WO2016173101A1

WO2016173101A1 - Wearable device, and network hospital-based tumble rescue system and method

Info

Publication number: WO2016173101A1
Application number: PCT/CN2015/081828
Authority: WO
Inventors: 张贯京; 陈兴明; 葛新科; 张少鹏; 方静芳; 普拉纽克⋅克里斯基捏; 古列莎⋅艾琳娜; 波达别特⋅伊万; 高伟明; 梁昊原; 梁艳妮; 周荣; 李慧玲; 邢立立
Original assignee: 深圳市共创百业科技开发有限公司; 深圳市易特科信息技术有限公司; 深圳市前海安测信息技术有限公司; 深圳市贝沃德克生物技术研究院有限公司
Priority date: 2015-04-29
Filing date: 2015-06-18
Publication date: 2016-11-03
Also published as: CN104851066A

Abstract

Disclosed is a wearable device for human body tumble rescue. In an embodiment of the present invention, a data collection module collects human body state information and sends the human body state information to a control module; a tumble triggering module generates a tumble prompt signal and sends the tumble prompt signal to the control module; the control module sends rescue information to a communications module according to the human body state information, sends tumble prompt information to a broadcast module and the communications module according to the human body state information and the tumble prompt information, and receives and broadcasts the tumble prompt information; and the communications module sends the rescue information and the tumble prompt information to a remote monitoring platform. The present invention is of great significance for the remote monitoring platform to send a rescue guide, and can reduce misgiving of surrounding people in rescuing a wearer, allows a wearer to be rescued timely, gain valuable rescue time, and reduce the hospitalization rate and the mortality of human bodies after tumbles.

Description

Wearable device, network hospital-based fall rescue system and method

Technical field

The present invention relates to the field of life health technologies, and in particular, to a wearable device, a network hospital-based fall rescue system and method.

Background technique

The problem of falling of the elderly has prominent features such as high incidence, high hospitalization rate and high mortality rate, which has aroused widespread concern of many scholars and society. However, due to some unhealthy trends in the society, such as being lifted and sent to the hospital after being dumped, they were misunderstood and even blackmailed. As a result of the fall of the elderly, passers-by did not dare to help or even avoid it. After the elderly fell Without timely assistance, the hospitalization rate and mortality rate after the fall of the elderly is higher.

Based on this, it is necessary to design a wearable device, a network hospital-based fall rescue system and method, so that the elderly can get timely help after falling, and reduce the hospitalization rate and mortality after the fall.

Summary of the invention

The main object of the present invention is to provide a wearable device, a network hospital-based fall rescue system and a method, which enable an elderly person to get timely assistance after falling, and reduce the hospitalization rate and mortality rate of the elderly after falling.

To achieve the above object, the present invention provides a wearable device for human body fall rescue, the wearable device comprising a data acquisition module, a fall trigger module, a control module, a broadcast module, and a communication module, wherein:

The data collection module is connected to the control module, collects human body state information, and sends the same to the control module;

The fall trigger module is connected to the control module to generate a fall prompt signal, and send the fall prompt signal to the control module;

The control module determines a human body state according to the human body state information, and sends rescue information to the communication module when the human body state is falling; when the human body state falls and the fall prompt signal is acquired, the control module sends Falling the prompt information to the broadcast module and the communication module; the fall prompt information includes a prompt that the human body naturally falls;

The broadcast module is connected to the control module, and receives and broadcasts the fall prompt information;

The communication module is connected to the control module, and receives and sends the rescue information and the fall prompt information to a remote monitoring platform.

In one embodiment, the human body state information includes current body vitality information and/or human body posture information.

In one embodiment, the wearable device further includes a positioning module connected to the control module, acquiring human body geographical location information and transmitting the same to the control module; when the human body state is falling, the control The module sends the geographic location information to the communication module; the communication module receives and transmits the geographic location information to a remote monitoring platform.

In one embodiment, the rescue information includes one or more of personal personal basic information, past medical history information, current physical information, and human posture information.

To achieve the above object, the present invention provides a network hospital-based fall rescue system, the fall rescue system including a remote monitoring platform and the above-described wearable device, the remote monitoring platform receiving and according to the wearable device The rescue information and the fall prompt information are sent, and the rescue guide information is sent to the wearable device.

In one embodiment, the remote monitoring platform receives and according to the geographic location information sent by the wearable device, filters and instructs the nearby medical resources to implement a fall rescue for the human body.

