WO2022254879A1

WO2022254879A1 - Communication system, sensor, terminal and communication method

Info

Publication number: WO2022254879A1
Application number: PCT/JP2022/012040
Authority: WO
Inventors: 昂志太田
Original assignee: オムロン株式会社
Priority date: 2021-06-03
Filing date: 2022-03-16
Publication date: 2022-12-08
Also published as: JP2022185754A

Abstract

This communication system includes a sensor and a terminal that can communicate with the sensor. The sensor comprises: a detection unit that detects a change in an object or a change in a condition; a communication unit that communicates with the terminal pursuant to a predetermined wireless communication standard; and a processing unit that, upon detection of any change in the object or in the condition by the detection unit, connects to the terminal via the communication unit and transmits, to the terminal, change information that indicates the detected change. The terminal comprises: a first communication unit that receives the change information from the sensor pursuant to the predetermined wireless communication standard; a second communication unit that transmits the received change information to an external device via the Internet; and a control unit that, upon receipt of the change information by the first communication unit, controls the second communication unit to transmit the change information to the external device.

Description

Communication system, sensor, terminal and communication method

The present invention relates to communication systems, sensors, terminals and communication methods.

　There is a growing need to detect and monitor the risks of users working outdoors. The user's risks include, for example, the risk of heatstroke and the risk of falling, which are detected by changes in the measured values of temperature/humidity sensors, vibration sensors, and the like. Patent Literature 1 discloses a monitoring system in which a cloud server manages a person's body temperature measured by a thermometer communicably connected to a cloud server.

JP 2021-058596 A

When sending information such as measured values from sensors, etc. to a cloud server in order to monitor risks, direct communication over a specific network such as LTE (Long Term Evolution) or LoRa (registered trademark) will incur communication charges.

In addition, when tethering is used to communicate with the cloud server, the sensors, etc. used to detect risks will always be connected to terminals such as smartphones via Wi-Fi. Therefore, when using tethering, the battery drains faster. Thus, constantly connecting to the cloud server via the Internet line and continuously monitoring changes that lead to risks for the user may lead to an increase in communication cost and communication load.

One aspect of the present invention aims to provide a technique for suppressing communication costs and communication loads when continuously monitoring changes.

The present invention adopts the following configuration in order to achieve the above objects.

A first aspect of the present disclosure is a communication system including a sensor and a terminal capable of communicating with the sensor, wherein the sensor includes a detection unit that detects a change in an object or a change in situation, and a terminal that communicates with the terminal according to a predetermined wireless communication standard. and a processing unit that connects to the terminal via the communication unit and transmits change information indicating the detected change to the terminal when the detection unit detects a change in the object or a change in the situation. , the terminal comprises a first communication unit for receiving change information from a sensor, a second communication unit for transmitting the received change information to an external device via the Internet, and a first communication unit according to a predetermined wireless communication standard. a control unit configured to control the second communication unit to transmit the change information to the external device when the change information is received.

Objects include, for example, the human body as well as equipment installed in an external environment where the network environment is not maintained. A change in an object is, for example, a change in the pulse rate or heart rate of a human body, a change in an index (such as the surface temperature of the device) for detecting a failure of the device, or the like. A change in condition includes, for example, a change in the surrounding environment such as temperature or humidity. Change information is information indicating a change in an object or a change in situation. In the above communication system, even in an external environment where the network environment is not maintained, when the sensor detects a change, it transmits change information to the terminal via a predetermined wireless communication standard, thereby reducing communication costs and Communication load can be suppressed.

The predetermined wireless communication standard may be a communication standard that does not interfere with communication by the second communication unit. Also, the predetermined wireless communication standard may be BLE (Bluetooth Low Energy), infrared communication, or Wi-Fi. When detecting a change, the sensor can connect to the terminal via a predetermined wireless communication standard and transmit change information.

The second communication unit may be capable of communicating with the Internet according to at least one of 4GLTE (Long Term Evolution), 5G, LPWA (Low Power Wide Area), WiMAX, and Wi-Fi communication standards. The sensor can connect to the terminal when detecting a change, and transmit change information to the external device via the second communication unit of the terminal.

The change information may be information indicating a change from the steady state of the object or situation. The steady state may be stored in advance in the storage unit of the sensor, or may be calculated from past measurements by the sensor. The sensor can notify the terminal that there is a risk by transmitting information indicating a change from the steady state to the terminal.

