KR101017076B1 - system for monitoring live alone the old using ???? - Google Patents

Abstract

The present invention relates to an elderly living monitoring system using a PSTN. In particular, the gateway installed in the home processes data of various meters and sensors, and transmits the data to the monitoring server through the PSTN to analyze the transmitted data. The present invention relates to an elderly living monitoring system using PSTN that can monitor the elderly living alone.

The constituent means of the elderly living monitoring system using the PSTN of the present invention, the elderly living monitoring system using the PSTN, the meter is installed in the house where the elderly living alone, the sensors installed in the house where the elderly living alone Including a gateway for collecting data from each meter and each sensor, processing and outputting to the PSTN, monitoring server for periodically monitoring the status of the elderly living alone by storing and analyzing the processed data input through the PSTN Characterized in that made.

Elderly, sensor, meter, monitoring

Description

System for monitoring live alone the old using PSNT

The present invention relates to an elderly living monitoring system using a PSTN. In particular, the gateway installed in the home processes data of various meters and sensors, and transmits the data to the monitoring server through the PSTN to analyze the transmitted data. The present invention relates to an elderly living monitoring system using PSTN that can monitor the elderly living alone.

The world is aging fast. In developed countries such as Europe, this phenomenon has been around for a long time, and the same phenomenon is rapidly progressing in Korea. The development of medical technology and nutritional status due to the continuous industrialization, modernization and scientific development since the 1960s As the average life span of human beings is extended due to the improvement, our society gradually entered the aging society after the aging society.

This increase in the number of the elderly has caused both direct and indirect problems for the elderly and for the society itself. The absolute increase in the number of the elderly and the relative increase in the proportion of the elderly in the total population have resulted in a number of practical and institutional problems unpredictable in previous societies. It is causing them.

In Korea, the elderly problem inevitably accelerated urbanization due to modernization and industrialization over a relatively short period of time, and the collapse of traditional large family composition and nuclear familyization. It has existed as a problem.

This problem began to emerge in various forms from the 1970s to the 1990s, and as the elderly problem emerged as a social problem, some research on how to understand it and how to use it to solve the problem was attempted. But it is not when it is not enough.

The elderly living alone need to be socially protected and need to check the health and current status of the elderly living alone in various ways. In recent years, volunteer organizations have used various programs for checking the status of the elderly living alone.

However, this approach is reaching its limits due to a lack of service personnel. Therefore, a method of installing an emergency button in the home where the elderly living alone and receiving the signal generated from the emergency button remotely, and quickly dispatched to the home where the elderly living alone, is also proposed a method for checking the status of the elderly living alone. have.

However, since this method must be operated by the elderly living alone, the elderly living alone cannot reach the situation of the elderly living alone when they reach a situation where they cannot move or become unconscious. Therefore, it has a problem that can not be useless.

The present invention was devised to solve the above problems of the prior art, and the data of the various meters and sensors are processed by the gateway installed in the home, and then transmitted to the monitoring server through the PSTN, thereby transmitting the transmitted data. The purpose of the present invention is to provide an elderly living monitoring system using PSTN that can monitor the elderly living alone.

The constituent means of the elderly living monitoring system using the PSTN of the present invention proposed to solve the above problems, the elderly living monitoring system using the PSTN, meters installed in the house where the elderly living alone, the elderly living alone The sensors installed in the resident's house, the gateway collecting and processing data from each meter and each sensor, output to the PSTN, the processed data input through the PSTN to store and analyze the elderly living alone Characterized in that it comprises a monitoring server to periodically monitor the.

Here, the meter is characterized in that it comprises a power meter, water meter, gas meter.

Here, the sensors are characterized in that it comprises a door opening sensor and a human body sensor.

The gateway may further include a first receiver configured to receive data transmitted from the meters, a second receiver configured to receive data transmitted from the sensors, and store data stored in the first receiver and the second receiver. And a data processing unit periodically processing the data stored in the storage unit, a control unit configured to store the received data in the storage unit, and to control the stored data to be processed by the data processing unit periodically. And a transmitter for outputting the data to the PSTN under the control of the controller.

The control unit may control the received data to be stored in the storage unit corresponding to the ID of the meter or sensor that has delivered the received data.

In addition, the controller periodically imports the ID of the meter or sensor stored in the storage unit and the data corresponding to the ID, and provides the data processing unit together with the ID of the gateway.

The data processor may process the data corresponding to the ID of the gateway, the ID of the meter or the sensor, and the ID of the meter or the sensor in order, and transmit the processed data to the transmitter under the control of the controller.

