KR20160090931A - Sensor platform apparatus and wireless terminal interworking with the same - Google Patents

Abstract

The present invention relates to a sensor platform apparatus and a wireless terminal linked thereto. The sensor platform apparatus includes: a sensor mount unit which can have multiple sensors mounted thereon; a memory which stores information related to the sensors mounted on the sensor mount unit; an analysis unit which receives a measurement result from the sensors mounted on the sensor mount unit, derives a sensor determination factor from the measurement result, and compares the information related to the sensors and the derived sensor determination factor in order to determine the type of the sensors; a control unit which uses the measurement result and the determined type of the sensors in order to determine whether there is a risk; and a communications unit which transmits a warning signal to a wireless terminal when the control unit determines a state with a risk. The present invention enables a sensor platform, which has sensors capable of sensing various signals indicating the health condition of a user, to automatically determine which sensor senses signals and low-cost development of a health diagnosis system, which can automatically support an emergency response through the wireless terminal of the user on a real-time basis when a risk is present regarding the health depending on the measurement result, for various users and situations.

Description

TECHNICAL FIELD [0001] The present invention relates to a sensor platform device and a wireless terminal interlocked with the sensor platform device.

The present invention relates to a sensor platform device and a wireless terminal associated therewith, and more particularly, to a sensor platform having a sensor for sensing various signals that can indicate a health state of a user, And a wireless terminal connected to the sensor platform device.

Communication technologies that can perform medical health examinations overcoming space and time limitations are emerging according to the rise of wireless communication technology. A technology for remotely diagnosing a user's health by detecting a bio-signal such as heartbeat, body temperature, humidification, blood pressure, blood sugar, and oxygen saturation through a sensor and transmitting it using wireless communication . However, in order to efficiently implement such a remote health diagnosis, a system capable of processing signals sensed by various sensors that detect various bio signals is needed.

The sensor platform can variably install sensors that detect various different signals, so that a combination of sensors that can be used in various applications through a single hardware device can be implemented at a low cost and efficiently. A biosensor used for a medical diagnosis needs to detect various signals generated in the human body and convert it into an electric signal. In some cases, it is impossible to use all the sensors that can be implemented according to the situation. Therefore, it is desirable to implement a remote health diagnosis using a sensor platform that can install various biosensors as needed for medical health diagnosis.

Korean Patent Laid-Open No. 10-2009-0123963 (published on Dec. 2, 2009, entitled "Emergency Medical Device, Claims Section 1").

The present invention automatically detects which sensor senses a signal in a sensor platform having a sensor for sensing various signals indicating a health state of a user, and when a risk to health occurs according to a measurement result, The present invention provides a sensor platform device capable of supporting first-aid treatment in real time and automatically through a wireless terminal and a wireless terminal connected to the sensor platform device.

According to an aspect of the present invention, there is provided a sensor platform apparatus including: a sensor mounting unit capable of mounting a plurality of sensors; a memory for storing information related to the sensor mounted on the sensor mounting unit; An analyzer for receiving a measurement result from a plurality of sensors, deriving a sensor determination factor from the measurement result, and comparing the derived sensor determination factor with the sensor-related information to determine a sensor type; And a first communication unit for transmitting a warning signal to the wireless terminal when the controller determines that the wireless terminal is in a dangerous state.

Preferably, the sensor determination factor is an intensity or waveform period of the analog measurement signal for the sensor.

Preferably, the sensor-related information includes a variation pattern of an intensity of an analog measurement signal or a waveform period of a predetermined time, and the analysis unit may determine that the variation pattern of the sensor determination factor And determines the type of the sensor by the sensor corresponding to the sensor determination factor when the variation pattern matches the included variation pattern.

Preferably, the sensor-related information includes a sensor-specific warning level for determining whether or not the sensor is dangerous, and the controller derives a risk judgment factor from the measurement signal according to the determined sensor type, And the danger level is compared with the warning level for each sensor.

Preferably, the controller transmits the type of the sensor and the measurement result to the wireless terminal through the first communication unit when the controller determines that the wireless terminal is in a dangerous state.

Preferably, the control unit stores personal history information of a user of the mobile terminal, and transmits the measurement result and the personal history information to the mobile terminal through the first communication unit when the mobile terminal determines that the mobile terminal is in a dangerous state.

The present invention also provides a wireless terminal for a sensor platform device, comprising: a second communication unit for receiving a warning signal from the sensor platform device; a storage unit for storing an emergency contact; And a signal processor for reading out the emergency contact from the emergency contact information and creating the geographical information and the emergency message for the current location and transmitting the created emergency information to the emergency contact.

