CN111009105B - Communication method and system based on intelligent wearable device - Google Patents

Abstract

The present application discloses a communication method and system based on smart wearable devices, electronic devices, and computer storage media, establishes a corresponding relationship between smart wearable devices and user terminals, receives health measurement data and surrounding environment data sent by smart wearable devices, and utilizes health The current early warning information is obtained from the measurement data and the surrounding environment data, and the current early warning information is sent to the user terminal corresponding to the smart wearable device. The smart wearable device is worn on the wearer such as the elderly or minors, and is pre-bound to the mobile phone of the family member or doctor. Using the current health status of the wearer and the environment in which the wearer is located, it can judge what danger the wearer has encountered and notify the family or the doctor. Physician, such as when the wearer accidentally falls into a manhole causing apnea. Further, which users to notify can also be determined according to the danger level of the wearer's current state.

Description

Communication method and system based on intelligent wearable device

Technical Field

The application relates to the technical field of Internet of things, in particular to a communication method and system based on intelligent wearable equipment, electronic equipment and a computer storage medium.

Background

With the medical development, the life of people is longer and longer, and many old people are easy to fall down and have heartbeat apnea, which is a statistical reason for the old people to stay in hospital. The elderly also have a high proportion of Alzheimer's disease, and loss of the disease occurs occasionally. On the other hand, the young people are also easy to lose, including the situation that all people in the ordinary people may fall into the dangerous environment such as the inspection well.

Present intelligent wearing equipment develops rapidly, there has been intelligent bracelet, in being applied to the life such as intelligent wrist-watch, what can acquire healthy measured data such as rhythm of the heart, heartbeat and send the healthy measured data that measure and positional information to the user's cell-phone that binds, but healthy measured data often can only reflect the fluctuation of a certain vital sign of wearing person, can not reflect the reason that this fluctuation appears, prior art does not have at present and combines together healthy measured data and environmental information, synthesize the function of reflecting the current state danger degree of wearing person.

Disclosure of Invention

The application aims to provide a communication method and system based on intelligent wearable equipment, electronic equipment and a computer storage medium, wherein health data measured by the intelligent wearable equipment are combined with environmental information, early warning information reflecting the current state danger degree of a wearer is acquired, and the early warning information is sent to a pre-bound user terminal.

The purpose of the application is realized by adopting the following technical scheme:

a communication method based on intelligent wearable equipment comprises the following steps: establishing a corresponding relation between the intelligent wearable equipment and the user terminal; receiving health measurement data and ambient environment data sent by the intelligent wearable device; acquiring current early warning information by using the health measurement data and the surrounding environment data, wherein the current early warning information comprises the current health state of the wearer and the current environment; and sending the current early warning information to the user terminal corresponding to the intelligent wearable device.

Therefore, the current early warning information is obtained by utilizing the health measurement data and the surrounding environment data sent by the intelligent wearable device, and the obtained current early warning information is sent to the user terminal bound with the intelligent wearable device in advance. The intelligent wearable device is worn on the body of a wearer such as an old person or a minor person and is bound to a mobile phone of a family or a doctor in advance, the current health state and the environment of the wearer can be used for judging what dangerous situations the wearer encounters and informing the family or the doctor, for example, the wearer carelessly falls into an inspection well to cause apnea.

Optionally, the establishing a corresponding relationship between the intelligent wearable device and the user terminal includes: setting an identifier, wherein the identifier is a two-dimensional code or a bar code corresponding to the intelligent wearable device; and establishing a corresponding relation between the intelligent wearable device and the user terminal by using the identification.

Like this, can set up the sign corresponding with intelligent wearing equipment, the family or the doctor of wearing person can conveniently bind cell-phone and intelligent wearing equipment through two-dimensional code or bar code.

Optionally, the sending the current warning information to the user terminal corresponding to the intelligent wearable device includes: setting a receiving level of the user terminal; establishing a corresponding relation between the early warning information and the receiving grade; acquiring a current receiving grade corresponding to the current early warning information by using the corresponding relation between the early warning information and the receiving grade; and sending the current early warning information to the user terminal which corresponds to the intelligent wearable device and is at the current receiving level.