The monitoring server may determine a state of the elderly living alone by comparing the change amount of the data values of the meters and the reference change amount for a preset time or by comparing the number of times of detection and the reference number of sensors. Elderly living monitoring system.

According to the elderly living monitoring system using the PSTN of the present invention having the above-described problems and solutions, the gateways installed in the home process the data of the various meters and sensors, and transmits the data to the monitoring server through the PSTN, Since it is possible to monitor the status of the elderly living alone by analyzing the transmitted data, it is possible to collectively guess the danger status of the elderly living alone remotely, and there is an advantage of performing a quick response.

Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the elderly living monitoring system using the present invention PSTN having the above problems, solutions and effects.

1 is an overall configuration of the elderly monitoring system using the PSTN according to an embodiment of the present invention.

As illustrated in FIG. 1, the elderly living monitoring system using a public switched telephone network (PSTN) according to the present invention is referred to as a plurality of meters 10 and a plurality of sensors (PSTN). 20, the gateway 30 receiving data from the plurality of meters 10 and the plurality of sensors 20 and the PSTN connected to the gateway 30 to receive the data, and store and analyze the data. It comprises a monitoring server 40 for periodically monitoring the status of the elderly living alone.

The meters 10 are meters installed in a house where the elderly living alone live. These meters are included as long as the elderly living alone can accumulate the amount of use objects (such as electricity) that can be charged as they live in the home. For example, the meter 10 includes a water meter 11 that accumulates water consumption, a power meter 13 that accumulates electricity usage, a gas meter 15 that accumulates gas usage, and the like.

The meters 10 including the water meter 11, the power meter 13, the gas meter 15, and the like transmit the current accumulated value (data) to the gateway periodically or whenever an event occurs. Means (not shown) are provided. For example, when configuring a remote meter reading system that has been developed in advance, values (data) accumulated in the meter are transmitted to the gateway using transmission means such as terminals provided in each electronic meter. That is, the transmission means may be variously configured as long as it can transmit the current accumulated value to the gateway periodically or whenever an event occurs.

Transmitting the accumulated value periodically transmits the current integrated value at each preset period, and transmitting each time an event occurs when the accumulated value increases by a preset value (e.g., the accumulated value is " (Increment by 1 ") means to transmit the current accumulated value.

Meanwhile, in order to transmit data to the gateway 30, the meters 10 use a physical signal line (wired) or wireless communication such as ZIGBEE or Bluetooth. In case of using wired data, data is transmitted through M-bus or RS-485.

Apart from the plurality of meters 10, a plurality of sensors 20 are installed in the house where the elderly living alone reside. These sensors 20 refer to sensors that can detect whether the elderly living alone in the home. For example, the sensors 20 include a door opening sensor 21 for detecting an opening such as an entrance door or a visit, and a human body sensor 23 for detecting a human body of an elderly person living alone. It is preferable that a plurality of the human body detecting sensors 23 are installed in a place where the elderly living alone often move (toilet, porch, front of TV, etc.).

The door opening sensor 21 generates a detection signal and transmits the detection signal to the gateway each time an entrance door or a visit is opened by using an optical sensor or a compression sensor. In addition, the human body sensor 23 generates a detection signal and transmits the detection signal to the gateway whenever a human body of the elderly living alone is detected using a thermal sensor, a touch sensor, an optical sensor, and the like.

The sensors 20 including the door opening sensor 21 and the human body detecting sensor 23 detect a door opening and, when a human body is detected, generate a detection signal and transmit the detection signal to the gateway 30. For example, since only the information indicating that the door is opened or the human body is sensed, the information "1" may be transmitted to the gateway 30.

Meanwhile, the sensors 20 use physical signal lines (wires) or wireless communication such as ZIGBEE or Bluetooth to transmit data to the gateway 30. In case of using wired data, data is transmitted through M-bus or RS-485.

Data transmitted from the meters 10 and sensors 20 are delivered to the gateway 30. Then, the gateway 30 collects data from each meter and each sensor, processes it, and outputs it to the PSTN so that the data is transmitted to the monitoring server 40.

2 shows a detailed configuration diagram of the gateway 30. As shown in FIG. 2, the gateway 30 includes a first receiver 31, a second receiver 32, a storage 33, a data processor 34, a controller 35 and a transmitter 36. It is made, including.