The second communication unit may further include an alarm generating unit for generating an alarm signal when the second communication unit receives the warning signal.

Preferably, the signal processor transmits the geographic information and the urgent message when there is no request from the user within a predetermined time after the alarm signal is generated in the alarm generator.

Preferably, the second communication unit receives information about the type of the measurement sensor and the measurement result from the sensor platform device, and the storage unit stores the measurement result together with the time information.

Preferably, the information processing apparatus further includes a display unit for displaying the processing result of the signal processing unit. When the second communication unit receives the warning signal, the signal processing unit generates an emergency prescription message according to the type of the measurement sensor and the received measurement result And displayed on the display unit.

Preferably, the second communication unit further receives user's personal history information from the sensor platform device, the storage further stores personal history information of the user, and when the second communication unit receives the warning signal, The processing unit transmits the personal history information together with the urgent message to the urgent contact.

The present invention also provides a wireless terminal for a sensor platform device, comprising: a second communication unit for receiving a measurement result from the sensor platform device; a storage unit for storing emergency contact and sensor related information; An analyzer for determining the type of the sensor by comparing the derived sensor determination factor with the sensor related information, a controller for determining a risk using the determined sensor type and the measurement result, And a signal processor for reading out the emergency contact from the storage unit when it is determined to be in a dangerous state, creating the geographical information and the emergency message for the current location, and transmitting the created emergency information to the emergency contact.

Preferably, the sensor determination factor is an intensity or waveform period of the analog measurement signal for the sensor.

Preferably, the sensor-related information includes a sensor-specific warning level for determining whether or not the sensor is dangerous, and the controller derives a risk judgment factor from the measurement signal according to the determined sensor type, And the danger level is compared with the warning level for each sensor.

Preferably, the sensor-related information includes a variation pattern of an intensity of an analog measurement signal or a waveform period of a predetermined time, and the analysis unit may determine that the variation pattern of the sensor determination factor And determines the type of the sensor by the sensor corresponding to the sensor determination factor when the variation pattern matches the included variation pattern.

The controller may further include an alarm generator for generating an alarm signal when the controller determines that the controller is in a dangerous state.

Preferably, the signal processor transmits the geographic information and the urgent message when there is no request from the user within a predetermined time after the alarm signal is generated in the alarm generator.

Preferably, the information processing apparatus further includes a display unit for displaying the processing result of the signal processing unit. When the control unit determines that the control unit is in a dangerous state, the signal processing unit generates an emergency prescription message according to the type of the sensor and the received measurement result, And displays it on the display unit.

Preferably, the storage further stores personal history information of the user, and when the controller determines that the control unit is in a dangerous state, the signal processing unit transmits the personal history information together with the emergency message to the emergency contact.

According to the present invention, in a sensor platform having a sensor for sensing various signals that can indicate a health state of a user, the sensor automatically determines which sensor sensed a signal, and when a risk to health occurs according to a measurement result, A health diagnosis system capable of real-time and automatic first aid treatment through a terminal can be implemented at a low cost in preparation for various users and situations.

1 is a block diagram of a sensor platform device and a wireless terminal associated therewith according to an embodiment of the present invention.
2 is a block diagram of a sensor platform device and a wireless terminal associated therewith according to another embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, a sensor platform device and a wireless terminal connected to the sensor platform device according to the present invention will be described in detail with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

1 is a block diagram of a sensor platform device and a wireless terminal associated therewith according to an embodiment of the present invention. 1, a sensor platform apparatus 10 according to an embodiment of the present invention includes a sensor mounting unit 110, a memory 140, an analysis unit 120, a controller 130, and a first communication unit 150 ).

A plurality of sensors 111 may be mounted on the sensor mounting portion 110. At this time, the sensor 111 mounted on the sensor mounting unit 110 may be a sensor for detecting each of the bio information such as the heartbeat, body temperature, humidity, blood pressure, blood sugar, and oxygen saturation of the user. The sensor mounting unit 110 may include an analog-to-digital converter for converting an analog signal sensed by each of the sensors into a digital signal, and may output a digital signal that is sensed by each sensor and converted into a digital signal.