In order to achieve the above object, the present invention provides a network hospital-based human body fall rescue method, and the human body fall rescue method includes the following steps:

The wearable device collects human body state information;

When it is determined that the human body state is falling according to the human body state information, the wearable device sends the rescue information to the remote monitoring platform; or, when it is determined that the human body state is falling and the fallover prompt signal is obtained, the wearable device broadcasts the fall. And prompting the information, and sending the falling prompt information to the remote monitoring platform, where the falling prompt information includes a prompt that the human body naturally falls;

The remote monitoring platform receives and sends rescue instruction information to the wearable device according to the rescue information and/or the fall prompt information sent by the wearable device.

In one embodiment, the human body fall rescue method further includes the following steps:

The wearable device acquires and transmits the geographic location information of the human body to the remote monitoring platform;

The remote monitoring platform receives and according to the geographical location information sent by the wearable device, filters and instructs the nearby medical resources to implement a fall rescue for the human body.

The technical solution of the present invention is as follows: the embodiment of the present invention collects human body state information through a data acquisition module and sends it to the control module, and generates a fall prompt signal by the fall trigger module, and the The falling prompt signal is sent to the control module, and the control module sends the rescue information to the communication module according to the human body state information, and sends the fall prompt information to the broadcast module and the communication module according to the human body state information and the fall prompt information. Receiving and broadcasting the fall prompt information, and the communication module sends the rescue information and the fall prompt information to the remote monitoring platform. The invention has important significance for transmitting the rescue guidance to the remote monitoring platform, and can reduce the concerns of the surrounding people on the rescue of the wearer, so that the wearer can obtain the help in time, obtain valuable rescue time, and reduce the hospitalization rate and the mortality rate after the fall of the human body. .

DRAWINGS

1 is a schematic structural view of a first preferred embodiment of a wearable device according to the present invention;

2 is a schematic structural view of a second preferred embodiment of the wearable device of the present invention;

3 is a schematic structural view of a preferred embodiment of a fall hospital rescue system based on a network hospital according to the present invention;

FIG. 4 is a schematic flow chart of a first preferred embodiment of a human body fall rescue method based on a network hospital according to the present invention.

The implementation, functional features, and advantages of the present invention will be further described in conjunction with the embodiments.

detailed description

It is understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

To achieve the above object, the present invention provides a wearable device for human body fall rescue.

1 is a schematic structural view of a first preferred embodiment of a wearable device of the present invention. Referring to FIG. 1, the wearable device includes a data collection module 10, a fall trigger module 20, a control module 30, a broadcast module 40, and a communication module 50, where:

The data collection module 10 is connected to the control module 30, collecting human body state information and transmitting it to the control module 30;

The fall trigger module 20 is connected to the control module 30, generates a fall prompt signal, and sends the fall prompt signal to the control module 30;

The control module 30 determines the state of the human body according to the human body state information, and sends the rescue information to the communication module 50 when the human body state is falling; when the human body state is falling and the fall prompt signal is acquired Sending a fall prompt message to the broadcast module 40 and the communication module 50; the fall prompt information includes a prompt that the human body naturally falls;

The broadcast module 40 is connected to the control module 30, and receives and broadcasts the fall prompt information;

The communication module 50 is connected to the control module 30, and receives and sends the rescue information and the fall prompt information to a remote monitoring platform.

The human body state information according to the embodiment of the present invention includes current body vital information and/or human body posture information. The corresponding data collection module 10 includes a human body sign collecting unit and a human body posture collecting unit, wherein the human body sign collecting unit includes at least a heart rate sensor and/or a pulse sensor, and collects current body vitality information; the human body posture collecting unit at least Including the acceleration sensor to collect body posture information. The current physical signs of the human body can reflect whether the physical parameters of the human body have changed after the fall, and whether it is in a dangerous state, which is of great significance for the remote monitoring platform to send rescue guidance. The human body posture information is used to reflect the wearer's body posture information, and can also reflect the wearer's height from the ground, altitude or acceleration, inclination, speed, etc., so the human body posture acquisition unit can also adopt the ultrasonic module and the altitude sensing module. In combination with one or more of the acceleration sensing modules, the ultrasonic module collects the height information of the wearer from the ground; the altitude sensing module collects the current altitude information of the wearer; the acceleration sensing module collects the current wearer's current information. Acceleration information, at this time, the human body posture information is information such as the current acceleration and inclination of the wearer. The data collection module 10 sends the collected current body information and/or human body posture information to the control module 30, and the control module 30 generates rescue information and fall prompt information.

