CN1801236A - Structure of multifunctional monitoring and tracing device worn on human body, and its monitoring and tracing method - Google Patents

Abstract

The invention relates to a multi-function monitoring tracking device and the method for realizing this. The inventive device comprises: signal collecting unit which includes a positioning signal receiving module group and a sensing module group; a communication unit for emitting wireless signal; a central processing unit with an input terminal connected with the signal collecting unit and an output terminal connected with the communication unit; the central processing unit convert the signal from the collecting unit into communication signal used for the communication system; the sensing module group comprises sensor for monitoring the ambient parameter of the life body.

Description

Wear multifunctional monitoring and tracker structure and monitoring method for tracing on human body

Technical field

The present invention relates to a kind of application wears multifunctional monitoring and the tracker structure on human body and monitors method for tracing.Monitoring and tracker structure and the monitoring method for tracing whether people's life entity meets with catastrophe worn in particularly a kind of monitoring.

Background technology

People often need to be equipped with monitoring and follow-up mechanism, in order to the generation of emergency condition when trip tourism, exploration or scientific investigation.

Chinese patent CN2699828Y discloses a kind of long range positioning health monitoring device.This invention comprises information Control processing platform, database, master information transmitter, information analysis monitor terminal and information terminal, information terminal comprises information transmitter, information acquisition device, steady arm, detecting device and power supply, information transmitter is connected with information acquisition device, steady arm and detecting device respectively, information transmitter and the wireless connections of master information transmitter.

U.S. Pat 5771001 discloses a kind of warning system that is used for human body.Human health status is judged by monitoring human blood pressure, heart rate and body temperature by this system, and described human blood-pressure, heart rate and body temperature information and geographical location information are sent to main receiving terminal by relay station, reports to the police when noting abnormalities.

The above-mentioned monitoring of human body and the function that follow-up mechanism only has monitoring of human health situation and tracing and positioning of being used for of the prior art.When wearing that the people is prominent to meet calamitous environment or dangerous situation as situations such as natural disaster such as drowned, snow buries, fire and abduction, the human health status of wearing the people still keeps good within a certain period of time, so existing monitoring and follow-up mechanism can not in time send an SOS to report to the police.And occur just beginning when unusual to report to the police when the human health status of wearing the people, then often missed the preferably opportunity of taking emergency relief.

In addition, monitoring and the follow-up mechanism that is used for human body of the prior art, only adopt single positioning system such as global position system GPS, and adopt this system often at many high buildings of urban district place or the mountain area have some blind areas, thereby can't reach comprehensive, the tracking of non-blind area and the purpose of location navigation; Secondly, the bearing accuracy and the speed of global position system GPS are not enough, and especially its bearing accuracy can only reach 10 meters, can't satisfy the needs of some special occasions.Problems such as once more, the too weak or quality of the signal that adopts single positioning system usually to have certain period or a region is bad.

Summary of the invention

For this reason, technical matters to be solved by this invention is to provide a kind of and is wearing multi-functional detection and tracker structure and the monitoring method for tracing that sends an SOS immediately when the people is prominent to meet calamitous environment or dangerous situation;

Further, the invention provides multi-functional detection and the tracker structure and the monitoring method for tracing of a kind of comprehensive, non-blind area, high position precision and good reliability.

For solving the technical matters that foregoing invention proposes, a kind of multifunctional monitoring and tracker structure of wearing on human body of the present invention comprises:

Signal gathering unit, described signal gathering unit receive module by positioning signal at least and inductive module constitutes;

Communication unit is used for transmitted radio signal; And

Center processor (CPU) has the input end that is connected with described signal gathering unit, with the output terminal that is connected with described communication unit; It is to be suitable for the communication signal that the residing communication system of described communication unit uses that described center processor (CPU) is used for the conversion of signals that described signal gathering unit transmission comes;

It is characterized in that,

Described inductive module comprises the environmental parameter sensor that the environmental parameter around the life entity is monitored.

Described environmental parameter sensor comprises temperature sensor, humidity sensor, vibration transducer, gas detection sensor, ray detection sensor, noise measuring sensor and soaks one of sensor or wherein any two or more sensor combinations.

Described inductive module further comprises carries out the monitored physiological parameter sensor to the life entity physiological parameter.

Described positioning signal receives module and comprises the satellite receiver module that is used for receiving satellite positioning signals, and described satellite receiver module is connected with the antenna module that receives the respective satellite positioning system signal.

Described global position system comprises one of GPS (GPS), GLONASS (Global Navigation Satellite System) (GLONASS), Double-Star Positioning System system (GG), Galileo system (GNSS), agps system (AGPS), differential Global Positioning System (DGPS) or the wherein combination of two or more subsystems arbitrarily.