The user terminal who binds with intelligent wearing equipment can both include the cell-phone of wearing person's family and include family doctor's cell-phone, and the health problem that the wearing person appears may be the little problem, and its family can handle by oneself, and need not all inform the doctor at every turn, consequently can carry out the authority setting to the notice crowd, set up different authorities for family and doctor, all inform the health problem family of wearing person, only when the wearing person appears moderate or severe health problem just direct notice the doctor.

Optionally, the sending the current warning information to the user terminal corresponding to the intelligent wearable device includes: setting a receiving level of the user terminal; the receiving grades comprise a first grade and a second grade; sending the current early warning information to the user terminal which corresponds to the intelligent wearable device and is at the first level; responding to the action of selecting to send by the user terminal corresponding to the intelligent wearable device and located at the first level, and sending the current early warning information to the user terminal corresponding to the intelligent wearable device and located at the second level.

In this way, the user at the first level may determine whether to notify the user at the second level, for example, the elderly or minors may determine whether to notify the doctor after receiving the warning information.

Optionally, the method further comprises: establishing a corresponding relation between the early warning information and the rescue equipment; the rescue device comprises a medical device and/or a rescue device; and acquiring the current rescue equipment corresponding to the current early warning information by utilizing the corresponding relation between the early warning information and the rescue equipment.

Therefore, medical equipment and rescue equipment which are needed can be intelligently suggested according to the current early warning information, so that medical staff or other rescuers can timely configure corresponding equipment before arriving at the scene, and can perform rescue and timely rescue the wearer.

The utility model provides a communication system based on intelligent wearing equipment, includes the communication device based on intelligent wearing equipment, the communication device based on intelligent wearing equipment includes: the corresponding module is used for establishing a corresponding relation between the intelligent wearable equipment and the user terminal; the receiving module is used for receiving the health measurement data and the ambient environment data sent by the intelligent wearable equipment; the acquisition module is used for acquiring current early warning information by utilizing the health measurement data and the surrounding environment data, and the current early warning information comprises the current health state of the wearer and the current environment; and the sending module is used for sending the current early warning information to the user terminal corresponding to the intelligent wearable device.

Optionally, the corresponding module includes: the first setting unit is used for setting an identifier, wherein the identifier is a two-dimensional code or a bar code corresponding to the intelligent wearable device; and the first corresponding unit is used for establishing a corresponding relation between the intelligent wearable device and the user terminal by using the identifier.

Optionally, the sending module includes: a second setting unit for setting a reception level of the user terminal; the second corresponding unit is used for establishing a corresponding relation between the early warning information and the receiving grade; an obtaining unit, configured to obtain a current receiving level corresponding to the current warning information by using a correspondence between the warning information and the receiving level; and the first sending unit is used for sending the current early warning information to the user terminal which corresponds to the intelligent wearable device and is at the current receiving level.

Optionally, the sending module includes: a third setting unit, configured to set a reception level of the user terminal; the receiving grades comprise a first grade and a second grade; the second sending unit is used for sending the current early warning information to the user terminal which corresponds to the intelligent wearable device and is at the first level; and the third sending unit is used for responding to the action of selecting sending by the user terminal corresponding to the intelligent wearable device and located at the first level, and sending the current early warning information to the user terminal corresponding to the intelligent wearable device and located at the second level.

Optionally, the communication device based on the intelligent wearable device further includes a rescue module, and the rescue module includes: the third corresponding unit is used for establishing a corresponding relation between the early warning information and the rescue equipment; the rescue device comprises a medical device and/or a rescue device; and the rescue unit is used for acquiring the current rescue equipment corresponding to the current early warning information by utilizing the corresponding relation between the early warning information and the rescue equipment.

Optionally, the communication device based on the smart wearable device further includes a hospital module, and the hospital module includes: the fourth corresponding unit is used for establishing a corresponding relation between the hospital and the doctor terminal; the position unit is used for receiving the position information sent by the intelligent wearable device, or acquiring the position information of the intelligent wearable device by using the ambient environment data; the searching unit is used for searching a hospital with a distance smaller than a preset distance from the position information by using the position information; and the fourth sending unit is used for sending prompt information containing the position information to the doctor terminal corresponding to the searched hospital.