The function of the fall trigger module 20 in the embodiment of the present invention is to trigger a fall trigger signal when the human body falls, and the fall trigger module 20 is preferably set as a button, in order to obtain the surrounding people when the human body falls Timely rescue, generate a fall prompt signal by pressing the button, and send it to the control module 30, for the control module 30 to send a fall prompt message to the broadcast module 40 for live broadcast, the fall prompt The information includes tips for the natural fall of the human body to indicate that the human body has fallen for itself, not to touch the porcelain, prompting the surrounding people to rest assured that the human body, especially the elderly, can receive timely assistance after falling, and reduce the hospitalization rate after the fall of the elderly. And mortality.

The control module 30 according to the embodiment of the present invention determines the state of the human body according to the human body state information, specifically, determines whether the wearer has an accident according to the preset threshold value of the human body posture information, and sends a rescue when the threshold value of the human body posture information is exceeded. The information is sent to the communication module 50; the rescue information includes one or more of personal basic information, past medical history information, current physical information, or human posture information. Preferably, the personal personal basic information and the past medical history information may be recorded into the wearable device in advance, and the personal personal basic information includes a name, an age, a gender, a occupation, and the like, and the past medical history information includes a personal medical history, a family medical history, and the like. When the human body falls, the above information is combined with the current physical information of the human body and the posture information of the human body as the rescue information to be sent to the remote monitoring platform, which is of great significance for the remote monitoring platform to send rescue guidance. When the human body state is falling and the falling alert signal is obtained, that is, when the human body accidentally falls over, the wearer generates a fall prompt signal to the control module 30 by triggering the fall trigger module 20 When the control module 30 determines that the human body state is a fall and the fall alert signal is obtained, the fall prompt information is sent to the broadcast module 40, and the broadcast module 40 broadcasts the fall prompt information, and the broadcast manner can be The voice message or the acousto-optic mode includes the prompt and/or the rescue mode of the body naturally falling. For example, the fall message may include “I am falling by myself, please send me to the nearby place. XX Hospital" or "I fell on my own, my shirt has medicine in my left pocket, please feed me 2", etc., in order to prompt people around the right to implement the rescue in time, get valuable help time, reduce the body after falling Hospitalization rate and mortality. It should be understood that when the human body state is falling and the falling alert signal is obtained, the wearable device simultaneously sends the rescue information and the fall prompt information to the remote monitoring platform, and obtains corresponding rescue guidance on the one hand, and another On the one hand, it reduces the rescue concerns of the surrounding people, enables the wearer to get help in time, obtain valuable rescue time, and reduce the hospitalization rate and mortality after the fall.

In the embodiment of the present invention, the human body state information is collected by the data collection module and sent to the control module, and the fall trigger signal is generated by the fall trigger module, and the fall prompt signal is sent to the control module, and the control module is The human body state information sends the rescue information to the communication module, and the fall prompt information is sent to the broadcast module and the communication module according to the human body state information and the fall prompt information, and the fall prompt information is received and broadcasted, and the communication module will The rescue information and the fall reminder information are sent to a remote monitoring platform. The invention has important significance for transmitting the rescue guidance to the remote monitoring platform, and can reduce the concerns of the surrounding people on the rescue of the wearer, so that the wearer can obtain the help in time, obtain valuable rescue time, and reduce the hospitalization rate and the mortality rate after the fall of the human body. .

2 is a schematic structural view of a second preferred embodiment of the wearable device of the present invention. Referring to FIG. 2, based on the first preferred embodiment shown in FIG. 1, in the embodiment, the wearable device further includes a positioning module 60 connected to the control module 30, and acquires geographic location information of the human body and Sending to the control module 30; when the human body state is falling, the control module 30 sends the geographical location information to the communication module 50; the communication module 50 receives and transmits the geographic location information to remote monitoring platform. The positioning module 60 is a GPS module or a Beidou navigation module, and can locate the wearer's geographic location through a satellite positioning system. The remote monitoring platform filters the nearest medical resources according to the geographic location information of the human body, and sends a rescue instruction to the corresponding hospital management platform to indicate The hospital implemented a fall rescue for the wearer. The rescue instruction includes human body geographical location information and rescue information to ensure that the wearer obtains the rescue in time.