The first receiver 31 receives the data transmitted from the meters 10. That is, the water use integration value data transferred from the water meter 11 included in the meters 10, the power use integration value data transferred from the power meter 13, and the gas delivered from the gas meter 15. Receive usage integration value data. In detail, the first receiver 31 may be configured as an interface port connected to the water meter 11, the power meter 13, and the gas meter 15 in a one-to-one manner.

The second receiver 32 provided separately from the first receiver 31 receives data transmitted from the sensors 20. That is, the door opening detection data transmitted from the door opening sensor 21 included in the sensors 20 and the human body detection data transmitted from the human body sensor 23 are received. In detail, the second receiver 32 may be configured as an interface port connected to the door opening sensor 21 and the human body sensor 23 in a one-to-one manner.

Data received by the first receiver 31 and the second receiver 32 are stored in the storage 33 under the control of the controller 35. The storage unit 33 separately stores data (integrated values and sensed data of the meters 10) received by the first and second receivers 31 and 32. That is, the data is stored in accordance with the respective meters and sensors.

Therefore, when storing the received data in the storage unit 33, the control unit 35 stores the data in the storage unit 33 together with a unique number (ID) for identifying the origin of the data. That is, the controller 35 controls the received data to be stored in the storage 33 corresponding to the ID of the meter or sensor that delivered the received data.

The controller 33 may check the ID of the meter or sensor that transmitted the data from the interface port of the received data, and match the received data with the ID and store the ID in the storage 33. Alternatively, when the meters or sensors are configured to send their ID together when transmitting data from the beginning, the controller 35 matches the transmitted ID with the data and stores the ID in the storage unit 33.

3 illustrates an example of a matching table in which IDs and data are matched and stored in the storage unit 33. For example, when the data of the integrated value 250 is first received from the water meter 11 having an ID of "1", and then the detection signal "1" is received from the door opening sensor 21 having an ID of "2". 3 is stored in the storage unit 33. Meanwhile, FIG. 3 illustrates that other data are continuously received, and again, data of the integrated value 270 is received from the water meter 11 having the ID of "1".

As such, the data received by the first receiver and the second receiver are sequentially stored together with the IDs of the respective meters and sensors that have delivered the data to the storage 33.

The ID and data stored in the storage unit 33 are processed by the data processing unit 34 periodically under the control of the control unit 35. That is, the data processing unit 34 periodically processes the data stored in the storage unit 33 under the control of the control unit 35.

Therefore, the controller 35 obtains the IDs of the meters or sensors stored in the storage unit 33 and the data matched with the data processing unit 34 at predetermined intervals. At this time, the control unit 35 provides the data processing unit 34 with a unique number (ID) of the gateway 30 including itself. The control unit 35 stores the ID of the gateway 30 including itself set from the beginning, and periodically provides the data processing unit 34 with data stored in the storage unit 33. , Pass along.

In summary, the controller 35 periodically imports the ID of the meter or sensor stored in the storage 33 and the data corresponding to the ID, and together with the ID of the gateway 30 including the self. The data processing unit 34 is provided.

Then, the data processing unit 34 sorts and processes the data corresponding to the ID of the gateway, the ID of the meter or sensor, and the ID of the meter or sensor, in order to the transmitter 36 under the control of the controller. To pass. Then, the transmitter 36 transmits the processed data to the monitoring server 40 through the PSTN.

That is, the data processing unit 34 returns to the control unit 35 after processing all the data provided by the control unit 35, and the control unit monitors the processed data through the transmission unit 36. Control to be transmitted to the server 40.

As described above, the control unit 35 controls the data received from the meter or sensors to be stored in the storage unit 33 together with an ID, and the stored data and IDs are periodically stored in the data processing unit 34. Control to be processed, and the processed data can be transmitted to the monitoring server 40 through the transmitter 36.

4A shows a data structure after the data processing unit 34 processes the data. That is, it consists of ID of gateway, meter or sensor ID, and continuous data.

FIG. 4B illustrates a data structure after processing the water meter data stored in the storage unit 33 shown in FIG. 3. Specifically, the gateway ID "01" is located first, the ID of the water meter "1" is next, and the data "250" and "270" received from the water meter are continuously located. .

As described above, since the controller 35 processes the data periodically and transmits the data through the PSTN, the controller 35 transmits only the minimum data (simply the detection signal ("1") and the integrated data). Use only a limited number. Therefore, it does not impose a load such that the PSTN does not operate normally.

The processed data are transmitted to the monitoring server 40 through the PSTN, and the monitoring server 40 periodically monitors the status of the elderly living alone by storing and analyzing the processed data input through the PSTN.

