KR20190051497A - System and method for managing patients and weak people using multiple sensors - Google Patents

Abstract

According to the present invention, a system for managing a patient and a weak person using a plurality of sensors comprises: a plurality of sensor units for generating an electrical signal in response to an external stimulus; a relay unit for collecting a plurality of pieces of sensed information generated from the plurality of sensor units and classifying the sensed information according to a predetermined criterion; and a gateway for converting the sensed information classified from the relay unit into service information and transmitting the converted service information.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a system and method for managing patients and abbreviations using a plurality of sensors,

The present invention relates to a system and method for managing patients and senior citizens using a large number of sensors, and more particularly, to a method and system for managing data collected by a large number of sensors in real time, and collecting and utilizing such data.

Recently, the healthcare industry has been rapidly growing with the development of information and communication technology (ICT) technology, aging society, and income increase. In the past, if the healthcare industry was centered on the treatment of specific patients, it is now expanding into areas that are managed through patient-tailored management.

In addition, there is a high probability that diseases or accidents will occur in the case of infants who do not have self-protection ability and expressive ability, do not have physical development, and persons with disabilities who are restricted in daily activities and have discomfort in their behavior. Therefore, sudden death, discovery of the early symptoms of the disease, prevention of accidents should be done by the guardian, but it is practically impossible for the medical staff of the hospital to always concentrate and monitor everything to the infant or the patient.

The guardian observes the condition of the infant or the patient visually, but if it is necessary to concentrate on sleeping time or other things, it may not be noticed for a long time that an unexpected situation occurs.

As the development of the wearable sensor and the development of the network technology, a technology for continuously monitoring the condition of the infant or the patient is provided with a temperature sensor and a pulse sensor, and is equipped with various sensors such as a band or a thermometer . These devices often measure the pulse, temperature, etc. of the infant or patient being worn and deliver the measured data to the caregiver over the network.

In the conventional service, the service for the infant or the patient is provided by using a single sensor device to provide a short message or notification information using a mobile application. For example, when the location information device provides notification information including location information when an event occurs to an infant or a patient, or when the column measured by the thermal sensor device capable of measuring a column goes up above a certain threshold, Lt; / RTI >

The conventional service platform is generally composed of one terminal device, an application server, and an application of a user who is provided with the service.

In addition, the form of providing information collected by the conventional sensor is generally composed of a single sensor information and a plurality of users. That is, one measurement information is configured such that a person who needs a lot of information is connected to a network or provided with an application.

However, when a large amount of different information is collected and processed, the amount of measurement data is large, and interworking is difficult due to different sensor interfaces, and information accuracy may be deteriorated. In addition, in a space where a large number of sensors such as hospitals need to be utilized, a large amount of different sensors and various kinds of applications and software for integrating them are required, which inevitably leads to an increase in costs and inefficiency.

Accordingly, there is a need for a technique that can easily process a large amount of information collected from a large number of sensors and sensors.

The present invention provides a method for managing patients and abbreviations using a plurality of sensors, so that important information can be easily handled in a hospital or the like where a large amount of information is generated.

The present invention provides a patient and abbreviated management system using a plurality of sensors to provide quick assistance to people who are uncomfortable with their behavior or need management and help.

The technical problems of the present invention are not limited to the above-mentioned technical problems, and other technical problems which are not mentioned can be clearly understood by those skilled in the art from the following description.

A method of providing a management service using a plurality of relay apparatuses provided in a relay unit of the present invention is characterized in that the first relay apparatus includes a step of waiting for reception of a plurality of pieces of sensing information generated from the plurality of sensors, The apparatus of claim 1, wherein the device receives the plurality of pieces of sensing information and determines validity of sensing information received at the same time from the same sensor among the received sensing information, Classifying the sensed information and changing the valid sensing information into a transmission packet, and the first relay device transmits the transmission packet to the second relay device adjacent to the first relay device together with the reception device identification information of the relay part The method comprising the steps of:

The step of determining the validity of the present invention may include the step of the first relay device removing invalid detection information if the received detection information is not valid.

After transmitting the transmission packet of the present invention to the second relay apparatus adjacent to the first relay apparatus together with the receiver identification information of the relay unit, the second relay apparatus transmits the transmission packet including the detection information and the transmission packet Waiting for delivery of the reception apparatus identification information of the relay unit, receiving the transmission packet and the identification information from the second relay apparatus, and determining the validity of the transmission packet and the identification information, Transmitting the valid transmission packet and the identification information to a third relay device or a gateway existing in a predetermined range, and receiving the transmission acknowledgment signal from the third relay device or the gateway by the second relay device .

When the valid transmission packet and the identification information of the present invention are transmitted to the third relay device, after the step of transmitting the transmission acknowledgment signal to the first relay device, Waiting for reception of a transmission packet and identification information including detection information from a relay apparatus which is connected to the relay apparatus, the second relay apparatus judging validity of two or more identical pieces of detection information among the received identification information, The second relay apparatus transmitting valid transmission packets and identification information to the gateway according to the comparison result, and the second relay apparatus receiving the transmission confirmation signal of the valid transmission packet and the identification information from the gateway .

The step of judging the validity of the present invention is characterized in that the second relay device includes a step of removing invalid identification information when the received identification information is not valid.

The second relay apparatus of the present invention is characterized in that it comprises the step of transmitting an error signal to the relay apparatus which has provided the invalid identification information.

The step of receiving the transmission acknowledgment signal of the present invention includes the step of the second relay apparatus transmitting the transmission acknowledgment signal to the relay apparatus provided with the transport packet and the identification information.

The step of determining the validity of the present invention is characterized by comparing RSS (Received Signal Strength) value measurements of the received information to determine validity.

A method of providing a management service using the conversion device of the present invention includes receiving a plurality of sensing information generated at a predetermined time interval from a plurality of wired sensors, receiving the sensing information, And transmitting the normalized sensed information to the relay unit or the gateway at a predetermined time interval.