To achieve the above object, the present invention provides a network hospital based fall rescue system.

FIG. 3 is a schematic structural view of a preferred embodiment of a fall hospital rescue system based on a network hospital according to the present invention. Referring to FIG. 3, the fall rescue system includes a remote monitoring platform 01 and the above-mentioned wearable device 02, and the remote monitoring platform 01 receives and sends a rescue according to the rescue information and the fall prompt information sent by the wearable device 02. Guidance information to the wearable device 02. When the remote monitoring platform matches the rescue measures, the keywords included in the wearer's rescue information are obtained, and the rescue measures corresponding to the keywords are matched in the rescue measure library preset in the remote monitoring platform system, and the rescue measure library stores The rescue measures corresponding to various physical conditions, the remote monitoring platform sends the rescue measures to the smart terminal recorded by the wearable device. If the corresponding rescue measures are not matched in the rescue measure library according to the current physical condition of the received wearer, the current situation of the injured person is sent to the online doctor or the associated hospital for the doctor to provide the wearer's current body. The rescue measures corresponding to the situation are stored in the rescue measure library while being sent to the user terminal. The rescue guidance information includes rescue measures, which can guide the surrounding people to correctly implement the rescue for the wearer. In this embodiment, the remote monitoring platform 01 receives and according to the geographical location information sent by the wearable device 02, filters and instructs the nearby medical resources to implement a fall rescue for the human body. Specifically, the remote monitoring platform 01 filters the nearest medical resources according to the geographical location information sent by the wearable device 02, and sends a rescue instruction to the corresponding hospital to implement a fall rescue for the human body. The rescue instruction includes human body geographical location information and rescue information to ensure that the wearer obtains the rescue in time.

To achieve the above object, the present invention provides a method for human body fall rescue based on a network hospital.

FIG. 4 is a schematic flow chart of a first preferred embodiment of a human body fall rescue method based on a network hospital according to the present invention. Referring to FIG. 4, the human body fall rescue method includes the following steps:

S10: The wearable device collects human body state information;

S20: When it is determined that the human body state is falling according to the human body state information, the wearable device sends the rescue information to the remote monitoring platform; or, when it is determined that the human body state is falling and the fallover prompt signal is obtained, the wearable device broadcasts Falling the prompt information, and sending the fall prompt information to the remote monitoring platform, the fall prompt information includes a prompt that the human body naturally falls;

S30: The remote monitoring platform receives and sends rescue instruction information to the wearable device according to the rescue information and/or the fall prompt information sent by the wearable device.

Specifically, in step S10, the data collection module of the wearable device collects human body state information. The body state information of the embodiment of the present invention includes the current body information of the human body and/or the body posture information. Correspondingly, the data collection module includes a human body sign collecting unit and a human body posture collecting unit, wherein the human body sign collecting unit includes at least The heart rate sensor and/or the pulse sensor collects current body vitality information of the human body; the human body posture collecting unit includes at least an acceleration sensor, and collects human body posture information. The current physical signs of the human body can reflect whether the physical parameters of the human body have changed after the fall, and whether it is in a dangerous state, which is of great significance for the remote monitoring platform to send rescue guidance. The human body posture information is used to reflect the wearer's body posture information, and can also reflect the wearer's height from the ground, altitude or acceleration, inclination, speed, etc., so the human body posture acquisition unit can also adopt the ultrasonic module and the altitude sensing module. In combination with one or more of the acceleration sensing modules, the ultrasonic module collects the height information of the wearer from the ground; the altitude sensing module collects the current altitude information of the wearer; the acceleration sensing module collects the current wearer's current information. Acceleration information, at this time, the human body posture information is information such as the current acceleration and inclination of the wearer. The data collection module sends the collected current body information and/or human body posture information of the human body to the control module, where the control module generates rescue information and fall prompt information.

Specifically, in step S20, determining, according to the preset threshold value of the human body posture information, whether the wearer falls, and transmitting the rescue information to the communication module when the threshold value of the human body posture information is exceeded; the rescue information includes basic personal information of the human body. One or more of past medical history information, current physical information, or human posture information. Preferably, the personal personal basic information and the past medical history information may be recorded into the wearable device in advance, and the personal personal basic information includes a name, an age, a gender, a occupation, and the like, and the past medical history information includes a personal medical history, a family medical history, and the like. When the human body falls, the above information is combined with the current physical information of the human body and the posture information of the human body as the rescue information to be sent to the remote monitoring platform, which is of great significance for the remote monitoring platform to send rescue guidance.