Change information may include data acquired by sensors. The terminal can receive data (sensor information) acquired by the sensor as change information, and acquire a risk value based on the sensor information.

Upon receiving the change information from the sensor, the first communication unit of the terminal may notify the sensor that the change information has been received. The sensor can determine whether or not the terminal has received the change information based on the presence or absence of notification from the terminal. Also, with such a configuration, the sensor does not have to be constantly connected to the terminal.

The communication unit of the sensor may resend the change information to the terminal if it does not receive a notification that the change information has been received from the first communication unit of the terminal. The sensor can prevent change information from being unsent.

The control unit of the terminal may control transmission and reception of change information by the first communication unit and the second communication unit using a predetermined program. The predetermined program is, for example, an OS (Operating System) of the terminal or an application installed in the terminal. A predetermined program can control the terminal to be connected to the sensor while receiving change information from the sensor when a connection request is received from the sensor. This reduces the communication load between the sensor and the terminal.

The control unit of the terminal may process the change information received by the first communication unit from the sensor according to a predetermined program, and the second communication unit of the terminal may transmit the information processed by the control unit to the external device. Further, the control unit of the terminal adds additional information to the change information received by the first communication unit from the sensor according to a predetermined program, and the second communication unit of the terminal sends the change information with the additional information to the external device. may be sent to the device. Additional information is, for example, the identity of the user using the terminal and the location of the terminal. The terminal can notify the information for appropriately coping with the risk indicated by the change information by the processed information or the additional information.

A second aspect of the present invention is a detection unit that detects a change in an object or a change in situation, a terminal that can be connected to an external device via the Internet, a communication unit that communicates according to a predetermined wireless communication standard, and a detection unit. and a processing unit that, upon detecting a change in an object or a change in a situation, connects to a terminal via a communication unit and transmits change information, which is information indicating the detected change, to the terminal.

A third aspect of the present invention includes a first communication unit that receives change information, which is information indicating the detected change from a sensor that has detected a change in an object or a change in situation, according to a predetermined wireless communication standard; a second communication unit that transmits information to an external device via the Internet; a control unit that controls the second communication unit to transmit the change information to the external device when the first communication unit receives the change information; is a terminal with

A fourth aspect of the present invention is a communication method for a communication system including a sensor and a terminal capable of communicating with the sensor, wherein the sensor detects a change in an object or a change in situation and communicates with the terminal according to a predetermined wireless communication standard. Then, when detecting a change in the object or a change in the situation, it connects to the terminal according to a predetermined wireless communication standard, transmits change information indicating the detected change to the terminal, and the terminal, according to the predetermined wireless communication standard, This communication method receives change information from a sensor, transmits the received change information to an external device via the Internet, and controls to transmit the change information to the external device when the change information is received.

The present invention can also be regarded as a program for realizing such a method or a recording medium in which the program is non-temporarily recorded. It should be noted that each of the means and processes described above can be combined with each other as much as possible to constitute the present invention.

According to the present invention, it is possible to reduce the communication cost and communication load when continuously monitoring changes.

FIG. 1 is a diagram illustrating an application example of a communication system according to an embodiment. FIG. 2 is a block diagram illustrating the configuration of sensors and terminals. FIG. 3 is a flowchart illustrating sensor processing. FIG. 4 is a flowchart illustrating terminal processing. FIG. 5 is a diagram for explaining information transmitted and received among sensors, terminals, and external devices. FIG. 6 is a flowchart illustrating processing of the sensor according to the modification.

An embodiment according to one aspect of the present invention will be described below with reference to the drawings.

<Application example>
FIG. 1 is a diagram illustrating an application example of a communication system according to an embodiment. A communication system 10 includes a sensor 11 and a terminal 12, and is connected to an external device 20 via a network N such as the Internet.

The sensor 11 is directly or indirectly attached to an object and detects changes in the object or changes in the surrounding conditions of the object. Objects include, for example, a human body and equipment installed in an external environment where a network environment is not maintained. A change in an object is, for example, a change in physical condition such as a pulse rate or heart rate of a human body, a change in an index for detecting failure of equipment, and the like. The change in conditions is, for example, temperature or humidity.

In the example of FIG. 1, the sensor 11 is a clip-type sensor module mounted inside the user's helmet. The sensor 11 acquires information such as measured values and detects changes from the steady state. Further, the sensor 11 may detect the change based on the difference between the acquired measurement value information and the pre-registered normal measurement value.