Describedly advance positioning signal and receive module comprise or further comprise the radiolocation signal receiving module that is used to receive the radiolocation signal when having the satellite receiver module, described radiolocation signal receiving module is connected with the antenna module that receives the radio wave transmission positioning system signal.

Described center processor (CPU) can carry out automatic selection of optimal or comprehensive the use in the subsystem of described global position system.

Further comprise a control module, (CPU) is connected with described center processor, and the parameter that described control module sets according to control program is controlled described center processor (CPU) and received the signal of described signal gathering unit transmission and the work of described communication unit.

Having links to each other with the signal output part of center processor (CPU) is used for sending to described wearer a warning unit of a caution signal.

Described warning unit has LCDs (LCD) and/or hummer that is used to show life and health situation, environmental aspect and geographic location information thereof.

A kind of method that adopts above-mentioned multifunctional monitoring and tracker monitoring to follow the trail of the life entity unsafe condition has following steps:

-described inductive module detects required induced signal, and described positioning signal receives module and receives positioning signal;

-described center processor (CPU) will receive to such an extent that be converted to the communication signal that is suitable for the residing communication system use of described communication unit from the described induced signal of described inductive module and the described positioning signal of described positioning signal reception module; And by

-described center processor (CPU) control communication module group sends an SOS to the remote monitoring center by communication system.

Described induced signal comprises the environmental parameter signals and/or the described physiological parameter sensors monitoring life entity physiological parameter signals of described environmental parameter sensor.

Described environmental parameter signals comprises environment temperature, humidity, high vibration, toxic gas, harm ray, loud noise noise and soaked with liquid.

Described life entity physiological parameter signals comprises blood pressure, body temperature and heart rate.

Before described center processor (CPU) receives described induced signal, when the amplitude of the induced signal that records when described inductive module reaches the parameter value that the control program of described center processor (CPU) sets, start described center processor (CPU) and receive signal that described signal gathering unit transmits and the work that starts described communication unit.

When the amplitude of the induced signal that records when described inductive module reaches the parameter value that the control program of described center processor (CPU) sets, described center processor (CPU) sends the signal that starts a warning unit, and sends a caution signal by described warning unit to described wearer.

When the wearer out of danger, and the amplitude that makes the induced signal that described inductive module records is when being lower than the parameter value that the control program of described center processor (CPU) sets, the wearer stops the work of described communication unit by an alarm release unit and/or stops described warning unit sending warning signal, and sends the signal that stops rescue.

Described center processor (CPU) can carry out automatic selection of optimal or comprehensive the use in the subsystem of described global position system.

Described remote monitoring center has Geographic Information System (GIS), judges particular location, movement velocity and the direction of motion of user on its high-precision electronic chart by the described remote monitoring of Geographic Information System (GIS) center according to the distress signal of sending from described multifunctional monitoring and tracker; The position of the full vector quantization that described position is marked by Geographic Information System (GIS).

Technique scheme of the present invention has following good effect compared to existing technology: (1) multifunctional monitoring of the present invention and tracker have been set up the environment induction module on prior art, when wearing that the people is prominent to meet calamitous environment or dangerous situation as situations such as natural disaster such as drowned, snow buries, fire and abduction, can send an SOS immediately to report to the police, guarantee to take bailout promptness.(2) the environment induction module of the present invention's employing comprises multiple sensors, can tackle various emergency conditioies.(3) LCD display of the present invention's employing can intuitively show the information such as health status, environmental aspect and geographic location thereof of the human body of surveying, and is convenient and practical.(4) in the method for work of multifunctional monitoring of the present invention and tracker, communication module group can comprise that global position system GPS, GLONASS (Global Navigation Satellite System) GLONASS, the GG of Double-Star Positioning System system, Galileo system GNSS, agps system AGPS, differential Global Positioning System DGPS and general radio wave transmission receiving system etc. carry out automatic selection of optimal or comprehensive the use to the subsystem of multi-functional positioning system, solved the blind area that the single global position system GPS of traditional employing may exist, also bearing accuracy has been increased in 1 meter simultaneously.In addition, problems such as the too weak or quality of the signal that adopts single positioning system usually to have certain period or region is bad have also been solved.

