitted the monitoring information based on the device identifier that indicates the device, and the device identifier of each of the plurality of devices of different models; identification means for identifying, based on a machine learning model, which monitoring information in the monitoring system the monitoring information received from the device corresponds to, and
    A monitoring system configured to be capable of transmitting to said server a leaving signal indicating that said device has left the connection area of said relay device on condition that interconnection with said device has become impossible.
11. A portable information device relays communication between a predetermined device and a server, receives transmission data including predetermined monitoring information acquired from a monitored object wearing the device from the device, and transmits data from the server to the device. A monitoring program for functioning as a relay device that receives transmission data including a control signal for controlling the
    The relay device is
    relay means for receiving transmission data from the device and the server and transmitting the data to the server and the device, respectively;
    identifying the model of the device that has transmitted the monitoring information based on the device identifier that indicates the device, and the device identifier of each of the plurality of devices of different models; identification means for identifying, based on a machine learning model, which monitoring information in the monitoring system the monitoring information received from the device corresponds to, and
    A monitoring program capable of transmitting, to the server, a leaving signal indicating that the device has left the connection area of the relay device on condition that interconnection with the device has become impossible.

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