The sensor 11 can communicate with the terminal 12 by wireless communication. Wireless communication is, for example, BLE (Bluetooth Low Energy), infrared communication, or Wi-Fi. When the sensor 11 detects a change in an object or a change in situation, the sensor 11 transmits change information, which is information indicating the detected change in the object or the change in situation, to the terminal 12 by wireless communication.

The terminal 12 connects to the sensor 11 triggered by the transmission of the change information from the sensor 11, and receives the change information from the sensor 11 by wireless communication. The terminal 12 transmits the received change information to the external device 20 via the network N. FIG.

The change information is, for example, risk information based on changes in temperature or humidity, and the sensor 11 detects that the user wearing the sensor 11 is at risk of heat stroke when the temperature and humidity exceed their respective thresholds. Risk information indicating that there is a risk is transmitted to the terminal 12 . Specifically, the sensor 11 can acquire a predetermined risk value according to the difference between the temperature or humidity and the respective threshold values, and transmit the acquired risk value to the terminal 12 as risk information.

In this way, the sensor 11 connects to the terminal 12 with the detection of change as a trigger, and transmits change information. Upon receiving the change information, the terminal 12 transfers the change information to the external device 20 via the network N. FIG. Therefore, the sensor 11 and the terminal 12 do not need to be in a connected state except when a change (risk) occurs. can be done.

<Embodiment 1>
FIG. 2 is a block diagram illustrating configurations of the sensor 11 and the terminal 12. As shown in FIG. The sensor 11 includes a processor 111 , a main storage section 112 , an auxiliary storage section 113 , a communication section 114 and a sensor section 115 . The processor 111 implements each function of the sensor 11 by reading the program stored in the auxiliary storage unit 113 to the main storage unit 112 and executing the program. Processor 111 may be a system-on-a-chip (SoC) in which a processor and various other functions are implemented. Processor 111 is an example of a “processing unit”.

The communication unit 114 is an interface that can directly communicate with the terminal 12 according to a predetermined wireless communication standard. The predetermined wireless communication standard is, for example, BLE, infrared communication, NFC (Near Field Communication) or other short-range wireless communication, or Wi-Fi. The predetermined wireless communication standard is a communication standard that does not hinder communication between the terminal 12 and the external device 20 .

Note that if the predetermined wireless communication standard is BLE, infrared communication, or short-range wireless communication, the sensor 11 itself does not need to have the function of connecting to a network. Since the sensor 11 does not have the function of connecting to a network, the size of the sensor 11 can be reduced and the cost can be reduced.

The sensor unit 115 is a sensor that detects changes in objects or situations. The sensor unit 115 is, for example, a temperature/humidity sensor that detects changes in temperature and humidity, and a vibration sensor that detects a fall of the user. The sensor unit 115 only needs to be able to detect changes from the steady state of an object or situation, and may be a sensor that measures the user's blood pressure, heart rate, blood oxygen concentration, etc., an acceleration sensor, a sound level meter, or the like. . The sensor unit 115 may be composed of a plurality of sensors. Sensor unit 115 is an example of a “detection unit”.

The sensor 11 can be driven by a battery. For power saving, the sensor 11 notifies the terminal 12 of the risk when the sensor unit 115 detects a change, and does not notify the terminal 12 when the sensor unit 115 does not detect a change.

The terminal 12 includes a processor 121 , a main storage section 122 , an auxiliary storage section 123 , a first communication section 124 , a second communication section 125 and an output section 126 . The processor 121 implements each function of the terminal 12 by reading the program stored in the auxiliary storage unit 123 into the main storage unit 122 and executing the program. Processor 121 is an example of a “controller”.

The first communication unit 124 is an interface for communicating with the sensor 11 by wireless communication. The first communication section 124 communicates with the sensor 11 via the communication section 114 . The second communication unit 125 is an interface for communicating with the external device 20 via the network N. FIG. The second communication unit 125 can connect to the Internet by at least one of 4GLTE (Long Term Evolution), 5G, LPWA (Low Power Wide Area), WiMAX, and Wi-Fi, for example. LPWA is a communication standard that enables long-distance communication with low power consumption, and includes a wireless communication standard (LoRa) using LoRa modulation. The output unit 126 is, for example, a display, a speaker, or the like, and is a device that outputs a risk notification or the like to the user.

The terminal 12 is, for example, a general-purpose computer such as a personal computer, server computer, tablet terminal, or smart phone. Also, part of each function of the terminal 12 may be implemented by a dedicated hardware device such as FPGA or ASIC.

