CN119015042B - Wearable fabric human body monitoring feedback system based on Internet of things - Google Patents

Abstract

The invention relates to the technical field of fabric monitoring, in particular to a wearable fabric human body monitoring feedback system based on the Internet of things. The monitoring and adjusting device comprises a fabric monitoring feedback unit, a state preset adjusting and controlling module and a state configuration judging module, wherein the fabric monitoring feedback unit is used for monitoring the instant state of the wearable fabric, the state preset adjusting and controlling module is used for receiving an initial feedback signal sent by the fabric monitoring feedback unit and carrying out preset adjusting and controlling configuration on the running state of the wearable fabric in combination with the initial feedback signal, and the state configuration judging module is used for responding to a supplementary feedback signal sent again by the fabric monitoring feedback unit in the process of the preset adjusting and controlling configuration of the state preset adjusting and controlling module in advance so as to judge the readjustment of the adjusting and controlling configuration executed by the state preset adjusting and controlling module in combination with range state monitoring. The state preset regulation and control module is used for determining the subsequent body actions matched with the user, so that the state preset regulation and control module is combined with the body actions to form the pre-regulation and control configuration of the wearable fabric, and the intelligent regulation and control of the existing wearable fabric is improved.

Description

Wearable fabric human body monitoring feedback system based on Internet of things

Technical Field

The invention relates to the technical field of fabric monitoring, in particular to a wearable fabric human body monitoring feedback system based on the Internet of things.

Background

The wearable fabric generally refers to a wearable massage neck/shoulder rest, hot compress neck plaster, hot compress waistband, hot compress knee pad, hot compress hand warmer, etc., hereinafter collectively referred to as wearable fabric.

At present, heating is realized by configuring carbon fibers in the wearable fabric, namely, after the body is worn, the body is heated by the carbon fibers to realize the flowing circulation of the blood of the body, wherein in the using process of the current wearable fabric, the characteristics of the body are usually collected as regulating signals, so that the running state of the wearable fabric is regulated according to different characteristics of the body, such as temperature, mode and the like, but in some cases, when the characteristics of the body do not make obvious regulating signals, the current wearable fabric is inconvenient to realize the regulation of the adapting state of the body, and the intelligent monitoring and corresponding feedback regulation of the current wearable fabric are not convenient and rapid enough;

meanwhile, as the special diagnosis of the body has no obvious change, the wearable fabric cannot respond and judge whether the state is regulated or not in real time, so that the wearable fabric cannot be matched with the action to be formed later on of the body, namely the conventional wearable fabric has inconvenience in the specific use process.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a wearable fabric human body monitoring feedback system based on the Internet of things, which can effectively solve the problems that the prior wearable fabric is inconvenient to realize the regulation of the adaptation state of the body when the characteristics of the body do not make obvious regulation signals, so that the wearable fabric cannot realize intelligent monitoring and corresponding feedback regulation, and the body is inconvenient to form matched use.

In order to achieve the above purpose, the invention is realized by the following technical scheme:

the invention provides a wearable fabric human body monitoring feedback system based on the Internet of things, which comprises:

The fabric monitoring feedback unit is used for monitoring the instant state of the wearable fabric and generating an initial feedback signal;

The state preset regulation and control module is connected with the output end of the fabric monitoring feedback unit and is used for receiving an initial feedback signal sent by the fabric monitoring feedback unit, carrying out preset regulation and control configuration on the running state of the wearable fabric by combining the initial feedback signal and judging whether the wearable fabric is in a response state immediately;

The state configuration judging module is in bidirectional connection with the state preset regulating and controlling module and the fabric monitoring feedback unit, and is used for responding to the supplementary feedback signal sent again by the fabric monitoring feedback unit in the process of the state preset regulating and controlling module executing regulating and controlling configuration in advance, judging to establish the range state monitoring of the wearable fabric by combining the current supplementary feedback signal, and readjusting the regulating and controlling configuration executed by the state preset regulating and controlling module by combining the range state monitoring judgment.