Therefore, the system can inform nearby hospitals according to the current geographic position of the wearer, and timely help the wearer.

Optionally, the smart wearable device is further included, and is configured to obtain the health measurement data and the ambient environment data.

In this way, the intelligent wearable device can be utilized to obtain health measurement data and ambient environment data.

Optionally, the intelligent wearable device is provided with a one-key alarm button; the intelligent wearable equipment judges whether an alarm condition is met or not, and sends the health measurement data and the ambient environment data to the intelligent wearable equipment-based communication device when the alarm condition is met; the alarm condition includes a determination that an emergency situation occurs and/or the one-touch alarm button is pressed.

Therefore, when the wearer is in a dangerous situation or the one-key alarm button is pressed, the health measurement data and the ambient environment data of the wearer can be sent to the user terminal in real time.

An electronic device comprising a processor and a memory, wherein the processor executes computer instructions stored in the memory to enable the electronic device to execute any one of the above communication methods based on the intelligent wearable device.

A computer storage medium, comprising computer instructions, which when run on an electronic device, cause the electronic device to execute any one of the above communication methods based on a smart wearable device.

Compared with the prior art, the technical effects of the application include:

the application discloses a communication method and system based on intelligent wearable equipment, electronic equipment and a computer storage medium, wherein current early warning information is acquired by using health measurement data and surrounding environment data sent by the intelligent wearable equipment, and the acquired current early warning information is sent to a user terminal bound with the intelligent wearable equipment in advance. The intelligent wearable device is worn on the body of a wearer such as an old person or a minor person and is bound to a mobile phone of a family or a doctor in advance, the current health state and the environment of the wearer can be used for judging what dangerous situations the wearer encounters and informing the family or the doctor, for example, the wearer carelessly falls into an inspection well to cause apnea. Further, it is also possible to determine which users to notify based on the degree of risk of the current state of the wearer.

Drawings

The present application is further described below with reference to the drawings and examples.

Fig. 1 is a schematic flowchart of a first communication method based on an intelligent wearable device according to an embodiment of the present application;

FIG. 2 is a schematic flow chart of step S11 in FIG. 1;

FIG. 3 is a first flowchart of step S14 in FIG. 1;

FIG. 4 is a second flowchart of step S14 in FIG. 1;

fig. 5 is a schematic flowchart of a second communication method based on an intelligent wearable device according to an embodiment of the present application;

fig. 6 is a schematic structural diagram of a communication system based on an intelligent wearable device according to an embodiment of the present application;

FIG. 7 is a block diagram of the corresponding block 610 of FIG. 6;

fig. 8 is a first structural diagram of the sending module 640 in fig. 6;

fig. 9 is a second structural diagram of the sending module 640 in fig. 6;

fig. 10 is a schematic diagram of the rescue module 650 of fig. 6;

fig. 11 is a schematic diagram of the architecture of hospital module 660 of fig. 6.

In the figure: 600. the communication device is based on the intelligent wearable equipment; 610. a corresponding module; 611. a first setting unit; 612. a first corresponding unit; 620. a receiving module; 630. an acquisition module; 640. a sending module; 641. a second setting unit; 642. a second corresponding unit; 643. an acquisition unit; 644. a first transmitting unit; 645. a third setting unit; 646. a second transmitting unit; 647. a third transmitting unit; 650. a rescue module; 651. a third corresponding unit; 652. a rescue unit; 660. a hospital module; 661. a fourth corresponding unit; 662. a position unit; 663. a search unit; 664. a fourth transmitting unit; 700. the intelligent wearable equipment; 710. a one-key alarm button; 800. a user terminal.

Detailed Description

The present application is further described with reference to the accompanying drawings and the detailed description, and it should be noted that, in the present application, the embodiments or technical features described below may be arbitrarily combined to form a new embodiment without conflict.

Referring to fig. 1, the embodiment of the application provides a communication method based on an intelligent wearable device, which includes steps S11-S14.

The intelligent wearable device can be an intelligent bracelet, an intelligent watch, intelligent glasses, an intelligent vest or other intelligent wearable devices.