The terminal 12 can control transmission and reception of change information by the first communication unit 124 and the second communication unit 125, for example, using a resident application. The terminal 12 may activate the application when receiving the change information transmitted from the sensor 11 . The application is an example of a "predetermined program". The “predetermined program” may be the OS of the terminal 12 .

(Sensor processing)
Processing of the sensor 11 will be described with reference to FIG. FIG. 3 is a flow chart illustrating the processing of the sensor 11. As shown in FIG. The processing of the sensor 11 is started, for example, when the user turns on the power of the sensor 11 .

In S101, the sensor unit 115 acquires sensor information such as measured values. When the sensor unit 115 is a temperature/humidity sensor, the sensor information is the measured values of the temperature and humidity at the position where the temperature/humidity sensor is mounted. When the sensor unit 115 is a vibration sensor, the sensor information is measured values of displacement, velocity, and acceleration representing the magnitude of vibration.

At S102, the processor 111 determines whether or not a change in the sensor information acquired at S101 has been detected. Processor 111 can determine that a change has been detected, for example, when an object or situation changes from a steady state and creates a risk. Steady state can be, for example, the average value of previous measurements. The processor 111 can determine that the object or situation has changed from the steady state when the difference from the average value as the steady state is greater than or equal to the threshold.

Also, the processor 111 can determine that a change has been detected when the sensor information acquired in S101 differs from the normal state. Information such as normal measurement values used for determination can be stored in the auxiliary storage unit 113 in advance. Also, the normal measurement value may be specified in the range of the measurement value when normal.

If a change in sensor information is detected in S102, the process proceeds to S103. If no change in sensor information is detected, the process returns to S101. The sensor unit 115 acquires sensor information at predetermined intervals. The predetermined interval can be set according to the type of measurement value acquired by the sensor unit 115 .

In S103, when a change in the sensor information is detected in S102, the processor 111 connects to the terminal 12 via the communication unit 114, and transmits change information, which is information indicating the detected change, via the communication unit 114. Send to terminal 12 . The communication unit 114 communicates with the terminal 12 according to a predetermined wireless communication standard such as BLE, infrared communication, Wi-Fi. When the sensor 11 communicates with the terminal 12 by BLE, pairing with the terminal 12 is set in advance. The processing shown in FIG. 3 is repeated at predetermined time intervals while the sensor 11 is powered on.

The processor 111 may acquire, as change information, a risk value based on the sensor information acquired by the sensor unit 115 and transmit it to the terminal 12 . The risk value can be obtained, for example, from a table in which the value obtained by the sensor unit 115 and the risk value are associated in advance. Specifically, the table for acquiring the risk value can be a table in which the difference between the value acquired by the sensor unit 115 and the normal value is associated with the risk value.

(Terminal processing)
Processing of the terminal 12 will be described with reference to FIG. FIG. 4 is a flow chart illustrating the processing of the terminal 12. As shown in FIG. Processing of the terminal 12 is started by a connection request from the communication unit 114 of the sensor 11, for example.

In S<b>201 , the first communication unit 124 receives change information from the sensor 11 . When receiving change information from the sensor 11 , the first communication unit 124 may notify the sensor 11 of the reception.

The processor 121 may display the change information received from the sensor 11 on the output unit 126 to notify the user of the risk. For example, if the change information is information indicating an increase in temperature or humidity, the processor 121 displays the risk of heat stroke on the output unit 126 to notify the user. Also, the processor 121 may notify the user of the risk by vibration or sound of the terminal 12 .

At S202, the processor 121 processes the change information received at S201. For example, the processor 121 adds additional information such as a personal ID held by the terminal 12 and location information of the terminal 12 to the received change information. By adding the personal ID and location information, the external device 20 can present the at-risk user and the location of the user to the administrator.

Also, the change information may include past measured values obtained by the sensor unit 115 . Processor 121 of terminal 12 may obtain a risk value based on past measurements. The processor 121 may also estimate a new normal value for determining the presence or absence of risk, or acquire the degree of change (risk) as a risk value.

In S203, the processor 121 transmits the information processed in S202 to the external device 20 via the second communication unit 125. Note that the processor 121 may transmit the information processed in S202 and obtained to the sensor 11, such as a new normal value.