Further, the fabric monitoring feedback unit includes:

The coordinate monitoring feedback unit is used for monitoring the coordinates of the wearable fabric;

the time state monitoring unit is used for monitoring the current time;

and an operating state monitoring unit for monitoring an operating state of the wearable fabric;

Wherein, wearing formula fabric still is based on the historical information that coordinate monitoring feedback unit record self removed, and historical information includes:

Movement time, movement path, pause area;

An instant state is formed by the coordinates, time and running state of the wearable fabric, and an initial feedback signal is formed by the instant state.

Further, the state preset regulation module includes:

The fabric state allocation unit is used for allocating the running mode of the wearable fabric;

the data column matching unit is used for combining the initial feedback signal with the history information and judging the subsequent action state of the body;

The state preset regulating and controlling unit is used for judging the running mode of the wearable fabric according to the action state determined by the data column matching unit so as to form a preset regulating and controlling configuration on the running state of the wearable fabric, and judging whether the wearable fabric is in a response state immediately or not.

Further, the response state includes:

the running state of the wearable fabric is in a state of execution and stop.

Further, the state configuration determination module includes:

The feedback instruction receiving unit is used for receiving the supplementary feedback signal sent by the fabric monitoring feedback unit again;

the range monitoring feedback unit is connected with the output end of the feedback instruction receiving unit and is used for judging to immediately establish range state monitoring of the wearable fabric according to the supplementary feedback signal;

And the comprehensive item characteristic judging unit is used for judging the regulation and control configuration of the state preset regulation and control unit on the wearable fabric through the comprehensive item characteristic in combination with the comprehensive item characteristic matched with the supplementary feedback signal under the range state monitoring, and determining whether the wearable fabric is in a response state or not.

Further, the supplemental feedback signal is:

The instant status of the wearable fabric conforms to the history information and does not conform to the history information, wherein:

the real-time state coincidence history information is that the coordinates of the wearable fabric coincide with the moving path of the history information;

The real-time state coincidence of the wearable fabric is not in line with the history information, namely the coordinate of the wearable fabric is not in line with the moving path of the history information.

Further, when the instant status of the wearable fabric meets the history information, the range status monitoring includes:

Establishing a running path according to the coordinates of the current wearable fabric, inputting the running path into the history information to determine the same running path, re-judging a moving path and a pause area, determining the subsequent running state of the wearable fabric according to the moving path and the pause area, executing regulation configuration, and judging whether the wearable fabric is in a response state or not immediately;

When the instant status of the wearable fabric does not conform to the historical information, the range status monitoring includes:

Setting a monitoring range threshold of the wearable fabric;

determining the physical and physiological characteristics corresponding to the current wearable fabric, wherein the weight, the leg circumference and the three circumferences can be acquired in advance by the wearable fabric;

Determining the coordinates of the current wearable fabric;

Combining the monitoring range threshold value, the physical and physiological characteristics and the coordinates to construct judging conditions, judging other wearable fabrics, determining the history information of other wearable fabrics, determining the comprehensive characteristics based on the history information, presetting the regulation configuration executed on the wearable fabrics by a regulation unit according to the comprehensive characteristics, judging the state, and determining whether the wearable fabrics are in a response state or not.

Compared with the prior art, the technical scheme provided by the invention has the following beneficial effects:

The real-time state of the wearable fabric is determined through the fabric monitoring feedback unit, so that the state preset regulating and controlling module determines the follow-up body action matched with the state preset regulating and controlling module, and the state preset regulating and controlling module combines the follow-up body action and the position to be located to form the pre-regulating and controlling configuration of the wearable fabric, thereby improving the intelligent regulation and control of the wearable fabric at present;

When the wearable fabric executes the pre-regulation configuration, the running state of the wearable fabric is used for indicating the body actions which the user needs to execute subsequently, so that the user of the wearable fabric is effectively indicated to be partially configured, and the body actions which the user needs to execute subsequently are facilitated to be prepared in advance;

By combining the instant state of the changed wearable fabric, the range state monitoring of the wearable fabric is created, so that the state configuration judging module generates the running state of the current wearable fabric by means of other wearable fabrics, the wearable fabric can be accurately matched with the body action to be formed by a user, and the current wearable fabric is regulated conveniently, rapidly and intelligently.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It is evident that the drawings in the following description are only some embodiments of the present invention and that other drawings may be obtained from these drawings without inventive effort for a person of ordinary skill in the art.