Description of drawings

For the easier quilt of content of the present invention is clearly understood, below according to a particular embodiment of the invention and in conjunction with the accompanying drawings, the present invention is further detailed explanation, wherein

Fig. 1 is the multifunctional monitoring on human body and the circuit block diagram of tracker structure worn of the present invention;

Fig. 2 is the circuit block diagram of an embodiment of inductive module shown in Fig. 1;

Fig. 3 is the circuit block diagram of an embodiment of environmental parameter shown in Fig. 2;

Fig. 4 is the circuit block diagram of an embodiment of human parameters shown in Fig. 2;

Fig. 5 is the circuit block diagram that satellite shown in Fig. 1 receives an embodiment of module;

Fig. 6 is the circuit block diagram at remote monitoring center shown in Fig. 1.

Reference numeral is expressed as among the figure: 0-multifunctional monitoring and tracker, and the 1-signal gathering unit, the 11-positioning signal receives module, 12-inductive module, the 2-communication unit, 3-center processor CPU, 4-control module, 5-LCDs LCD, 6-global position system, 7-remote monitoring center.

Embodiment

As shown in Figure 1, shown multifunctional monitoring on human body and a kind of embodiment of tracker 0 worn of the present invention.Described multifunctional monitoring and tracker 0 comprise: receive the signal gathering unit 1 that module 11 and inductive module 12 constitute by positioning signal, the communication unit 2 that is used for transmitted radio signal, being used for the conversion of signals that described signal gathering unit transmission comes is the center processor CPU 3 that is suitable for the communication signal of residing communication system 8 uses of described communication unit, the control module 4 that is connected with the described processor CPU of signal center 3 links to each other with the signal output part of center processor CPU 3, be used to show the life and health situation, the LCDs LCD 5 of environmental aspect and geographic location information thereof is the unit by way of caution.

Described center processor CPU 3 has input end that is connected with described signal gathering unit 1 and the output terminal that is connected with described communication unit 2.

Described inductive module 12 comprises environmental parameter sensor that the environmental parameter around the life entity is monitored and the life entity physiological parameter is carried out monitored physiological parameter sensor (referring to Fig. 2).

Described environmental parameter sensor forms (referring to Fig. 3) by temperature sensor, humidity sensor, vibration transducer, gas detection sensor, ray detection sensor, noise measuring sensor and immersion set of sensors.

And described physiological parameter sensors forms (referring to Fig. 4) by sphygmomanometer, clinical thermometer, electrocardiograph set.

Described positioning signal receives module 11 and comprises the satellite receiver module that is used for receiving satellite positioning signals, and described satellite receiver module is connected with the antenna module that receives respective satellite positioning system 6 signals.

Described global position system 6 comprises the combination (referring to Fig. 5) of GPS (GPS), GLONASS (Global Navigation Satellite System) (GLONASS), Double-Star Positioning System system (GG), Galileo system (GNSS), agps system (AGPS), differential Global Positioning System subsystems such as (DGPS).Described center processor CPU 3 carries out automatic selection of optimal or comprehensive the use in the subsystem of described global position system 6.

The parameter that control module 4 sets according to control program is controlled described center processor CPU 3 and is received the signal of described signal gathering unit 1 transmission and the work of described communication unit 2.

The people who wears multifunctional monitoring of the present invention and tracker is when causing danger, and the described environmental parameter sensor in the described inductive module arrives and the corresponding induced signal of precarious position; As send the signal of temperature difference great change in the stranded scene of a fire or when meeting with snowslide, when running into toxic and harmful by the electronics nose sent the toxic gas detection signal, the water of being drown goes out soaked with liquid signal or the like.Simultaneously in order to monitor person in distress's physiology sign, the described physiological parameter sensors monitoring life entity physiological parameter signals in the described inductive module; As detecting blood pressure by electronic sphygmomanometer, detecting body temperature and detect heart rate or the like by electrocardiograph by clinical thermometer.The satellite positioning signal that described induced signal that the described inductive module that receives described center processor (CPU) transmits and described satellite receiver module receive is converted to the communication signal that is suitable for residing communication system 8 uses of described communication unit then; And send an SOS to the remote monitoring center by described center processor (CPU) control communication module group.

Wherein, when the amplitude of the induced signal that described inductive module records reached the parameter value that the control program of described center processor (CPU) sets, center processor (CPU) received signal that described signal gathering unit transmits and the work that starts described communication unit.Obviously, under this prompting and instruction, a unit that is started voluntarily by the wearer can also be set on described multifunctional monitoring and tracker 0.The wearer runs into the danger and disaster situation that environmental factor such as abduction does not have significant change with reply.

As shown in Figure 6, described remote monitoring center has Geographic Information System (GIS), and described remote monitoring center is according to the position concrete, that marked by Geographic Information System (GIS) of judging its place from the described communication signal of described multifunctional monitoring and tracker.