Step S11: and establishing a corresponding relation between the intelligent wearable equipment and the user terminal.

The user terminal is a terminal device used by a family or a doctor of a wearer, such as a mobile phone, a tablet computer, a smart bracelet, a smart watch, a smart speaker or other smart terminal devices. The wearer is an elderly person, a minor or other person wearing the intelligent wearable device.

Referring to FIG. 2, step S11 may include steps S21-S22.

Step S21: and setting an identifier, wherein the identifier is a two-dimensional code or a bar code corresponding to the intelligent wearable device.

Step S22: and establishing a corresponding relation between the intelligent wearable device and the user terminal by using the identifier.

Like this, can set up the sign corresponding with intelligent wearing equipment, the family or the doctor of wearing person can conveniently bind cell-phone and intelligent wearing equipment through two-dimensional code or bar code.

Step S12: and receiving the health measurement data and the ambient environment data sent by the intelligent wearable device.

The health measurement data can include one or more of heart rate data, respiratory data, body temperature data, blood pressure data, blood glucose data, blood lipid data measured by the intelligent wearable device.

The ambient environment data may include picture data, audio data or video data about the ambient environment collected by the smart wearable device.

Step S13: and acquiring current early warning information by utilizing the health measurement data and the surrounding environment data, wherein the current early warning information comprises the current health state of the wearer and the current environment.

The current early warning information refers to the early warning information of the current time, and the early warning information can reflect the environment and the health state of the wearer at the same time.

The warning information is for example that the wearer is currently in the manhole and is apneic. The early warning information is obtained by analyzing the health measurement data and the ambient environment data. The current environment of the wearer can be analyzed by utilizing the ambient environment data, for example, the wearer is judged to be in an inspection well by utilizing a field photo uploaded by the intelligent wearable device. The health measurement data can be used to analyze the health status of the patient, for example, whether or not heartbeat apnea occurs.

When analyzing the current health status and the current environment of the wearer, the health measurement data and the ambient environment data can be utilized for comprehensive judgment.

Step S14: and sending the current early warning information to a user terminal corresponding to the intelligent wearable device.

Step S11 precedes step S14, step S12 precedes step S13, and step S13 precedes step S14.

Therefore, the current early warning information is obtained by utilizing the health measurement data and the surrounding environment data sent by the intelligent wearable device, and the obtained current early warning information is sent to the user terminal bound with the intelligent wearable device in advance. The intelligent wearable device is worn on the body of a wearer such as an old person or a minor person and is bound to a mobile phone of a family or a doctor in advance, the current health state and the environment of the wearer can be used for judging what dangerous situations the wearer encounters and informing the family or the doctor, for example, the wearer carelessly falls into an inspection well to cause apnea.

Referring to FIG. 3, step S14 may include S31-S34.

Step S31: setting a reception level of the user terminal. The reception level may include a first level, a second level, and the like.

For example, the reception level of the user terminal of all or part of the family of the wearer may be set to a first level, and the reception level of the user terminal of the family doctor or the attending doctor of the wearer may be set to a second level.

Step S32: and establishing a corresponding relation between the early warning information and the receiving level.

The process of establishing the above correspondence may be: and acquiring a training data set of the early warning information and the receiving grade, performing deep learning by using the training data set, and establishing a model representing the corresponding relation between the early warning information and the receiving grade.

For example, when the early warning information is that the wearer is currently in the inspection well and has a breath pause, the corresponding receiving level may be all receiving levels including the first level and the second level.

Step S33: and acquiring the current receiving grade corresponding to the current early warning information by using the corresponding relation between the early warning information and the receiving grade.

The current reception level refers to a reception level of the current time.

Step S34: and sending the current early warning information to a user terminal which corresponds to the intelligent wearable device and is at the current receiving level.

Step S31 precedes step S34, step S32 precedes step S33, and step S33 precedes step S34.

The user terminal who binds with intelligent wearing equipment can both include the cell-phone of wearing person's family and include family doctor's cell-phone, and the health problem that the wearing person appears may be the little problem, and its family can handle by oneself, and need not all inform the doctor at every turn, consequently can carry out the authority setting to the notice crowd, set up different authorities for family and doctor, all inform the health problem family of wearing person, only when the wearing person appears moderate or severe health problem just direct notice the doctor.