The step of receiving the plurality of pieces of sensing information according to the present invention further includes the steps of: normalizing the sensing information according to preset reference information when the sensing information reaches a predetermined time interval from the plurality of wire sensors, And transmitting the data.

The conversion device of the present invention includes a sensor device transceiver for receiving a plurality of pieces of sensing information generated at a predetermined time interval from a plurality of wire sensors, a central processing unit for normalizing the received sensing information according to preset reference information, A wireless data transmitting and receiving unit for transmitting information to a relay unit or a gateway, and an operating unit for controlling the sensor device transmitting and receiving unit, the central processing unit, and the data transmitting and receiving unit.

The central processing unit of the present invention normalizes the sensing information according to preset reference information when the sensing information reaches a predetermined time interval from the plurality of wire sensors and the wireless data transmitting / To the mobile station.

The preset reference information of the present invention includes a plurality of sensed information reception times transmitted by the plurality of wire sensors.

A patient and abbreviation management system using a plurality of sensors according to the present invention includes a plurality of sensor units for generating an electrical signal in response to an external stimulus, a plurality of sensor information generated from the plurality of sensor units, And a gateway for converting the sensed information classified from the relay unit into service information and transmitting the converted service information.

The relay unit of the present invention includes a plurality of relay apparatuses, wherein the plurality of relay apparatuses include: a first wireless communication unit that receives a plurality of pieces of sensing information generated from the plurality of sensor units; A central processing unit for determining the validity of the plurality of pieces of detection information, and classifying the plurality of valid detection signals, and a second wireless communication unit for transmitting the plurality of classified detection information.

The sensor unit of the present invention may include a first sensor device that senses the external stimulus and generates an electrical signal according to a predetermined time, a second sensor device that generates an electrical signal when the external stimulus occurs, And a communication unit for transmitting a plurality of pieces of sensing information including identification information of the device to the relay unit.

The first sensor device and the second sensor device of the present invention may further include a conversion device that receives a plurality of pieces of sensing information, converts the sensed information according to a predetermined reference, and transmits the sensing information to the relay unit.

The service platform further includes a service platform that utilizes the converted service information of the present invention, and the service platform includes a service management unit that manages the sensor unit, the relay unit, and the gateway.

A method for managing a patient and an abbreviation using a plurality of sensors performed by a gateway of the present invention includes receiving sensing information from a relay unit, determining validity of the sensed information, and transmitting the reception state to the relay unit, Converting the sensing information recorded in the buffer into service information, and transmitting the converted service information to the outside utilizing the service information.

The transmitting step of the present invention may include removing the detection information recorded in the buffer when receiving a transmission completion signal from the outside.

The step of determining the validity of the present invention is characterized in that validity is determined by comparing measured RSS (Received Signal Strength) values of two or more identical pieces of sensed information among the received sensed information.

According to the present invention, it is possible to reduce the cost of utilizing a plurality of sensor information.

According to the present invention, a large amount of information generated by a plurality of sensor information can be accurately used without being duplicated.

According to the present invention, a plurality of sensors can be interlocked easily and can be managed easily.

According to the present invention, a plurality of sensors can be fused to enable more precise and accurate measurement, thereby providing a safe and high-level care service.

The effects of the present invention are not limited to the effects mentioned above, and other effects not mentioned can be clearly understood to those of ordinary skill in the art from the following description.

1 is a diagram schematically showing a configuration of a system that is provided with a service using a conventional wireless sensor.
2 is a diagram schematically showing a configuration of a system which is provided with a service using a conventional wire sensor.
3A is a diagram showing a part of the configuration of a patient and the abbreviation management system using a plurality of sensors according to the present invention.
3B is a diagram showing the overall configuration of a patient and the abbreviation management system using the plurality of sensors of the present invention.
4 is a view schematically showing a configuration of a sensor unit according to a first embodiment of the present invention.
5 is a flowchart illustrating a process of transmitting sensed information by the sensor unit according to the first embodiment of the present invention.
6 is a view schematically showing a configuration of a sensor unit according to a second embodiment of the present invention.
7 is a flowchart illustrating a process of transmitting sensed information by the sensor unit according to the second embodiment of the present invention.
8 is a view schematically showing the overall configuration of the wire sensor unit of the present invention.
9 is a view schematically showing a configuration of a sensor unit according to a third embodiment of the present invention.
10 is a diagram schematically showing a signal processing configuration of a sensor unit according to a third embodiment of the present invention.
11 is a view schematically showing a configuration of a conversion apparatus for managing information of wired sensors according to the present invention.
12 is a flowchart illustrating a process in which a conversion apparatus for managing information of wired sensors of the present invention processes and provides information.
FIG. 13 is a diagram schematically showing a configuration of a relay unit that performs a data collection function and a data transfer function according to the present invention.
FIG. 14 is a flowchart illustrating a data processing procedure of a first relay apparatus that performs a data collection function of the present invention.
FIG. 15 is a flowchart illustrating a data relay process of a first relay device that performs a data transfer function according to the present invention.
16 is a flowchart illustrating a data processing procedure of a second relay apparatus that performs the data collection function of the present invention.
17 is a diagram schematically showing a configuration of a gateway according to the present invention.
18 is a flowchart illustrating an information processing process performed by the gateway of the present invention.
FIG. 19 is a diagram showing a configuration of a service platform of the present invention and its functions.
20 is a flowchart illustrating a process in which the service platform of the present invention receives and processes sensor information.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings in order to clarify the technical idea of the present invention. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a block diagram of a computer system according to an embodiment of the present invention; Fig. For convenience of explanation, the apparatus and method are described together when necessary.

Conventional care services for the care of the patient, the elderly, and infants were provided for the purpose of exchanging information between the guardian and the guardian. This service is a method in which the devices and devices measured by the protected persons are provided to the caregivers in a mobile application notification, a text format, or a service manager server.

1 is a diagram schematically showing a configuration of a system that is provided with a service using a conventional wireless sensor. Referring to FIG. 1, a user who subscribes to a specific service installs an application provided by a service provider for using the service, and has a device 101 for measuring information.