The memory 140 stores relevant information of the sensor mounted on the sensor mounting unit 110. [

The analysis unit 120 receives measurement results from a plurality of sensors mounted on the sensor mounting unit 110, derives sensor determination factors from the measurement results, compares the derived sensor determination factors with sensor related information, . At this time, the sensor determination factor may be the intensity or waveform period of the analog measurement signal for the sensor. In addition, the sensor-related information includes a variation pattern of the intensity or waveform period of the analog measurement signal for a predetermined time, and the analysis unit 120 determines that the variation pattern of the sensor determination factor The sensor type can be determined by a sensor corresponding to the sensor determination factor. That is, the analyzer 120 compares the intensity or waveform period of the analog measurement signal sensed by each sensor with the sensor-related information or compares the variation pattern of the intensity of the measurement signal or the waveform period with the sensor- It is possible to judge which sensor the signal is measured.

The control unit 130 determines the risk by using the type of the determined sensor and the measurement result. In this case, the sensor-related information includes a warning level for each sensor for determining whether or not a risk exists, and the controller 130 derives a risk judgment factor from the measurement signal according to the determined type of the sensor, You can determine the risk by comparing it with the different warning levels. In this case, the risk factor may be an average of measured values of the sensor measured for a predetermined time. For example, it is possible to determine whether or not the sensor is in a dangerous state by comparing an average of measured values of the sensor collected for one minute with a warning level corresponding to the sensor. Also, the measurement value of the sensor used to calculate the average value at this time may be the intensity of the signal or the period of the waveform as described above, and the specific value calculated by the pattern of the signal including the intensity of the signal and the period of the waveform Value.

The first communication unit 150 transmits a warning signal to the wireless terminal when the controller 130 determines that the wireless terminal is in a dangerous state. That is, when the controller 130 determines that the mobile terminal is in a dangerous state, the controller 130 can transmit the type of the sensor and the measurement result to the mobile terminal through the communication unit. In addition, the controller 130 may store personal history information of the user of the mobile terminal, and may transmit the measurement result and personal history information to the mobile terminal through the first communication unit 150 when the mobile terminal determines that the user is in a dangerous state. That is, if the controller 130 determines that the user is in a dangerous state, the controller 130 transmits the personal history information input by the user to the wireless terminal 20 so that the personal history information can be used for the user's first aid treatment.

The wireless terminal 20 for a sensor platform apparatus according to an embodiment of the present invention includes a second communication unit 210, a storage unit 230, an alarm generation unit 240, a display unit 250, and a signal processing unit 220 ).

The second communication unit 210 receives the warning signal from the sensor platform device. The storage unit 230 stores emergency contacts. At this time, the second communication unit 210 receives information on the type of the measurement sensor and the measurement result from the sensor platform device, and the storage unit 230 may store the measurement result together with the time information. That is, the second communication unit 210 can receive the measurement result of the sensor sensed by the sensor mounting unit 110 and the sensor type determined by the analysis unit 120 together. In this case, the measurement result of the sensor may be a magnitude and a waveform period of the analog signal sensed by the sensor, a digital signal converted into a digital signal, or a specific value calculated based on the magnitude and the waveform period of the signal.

When the second communication unit 210 receives the warning signal, the signal processing unit 220 reads out the emergency contact from the storage unit 230, creates the geographical information and the emergency message for the current location, and transmits the emergency message to the emergency contact. That is, if the control unit 130 determines that the measurement result of the current sensor corresponds to a dangerous state, the signal processing unit 220 may generate an emergency message and transmit the emergency message to the emergency contact in real time. At this time, So that emergency contacts can perform first aid.

The alarm generating unit 240 generates an alarm signal when the second communication unit 210 receives the warning signal. In this case, when there is no request from the user within a predetermined time after the alarm signal is generated in the alarm generator 240, the signal processor 220 can transmit the geographical information and the emergency message. That is, when it is determined that the control unit 130 is in the present danger state, the alarm generating unit 240 may notify the user of the present danger state once, or may perform a treatment according to the judgment of the user, In cases where it is impossible to perform appropriate treatment, the user may transmit the geographical information and the urgent message to the urgent contact so as to perform the emergency treatment.

The display unit 250 displays the processing result of the signal processing unit 220. In this case, when the second communication unit 210 receives the warning signal, the signal processing unit 220 may generate an emergency prescription message according to the type of the measurement sensor and the measurement result and display the message on the display unit 250.

2 is a block diagram of a sensor platform device and a wireless terminal associated therewith according to another embodiment of the present invention.

As shown in FIG. 2, the sensor platform apparatus for providing the measurement result to the wireless terminal 20 for determining the risk of danger using the measurement result of the sensor according to another embodiment of the present invention includes a sensor mounting unit 110, 1 communication unit 150, as shown in FIG. At this time, the sensor platform device provides the measurement result to the wireless terminal that determines the danger using the measurement result of the sensor 111, and a plurality of sensors 111 may be mounted on the sensor mounting part 110, 1 communication unit 150 can transmit the measurement results received from the plurality of sensors 111 mounted on the sensor mounting unit 110 to the wireless terminal 20.