The early warning information that will characterize the current danger degree of the wearer corresponds with the receiving level, can be according to the difference of current danger degree, inform specific personnel or all personnel relevant with the wearer selectively with the condition of wearer, do not disturb the doctor when the wearer takes place the subproblem on the one hand, avoid increaseing doctor's work load, extravagant medical resource, on the other hand in time inform all personnel that bind with intelligent wearing equipment when the wearer takes place major problems, can in time launch the rescue strength.

Referring to FIG. 4, step S14 may include steps S41-S43.

Step S41: and setting the receiving grade of the user terminal, wherein the receiving grade comprises a first grade and a second grade.

Step S42: and sending the current early warning information to a user terminal which corresponds to the intelligent wearable device and is at a first level.

The user terminal at the first level may comprise a cell phone of all or part of the family of the wearer, or a cell phone of the carer of the wearer.

The current early warning information is sent to the user terminal which corresponds to the intelligent wearable device and is at the first level, and meanwhile the option information can be sent together. The option information includes the transmitted options. The option information may also include options not to send. Here, transmission and non-transmission refer to whether to transmit to the user terminal in the second rank.

The option information can also be displayed at the user terminal after the user terminal receives the current early warning information.

Step S43: and responding to the action of selecting and sending by the user terminal corresponding to the intelligent wearable device and at the first level, and sending the current early warning information to the user terminal corresponding to the intelligent wearable device and at the second level.

The user terminal at the second level may be the wearer's home doctor or the attending doctor's cell phone.

In this way, the user at the first level may determine whether to notify the user at the second level, for example, the elderly or minors may determine whether to notify the doctor after receiving the warning information.

Referring to FIG. 5, the method may further include S51-S52.

Step S51: and establishing a corresponding relation between the early warning information and the rescue equipment. The rescue device comprises a medical device and/or a rescue device.

The environment classification information includes inspection wells, underwater, hillside, snow mountain, forest land, and the like.

The medical device may include one or more of a thermometer, a sphygmomanometer, a blood glucose meter, an electrocardiograph, an electroencephalograph, an electromyograph, a cardiac defibrillator, a trauma treatment cart, an operating bed, an operating light, a monitor, an anesthesia machine, an oxygen supply device, a ventilator, a blood cell analyzer, a differentiation analyzer, a microplate reader, a plate washer, a urine analyzer, an ultrasound machine, an X-ray machine, and a nuclear magnetic resonance instrument.

The rescue equipment may include one or more of a demolition equipment, a forklift, a bulldozer, a metal cutter, an electric welder, a hoist-tower crane, a single-rope winch, a multi-rope winch, a climbing vehicle, a ladder, a safety rope, a descent control device, a lifesaving air cushion, an excavator, a bulldozer, a loader, an engineering transport vehicle, an obstacle clearing vehicle, a traffic signal tool, a high-intensity light, a protective equipment, a ventilator, a generator, a water delivery device hose, a nozzle, a portable fire extinguisher, a water pump, a lighting vehicle, a command vehicle, a high-pressure water gun, a climbing vehicle, an oxygen respirator, a gas mask, a protective suit, a life jacket, an ambulance, a stretcher, a splint, oxygen, a first-aid kit, an interphone, a mobile phone, a telephone, a facsimile machine, and a telegram.

For example, the rescue equipment corresponding to the inspection well can be configured as a demolition equipment, a safety rope, a strong light, a water pump, oxygen, a life jacket, an ambulance, an interphone and the like. The rescue device corresponding to the sudden cardiac arrest of the wearer is configured as a defibrillator, a cardiac pacemaker or the like.

Step S52: and acquiring the current rescue equipment corresponding to the current early warning information by utilizing the corresponding relation between the early warning information and the rescue equipment.

The current rescue equipment refers to rescue equipment at the current time.

Therefore, medical equipment and rescue equipment which are needed can be intelligently suggested according to the current early warning information, so that medical staff or other rescuers can timely configure corresponding equipment before arriving at the scene, and can perform rescue and timely rescue the wearer.