For example, in order to grasp the positional information of the protected person requiring protection, the protected person attaches or holds the apparatus 101 for measuring information to the body. The information measuring apparatus 101 transmits position information to the portable device 103 or the base station 105 to which the apparatus 101 is linked. The service provider server 107 is provided with the location information of the information measuring apparatus 101 or the portable device 103 through the base station 105. The service provider server 107 processes the location information and transmits the location information to the protector's portable terminal Available in various formats.

A method of providing location information is performed through an application installed in a portable terminal of a guardian. The service provider server 107 displays various kinds of services such as display 109 on the map, providing the status of the protected person 111 with the address information of the corresponding location, notifying the user 113 of leaving the specific location, And provides it to the portable terminal of the user subscribed to the service.

When the information measuring apparatus 101 is a device for measuring the body temperature, a periodic body temperature value is transmitted or a sudden change in body temperature is transmitted through the portable device 103 or the base station 105 interlocked with the information measuring apparatus 101 To the provider server (107). The provider server 107 processes the information and provides it to the application installed in the protected terminal.

2 is a diagram schematically showing a configuration of a system which is provided with a service using a conventional wire sensor. Referring to FIG. 2, a method using a wire sensor may be similar to the wireless sensor of FIG. A device 201 equipped with a wire sensor is installed in a place where measurement is required and connected to the network 203 via a LAN or Wi-Fi to transmit measurement data when a periodic or event occurs. The provider server 205 connected to the network 203 processes the measurement data and transmits the service information processed by the service platform 207 to the portable device 209 or the PC server 211 of the service user.

As described above, a system for providing information using a conventional measurement device including a sensor is composed of one sensor information and a plurality of service system users. That is, one measurement information is provided to a person who needs a large amount of information by being connected to a network or using an application.

However, there is a problem that it is difficult to use a conventional system when there is a plurality of sensor information other than one sensor information and it is necessary to utilize it. Not only is there a lot of data, but it can be difficult to interwork with each other due to different sensor interfaces and the accuracy of information may be lowered.

Hereinafter, a method for integrating a large amount of information provided from a plurality of sensors and providing a service using the same will be described.

FIG. 3A is a view showing a part of the configuration of a patient and abbreviation management system using a plurality of sensors according to the present invention, and FIG. 3B is a diagram showing an overall configuration of a patient and abbreviation management system using a plurality of sensors according to the present invention. 3A and 3B, a patient and abbreviation management system 1 using a plurality of sensors includes a sensor unit 30, a relay unit 40, a gateway 50, a service platform 60, a service monitoring unit 70 Connection networks 80a and 80b, and service user devices 90a and 90b. However, the present invention is not limited thereto, and additional elements may be added to constitute the present invention.

The sensor unit 30 may include a first sensor device 301 and a second sensor device 303. The first and second sensor devices 301 and 303 may be composed of a plurality of wireless sensors and a plurality of wire sensors. The sensor unit 30 collects electrical signals, that is, status information, in response to external stimuli of the patient, the elderly, and infants (hereinafter, referred to as protected persons), and provides the collected status information via the network.

In the present invention, the sensor unit 30 may be composed of sensors for detecting the state of the protected person, the environment of the protected person, the position, and the like. Each sensor unit 30 transmits the corresponding information . For example, the sensors may include a position sensor for detecting the position of the subject, an action sensor for detecting the state of the subject, a heartbeat sensor, a body temperature sensor, and a urine sensor.

Each of the sensors includes a first sensor device 301 attached to the body of the person to be protected and capable of detecting movement, that is, a second sensor device installed at a specific position such as a wireless sensor and environment, vibration, 303, i.e., a wire sensor.

In the present invention, the first sensor device 301 may be a Bluetooth communication device, a Bluetooth low energy communication device, a near field communication device, a WLAN communication device, a Zigbee communication device, an infrared (IrDA) The present invention is not limited thereto, and may be connected to the relay unit 40 by using one of Data Association (WFD) communication, WFD (Direct Wavelength) communication, UWB (ultra wideband) communication and Ant + communication.

The first sensor device 301 may provide the sensor information to the relay unit 40 according to the periodic time or may provide the sensing information to the relay unit 40 when an event occurs.

Also, in the present invention, the second sensor device 303 may be connected to the relay unit 40 using RS485, RS422, RS232, or a LAN port, but is not limited thereto.

In the present invention, the sensor unit 30 may further include a conversion unit 305 for collecting and transmitting a large amount of sensor information to one transmission device. When the plurality of second sensor devices 303 are present or when the first and second sensor devices 301 and 303 are physically far away from the relay unit 40, they are directly connected to the relay unit 40 through the wire There are limits to doing so. In addition, cost problems such as cable installation, and recognition errors of state information provided from the first and second sensor devices 301 and 303 may occur. Accordingly, it is possible to securely transmit the information provided from the first and second sensor devices 301 and 303 by arranging the conversion device 305. [

According to the present invention, the conversion apparatus 305 may be configured with a communication interface unit (not shown) and a radio frequency (RF) transmission unit (not shown), and additional elements may be added to configure the present invention. According to an embodiment, the RF transmitter may be connected to the relay unit 40 in a wireless communication manner.

The relay unit 40 includes a communication interface for receiving the plurality of sensing information generated from the sensor unit 30 and providing it to the gateway 50 for providing the service platform 60 and the service monitoring 70 can do. According to the embodiment, the communication interface of the relay unit 40 can be configured in a plurality of communication interface types so as to be connected to each of the plurality of relay apparatuses.

Also, the communication interface may be a Bluetooth communication, a Bluetooth low energy (BLE) communication, a near field communication, a WLAN communication, a Zigbee communication, an IrDA communication, a WFD But may be connected to the gateway 50 using one of Wi-Fi Direct (UWB) communication, UWB (ultra wideband) communication, and Ant + communication.

In the present invention, the relay unit 40 can be finally transmitted to the gateway 50 using a data hopping method in which a plurality of pieces of sensing information generated from the sensor unit 30 pass through a plurality of repeaters have.

