CN103654736A - Remote-monitoring human body health monitoring system and method - Google Patents

Abstract

The invention discloses a remote-monitoring human body health monitoring system and method. The remote-monitoring human body health monitoring system comprises a remote monitoring center and a plurality of health monitoring T-shirts. Each health monitoring T-shirt comprises a T-shirt body (1), front detection equipment and a micro-control unit (2), wherein the front detection equipment comprises a body temperature detection module, a pulse detection module and a tumble detection module, and the micro-control unit (2) is composed of a micro controller and a communication module. The micro controllers of all the health monitoring T-shirts are connected with the remote monitoring center respectively through the communication modules. The remote-monitoring human body health monitoring system can carry out remote concentrated monitoring on multiple monitored objects, and is suitable for the occasions where multiple monitored objects need remote concentrated monitoring and management, such as hospitals and nursing homes. A pulse detection probe is arranged in the position corresponding to the heart of the human body, a temperature detection probe is arranged in the position corresponding to the armpit, an acceleration sensor is arranged at the collar of each T-shirt, and the monitoring result of the pulse, the body temperature and movement acceleration of the human body is good in accuracy and reliability.

Description

A kind of health monitoring system and method for remote monitoring

Technical field

The present invention relates to a kind of health monitoring system and method for remote monitoring.

Background technology

Along with the high speed development of market economy, people's rhythm of life is also more and more faster, and people are usually busy in the middle of work, dinner party, cause people's the excessive and irregular life style of stress, thereby cause human body sub-health status, the hiding of various chronic diseases.Along with the sickness rate of various diseases increases gradually, people also more and more pay attention to the health status of self.

Nowadays electronic medical equipment is on the market also more and more like the mushrooms after rain, but the electronic medical equipment of different company's exploitation generally needs user's manual operation, and user is had relatively high expectations.Wearable healthy equipment can gather, monitor the health status of human body in the daily wearing of user, use procedure, has easy to use, intelligent degree high, particularly outstanding in the development of electronic medical equipment industry in recent years.

In addition, existing electronic medical equipment can only work alone conventionally, cannot realize the overall management of a plurality of electronic medical equipments, cannot be applicable to the needs such as hospital, nursing house simultaneously to a plurality of scenes of being carried out long-range pool monitoring and management by guardianship.

Summary of the invention

The object of the invention is to overcome the deficiencies in the prior art, a kind of hospital and nursing house of can being applicable to is provided, can be simultaneously to a plurality of health monitoring system and methods of being carried out the remote monitoring of long-range pool supervision by guardianship, can remote real-time monitoring a plurality of by the body temperature of guardianship, pulse and the state such as whether fall; Front-end detection equipment is intangibly arranged at by the medicated clothing of guardianship, easy to use, safe; Accuracy, the reliability of body temperature, pulse and acceleration detection result are high.

The object of the invention is to be achieved through the following technical solutions: a kind of health monitoring system of remote monitoring, it comprises that remote monitoring center and at least one shown solicitude for by the health monitoring of remote monitoring, described health monitoring is shown solicitude for and is comprised and show solicitude for body and be arranged at front-end detection equipment and the micro-control unit of showing solicitude on body, front-end detection equipment comprises temperature check module, pulse detection module and fall detection module, micro-control unit is comprised of microcontroller and communication module, the microcontroller that each health monitoring is shown solicitude for is connected with remote monitoring center by communication module respectively,

Temperature check module is comprised of two individual temperature detection probe and a body temperature signal processing circuit, and the output of temperature check probe is connected with microcontroller by body temperature signal processing circuit respectively;

Pulse detection module is comprised of pulse detection probe and pulse signal treatment circuit, and pulse detection probe is connected with microcontroller by pulse signal treatment circuit;

Fall detection module is comprised of acceleration transducer and acceleration signal treatment circuit, and acceleration transducer is connected with microcontroller by acceleration signal treatment circuit.

Two described individual temperature detection probe are symmetricly set in shows solicitude for position corresponding with human body axillary fossa place on body.

Described pulse detection probe is arranged at shows solicitude for position corresponding with human heart place on body.

Described acceleration transducer is arranged at the neckline place of showing solicitude for body.