Referring to fig. 6, an embodiment of the present application provides a communication system based on an intelligent wearable device, including a communication apparatus 600 based on an intelligent wearable device.

The communication device 600 based on the intelligent wearable device comprises a corresponding module 610, a receiving module 620, an obtaining module 630 and a sending module 640, wherein the corresponding module 610 and the sending module 640 perform data interaction, and the obtaining module 630 performs data interaction with the receiving module 620 and the sending module 640 respectively.

The corresponding module 610 is configured to establish a corresponding relationship between the smart wearable device 700 and the user terminal 800.

The receiving module 620 is configured to receive the health measurement data and the ambient environment data sent by the smart wearable device 700.

The obtaining module 630 is configured to obtain current warning information using the health measurement data and the ambient environment data, where the current warning information includes a current health status of the wearer and a current environment where the wearer is located.

The sending module 640 is configured to send the current warning information to the user terminal 800 corresponding to the intelligent wearable device 700.

The communication device 600 based on the smart wearable device can perform data interaction with the user terminal 800.

The smart-wearable-device-based communication system may further include a smart wearable device 700 for obtaining health measurement data and ambient environment data. The smart wearable device 700 may perform data interaction with the smart wearable device-based communication apparatus 600.

In this way, health measurement data and ambient environment data may be acquired using smart wearable device 700.

The smart wearable device 700 may be provided with a one-key alarm button 710. The one-touch alert button 710, when pressed, may send data to the user terminal 800 and may also be configured to make a 110-touch alert call.

One-touch alert button 710 may also be depressed by voice control.

The intelligent wearable device 700 judges whether an alarm condition is met, and transmits health measurement data and surrounding environment data to the intelligent wearable device-based communication device 600 when the alarm condition is met; the alarm condition includes a determination that an emergency situation has occurred with the wearer and/or a one-touch alarm button 710 has been pressed.

The alarm condition may be that the health measurement data reaches a corresponding alarm range. For example, the alarm range corresponding to the heart rate data may be below 60 times/minute or above 100 times/minute, and the alarm condition is met when the smart wearable device 700 detects that the heart rate of the wearer is 50 times/minute.

In this way, the health measurement data and the ambient environment data of the wearer can be transmitted to the user terminal 800 in real time when the wearer is in a dangerous situation or the one-touch alarm button 710 is pressed.

Referring to fig. 7, the corresponding module 610 may include a first setting unit 611 and a first corresponding unit 612, where the first setting unit 611 and the first corresponding unit 612 perform data interaction.

The first setting unit 611 is configured to set an identifier, where the identifier is a two-dimensional code or a barcode corresponding to the smart wearable device 700.

The first corresponding unit 612 is configured to establish a corresponding relationship between the smart wearable device 700 and the user terminal 800 by using the identifier.

Referring to fig. 8, the sending module 640 may include a second setting unit 641, a second corresponding unit 642, an obtaining unit 643, and a first sending unit 644, where the second setting unit 641 performs data interaction with the second corresponding unit 642 and the first sending unit 644 respectively, and the obtaining unit 643 performs data interaction with the second corresponding unit 642 and the first sending unit 644 respectively.

The second setting unit 641 is configured to set a reception level of the user terminal 800.

The second corresponding unit 642 is configured to establish a corresponding relationship between the early warning information and the receiving level.

The obtaining unit 643 is configured to obtain, by using a corresponding relationship between the early warning information and the reception level, a current reception level corresponding to the current early warning information.

The first sending unit 644 is configured to send the current warning information to the user terminal 800 corresponding to the smart wearable device 700 and at the current receiving level.

Referring to fig. 9, another sending module 640 may include a third setting unit 645, a second sending unit 646, and a third sending unit 647, where the third setting unit 645 performs data interaction with the second sending unit 646 and the third sending unit 647, respectively, and the second sending unit 646 also performs data interaction with the third sending unit 647.

The third setting unit 645 is configured to set the receiving level of the user terminal 800, where the receiving level includes the first level and the second level.