According to the embodiment, the relay unit 40 may be constituted by the first relay device 41 and the second relay device 42. [ More specifically, the first, second and third repeaters 41, 43 and 45 comprise 1-1 ^st , 2-1 ^st , 3-1 ^st repeaters, ^1-2nd , ^2-2nd , 3-2 ^nd relay device, 1-3 ^th , 2-3 ^th , 3-3 ^th And a plurality of relay devices such as a relay device. More repeaters can be provided. Accordingly, the sensing information collected from the plurality of sensors can be transmitted without redundant information using a plurality of relay apparatuses.

The gateway 50 may receive information from the relay unit 40, convert the information into a service information format, and transmit the service information. The gateway 50 may include a communication interface that can be connected to the last relay device and the service platform 60 of the relay unit 40, the service monitor 70. The communication interface of the gateway 50 may be the same as the communication interface format of the relay unit 40 mentioned above.

The service platform 60 may collect, analyze, process, and transmit service information provided from the gateway 50 to the service user devices 90a and 90b through the connection networks 80a and 80b.

Also, the service monitoring 70 can supervise the entire patient and the abbreviated management system 1 using a plurality of sensors.

Hereinafter, the configuration of the various sensor units 30 of the present invention and the operation process thereof will be described.

FIG. 4 is a view schematically showing a configuration of a sensor unit according to the first embodiment of the present invention, and FIG. 5 is a flowchart illustrating a process of transmitting information sensed by the sensor unit according to the first embodiment of the present invention. 4 and 5, the sensor unit according to the first embodiment includes a control unit 401, an operation sensing unit 403, a central processing unit 405, a power unit 407 And a wireless communication unit 409.

The first sensor device 301 is for sensing the position and movement of the subject in the room, and may be attached to the body of the subject who is inconvenient. For example, the first sensor device 301 can be manufactured in such a form that it can be easily separated from the body of the person to be protected, such as a band type or an annular type.

The operation unit 401 of the first sensor device 301 can receive a signal from a guardian other than the protected person or the system management server and turn on / off the sensor. In addition, when an urgent situation occurs to the protected person using the operation unit 401, the emergency call signal can be transmitted.

The motion detection unit 403 can sense motion of the protected person. That is, it can respond to external stimuli such as movement. Accordingly, the central processing unit 405 can generate electrical signals and data in response to external stimuli.

The wireless communication unit 409 can transmit the data generated by the central processing unit 405 to the relay unit 40. In the present invention, the wireless communication unit 409 can repeatedly transmit data to the relay unit 40 with a short period. In this process, the wireless communication unit 409 can transmit the identification number of the first sensor device 301 together with the data and the data number.

In order for the first sensor device 301 to transmit data, the control unit 401 initializes the previously collected information together with the sequence number that the operation unit 401 performed until power-off, at the time when the first sensor device 301 is activated (S501 , S503). According to the embodiment, the operation unit 401 can initialize the advertisement packet of the first sensor device 301. [

The wireless communication unit 409 starts transmission of an advertisement packet containing data (S505). The wireless communication unit 409 repeatedly performs packet transmission by a predetermined number of times, and increases the data number of the first sensor device 301 by 1 (S509, S511).

After the data number is incremented, if the motion detection unit 403 detects movement of the protected object (S513), the packet transmission is again initiated and transmission can be repeatedly performed.

If the motion detection unit 403 does not detect the motion of the protected person after the data number increase, it is determined whether the predetermined motion detection waiting time is exceeded (S515). If there is no movement of the protected person during the waiting time, the packet transmission is restarted. If the waiting time is within the waiting time range, the movement of the protected person is waited.

As described above, it is possible to provide information on the movement of the protected person by repeating the predetermined period and the number of times. However, in the case where a movement beyond the reference occurs to the protected person, the data can be transmitted regardless of the period.

In addition, it is preferable that the above-mentioned packet transmission protocol is configured to match the reception interface of the relay unit 40. [

The relay unit 40 for receiving the data transmitted by the first sensor device 301 transmits the first signal to the first sensor device 301 based on the received signal strength (RSS) The position of the sensor device 301 can be grasped.

FIG. 6 is a view schematically showing a configuration of a sensor unit according to a second embodiment of the present invention, and FIG. 7 is a flowchart illustrating a process of transmitting information sensed by a sensor unit according to a second embodiment of the present invention. 6 and 7, the sensor unit according to the second embodiment includes a control unit 601, a state sensing unit 603, a signal processing unit 605, a power source unit 607, And a communication unit 609. [

According to the embodiment, the second sensor device 303 can not be changed in position, such as a urine sensor for detecting the urine state of the protected person, an electrocardiogram sensor for measuring the heartbeat of the protected person, and an electromyography sensor for detecting the movement of the muscle, Lt; / RTI >

The operation unit 601 of the second sensor device 303 can receive a signal from the system management server and turn on / off the sensor. For example, when the second sensor device 303 is an electrocardiogram sensor, the state detection unit 603 can detect the periodic heartbeat number of the patient, the change in the heartbeat, and the like.

The electrical signal for the external stimulus collected by the state sensing unit 603 can be processed by the signal processing unit 605 and packetized.

The communication unit 609 can transmit the packet generated by the signal processing unit 605, that is, the data, together with the identification number of the second sensor device 303, to the conversion apparatus 305 or to the relay unit 40. Also, in the present invention, the communication unit 609 may be connected to a wired port to transmit information or transmit information in a wireless manner.

When a power supply signal is received by the operation unit 601, the second sensor unit 303 waits for an external detection signal and checks whether state information such as a heartbeat change is received (S701, S703). When a signal is detected from the outside, the signal processing unit 605 transmits a packet including the identification information of the second sensor device 303 and the time information of the detection signal, together with the detection signal, the information detected by the state detection unit 603 And transmits it to the relay unit 40 (S805, S707).