The function of Geographic Information System (GIS) comprising: use the position of the real-time explicit user of high-precision electronic chart (moving or fixed target) and the multi-layer information that the multidate information electronic chart comprises; Formulate the GIS ratio according to the actual requirements; The formulation query function can be called the roll central control board at any time and is inquired about present position, speed and the direction of motion of car; Also have multiple functions such as windows display, track return visit, figure output, self-navigation

By the given enlightenment of the explanation of the foregoing description, described those skilled in the art can make the embodiment of following alternative form apparently.

Hi an alternative embodiment, described environmental parameter sensor can and soak one of sensor or wherein any two or more sensor combinations by temperature sensor, humidity sensor, vibration transducer, gas detection sensor, ray detection sensor, noise measuring sensor.To adapt to the needs of different demands, as exploration, tourism, field work or the like.

In alternative embodiment, described global position system comprises one of described GPS (GPS), GLONASS (Global Navigation Satellite System) (GLONASS), Double-Star Positioning System system (GG), Galileo system (GNSS), agps system (AGPS), differential Global Positioning System subsystems such as (DGPS) or the wherein combination of two or more subsystems arbitrarily.

In addition, wear multifunctional monitoring on human body and tracker structure described of the present invention advances positioning signal to receive module is the radiolocation signal receiving module that is used to receive the radiolocation signal, and described radiolocation signal receiving module is connected with the antenna module that receives the radio wave transmission positioning system signal.Also can further comprise the radiolocation signal receiving module that is used to receive the radiolocation signal when having the satellite receiver module, described radiolocation signal receiving module is connected with the antenna module that receives the radio wave transmission positioning system signal.

In above-mentioned tracker structure of the present invention, except LCDs (LCD), unit further is sound parts such as a hummer or loudspeaker by way of caution.Obviously described LCDs (LCD) is used in combination with sound part and can obtains more effect.When the amplitude of the induced signal that records when described inductive module reaches the parameter value that the control program of described center processor (CPU) sets, described center processor (CPU) sends the signal that starts a warning unit, and sends a caution signal by described warning unit to described wearer.This have acoustic warning unit and can in time give a warning to the wearer, informs that unsafe condition appears in its physical signs or environmental index, stops further life-threatening activity immediately or leave immediately to have dangerous environment.

Further, in above-mentioned tracker structure of the present invention, an alarm release unit is set.In case physical signs is recovered normal or wearer's environment out of danger; and the amplitude that makes the induced signal that described inductive module records is when being lower than the parameter value that the control program of described center processor (CPU) sets; the wearer stops the work of described communication unit by described alarm release unit and/or stops described warning unit sending warning signal, and sends the signal that stops rescue.Stop rescue unit and carry out further rescue action, to avoid the waste of social resources.

Obviously, the above embodiment of the present invention only is for example of the present invention clearly is described, and is not to be qualification to embodiments of the present invention.For those of ordinary skill in the field, can also make other changes in different forms on the basis of the above description.Here need not also can't give exhaustive to all embodiments.And these belong to conspicuous variation or the change that spirit of the present invention extended out and still are among protection scope of the present invention.

Claims (20)

1. a multifunctional monitoring and tracker structure of wearing on human body comprises:

Signal gathering unit, described signal gathering unit receive module by positioning signal at least and inductive module constitutes;

Communication unit is used for transmitted radio signal; And

Center processor (CPU) has the input end that is connected with described signal gathering unit, with the output terminal that is connected with described communication unit; It is to be suitable for the communication signal that the residing communication system of described communication unit uses that described center processor (CPU) is used for the conversion of signals that described signal gathering unit transmission comes;

It is characterized in that,

Described inductive module comprises the environmental parameter sensor that the environmental parameter around the life entity is monitored.

2. multifunctional monitoring and the tracker structure of wearing on human body according to claim 1 is characterized in that described environmental parameter sensor comprises temperature sensor, humidity sensor, vibration transducer, gas detection sensor, ray detection sensor, noise measuring sensor and soaks one of sensor or wherein any two or more sensor combinations.

3. multifunctional monitoring and the tracker structure of wearing on human body according to claim 1, it is characterized in that described inductive module further comprises carries out the monitored physiological parameter sensor to the life entity physiological parameter.

4. multifunctional monitoring and the tracker structure of wearing on human body according to claim 1, it is characterized in that described positioning signal receives module and comprises the satellite receiver module that is used for receiving satellite positioning signals, described satellite receiver module is connected with the antenna module that receives the respective satellite positioning system signal.

5. multifunctional monitoring and the tracker structure of wearing on human body according to claim 4 is characterized in that described global position system comprises one of GPS (GPS), GLONASS (Global Navigation Satellite System) (GLONASS), Double-Star Positioning System system (GG), Galileo system (GNSS), agps system (AGPS), differential Global Positioning System (DGPS) or the wherein combination of two or more subsystems arbitrarily.