The second transmitting unit 646 is configured to transmit the current warning information to the user terminal 800 corresponding to the intelligent wearable device 700 and at the first level.

The third sending unit 647 is configured to send the current warning information to the user terminal 800 corresponding to the smart wearable device 700 and at the second level in response to an action that the user terminal 800 corresponding to the smart wearable device 700 and at the first level selects to send.

With continued reference to fig. 6, the smart-wearable device-based communication apparatus 600 may further include a rescue module 650. Rescue module 650 can interact with acquisition module 630 in data.

Referring to fig. 10, the rescue module 650 includes a third corresponding unit 651 and a rescue unit 652, and the third corresponding unit 651 and the rescue unit 652 perform data interaction.

The third corresponding unit 651 is configured to establish a corresponding relationship between the early warning information and a rescue device, where the rescue device includes a medical device and/or a rescue device.

The rescue unit 652 is configured to obtain a current rescue device corresponding to the current warning information by using a correspondence between the warning information and the rescue device.

With continued reference to fig. 6, the smart wearable device-based communication apparatus 600 may further include a hospital module 660.

Referring to fig. 11, the hospital module 660 includes a fourth corresponding unit 661, a position unit 662, a searching unit 663, and a fourth sending unit 664, where the fourth corresponding unit 661 performs data interaction with the fourth sending unit 664, the position unit 662 performs data interaction with the searching unit 663 and the fourth sending unit 664, respectively, and the searching unit 663 further performs data interaction with the fourth sending unit 664.

The fourth corresponding unit 661 is configured to establish a corresponding relationship between the hospital and the doctor terminal.

The location unit 662 is configured to receive location information sent by the smart wearable device 700, or acquire location information of the smart wearable device 700 by using the ambient environment data.

The searching unit 663 is configured to search for a hospital having a distance from the location information smaller than a predetermined distance, using the location information.

The fourth sending unit 664 is configured to send prompt information including the location information to a doctor terminal corresponding to the found hospital.

Therefore, the system can inform nearby hospitals according to the current geographic position of the wearer, and timely help the wearer.

The embodiment of the application also provides an electronic device, which comprises a processor and a memory, wherein the processor executes computer instructions stored in the memory, so that the electronic device executes any one of the communication methods based on the intelligent wearable device.

The embodiment of the application also provides a computer storage medium, which includes computer instructions, and when the computer instructions are run on the electronic device, the electronic device is enabled to execute any one of the above communication methods based on the intelligent wearable device.

The foregoing description and drawings are only for purposes of illustrating the preferred embodiments of the present application and are not intended to limit the present application, which is, therefore, to the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the present application.

Claims (13)