The wireless terminal 20 according to another embodiment of the present invention includes a second communication unit 210, a storage unit 230, an analysis unit 120, a control unit 130, a signal processing unit 220, an alarm generating unit 240 And a display unit 250. [0034]

The second communication unit 210 receives measurement results from the sensor platform device. In this case, the measurement result received by the second communication unit 210 may be an analog signal value sensed by each sensor or a digital signal obtained by converting an analog signal value into a digital signal.

The storage unit 230 stores emergency contact information and sensor related information.

The analysis unit 120 derives a sensor determination factor from the measurement result, and determines the type of the sensor by comparing the sensor determination factor and the sensor-related information. At this time, the sensor determination factor may be the intensity or waveform period of the analog measurement signal for the sensor. In addition, the sensor-related information includes a variation pattern of the intensity or waveform period of the analog measurement signal for a predetermined time, and the analysis unit 120 determines the variation pattern of the sensor determination factor for a preset time, It is possible to judge the type of the sensor by the sensor corresponding to the sensor judgment factor. That is, the analyzer 120 compares the intensity or waveform period of the analog measurement signal sensed by each sensor with the sensor-related information or compares the variation pattern of the intensity of the measurement signal or the waveform period with the sensor- It is possible to judge which sensor the signal is measured.

The controller 130 determines the danger using the determined sensor type and the measurement result, and the alarm generator 240 generates an alarm signal when the controller 130 determines that the controller 130 is in a dangerous state. That is, the controller 130 can control the signal processing unit 220 and the alarm generating unit 240 to take actions according to the dangerous state when the controller 130 determines that the apparatus is in a dangerous state. In addition, the controller 130 stores the personal history information of the user of the mobile terminal, and transmits the measurement result and personal history information to the emergency contact when it is determined that the personal history information is in a dangerous state so that the personal history information can be used for the user's first aid can do.

When the controller 130 determines that the controller 130 is in a dangerous state, the signal processor 220 reads the emergency contact information from the storage unit 230 and creates geographical information and an emergency message for the current location and transmits the emergency information to the emergency contact information. In this case, when there is no request from the user within a predetermined time after the alarm signal is generated in the alarm generator 240, the signal processor 220 can transmit the geographical information and the emergency message. That is, when it is determined that the control unit 130 is in the present danger state, the alarm generating unit 240 may notify the user of the present danger state once, or may perform a treatment according to the judgment of the user, In cases where it is impossible to perform appropriate treatment, the user may transmit the geographical information and the urgent message to the urgent contact so as to perform the emergency treatment.

In addition, the storage unit 230 may further store personal history information of the user. If the controller 130 determines that the control unit 130 is in a dangerous state, the signal processing unit 220 may transmit the personal history information together with the urgent message to the emergency contact.

As described above, according to the present invention, in a sensor platform having a sensor for sensing various signals indicating a user's health state, a sensor automatically determines which sensor sensed a signal, A health diagnostic system capable of real-time and automatic first aid treatment through a user's wireless terminal can be implemented at a low cost in preparation for various users and situations.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the scope of the present invention . Accordingly, the technical scope of the present invention should be defined by the following claims.

10: sensor platform device 110: sensor mount
111: sensor 120; Analysis section
130; Control unit 140:
150: first communication unit 20: wireless terminal
210: second communication unit 220:
230: storage unit 240: alarm generating unit
250:

Claims (21)