A health method for supervising for remote monitoring, it comprises the step of a remote monitoring body temperature, the step of a remote monitoring human pulse and a step whether remote monitoring human body falls;

The step of described remote monitoring body temperature comprises following sub-step:

S101: each temperature check probe gathers respectively body temperature information;

S102: body temperature information exchange is crossed after body temperature signal processing circuit is converted to the signal of telecommunication and is sent to microcontroller;

S103: microcontroller is forwarded to remote monitoring center by this signal by communication network;

S104: remote monitoring center is analyzed this signal, the body temperature value that two individual temperature detection probe are collected is carried out averaging computing, obtains body temperature data;

The step of described remote monitoring human pulse comprises following sub-step:

S201: pulse detection probe gathers human heart pulse information;

S202: human heart pulse information is sent to microcontroller after being converted to the signal of telecommunication by pulse signal treatment circuit;

S203: microcontroller is forwarded to remote monitoring center by this signal by communication network;

S204: remote monitoring center is analyzed this signal, obtains human heart pulse data;

The step whether described remote monitoring human body falls comprises following sub-step:

S301: acceleration transducer gathers the acceleration information of human motion;

S302: acceleration information is sent to microcontroller after being converted to the signal of telecommunication by acceleration signal treatment circuit;

S303: microcontroller is forwarded to remote monitoring center by this signal by communication network;

S304: remote monitoring center becomes this signal decoding after accekeration, compares this accekeration and default acceleration threshold values, surpasses threshold values and regards as human body and fall.

The invention has the beneficial effects as follows:

1) can to a plurality of, by guardianship, be carried out long-range pool supervision simultaneously, real-time monitoring is by the body temperature of guardianship, pulse and the state such as whether fall, applicable to needs such as hospital, nursing houses simultaneously to a plurality of scenes of being carried out long-range pool monitoring and management by guardianship;

2) in the process of being shown solicitude for by guardianship dress, can complete body temperature, pulse and the monitoring of the state such as whether fall, can be to being had any impact by the daily behavior of guardianship, easy to use, intelligent degree is high;

3) be provided with two individual temperature detection probe, when result of calculation, collect two body temperature values carried out to averaging computing, accuracy, the reliability of testing result are high;

4) pulse detection probe is arranged at the position corresponding with human heart, temperature check probe is arranged at the position corresponding with human body axillary fossa, acceleration transducer be arranged at relative position higher show solicitude for neckline place, the monitoring result accuracy of human pulse, body temperature and acceleration of motion is high, good reliability.

Accompanying drawing explanation

Fig. 1 is circuit structure block diagram of the present invention;

Fig. 2 is that health monitoring of the present invention is shown solicitude for structural representation;

In figure, 1-shows solicitude for body, 2-micro-control unit, 3-temperature check probe, 4-acceleration transducer, 5-pulse detection probe.

The specific embodiment

Below in conjunction with accompanying drawing, technical scheme of the present invention is described in further detail, but protection scope of the present invention is not limited to the following stated.

As shown in Figure 1, a kind of health monitoring system of remote monitoring, it comprises that remote monitoring center and at least one shown solicitude for by the health monitoring of remote monitoring, health monitoring is shown solicitude for by each and is dressed by guardianship.Described health monitoring is shown solicitude for and is comprised and show solicitude for body 1 and be arranged at front-end detection equipment and the micro-control unit 2 of showing solicitude on body 1, front-end detection equipment comprises temperature check module, pulse detection module and fall detection module, micro-control unit 2 is comprised of microcontroller and communication module, and the microcontroller that each health monitoring is shown solicitude for is connected with remote monitoring center by communication module respectively.

Temperature check module is comprised of two individual temperature detection probe 3 and a body temperature signal processing circuit, and the output of temperature check probe 3 is connected with microcontroller by body temperature signal processing circuit respectively.

Pulse detection module is comprised of pulse detection probe 5 and pulse signal treatment circuit, and pulse detection probe 5 is connected with microcontroller by pulse signal treatment circuit.

Fall detection module is comprised of acceleration transducer 4 and acceleration signal treatment circuit, and acceleration transducer 4 is connected with microcontroller by acceleration signal treatment circuit.

As shown in Figure 2, two described individual temperature detection probe 3 are symmetricly set in and show solicitude for position corresponding with human body axillary fossa place on body 1.Pulse detection probe 5 is arranged at shows solicitude for position corresponding with human heart place on body 1.Acceleration transducer 4 is arranged at the neckline place of showing solicitude for body 1, because by guardianship (old people) walking slow (not having acceleration) conventionally, fall and normally tripped, human body turns forward around sole position or conventionally to layback when being tripped, degree of will speed up sensor 4 is arranged on relatively high neckline place, position, better whether sensing, by the acceleration of guardianship body kinematics, judges better by guardianship and falls.