When it is determined that the human body state is falling and the fall notification signal is obtained, the wearable device broadcasts the fall prompt information, and sends the fall prompt information to the remote monitoring platform, where the fall prompt information includes the human body naturally falling. prompt. In this step, the control module of the wearable device determines the state of the human body according to the human body state information, and when the human body state is falling and the falling prompt signal is obtained, that is, when the human body accidentally falls over, the human body wears The triggering module generates a fall prompt signal to the control module by triggering the fall trigger module of the wearable device, and the control module determines that the human body state is a fall and the fall prompt signal is acquired, and the fall prompt information is sent to the The broadcast module of the wearable device, the broadcast module broadcasts the fall notification message, and the manner of the broadcast may be by voice or acousto-optic, and the fall prompt information includes a prompt for the natural fall of the human body and/or a rescue mode, such as a fall. The reverse message may include "I fell by myself, please send me to the nearby XX hospital" or "I fell on my own, my shirt has medicine in my left pocket, please feed me 2", etc. The surrounding people timely and correctly implemented the rescue, obtained valuable rescue time, and reduced the hospitalization rate and mortality after the fall. At the same time, the fall prompt information is sent to the remote monitoring platform through the communication module to obtain corresponding rescue guidance. The function of the fall trigger module is to trigger a fall trigger signal when the human body falls, and the fall trigger module is preferably set as a button. When the human body falls, in order to obtain timely assistance from the surrounding people, by pressing the above The button generates a fall prompt signal and sends it to the control module, where the control module sends a fall prompt message to the broadcast module for live broadcast, and the fall prompt information includes a prompt for the natural fall of the human body to indicate The human body falls for itself, not touching porcelain, prompting people around to help, so that the human body, especially the elderly, can get timely help after falling, reducing the hospitalization rate and mortality after the fall. It should be understood that when the human body state is falling and the falling alert signal is obtained, the wearable device simultaneously sends the rescue information and the fall prompt information to the remote monitoring platform, and obtains corresponding rescue guidance on the one hand, and another On the one hand, it reduces the rescue concerns of the surrounding people, enables the wearer to get help in time, obtain valuable rescue time, and reduce the hospitalization rate and mortality after the fall.

Specifically, in step S30, the remote monitoring platform receives and sends rescue guide information to the wearable device according to the rescue information and the fall prompt information sent by the wearable device. When the remote monitoring platform matches the rescue measures, the keywords included in the wearer's rescue information are obtained, and the rescue measures corresponding to the keywords are matched in the rescue measure library preset in the remote monitoring platform system, and the rescue measure library stores The rescue measures corresponding to various physical conditions, the remote monitoring platform sends the rescue measures to the smart terminal recorded by the wearable device. If the corresponding rescue measures are not matched in the rescue measure library according to the current physical condition of the received wearer, the current situation of the injured person is sent to the online doctor or the associated hospital for the doctor to provide the wearer's current body. The rescue measures corresponding to the situation are stored in the rescue measure library while being sent to the user terminal. The rescue guidance information includes rescue measures, and the rescue guide information is sent so that the wearer can use the appropriate method to rescue the wearer and reduce the wearer's hospitalization rate and mortality.

In the embodiment of the present invention, the human body state information is collected by the wearable device. When the human body state is determined to be falling according to the human body state information, the wearable device sends the rescue information to the remote monitoring platform, and when the human body state is determined to be falling, the fall is obtained. When the prompt signal is inverted, the wearable device broadcasts the fall prompt information, and sends the fall prompt information to the remote monitoring platform. The rescue information is important for the remote monitoring platform to send the rescue guide, and the fall prompt information can reduce the wearing of the surrounding people. The implementation of the rescue concerns, so that the wearer can get help in time, get valuable help time, reduce the hospitalization rate and mortality after the fall.

The second preferred embodiment of the human body fall rescue method based on the network hospital of the present invention is based on the first preferred embodiment shown in FIG. 4. In this embodiment, the human body fall rescue method further includes the following steps:

S40: The wearable device acquires and sends the geographic location information of the human body to the remote monitoring platform;

S50: The remote monitoring platform receives and according to the geographical location information sent by the wearable device, filters and indicates that the nearby medical resource implements a fall rescue for the human body.