Information transmitted and received between the sensor 11, the terminal 12, and the external device 20 will be described with reference to FIG. The sensor 11 detects a change from data (sensor information) acquired by the sensor unit 115 and transmits change information indicating the detected change to the terminal 12 . The sensor 11 may transmit the sensor information acquired by the sensor unit 115 to the terminal 12 as it is. When the terminal 12 receives the change information or the sensor information from the sensor 11, the terminal 12 notifies the sensor 11 of the reception.

The terminal 12 adds additional information such as a personal ID and location information to the change information and sensor information received from the sensor 11 and transmits the added information to the external device 20 . The terminal 12 may process the information received from the sensor 11 and transmit it to the external device 20 . For example, the terminal 12 can acquire a risk value indicating the degree of risk from the sensor information acquired by the sensor unit 115 and transmit the risk value to the external device 20 . When the external device 20 receives change information, sensor information, or processed information from the terminal 12, the external device 20 notifies the terminal 12 of the reception.

<Modification>
A modified example is an example in which, after transmitting change information to the terminal 12, there is no notification that the change information has been received from the terminal 12, and timeout occurs, as in the process of S103 in FIG. The processor 111 of the sensor 11 resends the change information or terminates the process after a predetermined period of time.

FIG. 6 is a flowchart illustrating processing of the sensor 11 according to the modification. Since the processing from S101 to S103 is the same as the processing in FIG. 3, the description is omitted. In S<b>104 , the processor 111 of the sensor 11 determines whether or not there is a notification from the terminal 12 that the change information has been received.

If there is a notification from the terminal 12 (S104: YES), the processor 111 determines that the change information has been successfully transmitted, and the process ends. The processing shown in FIG. 6 is repeated by the sensor 11 acquiring sensor information at predetermined time intervals.

If there is no notification from the terminal 12 (S104: NO), the process returns to S103, and the processor 111 retransmits the change information to the terminal 12. If the change information is retransmitted to the terminal 12 a predetermined number of times (for example, five times) and no notification of reception is received from the terminal, the process shown in FIG. 6 ends.

Further, if there is no notification from the terminal 12 for a predetermined time in S104, the processor 111 plays a warning sound or a warning message to notify that communication with the terminal 12 is not possible, and terminates the processing shown in FIG. good too.

<Others>
Each of the above-described embodiments merely exemplifies a configuration example of the present invention. The present invention is not limited to the specific forms described above, and various modifications are possible within the technical scope of the present invention.

Note that the change information may include information on the degree of change. For example, the processor 111 of the sensor 11 can transmit the difference between the measured value of the temperature/humidity sensor and the normal value to the terminal 12 as the degree of change. The greater the degree of change (difference), the processor 121 of the terminal 12 may emphasize the display mode (character size, color, etc.) of the risk to be notified to the user, or may notify the user with a louder sound. .

<Appendix 1>
A communication system (10) comprising a sensor (11) and a terminal (12) capable of communicating with the sensor (11),
The sensor (11) is
a detection unit (115) that detects a change in an object or a change in situation;
a communication unit (114) that communicates with the terminal (12) according to a predetermined wireless communication standard;
When the detection unit (115) detects a change in the object or a change in the situation, it connects to the terminal (12) via the communication unit (114) and transmits change information indicating the detected change to the terminal (12). A processing unit (111) that transmits to the terminal (12),
The terminal (12)
a first communication unit (124) that receives the change information from the sensor (11) according to the predetermined wireless communication standard;
a second communication unit (125) that transmits the received change information to an external device (20) via the Internet;
a control unit (121) for controlling the second communication unit (125) to transmit the change information to the external device (20) when the first communication unit (124) receives the change information; prepare
A communication system (10).

<Appendix 2>
a detection unit (115) that detects a change in an object or a change in situation;
a terminal (12) connectable to an external device (20) via the Internet; a communication unit (114) that communicates according to a predetermined wireless communication standard;
When the detection unit (115) detects a change in the object or a change in the situation, it connects to the terminal (12) via the communication unit (114) and transmits change information indicating the detected change to the terminal (12). a processing unit (111) that transmits to the terminal (12);
A sensor (11) comprising:

<Appendix 3>
a first communication unit (124) for receiving, according to a predetermined wireless communication standard, change information indicating the detected change from the sensor (11) that has detected a change in an object or a change in situation;
a second communication unit (125) that transmits the received change information to an external device (20) via the Internet;
a control unit (121) for controlling the second communication unit (125) to transmit the change information to the external device (20) when the first communication unit (124) receives the change information;
A terminal (12) comprising:

<Appendix 4>
A communication method for a communication system (10) including a sensor (11) and a terminal (12) capable of communicating with the sensor (11),
The sensor (11) is
detect changes in objects or conditions,
communicating with the terminal (12) according to a predetermined wireless communication standard;
When detecting a change in the object or a change in the situation, connecting to the terminal (12) according to the predetermined wireless communication standard, transmitting change information indicating the detected change to the terminal (12),
The terminal (12)
receiving the change information from the sensor (11) according to the predetermined wireless communication standard;
transmitting the received change information to an external device (20) via the Internet;
Upon receiving the change information, control to transmit the change information to the external device (20);
Communication method.