The signal processing unit 605 may repeatedly perform packet transmission by a predetermined number of times (S709). This is for the case where packet loss occurs in the process of transmitting a packet by the communication unit 609. If a packet is transmitted more than a predetermined number of times, packet transmission is initiated (S711), and the status information of the protected Wait to come.

8 is a view schematically showing the overall configuration of the wire sensor unit of the present invention. Referring to FIG. 8, it is possible to provide a configuration that measures information of protected persons using a wire sensor and integrates them in a hospital where many protected patients are uncomfortable.

According to an embodiment, the condition of the protected person lying on the bed can be measured using the bed of the protected person. Accordingly, the bed mat sensor 801, the CCTV 803, the radar sensor 805, the oxygen saturation 807, and the heart rate sensor 809 can be constituted by a wired sensor capable of measuring the state of the protected person, And an environment sensor 811 capable of measuring the surrounding environment of the display device 820. However, the present invention is not limited thereto.

In the present invention, a large amount of wired sensors is for one protected person, and a conversion device 305 may be provided to packetize information measured by a large amount of wired sensors into one piece of information.

FIG. 9 is a view schematically showing a configuration of a sensor unit according to a third embodiment of the present invention, and FIG. 10 is a view schematically showing a signal processing configuration of a sensor unit according to a third embodiment of the present invention. Referring to FIGS. 9 and 10, the sensor unit according to the third embodiment may be a bed mat sensor 801 that can be laid by a person to be protected.

A typical matte sensor uses a single pressure sensor to measure external forces and transmit data when an event occurs. The bed mat sensor 801 according to the third embodiment of the present invention may be provided with a plurality of divided sensors for measuring detailed information on how the subject is lying, sitting, or departing.

The position sensing sensor 901 can detect the shape of the mat covered with the sensors 1, 2, and 3 (903, 905, and 907) of three or more rows per one separate mat in the mat. For example, if the protected person is lying over the entire area of the bed mat,

Signals are generated in all of the first, second and third sensors 903, 905 and 907 and the generated data of the electric signal is supplied to the converting device 305 through the communication part 909, Can be collected. In addition, the number of sensors can be increased if a more detailed state of the robot is to be detected.

The needle bed mat sensor 801 is controlled by the operation unit 1005. When each sensor disposed on the separated mat senses a signal by an external stimulus, that is, the movement of the subject, the signal processing unit 1003 controls the center And transmits it to the processing unit 1007.

The central processing unit 1007 processes the information reception time, the sensor identification number, the pressure values of the plurality of sensors 903, 905, and 907, and the data transmission / reception unit 1009 transmits the processed information to the conversion apparatus 305 . The conversion device 305 may convert the wired signal to a radio signal and transmit it directly to the relaying unit 40 or the service platform 60.

According to an embodiment, the service platform 60 can predict the state of the protected object in the bed mat sensor 801 by taking the provided information into consideration of the lateral and the row of the plurality of pressure sensors. In order to more accurately grasp the state of the protected person, data (data) is generated by using the CCTV 803, the radar sensor 805, the oxygen saturation 807, the heart rate sensor 809, and the environment sensor 811 connected to the conversion device 305 Lt; / RTI >

In addition to the sensor units of the first, second, and third embodiments described above, the same method can be applied to the request of a guardian or an additional sensor unit.

11 is a view schematically showing a configuration of a conversion apparatus for managing information of wired sensors according to the present invention. 11, the conversion apparatus 305 receives information obtained from a plurality of wired sensors and converts the received information into wireless signals. The apparatus includes a sensor transmission / reception unit 1101, a central processing unit 1103, a wireless data transmission / And an operation unit 1107. [

The sensor transmitting / receiving unit 1101 can receive sensor information of each of the sensor device 1, the sensor device 2, the sensor device 3, and the sensor device 4. According to an embodiment, the sensor transceiver 1101 may be connected to a wired port.

The central processing unit 1103 transmits the information received by the sensor transmitting / receiving unit 1101 according to the wireless communication standard, and transmits the different status information provided from the plurality of sensors to the central processing unit 1103 according to the reference information (e.g., time) In accordance with the format of the data. In addition, when an event signal is detected from one of the plurality of sensors, the notification can be generated together with the information transmitted from the sensor.

Accordingly, the control unit 1107 transmits the notification together with the information of the wireless data transmission / reception unit 1105 to the outside, and the operation unit 1107 can control the operation states of the plurality of sensors connected to the conversion unit 305. According to the embodiment, an external terminal can be connected to the conversion device 305 so that the operation unit 1107 of the conversion device 305 can control and set a plurality of sensors.

12 is a flowchart illustrating a process in which a conversion apparatus for managing information of wired sensors of the present invention processes and provides information. 12, the sensor transceiver 1101 of the transducer 305 receives data from the sensor devices 1, 2, 3, and 4 every preset time, or waits to receive data when an event signal is detected (S1201).

The central processing unit 1103 receives the sensor data and generates it as a normalized packet (S1203). The generated packet is transmitted to the outside by the wireless data transmitting / receiving unit 1105 (S1205).

In the present invention, the operation unit 1107 does not receive the sensor data, and transmits an initialization command when it detects an error of the sensor devices 1, 2, 3 and 4 (S1207).

Further, when the conversion device 305 finishes transferring information to the outside, it can initialize the data again and return to the standby state.

FIG. 13 is a diagram schematically showing a configuration of a relay unit that performs a data collection function and a data transfer function according to the present invention. Referring to FIG. 13, the relay unit 40 includes a wireless data collecting apparatus 1301 receiving various kinds of sensor signals, a wireless data collecting unit 1302, And a transmitting device 1303.

In the configuration of the relay unit 40 in FIG. 3A, the first relay apparatus, the second relay apparatus, and the third relay apparatus of the first relay apparatus have the same function and shape, but they can be set to perform different functions. Accordingly, as shown in FIG. 13, the relay unit 40 can be divided into a collection device and a delivery device.

More specifically, the operation unit 1307 activates the first wireless communication unit 1305 so that the collecting apparatus 1301 of the relay unit 40 receives the sensing signal. Accordingly, the collecting device 1301 may serve as a first relay device for receiving the sensor signals.