1. a communication method based on intelligent wearable device, is characterized in that, comprises: Establish the correspondence between the smart wearable device and the user terminal; receiving health measurement data and surrounding environment data sent by the smart wearable device; Using the health measurement data and the surrounding environment data to obtain current early warning information, the current early warning information includes the wearer's current health status and the current environment; sending the current warning information to the user terminal corresponding to the smart wearable device; The sending the current warning information to the user terminal corresponding to the smart wearable device includes: setting the reception level of the user terminal; establishing a correspondence between the early warning information and the receiving level; Obtain the current reception level corresponding to the current early warning information by using the correspondence between the early warning information and the reception level; sending the current warning information to the user terminal corresponding to the smart wearable device and at the current reception level; Among them, the user terminal corresponding to the smart wearable device includes both the mobile phone of the wearer's family member and the mobile phone of the family doctor. The permissions are set for the notification group, and different permissions are set for the family and the doctor. 2. The communication method based on an intelligent wearable device according to claim 1, wherein the establishing the corresponding relationship between the intelligent wearable device and the user terminal comprises: Setting an identification, the identification is a two-dimensional code or barcode corresponding to the smart wearable device; The corresponding relationship between the smart wearable device and the user terminal is established by using the identifier. 3. The communication method based on a smart wearable device according to claim 1, wherein the sending the current warning information to the user terminal corresponding to the smart wearable device comprises: Setting the reception level of the user terminal; the reception level includes a first level and a second level; sending the current warning information to the user terminal corresponding to the smart wearable device and at the first level; In response to the action selected to be sent by the user terminal corresponding to the smart wearable device and at the first level, send the current warning information to all the smart wearable devices corresponding to the second level and at the second level. the user terminal. 4. The communication method based on an intelligent wearable device according to claim 1, further comprising: establishing a corresponding relationship between early warning information and rescue equipment; the rescue equipment includes medical equipment and/or rescue equipment; Using the correspondence between the early warning information and the rescue equipment, obtain the current rescue equipment corresponding to the current early warning information. 5. A communication system based on an intelligent wearable device, characterized in that it comprises a communication device based on the smart wearable device, and the communication device based on the smart wearable device comprises: A corresponding module, used to establish a corresponding relationship between the smart wearable device and the user terminal; a receiving module for receiving health measurement data and surrounding environment data sent by the smart wearable device; an obtaining module, configured to obtain current warning information by using the health measurement data and the surrounding environment data, where the current warning information includes the wearer's current health state and the current environment; a sending module, configured to send the current warning information to the user terminal corresponding to the smart wearable device; The sending module includes: a second setting unit, configured to set the reception level of the user terminal; a second corresponding unit, configured to establish a corresponding relationship between the early warning information and the receiving level; an acquisition unit, configured to acquire the current reception level corresponding to the current early warning information by utilizing the correspondence between the early warning information and the reception level; A first sending unit, configured to send the current warning information to the user terminal corresponding to the smart wearable device and at the current reception level. 6. The communication system based on an intelligent wearable device according to claim 5, wherein the corresponding module comprises: a first setting unit for setting an identification, the identification being a two-dimensional code or a barcode corresponding to the smart wearable device; A first corresponding unit, configured to use the identifier to establish a corresponding relationship between the smart wearable device and the user terminal. 7. The communication system based on an intelligent wearable device according to claim 5, wherein the sending module comprises: a third setting unit, configured to set the reception level of the user terminal; the reception level includes a first level and a second level; a second sending unit, configured to send the current warning information to the user terminal corresponding to the smart wearable device and at the first level; a third sending unit, configured to send the current warning information to the smart wearable device corresponding to the smart wearable device and in the first level in response to the action selected to send by the user terminal the user terminal of the second level. 8. The communication system based on the smart wearable device according to claim 5, wherein the communication device based on the smart wearable device further comprises a rescue module, and the rescue module comprises: a third corresponding unit, used to establish a corresponding relationship between the early warning information and rescue equipment; the rescue equipment includes medical equipment and/or rescue equipment; A rescue unit, configured to obtain the current rescue equipment corresponding to the current early warning information by using the correspondence between the early warning information and the rescue equipment. 9. The communication system based on the smart wearable device according to claim 5, wherein the communication device based on the smart wearable device further comprises a hospital module, and the hospital module comprises: The fourth corresponding unit is used to establish the corresponding relationship between the hospital and the doctor terminal; a location unit, configured to receive the location information sent by the smart wearable device, or obtain the location information of the smart wearable device by using the surrounding environment data; a search unit, configured to use the position information to search for a hospital whose distance from the position information is less than a predetermined distance; The fourth sending unit is configured to send prompt information including the location information to the doctor terminal corresponding to the found hospital. 10 . The communication system based on a smart wearable device according to claim 5 , further comprising the smart wearable device for acquiring the health measurement data and the surrounding environment data. 11 . 11. The communication system based on an intelligent wearable device according to claim 10, wherein the intelligent wearable device is provided with a one-key alarm button; The smart wearable device judges whether the alarm condition is met, and sends the health measurement data and the surrounding environment data to the communication device based on the smart wearable device when the alarm condition is met; the alarm condition includes judging that the wearer has A dangerous situation and/or the one-key alarm button is pressed. 12. An electronic device, comprising a processor and a memory, wherein the processor executes computer instructions stored in the memory, so that the electronic device executes the smart wearable-based device according to any one of claims 1 to 4 The communication method of the device. 13. A computer storage medium, characterized by comprising computer instructions, when the computer instructions are executed on an electronic device, the electronic device is made to execute the smart wearable device-based smart wearable device according to any one of claims 1 to 4. communication method.

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