A health method for supervising for remote monitoring, it comprises the step of a remote monitoring body temperature, the step of a remote monitoring human pulse and a step whether remote monitoring human body falls;

The step of described remote monitoring body temperature comprises following sub-step:

S101: each temperature check probe 3 gathers respectively body temperature information;

S102: body temperature information exchange is crossed after body temperature signal processing circuit is converted to the signal of telecommunication and is sent to microcontroller;

S103: microcontroller is forwarded to remote monitoring center by this signal by communication network;

S104: remote monitoring center is analyzed this signal, the body temperature value that two individual temperature detection probe 3 are collected is carried out averaging computing, obtains body temperature data;

The step of described remote monitoring human pulse comprises following sub-step:

S201: pulse detection probe 5 gathers human heart pulse information;

S202: human heart pulse information is sent to microcontroller after being converted to the signal of telecommunication by pulse signal treatment circuit;

S203: microcontroller is forwarded to remote monitoring center by this signal by communication network;

S204: remote monitoring center is analyzed this signal, obtains human heart pulse data;

The step whether described remote monitoring human body falls comprises following sub-step:

S301: acceleration transducer 4 gathers the acceleration information of human motion;

S302: acceleration information is sent to microcontroller after being converted to the signal of telecommunication by acceleration signal treatment circuit;

S303: microcontroller is forwarded to remote monitoring center by this signal by communication network;

S304: remote monitoring center becomes this signal decoding after accekeration, compares this accekeration and default acceleration threshold values, surpasses threshold values and regards as human body and fall.

The above is only the preferred embodiment of the present invention, be to be understood that the present invention is not limited to disclosed form herein, should not regard the eliminating to other embodiment as, and can be used for various other combinations, modification and environment, and can, in contemplated scope described herein, by technology or the knowledge of above-mentioned instruction or association area, change.And the change that those skilled in the art carry out and variation do not depart from the spirit and scope of the present invention, all should be in the protection domain of claims of the present invention.

Claims (5)

1. the health monitoring system of a remote monitoring, it is characterized in that: it comprises that remote monitoring center and at least one shown solicitude for by the health monitoring of remote monitoring, described health monitoring is shown solicitude for and is comprised and show solicitude for body (1) and be arranged at front-end detection equipment and the micro-control unit (2) of showing solicitude on body (1), front-end detection equipment comprises temperature check module, pulse detection module and fall detection module, micro-control unit (2) is comprised of microcontroller and communication module, the microcontroller that each health monitoring is shown solicitude for is connected with remote monitoring center by communication module respectively,

Temperature check module is comprised of two individual temperature detection probe (3) and a body temperature signal processing circuit, and the output of temperature check probe (3) is connected with microcontroller by body temperature signal processing circuit respectively;

Pulse detection module is comprised of pulse detection probe (5) and pulse signal treatment circuit, and pulse detection probe (5) is connected with microcontroller by pulse signal treatment circuit;

Fall detection module is comprised of acceleration transducer (4) and acceleration signal treatment circuit, and acceleration transducer (4) is connected with microcontroller by acceleration signal treatment circuit.

2. the health monitoring system of a kind of remote monitoring according to claim 1, is characterized in that: two described individual temperature detection probe (3) are symmetricly set in shows solicitude for the upper position corresponding with human body axillary fossa place of body (1).

3. the health monitoring system of a kind of remote monitoring according to claim 1, is characterized in that: described pulse detection probe (5) is arranged at shows solicitude for the upper position corresponding with human heart place of body (1).

4. the health monitoring system of a kind of remote monitoring according to claim 1, is characterized in that: described acceleration transducer (4) is arranged at the neckline place of showing solicitude for body (1).

5. a health method for supervising for remote monitoring, is characterized in that: it comprises the step of a remote monitoring body temperature, the step of a remote monitoring human pulse and a step whether remote monitoring human body falls;

The step of described remote monitoring body temperature comprises following sub-step:

S101: each temperature check probe (3) gathers respectively body temperature information;

S102: body temperature information exchange is crossed after body temperature signal processing circuit is converted to the signal of telecommunication and is sent to microcontroller;

S103: microcontroller is forwarded to remote monitoring center by this signal by communication network;

S104: remote monitoring center is analyzed this signal, the body temperature value that two individual temperature detection probe (3) are collected is carried out averaging computing, obtains body temperature data;

The step of described remote monitoring human pulse comprises following sub-step:

S201: pulse detection probe (5) gathers human heart pulse information;

S202: human heart pulse information is sent to microcontroller after being converted to the signal of telecommunication by pulse signal treatment circuit;

S203: microcontroller is forwarded to remote monitoring center by this signal by communication network;

S204: remote monitoring center is analyzed this signal, obtains human heart pulse data;

The step whether described remote monitoring human body falls comprises following sub-step:

S301: acceleration transducer (4) gathers the acceleration information of human motion;

S302: acceleration information is sent to microcontroller after being converted to the signal of telecommunication by acceleration signal treatment circuit;

S303: microcontroller is forwarded to remote monitoring center by this signal by communication network;

S304: remote monitoring center becomes this signal decoding after accekeration, compares this accekeration and default acceleration threshold values, surpasses threshold values and regards as human body and fall.

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