The monitoring server 40 may know from which gateway data are input through the processed data input. That is, the gateway that has transmitted data through the ID of the gateway can be recognized. Accordingly, the monitoring server 40 may manage data for each gateway, and may numerically confirm such data or quantitatively through a graph.

The monitoring server 40 analyzes the input data to predict the status of the elderly living alone. In other words, the data analysis can determine the risk status, health status and recent status of the elderly living alone.

Specifically, the monitoring server 40 compares the change amount of the data value of the received meters and the reference change amount set in advance for a preset time. As a result of the comparison, if the amount of change in the data value of the received meters is less than the reference change amount for a predetermined time set in advance, the elderly living alone determine that it is in a dangerous state or unconscious state.

The reference change amount is an average change amount of the data value (integrated value) of the meters during the set time, assuming that the elderly living alone live normally. Therefore, if the amount of change in the data value of the received meter for the set time is less than the reference change amount, it can be determined that the activity of the elderly living alone is not normal. In other words, it can be determined that power, water, and gas are not used because they fall down or cannot move. In this case, the monitoring server 40 notifies an alarm or transmits a dangerous state to those caring for the elderly living alone, thereby enabling a quick response.

On the other hand, the monitoring server 40 determines the state of the elderly living alone by comparing the number of times of detection and the reference number of the received sensors 20 for a preset time. As a result of the comparison, if the number of times of detection of the received sensors is less than the reference number of times for a predetermined time set in advance, the elderly living alone determine that they are currently in a dangerous state or unconscious state.

The number of times is the average number of detections of the sensors during the set time, assuming that the elderly living alone is normal. Therefore, when the number of detection of the received sensors is less than the reference detection number for the set time, it can be determined that the activity of the elderly living alone is not normal. That is, it may be determined that the door is not detected by the door open sensor or the human body sensor because it is not collapsed or moved. In this case, the monitoring server 40 notifies an alarm or transmits a dangerous state to those caring for the elderly living alone, thereby enabling a quick response.

The reference change amount or reference number is determined differently for each time zone of the day. The reason for this is that elderly people living alone differ in their activity. For example, since it is bedtime from 10 pm to 6 am of the next day, the reference change amount or reference count will be almost "0". Such reference change amount or reference number may be determined by experiment and experience in advance.

1 is an overall configuration of the elderly monitoring system using the PSTN according to an embodiment of the present invention.

2 is a detailed configuration diagram of a gateway applied to an embodiment of the present invention.

3 is an exemplary diagram of a data table stored in a storage unit applied to an embodiment of the present invention.

4A and 4B are structures of data processed by a data processing unit applied to an embodiment of the present invention.

Explanation of symbols on the main parts of the drawings

10: meters 11: water meter

13: power meter 15: gas meter

20 sensors 21 water opening sensor

23: human body detection sensor 30: gateway

31: first receiving unit 32: second receiving unit

33: storage 34: data processing

35 control unit 36 transmission unit

40: monitoring server

Claims (8)

In the elderly living monitoring system using PSTN, Meters installed in the house where the elderly living alone; Sensors installed in the house where the elderly living alone; A gateway which collects data from each meter and each sensor, processes and outputs the data to a PSTN; Including the monitoring server for periodically monitoring the status of the elderly living alone by storing and analyzing the processed data input through the PSTN, The gateway may include a first receiver configured to receive data transmitted from the meters, a second receiver configured to receive data transmitted from the sensors, a storage unit configured to store data received from the first receiver and the second receiver, and A data processing unit which periodically processes data stored in a storage unit, a controller which controls the received data to be stored in the storage unit, and controls the stored data to be processed by the data processing unit periodically; Including a transmitter for outputting to the PSTN under the control of the controller, The control unit controls the received data to be stored in the storage unit corresponding to the ID of the meter or sensor that has delivered the received data, and periodically, the ID of the meter or sensor stored in the storage unit and the data corresponding to the ID. After inputting, it is provided to the data processing unit together with the ID of the gateway, The data processing unit sorts the data corresponding to the ID of the gateway, the ID of the meter or the sensor, and the ID of the meter or the sensor in order, and transmits the data to the transmitter under the control of the controller. Elderly monitoring system alone. delete delete delete delete delete delete The method according to claim 1, The monitoring server determines the state of the elderly living alone by comparing the change amount of the data value and the reference change amount of the meter for a preset time or by comparing the number of detection and the reference number of the sensors. Elderly monitoring system.

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