When the second wireless communication unit 1309 is activated and the other wireless communication units 1305 and 1311 are disabled in the operation unit 1307, And can serve as a relay device.

In the present invention, the third wireless communication unit 1311 can serve as a spare communication unit when an error occurs in another communication unit of the collecting device 1301. [

The central processing unit 1313 as the collecting apparatus 1301 can rearrange the validity of the collected sensor information and the information received by the relay unit 40 in accordance with the format and transmit the information to the delivery apparatus.

Also, when the operation unit 1307 activates both the first wireless communication unit 1305 and the second wireless communication unit 1309, the first wireless communication unit 1305 can operate when a signal is generated from the sensor. The second wireless communication unit 1309 can process the information requesting the modified relay from the other relay unit 40. [

FIG. 14 is a flowchart illustrating a data processing procedure of a first relay apparatus that performs a data collection function of the present invention. Referring to FIG. 14, the first relay device activates the first wireless communication unit 1305 in the operation unit 1307 to perform the data collection function.

Accordingly, the process waits to receive a plurality of pieces of sensing information generated from a plurality of sensors (S1401). In the present invention, the information of the sensor received from the plurality of sensors may include a measurement value of each sensor, a sensor identification number, and in the case of a sensor transmitting the same data as the reception time periodically, Strength values.

The detection information is received, and validity determination is performed on the detection information received at the same time (S1407). According to the embodiment, the RSS value is compared to maintain the largest value, and the lower value information is discarded. That is, low-value information can be determined as invalid information.

In the present invention, if the received sensing information is not valid, invalid sensing information can be removed from the collecting device. In addition, an error signal is transmitted to a sensor that provides invalid detection information (S1405).

And transfers the maximum value to the receiving apparatus 1301 while attaching the unique ID of the receiving apparatus 1301 while changing the largest value to the format to be transmitted to the transmitting apparatus 1303. [

According to the validity determination, the valid detection information is changed to a transmission packet (S1407). According to the embodiment, the transmission packet including the valid detection information may be transmitted together with the identification information of the first relay device performing the collection function. The identification information may be used as data for determining the place where the relay unit 40 is installed in the service platform 60.

The generated transmission packet and the identification information of the first relay device are transmitted to the first relay device performing the transfer function (S1409).

FIG. 15 is a flowchart illustrating a data relay process of a first relay device that performs a data transfer function according to the present invention. Referring to FIG. 15, the first relay device activates the second wireless communication unit 1309 in the operation unit 1307 to perform a data transfer function.

Accordingly, the first relay apparatus waits to receive the transmission packet and the identification information of the relay unit (S1501).

As described above, since a large amount of sensing signals are transmitted from a plurality of sensors, and there are many pieces of identification information of the transmitted transmission packet and the relay unit, another validity determination is performed (S1503).

In the present invention, when the validity judgment is transmitted at the same time in the same sensor, or when it is judged to be duplicated information, the RSS value may be compared to store the highest value and remove the remaining lower value. Accordingly, error information can be transmitted to a transmission packet having a low value (S1505)

According to the validity determination, the valid information is transmitted to a plurality of next relay units existing in a predetermined range (S1507).

The relay apparatus of the relay unit waits for reception of the transmission confirmation signal in order to determine that the next relay unit has reliably received the information (S1509).

When the next relay unit transmits a transmission acknowledgment signal, the relay unit of the relay unit notifies the collecting unit that the transmission has been confirmed, and the series of relay process ends (S1511).

In this way, the relay unit 40 can perform a process of reliably transmitting only reliable information that is not duplicated, and can prevent confusion in the information processing process because a large amount of information also undergoes a plurality of processes .

16 is a flowchart illustrating a data processing procedure of a second relay apparatus that performs the data collection function of the present invention. Referring to FIG. 16, the second relay device activates the second wireless communication unit 1309 in the operation unit 1307 to perform a data transfer function.

Accordingly, the second relay apparatus waits for receiving the transmission packet and the identification information of the relay unit (S1601).

In the present invention, identification information of a transmission packet and a relay unit is received from a relay unit existing within a plurality of predetermined ranges, and verification may be required.

Upon receipt of the identification information of the transmission packet and the relay unit, it is judged whether the received information is valid information or not (S1603).

According to an embodiment, the identification information may be verified and validation verification may be performed to compare RSS values when two or more identical transport packets are received. Accordingly, an error signal is transmitted to the relay unit which has transmitted the invalid information (S1605).

The valid information is transmitted to another relay unit or gateway existing in a predetermined range (S1607).

 After transmitting the information, the relay unit or the gateway waits for the reception of the transmission confirmation signal (S1609).

Upon receiving the transmission acknowledgment signal from the device, the transmission acknowledgment signal is transmitted to the relay unit which has provided the valid information, and the next reception is waited (S1611). At this time, according to the validity verification, the same transmission packet can be removed, the data capacity can be reduced, and a series of relaying processes are terminated.

In this way, since the relay unit is configured with a mesh structure, it is possible to determine the validity of the received signal, the overlapping sensing signal (signal receiving time, identification number), and the RSS unit of the relay unit The data capacity can be reduced while maintaining accurate information provided by the mobile terminal 30.

17 is a diagram schematically showing a configuration of a gateway according to the present invention. 17, the gateway 50 may include a wireless data transmission / reception unit 1701, an operation unit 1703, a central processing unit 1705, and a data transmission / reception unit 1707.

In the present invention, the wireless data transmission / reception unit 1701 can receive the signal transmitted from the relay unit 40. [

The central processing unit 1705 can perform software upgrading and remote reset of the central processing unit 1313 of the relay unit 40 and the central processing unit 1103 of the conversion apparatus 305 using the wireless data transmission and reception unit 1701 . In addition, it can communicate with the wireless data transmitting / receiving unit 1701 to determine the validity, and the service platform can generate the service information in a desired format.

In the present invention, the data transmission / reception unit 1707 can transmit the generated service information to the service platform 60.