FIG. 1 is an overall block diagram of the module of the present invention;

fig. 2 is a block diagram of a wearable fabric regulation configuration of the present invention.

Reference numerals in the drawings represent respectively:

100. a fabric monitoring feedback unit;

110. a coordinate monitoring feedback unit; 120, a time state monitoring unit 130, an operation state monitoring unit;

200. a state preset regulation module;

210. a fabric state arrangement unit; 220, a data column matching unit, 230, a state preset regulation and control unit;

300. A state configuration determination module;

310. The device comprises a feedback instruction receiving unit, a range monitoring feedback unit 320 and a comprehensive item characteristic judging unit 330.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more clear, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention. It will be apparent that the described embodiments are some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The invention is further described below with reference to examples.

Embodiment 1 (see fig. 1-2) a wearable textile human body monitoring feedback system based on the internet of things, comprising:

A fabric monitoring feedback unit 100 for monitoring the real-time status of the wearable fabric and generating an initial feedback signal (in this scheme, the wearable fabric includes but is not limited to a wearable massage neck/shoulder rest, a hot compress neck patch, a hot compress waistband, a hot compress knee pad, a hot compress hand warmer/patch, etc.);

In this embodiment, the fabric monitoring feedback unit 100 monitors the real-time state of the wearable fabric on the user body in advance, so that the current state of the wearable fabric and the partial characteristics of the current body of the user can be reflected, and the real-time state generates an initial feedback signal, and it is required to be explained that, in the scheme, the wearable fabric embeds a GPS positioning system, then, by combining the initial feedback signal, the state preset regulation module 200 determines the subsequent body action corresponding to the wearable fabric in the history information recorded by the wearable fabric, and can determine the position of the user at the moment in the subsequent time according to the subsequent body action, thereby, the state preset regulation module 200 combines the subsequent body action and the position at the moment to form the preset regulation configuration of the wearable fabric, for the pre-configuration of the wearable fabric, the current body state refers to the pre-configuration of the user, and the current body state is matched with the subsequent body action, and the user can realize the intelligent regulation and control of the wearable fabric by the user, and the user can realize the improved body-wearing action by matching with the current body action;

It should be further noted that, in this embodiment, because the wearable fabric is subjected to the pre-regulation configuration of the state pre-regulation module 200, when the wearable fabric performs the pre-regulation configuration, the running state of the wearable fabric can be used to indicate the body actions that the user needs to perform subsequently, so as to effectively indicate the part of the user configuring the wearable fabric, and the body actions that the user needs to perform subsequently are beneficial to the pre-preparation (for this, the wearable fabric is generally applied to the elderly or the crowd with memory pathology, because the functional condition of the wearable fabric is affected, and this way can further promote the practical application requirements of such users).

Based on the above, after the state preset adjusting module 200 forms the preset adjusting configuration on the wearable fabric, if the real-time state of the wearable fabric changes, it can indicate that the state of the user changes accordingly, in order to enable the wearable fabric to still realize the matching of the running state of the wearable fabric and the subsequent body motion of the user under the above conditions, the following adjustment is made to the scheme:

The system further comprises a state configuration judging module 300, which is bidirectionally connected with the state preset regulating module 200 and the fabric monitoring feedback unit 100, and is used for responding to the supplementary feedback signal sent by the fabric monitoring feedback unit 100 again in the process of executing regulating configuration in advance by the state preset regulating module 200, judging to create the range state monitoring of the wearable fabric in combination with the current supplementary feedback signal, so as to readjust the regulating configuration executed by the state preset regulating module 200 in combination with the range state monitoring, namely, after the instant state of the wearable fabric is changed, the fabric monitoring feedback unit 100 instantly generates the supplementary feedback signal, and sends the supplementary feedback signal to the state configuration judging module 300, and the range state monitoring of the wearable fabric is judged to be created by the state configuration judging module 300, for the range state monitoring, particularly, referring to the instant state matched with the current wearable fabric in a large number of other wearable fabrics, thereby enabling the state configuration judging module 300 to generate the required running state of the current wearable fabric by means of the other wearable fabrics, and executing regulating configuration again by the state preset regulating module 200, so that the wearable fabric can be accurately matched with the user, thereby realizing the intelligent and convenient physical and quick actions of the current wearable fabric.