Specifically, the geographic location information of the human body is acquired by the positioning module of the wearable device, and is sent to the remote monitoring platform through the communication module of the wearable device. The positioning module is a GPS module or a Beidou navigation module, and can locate a wearer's geographic location through a satellite positioning system. The remote monitoring platform filters the nearest medical resource according to the geographic location information of the human body, and sends a rescue instruction to the corresponding hospital management platform to indicate the The hospital implemented a fall rescue for the wearer. The rescue instruction includes human body geographical location information and rescue information to ensure that the wearer obtains the rescue in time. In this embodiment, the step S40 and the step S20 may be performed in no particular order, and the step S50 and the step S30 may be performed in no particular order.

The above are only the preferred embodiments of the present invention, and are not intended to limit the scope of the invention, and the equivalent structure or equivalent process transformations made by the description of the present invention and the drawings are directly or indirectly applied to other related technical fields. The same is included in the scope of patent protection of the present invention.

Claims

A wearable device for human body fall rescue, characterized in that the wearable device comprises a data acquisition module, a fall trigger module, a control module, a broadcast module and a communication module, wherein:

The data collection module is connected to the control module, collects human body state information, and sends the same to the control module;

The fall trigger module is connected to the control module to generate a fall prompt signal, and send the fall prompt signal to the control module;

The control module determines a human body state according to the human body state information, and sends rescue information to the communication module when the human body state is falling; when the human body state falls and the fall prompt signal is acquired, the control module sends Falling the prompt information to the broadcast module and the communication module; the fall prompt information includes a prompt that the human body naturally falls;

The broadcast module is connected to the control module, and receives and broadcasts the fall prompt information;

The communication module is connected to the control module, and receives and sends the rescue information and the fall prompt information to a remote monitoring platform.
The wearable device for human body fall rescue according to claim 1, wherein the human body state information comprises current body vital information and/or human body posture information.
The wearable device for human body fall rescue according to claim 1, wherein the wearable device further comprises a positioning module connected to the control module, acquiring human body geographical location information and transmitting the same to the human body. The control module sends the geographic location information to the communication module when the human body state is falling; the communication module receives and transmits the geographic location information to the remote monitoring platform.
The wearable device for human body fall rescue according to claim 3, wherein the human body state information comprises current body vital information and/or human body posture information.
The wearable device for human body fall rescue according to claim 4, wherein the rescue information comprises one or more of personal basic information, past medical history information, current physical information, and human posture information. .
A network hospital-based fall rescue system, characterized in that the fall rescue system comprises a remote monitoring platform and the wearable device according to claim 1, the remote monitoring platform receiving and according to the wearable device The rescue information and the fall prompt information are sent, and the rescue guide information is sent to the wearable device.
The network hospital-based fall rescue system according to claim 6, wherein the remote monitoring platform receives and according to the geographical location information sent by the wearable device, filters and instructs the nearest medical resource to fall on the human body. Rescue.
The invention relates to a human body fall rescue method based on a network hospital, characterized in that the human body fall rescue method comprises the following steps:

The wearable device collects human body state information;

When it is determined that the human body state is falling according to the human body state information, the wearable device sends the rescue information to the remote monitoring platform; or, when it is determined that the human body state is falling and the fallover prompt signal is obtained, the wearable device broadcasts the fall. And prompting the information, and sending the falling prompt information to the remote monitoring platform, where the falling prompt information includes a prompt that the human body naturally falls;

The remote monitoring platform receives and sends rescue instruction information to the wearable device according to the rescue information and/or the fall prompt information sent by the wearable device.
The network hospital-based human body fall rescue method according to claim 8, wherein the human body state information comprises current body vitality information and/or human body posture information.
The network hospital-based human body fall rescue method according to claim 8, wherein the human body fall rescue method further comprises the following steps:

The wearable device acquires and transmits the geographic location information of the human body to the remote monitoring platform;

The remote monitoring platform receives and according to the geographical location information sent by the wearable device, filters and instructs the nearby medical resources to implement a fall rescue for the human body.
The network hospital-based human body fall rescue method according to claim 10, wherein the human body state information comprises current body vital information and/or human body posture information.
The method for assisting a human body fall in a network hospital according to claim 11, wherein the rescue information comprises one or more of personal basic information, past medical history information, current physical information, and human posture information. .