10: communication system, 11: sensor, 111: processor, 112: main storage unit, 113: auxiliary storage unit, 114: communication unit, 115: sensor unit, 12: terminal, 121: processor, 122: main storage unit, 123 : auxiliary storage unit, 124: first communication unit, 125: second communication unit, 126: output unit

Claims

A communication system including a sensor and a terminal capable of communicating with the sensor,
The sensor is
a detection unit that detects a change in an object or a change in situation;
a communication unit that communicates with the terminal according to a predetermined wireless communication standard;
a processing unit that connects to the terminal via the communication unit when the detection unit detects a change in the object or a change in the situation, and transmits change information indicating the detected change to the terminal; prepared,
The terminal is
a first communication unit that receives the change information from the sensor according to the predetermined wireless communication standard;
a second communication unit that transmits the received change information to an external device via the Internet;
A control unit that controls the second communication unit to transmit the change information to the external device when the first communication unit receives the change information,
Communications system.
The communication system according to claim 1, wherein said predetermined wireless communication standard is a communication standard that does not hinder communication by said second communication unit.
The predetermined wireless communication standard is BLE (Bluetooth Low Energy), infrared communication, or Wi-Fi,
A communication system according to claim 1 or 2.
The second communication unit is capable of communicating with the Internet according to at least one of 4GLTE (Long Term Evolution), 5G, LPWA (Low Power Wide Area), WiMAX and Wi-Fi communication standards.
A communication system according to any one of claims 1 to 3.
The change information is information indicating a change from a steady state of the object or the situation,
A communication system according to any one of claims 1 to 4.
The change information includes data acquired by the sensor,
A communication system according to any one of claims 1 to 5.
When the first communication unit of the terminal receives the change information from the sensor, it notifies the sensor that the change information has been received.
A communication system according to any one of claims 1 to 6.
8. The communication according to claim 7, wherein the communication unit of the sensor retransmits the change information to the terminal when not receiving a notification that the change information has been received from the first communication unit of the terminal. system.
The control unit of the terminal controls transmission and reception of the change information by the first communication unit and the second communication unit according to a predetermined program,
A communication system according to any one of claims 1 to 8.
The control unit of the terminal processes the change information received by the first communication unit from the sensor according to the predetermined program,
The communication system according to claim 9, wherein said second communication unit of said terminal transmits information processed by said control unit to said external device.
The control unit of the terminal adds additional information to the change information received by the first communication unit from the sensor according to the predetermined program,
The second communication unit of the terminal transmits the change information to which the additional information is added to the external device.
A communication system according to claim 9 or 10.
a detection unit that detects a change in an object or a change in situation;
a terminal that can be connected to an external device via the Internet, a communication unit that communicates according to a predetermined wireless communication standard,
a processing unit that, when the detection unit detects a change in the object or a change in the situation, connects to the terminal via the communication unit and transmits change information, which is information indicating the detected change, to the terminal;
sensor.
a first communication unit that receives change information, which is information indicating a detected change from a sensor that has detected a change in an object or a change in situation, according to a predetermined wireless communication standard;
a second communication unit that transmits the received change information to an external device via the Internet;
a control unit that controls the second communication unit to transmit the change information to the external device when the first communication unit receives the change information;
terminal with
A communication method for a communication system including a sensor and a terminal capable of communicating with the sensor,
The sensor is
detect changes in objects or conditions,
communicating with the terminal according to a predetermined wireless communication standard;
when detecting a change in the object or a change in the situation, connecting to the terminal according to the predetermined wireless communication standard and transmitting change information indicating the detected change to the terminal;
The terminal is
receiving the change information from the sensor according to the predetermined wireless communication standard;
transmitting the received change information to an external device via the Internet;
Upon receiving the change information, controlling to transmit the change information to the external device;
Communication method.
A program for causing a computer to execute each step of the method according to claim 14.