In summary, the technical scheme for solving the problem that the existing wearable fabric cannot realize intelligent monitoring and corresponding feedback regulation and control due to the fact that no obvious regulation and control signal is made on the characteristics of the body, and the adaptation state of the body cannot be regulated and controlled by the existing wearable fabric is not convenient to achieve, so that the body cannot be matched with the wearable fabric for use is provided, is shown as follows:

the fabric monitoring feedback unit 100 includes:

The coordinate monitoring feedback unit 110 is configured to monitor the coordinates of the wearable fabric, and according to the above, the coordinate monitoring feedback unit 110 monitors the coordinates of the wearable fabric through a GPS positioning system;

a time status monitoring unit 120 for monitoring a current time;

and an operation state monitoring unit 130, configured to monitor an operation state of the wearable fabric, where the operation state refers to a current operation state of the wearable fabric, whether the wearable fabric is currently in operation or not, and a corresponding operation mode when the wearable fabric is in operation;

wherein, the wearable textile also records the history information of the movement of the wearable textile based on the coordinate monitoring feedback unit 110, and the history information comprises:

Movement time, movement path, pause area;

Thus, the instant state is formed by the coordinate monitoring feedback unit 110, the time state monitoring unit 120, and the operation state monitoring unit 130, and the instant state is formed into an initial feedback signal.

The state preset regulation module 200 includes:

A fabric state configuring unit 210 for configuring an operation mode of the wearable fabric;

A data string matching unit 220 for combining the initial feedback signal with the history information to determine a subsequent action state of the body;

A state preset adjusting and controlling unit 230, configured to determine an operation mode of the wearable fabric in combination with the action state determined by the data string matching unit 220, so as to form a preset adjusting and controlling configuration for the operation state of the wearable fabric;

referring to the above, when the instant state is determined, and the instant state is matched with the history information by the data string matching unit 220 (that is, under the history moving path (in which the user is recorded to travel to the sports field through the moving path at the designated time), it is determined whether there is a coordinate and time conforming to the instant state), when there is a moving path identical to the coordinate of the wearable fabric among the plurality of moving paths, it is determined that the moving path is a target moving path, and the coordinate-corresponding time of the wearable fabric is in the target moving path, it is determined that the pause area in the target moving path is a sports field related to exercise, it is determined that the pause area is an end point of the target moving path, and when it is determined that the user travels to the pause area to perform the exercise, the preset state adjusting and controlling unit 230 is used to perform preset adjustment and control configuration on the wearable fabric, wherein for the preset adjustment and control configuration on the wearable fabric, the preset adjustment and control configuration refers to that the wearable fabric is adjusted and controlled to a responsive running state in advance, for example, the fabric state adjusting unit 210 is used to adjust and control the running state of the wearable fabric to a state that the body can be pre-activated by heating and massaging in advance (for body movement and body building, the method forms pre-heating on the body before the body performs the movement and body building, so that the wearable fabric can be used in combination with the specific state of the body of the user, meanwhile, inconvenience that the user also needs to set part of commands in this way is reduced, so that the user can directly perform body movement when reaching a pause area, thereby realizing the situation that the wearable fabric can perform pre-response by means of an instant state, and forming the fit with the subsequent body of the user in an intelligent regulation and control configuration state.

It should be noted that, since the state preset adjusting and controlling unit 230 is a preformed adjusting and controlling configuration for the wearable fabric, the user can be predicted to follow-up actions of the body of the user in the process that the wearable fabric is in a motion state, so as to predict that the user is prepared in advance, so as to improve the actual application scenario of the wearable fabric at present.