A sensor mounting portion capable of mounting a plurality of sensors,
A memory for storing related information of the sensor mounted on the sensor mounting portion,
An analyzer for receiving a measurement result from a plurality of sensors mounted on the sensor mounting portion, deriving a sensor determination factor from the measurement result, comparing the derived sensor determination factor with the sensor related information, ,
A controller for determining whether the sensor is dangerous using the type of the sensor and the measurement result;
A first communication unit for transmitting a warning signal to the wireless terminal when it is determined that the control unit is in a dangerous state
Wherein the sensor platform device comprises:
The method according to claim 1,
Wherein the sensor determination factor is an intensity or waveform period of the analog measurement signal for the sensor.
The method according to claim 1,
The sensor-related information includes a variation pattern of the intensity or waveform period of the analog measurement signal for a predetermined time,
Wherein the analyzing unit determines the type of the sensor by a sensor corresponding to the sensor determination factor when the variation pattern of the sensor determination factor matches the variation pattern included in the sensor- Platform device.
The method according to claim 1,
The sensor-related information includes a sensor-specific warning level for determining whether or not the sensor-
Wherein the controller derives a risk judgment factor from the measured signal according to the determined sensor type and compares the derived risk judgment factor with the warning level for each sensor to determine a risk.
The method according to claim 1,
Wherein the control unit transmits the type of the sensor and the measurement result to the wireless terminal through the first communication unit when it is determined that the wireless terminal is in a dangerous state.
The method according to claim 1,
Wherein the control unit stores personal history information of a user of the mobile terminal,
And transmits the measurement result and the personal history information to the wireless terminal through the first communication unit when it is determined that the wireless terminal is in a dangerous state.
A wireless terminal for a sensor platform device,
A second communication unit for receiving a warning signal from the sensor platform device;
A storage unit for storing emergency contacts,
When the second communication unit receives the warning signal, reads out the emergency contact from the storage unit, creates the geographical information of the current location and the urgent message, and transmits the geographical information and emergency message to the emergency contact
And the wireless terminal.
8. The method of claim 7,
And an alarm generating unit for generating an alarm signal when the second communication unit receives the warning signal.
9. The method of claim 8,
Wherein the signal processor transmits the geographic information and the emergency message when there is no request from the user within a predetermined time after the alarm signal is generated by the alarm generator.
8. The method of claim 7,
Wherein the second communication unit receives information on the type of the measurement sensor and the measurement result from the sensor platform device,
And the storage unit stores the measurement result together with time information.
11. The method of claim 10,
And a display unit for displaying the processing result of the signal processing unit,
Wherein when the second communication unit receives the warning signal, the signal processing unit generates an emergency prescription message according to the type of the measurement sensor and the received measurement result, and displays the emergency prescription message on the display unit.
11. The method of claim 10,
Wherein the second communication unit further receives personal history information of the user from the sensor platform device,
The storage further stores personal history information of the user,
And the signal processing unit transmits the personal history information together with the urgent message to the emergency contact when the second communication unit receives the warning signal.
A wireless terminal for a sensor platform device,
A second communication unit for receiving a measurement result from the sensor platform device;
A storage unit for storing emergency contact information and sensor related information,
An analysis unit for deriving a sensor determination factor from the measurement result and comparing the derived sensor determination factor with the sensor related information to determine a sensor type;
A controller for determining whether the sensor is dangerous using the type of the sensor and the measurement result;
A signal processor for reading emergency contact information from the storage unit when the control unit judges that the control unit is in a dangerous state, creating geographical information and an emergency message for the current location,
And the wireless terminal.
14. The method of claim 13,
Wherein the sensor determination factor is an intensity or waveform period of the analog measurement signal for the sensor.
14. The method of claim 13,
The sensor-related information includes a sensor-specific warning level for determining whether or not the sensor-
Wherein the controller derives a risk judgment factor from the measured signal according to the determined sensor type, and compares the derived risk judgment factor with a warning level for each sensor to determine a risk.
14. The method of claim 13,
The sensor-related information includes a variation pattern of the intensity or waveform period of the analog measurement signal for a predetermined time,
Wherein the analyzing unit determines the type of the sensor by a sensor corresponding to the sensor determination factor when the variation pattern of the sensor determination factor coincides with the variation pattern included in the sensor related information for the predetermined time period. Terminal.
14. The method of claim 13,
Further comprising an alarm generating unit for generating an alarm signal when the controller determines that the control unit is in a dangerous state.
18. The method of claim 17,
Wherein the signal processor transmits the geographic information and the emergency message when there is no request from the user within a predetermined time after the alarm signal is generated by the alarm generator.
14. The method of claim 13,
And a display unit for displaying the processing result of the signal processing unit,
Wherein the signal processor generates an emergency prescription message according to the type of the sensor and the received measurement result, and displays the emergency prescription message on the display unit when the controller determines that the controller is in a dangerous state.
14. The method of claim 13,
Wherein the storage further stores personal history information of the user,
Wherein the signal processor transmits the personal history information together with the emergency message to the emergency contact when the controller determines that the emergency agent is in a dangerous state.
A sensor platform apparatus for providing a measurement result to a wireless terminal for determining a risk using a measurement result of the sensor,
A sensor mounting portion capable of mounting a plurality of sensors,
And a first communication unit for transmitting measurement results received from the plurality of sensors mounted on the sensor mounting unit to the wireless terminal.

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