6. multifunctional monitoring and the tracker structure of wearing on human body according to claim 1, it is characterized in that describedly advancing positioning signal and receiving module and comprise the radiolocation signal receiving module that is used to receive the radiolocation signal, described radiolocation signal receiving module is connected with the antenna module that receives the radio wave transmission positioning system signal.

7. multifunctional monitoring and the tracker structure of wearing on human body according to claim 5, it is characterized in that describedly advancing positioning signal and receiving module and further comprise the radiolocation signal receiving module that is used to receive the radiolocation signal, described radiolocation signal receiving module is connected with the antenna module that receives the radio wave transmission positioning system signal.

8. according to claim 6 or 7 described multifunctional monitoring and the tracker structures of wearing on human body, it is characterized in that described center processor (CPU) can carry out automatic selection of optimal or comprehensive the use in the subsystem of described global position system.

9. multifunctional monitoring and the tracker structure of wearing on human body according to claim 1, it is characterized in that further comprising a control module, (CPU) is connected with described center processor, and the parameter that described control module sets according to control program is controlled described center processor (CPU) and received the signal of described signal gathering unit transmission and the work of described communication unit.

10. multifunctional monitoring and the tracker structure of wearing on human body according to claim 9 is characterized in that having linking to each other with the signal output part of center processor (CPU) and is used for sending to described wearer a warning unit of a caution signal.

11. multifunctional monitoring and the tracker structure of wearing on human body according to claim 10 is characterized in that described warning unit has LCDs (LCD) and/or hummer that is used to show life and health situation, environmental aspect and geographic location information thereof.

12. a method that adopts above-mentioned multifunctional monitoring and tracker monitoring to follow the trail of the life entity unsafe condition has following steps:

-described inductive module detects required induced signal, and described positioning signal receives module and receives positioning signal;

-described center processor (CPU) will receive to such an extent that be converted to the communication signal that is suitable for the residing communication system use of described communication unit from the described induced signal of described inductive module and the described positioning signal of described positioning signal reception module; And by

-described center processor (CPU) control communication module group sends an SOS to the remote monitoring center by communication system.

13. the method for life entity unsafe condition is followed the trail of in monitoring according to claim 12, it is characterized in that described induced signal comprises the environmental parameter signals and/or the described physiological parameter sensors monitoring life entity physiological parameter signals of described environmental parameter sensor.

14. the method for life entity unsafe condition is followed the trail of in monitoring according to claim 13, it is characterized in that described environmental parameter signals comprises environment temperature, humidity, high vibration, toxic gas, harm ray, loud noise noise and soaked with liquid.

15. the method for life entity unsafe condition is followed the trail of in monitoring according to claim 13, it is characterized in that described life entity physiological parameter signals comprises blood pressure, body temperature and heart rate.

16. the method for life entity unsafe condition is followed the trail of in monitoring according to claim 12, it is characterized in that before described center processor (CPU) receives described induced signal, when the amplitude of the induced signal that records when described inductive module reaches the parameter value that the control program of described center processor (CPU) sets, start described center processor (CPU) and receive signal that described signal gathering unit transmits and the work that starts described communication unit.

17. the method for life entity unsafe condition is followed the trail of in monitoring according to claim 16, when the amplitude that it is characterized in that the induced signal that records when described inductive module reaches the parameter value that the control program of described center processor (CPU) sets, described center processor (CPU) sends the signal that starts a warning unit, and sends a caution signal by described warning unit to described wearer.

18. method according to claim 16 or 17 described monitorings tracking life entity unsafe conditions, it is out of danger to it is characterized in that working as the wearer, and the amplitude that makes the induced signal that described inductive module records is when being lower than the parameter value that the control program of described center processor (CPU) sets, the wearer stops the work of described communication unit by an alarm release unit and/or stops described warning unit sending warning signal, and sends the signal that stops rescue.

19. the method for life entity unsafe condition is followed the trail of in monitoring according to claim 12, it is characterized in that described center processor (CPU) can carry out automatic selection of optimal or comprehensive the use in the subsystem of described global position system.

20. the method for life entity unsafe condition is followed the trail of in monitoring according to claim 12, it is characterized in that described remote monitoring center has Geographic Information System (GIS), judge particular location, movement velocity and the direction of motion of user on its high-precision electronic chart according to the distress signal of sending from described multifunctional monitoring and tracker by the described remote monitoring of Geographic Information System (GIS) center; The position of the full vector quantization that described position is marked by Geographic Information System (GIS).

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