18 is a flowchart illustrating an information processing process performed by the gateway of the present invention. Referring to FIG. 18, the wireless data transmitting and receiving unit 1701 of the gateway 50 waits for reception of sensing information from the relay unit 40 (S1801). In the present invention, the detection information may include identification information of the transmission packet and the relay unit.

The gateway 50 also receives a large amount of sensing information from the plurality of repeaters 40. The central processing unit 1705 determines whether the sensing information is valid information (S1803).

The wireless data transmitting and receiving unit 1701 of the gateway 50 further transmits the reception status of the information to the plurality of relay units 40 (S1805). According to the present invention, there is provided a management system (1) for detecting a state of a plurality of protected persons with a sensor unit (30) including a large amount of sensors and a relay unit (40) have.

The central processing unit 1705 selects the largest RSS value among the redundant detection information (S1807). The detection information having the largest RSS value may be valid detection information, and after only valid detection information is detected, the central processing unit 1705 records the detection information in the buffer (S1809). This can be recorded in the form of raw data that can be provided immediately when a request for providing the detection information is received from the outside.

The central processing unit 1705 converts the detection information into service information (S1811). The service information may be in the form of information that can be immediately used in the service platform 60, which will be described later. For example, the service information may include an accurate value of the position and current state of the protected person.

The data transmission / reception unit 1707 transmits the generated service information to the outside (S1813). In the present invention, the outside may be a service platform 60 that can utilize service information.

When the transmission is completed, the reception of the transmission completion signal is waited (S1815). If the transmission completion signal is not received within a predetermined time range, the central processing unit 1705 removes the buffer record including the information (S1817). According to the embodiment, after receiving the transmission completion signal, the buffer recording can be stored for a predetermined time without removing the buffer recording. However, in order to continue to manage newly generated information, records can be removed.

In this way, the gateway 50 can finally confirm the electrical signals and data provided from the same sensor, the same sensor, transmitted from the final relay unit

FIG. 19 is a diagram showing a configuration of a service platform of the present invention and its functions. Referring to FIG. 19, referring to FIG. 19, a service platform 60 and a service monitoring 70 may include a guardian unit 90a and 90b. The service platform 60 may provide information to the protector units 90a and 90b by utilizing the service information received from the gateway 50. In addition to providing the information to the protector units 90a and 90b, And so on.

In addition, the service monitoring 70 can perform a function of managing a web and an application. In this way, the service platform 60 and the service monitoring 70 supervise the overall situation of the system, so that a large amount of information can be accurately performed.

20 is a flowchart illustrating a process in which the service platform of the present invention receives and processes sensor information. Referring to FIG. 20, the service platform 60 receives the service information from the gateway 50 and records the time when the data included in the service information is received (S2001, S2003).

 The service platform 60 determines whether the data included in the service information is provided from the sensor (S2005).

For example, if the sensor is a second sensor device fixed in position and is fixed, the provided value is stored (S2007), analyzed, and information is provided to the protector units 90a and 90b in a character or notification format (S2011) .

Further, after checking the threshold value for the provided value, information such as initialization is attempted to be changed (S2013)

As another example, when the sensor is a first sensor device having a variable sensor position, information provided at the time of occurrence of a periodic event or an event is checked, and a threshold value of the service information including the sensor information is checked.

If the sensor is the first sensor device providing position information, the service platform 60 extracts the position information from the provided information and confirms whether the position information is within a preset position range or a permitted position range (S2015).

In the case of the first sensor device providing position information according to the embodiment, the connection status is checked (S2017) to determine whether the information is correct.

The service platform 60 generates service information based on the location information detected by the first sensor device, and provides information on the character or notification format to the protector units 90a and 90b (S2019).

As described above, the service platform 60 performs individual determination on the finally received information and transmits the information to the protector units 90a and 90b, so that a user using the service can receive more reliable information.

The present invention can also be embodied as computer-readable codes on a computer-readable recording medium. The computer-readable recording medium includes all storage media such as a magnetic storage medium, an optical reading medium, and the like. It is also possible to record the data format of the message used in the present invention on a recording medium.

The present invention has been described in detail with reference to the preferred embodiments shown in the drawings. These embodiments are to be considered as illustrative rather than limiting, and should be considered in an illustrative rather than a restrictive sense. The true scope of protection of the present invention should be determined by the technical idea of the appended claims rather than the above description. Although specific terms are used herein, they are used for the purpose of describing the concept of the present invention only and are not used to limit the scope of the present invention described in the claims or the claims. Each step of the present invention need not necessarily be performed in the order described, but may be performed in parallel, selectively, or individually. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims. It is to be understood that the equivalents include all components that are invented in order to perform the same function irrespective of the currently known equivalents as well as the equivalents to be developed in the future.

1: patient and abbreviation management system
30:
305: conversion device
40:
50: Gateway
60: Service Platform
70: service server
80a, 80b:
90a, 90b: Protector

Claims (21)

A method for providing a management service by utilizing a plurality of relay apparatuses provided in a relay unit,
The first relay device waiting for reception of a plurality of pieces of sensing information generated from the plurality of sensors;
The first relay device receiving the plurality of pieces of sensing information and determining the validity of the sensing information received at the same time from the same sensor among the received sensing information;
The first relay device classifying the valid detection information according to the comparison result and changing the valid detection information into a transmission packet; And
The first relay apparatus transmitting the transmission packet together with the receiver identification information of the relay unit to a second relay apparatus adjacent to the first relay apparatus;
Wherein the plurality of sensors are used to manage patients and abbreviations using the plurality of sensors. The method according to claim 1,
The step of determining the validity may comprise:
The first relay device may further include: removing invalid detection information if the received detection information is invalid;
Further comprising the steps of: determining whether or not the patient is in a medical condition; The method according to claim 1,
After transmitting the transmission packet to the second relay apparatus adjacent to the first relay apparatus together with the receiver apparatus identification information of the relay unit,
Waiting for the second relay apparatus to transmit the transmission packet including the detection information and the receiver identification information of the relay unit;
Receiving, by the second relay apparatus, the transport packet and the identification information, and determining the validity of the transport packet and the identification information;
The second relay apparatus transmitting the valid transmission packet and the identification information to a third relay apparatus or a gateway existing in a predetermined range; And
The second relay device receiving a transmission confirmation signal from the third relay device or the gateway;
Wherein the plurality of sensors are used to manage patients and abbreviations using the plurality of sensors. The method of claim 3,
When the valid transmission packet and the identification information are transmitted to the third relay device,
After transmitting the transmission acknowledgment signal to the first relay device,
Waiting for the second relay device to receive a transmission packet and identification information including detection information from a relay device existing in a predetermined range;
The second relay device determining validity of two or more identical pieces of the sensed information among the received identification information;
Transmitting the valid transmission packet and the identification information to the gateway according to a result of the comparison; And
Receiving, by the second relay device, a transmission confirmation signal of the valid transmission packet and the identification information from the gateway;
Wherein the plurality of sensors are used to manage patients and abbreviations using the plurality of sensors. 5. The method of claim 4,
The step of determining the validity may comprise:
If the received identification information is invalid, removing the invalid identification information from the second relay device;
Further comprising the steps of: determining whether or not the patient is in a medical condition; 6. The method of claim 5,
The second relay device transmitting an error signal to the relay device providing the invalid identification information;
Further comprising the steps of: determining whether or not the patient is in a medical condition; 5. The method of claim 4,
The receiving of the transmission acknowledgment signal comprises:
The second relay apparatus transmitting the transmission acknowledgment signal to a relay apparatus providing the transmission packet and the identification information;
Further comprising the steps of: determining whether or not the patient is in a medical condition; The method according to claim 1, 4, or 5,
The step of determining the validity may comprise:
And comparing the RSS (Received Signal Strength) value of the received information with the measured value to determine validity. A method for providing a management service using a conversion device,
Receiving a plurality of pieces of sensing information generated at a predetermined time interval from a plurality of wire sensors;
Receiving the plurality of pieces of sensing information and normalizing the received sensing information according to preset reference information; And
Transmitting the normalized detection information to the relay unit or the gateway at a predetermined time interval;
Wherein the plurality of sensors are used to manage patients and abbreviations using the plurality of sensors. 10. The method of claim 9,
Wherein the receiving of the plurality of pieces of sensing information comprises:
When detection information other than a predetermined time interval arrives from the plurality of wired sensors,
Normalizing the detection information according to preset reference information, and immediately transmitting the detection information to the relay unit or the gateway;
Further comprising the steps of: determining whether or not the patient is in a medical condition; A sensor device transceiver for receiving a plurality of pieces of sensing information generated at a predetermined time interval from a plurality of wire sensors;
A central processing unit for normalizing the received sensing information according to preset reference information;
A wireless data transmission / reception unit for transmitting the normalized sensing information to a relay unit or a gateway; And
An operation unit for controlling the sensor device transceiver unit, the central processing unit, and the data transceiver unit;
And an output unit for outputting the converted signal. 12. The method of claim 11,
The central processing unit,
When detection information other than a predetermined time interval arrives from the plurality of wired sensors,
Normalizing the sensing information according to preset reference information,
The wireless data transmitting /
To the relay or the gateway immediately. 12. The method of claim 11,
The preset reference information includes:
And a plurality of sensing information reception times transmitted by said plurality of wire sensors. A plurality of sensor units for generating an electrical signal in response to an external stimulus;
A relay unit for collecting a plurality of pieces of sensed information generated from the plurality of sensor units and classifying the sensed information according to a predetermined criterion; And
A gateway for converting the sensed information classified from the relay unit into service information and transmitting the converted service information;
Wherein the plurality of sensors are used to manage the patient and the abbreviated person. 15. The method of claim 14,
The relay unit includes:
A plurality of relay apparatuses,
Wherein the plurality of relay apparatuses comprise:
A first wireless communication unit receiving a plurality of sensing information generated from the plurality of sensor units;
A central processing unit for determining validity of a plurality of pieces of sensing information received by the first wireless communication unit and classifying a plurality of valid sensing signals; And
A second wireless communication unit for transmitting the plurality of classified sensed information;
Wherein the plurality of sensors are used to manage the patient and the abbreviated person. 15. The method of claim 14,
The sensor unit includes:
A first sensor device for sensing the external stimulus according to a predetermined time and generating an electrical signal;
A second sensor device for generating an electrical signal when the external stimulus is generated; And
A communication unit for transmitting a plurality of sensing information including identification information of the electrical signal and the sensor device to the relay unit;
Wherein the plurality of sensors are used to manage the patient and the abbreviated person. 17. The method of claim 16,
Wherein the first sensor device and the second sensor device comprise:
Receiving a plurality of pieces of detection information,
A converting unit for converting the converted data according to a preset reference and transmitting the converted data to the relay unit;
Wherein the system further comprises a plurality of sensors. 15. The method of claim 14,
And a service platform utilizing the converted service information,
The service platform includes:
A service management unit for managing the sensor unit, the relay unit, and the gateway;
Wherein the plurality of sensors are used to manage the patient and the abbreviated person. A method for managing patients and abbreviations using a plurality of sensors performed by a gateway,
Receiving detection information from a relay unit;
Determining validity of the received sensing information and transmitting the reception status to the relay unit;
Recording the detection information into a buffer and converting the detection information recorded in the buffer into service information; And
Transmitting the converted service information to the outside utilizing the service information;
Wherein the plurality of sensors are used to manage patients and abbreviations using the plurality of sensors. 20. The method of claim 19,
Wherein the transmitting comprises:
When receiving a transmission completion signal from the outside,
Removing the sensing information recorded in the buffer;
Wherein the plurality of sensors are used to manage patients and abbreviations using the plurality of sensors. 20. The method of claim 19,
The step of determining the validity may comprise:
Comparing received signal strength (RSS) measurements with two or more identical sensed information among the received sensed information,
Wherein the first sensor and the second sensor are connected to each other.

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