It should be noted that, the running state of the wearable fabric monitored by the running state monitoring unit 130 includes a running mode and a non-running mode, when the target moving path is determined, the running state monitoring unit 130 is not considered, but if the regulation and control configuration determined by the target moving path is the same as the running state monitored by the running state monitoring unit 130, for example, the running state is a heating massage, the current running state needs to be readjusted according to the running state of the regulation and control configuration, so that the execution of the running state of the wearable fabric matches with the preheating time and the target time.

It should be noted that, in order to adapt the preheating time of the wearable fabric to the following body movements accurately, the unnecessary of too long preheating time or the shortfall caused by too short preheating time does not occur:

When the running state of the wearable fabric forms the pre-regulation configuration, it is determined whether the wearable fabric is in a response state (the response state includes: the running state of the wearable textile is in a state of being performed and stopped), whereby in the present embodiment, a standard warm-up time is set to T minutes (T may be 15min, not limited herein) for the body motion, and thus, after the coordinate monitoring feedback unit 110, the time state monitoring unit 120, and the running state monitoring unit 130 are made to generate the instant state, when it is determined that the instant state is in the moving time of the moving path in the history information (target moving path), the running state of the wearable textile is instantly generated for the pre-regulation configuration, and the distance between the coordinates of the real-time of the current wearable textile and the coordinates of the pause area in the target moving path is determined by the coordinate monitoring feedback unit 110, and the target time reaching the coordinates of the pause area is determined by the coordinate monitoring feedback unit 110 according to the moving speed of the wearable textile (based on the path distance and the time ratio determining speed of the path between the target moving paths, such as determining the path distance determining speed under 10 min), when it is determined that the running state of the wearable textile is in the target moving path to reach the pause area (this process is greater than or equal to the target time), the running state of the wearable textile is pre-set to be in the instant state, and the running state is pre-regulated and stopped by the state preset unit 230, and the running state is required to be performed for the pre-regulated state to be in the running state and the real-time is set to be performed, and the running state is stopped, and the running state is pre-regulated is performed, and the running state is determined is required is finished according to the running state real-state is preset and the running state is preset and finished is determined, namely, the heating massage and the like in the above;

it should be noted that, when the determined target time is less than the warm-up time, the state preset controlling unit 230 is caused to immediately bring the preset controlling configuration of the wearable fabric into the response state (the time of stopping the movement state is the same as that described above).

Describing the state configuration determination module 300, the state configuration determination module 300 includes:

The feedback instruction receiving unit 310 is configured to receive the supplementary feedback signal sent by the fabric monitoring feedback unit 100 again, and it should be noted that the supplementary feedback signal is:

The instant status of the wearable fabric conforms to the history information and does not conform to the history information, wherein:

the real-time state coincidence history information is that the coordinates of the wearable fabric coincide with the moving path of the history information;

The real-time state coincidence of the wearable fabric is not in line with the history information, namely the coordinate of the wearable fabric is not in line with the moving path of the history information.

And a range monitoring feedback unit 320 connected to the output end of the feedback command receiving unit 310, for determining to create a range state monitor of the wearable fabric in real time according to the supplementary feedback signal;

The heddle feature determining unit 330 is configured to determine, in combination with the heddle feature matching with the supplemental feedback signal under the range state monitoring, a regulation configuration performed on the wearable fabric again by the state preset regulating unit 230 through the heddle feature, and thereby re-determine whether the wearable fabric is in a responsive state immediately;

According to the above, when the instant state of the wearable fabric accords with the history information, the range state monitoring includes:

Establishing a running path according to the coordinates of the current wearable fabric, inputting the running path to the history information to determine the same running path, re-judging a moving path and a pause area, determining the subsequent running state of the wearable fabric according to the moving path and the pause area, executing regulation and control configuration, judging whether the wearable fabric is in a response state or not, and ensuring that the regulation and control configuration formed by the wearable fabric in the process is executed and responded according to the same rules, so that the wearable fabric can be matched with a body properly;

When the instant status of the wearable fabric does not conform to the historical information, the range status monitoring includes:

Setting a monitoring range threshold value of the wearable fabric, wherein the monitoring range threshold value can be preset to Hm which can be 30-50m, and the threshold value is not limited;

determining the physical and physiological characteristics corresponding to the current wearable fabric, namely body weight, leg circumference and three circumferences, wherein the physical and physiological characteristics can be acquired in advance by the wearable fabric;

Determining the coordinates of the current wearable fabric;

In particular, the judgment condition is built by the physiological characteristics of the body through the wearing type fabric worn by the current body user, the judgment condition is built by the physiological characteristics of the body according to the given judgment condition, the other wearing type fabrics (the same comprehensive characteristics as the judgment condition exist under the judgment condition are determined) are determined, the movement path (the real-time movement path at the moment) of the other wearing type fabrics is the coordinates of the current wearing type fabrics, and then the other wearing type fabrics are corresponding to or matched with the current wearing type fabrics, so that the judgment result (the target movement path) is generated by the comprehensive characteristics judgment unit 330, and the judgment condition is synchronously carried out by the judgment condition synchronous to the preset movement path of the wearing type fabrics 230.

Although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that the foregoing embodiments may be modified or equivalents may be substituted for some of the features thereof, and that the modification or substitution does not depart from the spirit and scope of the embodiments.

Claims (5)

1. Wearing formula fabric human body monitoring feedback system based on thing networking, its characterized in that includes:

The fabric monitoring feedback unit (100) is used for monitoring the instant state of the wearable fabric and generating an initial feedback signal;

the state preset regulation and control module (200) is connected with the output end of the fabric monitoring feedback unit (100) and is used for receiving an initial feedback signal sent by the fabric monitoring feedback unit (100), carrying out preset regulation and control configuration on the running state of the wearable fabric by combining the initial feedback signal and judging whether the wearable fabric is in a response state immediately;

The state configuration judging module (300) is in bidirectional connection with the state preset regulating and controlling module (200) and the fabric monitoring feedback unit (100) and is used for responding to the supplementary feedback signal sent again by the fabric monitoring feedback unit (100) in the process of the state preset regulating and controlling module (200) executing regulation and control configuration in advance, judging to establish the range state monitoring of the wearable fabric by combining the current supplementary feedback signal so as to judge the readjustment of the regulation and control configuration executed by the state preset regulating and controlling module (200) by combining the range state monitoring;

the fabric monitoring feedback unit (100) comprises:

a coordinate monitoring feedback unit (110) for monitoring the coordinates of the wearable fabric;

a time status monitoring unit (120) for monitoring a current time;

and an operating state monitoring unit (130) for monitoring an operating state of the wearable textile;

The wearable fabric also records the history information of the movement of the fabric based on the coordinate monitoring feedback unit (110), wherein the history information comprises movement time, movement path and pause area;

forming an instant state through coordinates, time and running state of the wearable fabric, and forming an initial feedback signal through the instant state;

The state configuration determination module (300) includes:

a feedback instruction receiving unit (310) for receiving the supplementary feedback signal sent by the fabric monitoring feedback unit (100) again;

The range monitoring feedback unit (320) is connected with the output end of the feedback instruction receiving unit (310) and is used for judging to immediately establish range state monitoring of the wearable fabric according to the supplementary feedback signal;

And the comprehensive item characteristic judging unit (330) is used for combining comprehensive item characteristics matched with the supplementary feedback signals under the range state monitoring, presetting regulation configuration executed on the wearable fabric by the regulation and control unit (230) through the comprehensive item characteristic judging state, and accordingly, redetermining whether the wearable fabric is in a response state or not.

2. The wearable textile human body monitoring feedback system based on the internet of things according to claim 1, wherein the state preset regulation module (200) comprises:

a fabric state allocation unit (210) for configuring a running mode of the wearable fabric;

A data string matching unit (220) for combining the initial feedback signal with the history information to determine a subsequent action state of the body;

The state preset regulating and controlling unit (230) is used for judging the running mode of the wearable fabric according to the action state determined by the data column matching unit (220) so as to form a preset regulating and controlling configuration on the running state of the wearable fabric, and judging whether the wearable fabric is in a response state immediately.

3. The internet of things-based wearable fabric human body monitoring feedback system of claim 2, wherein the response state comprises a state in which the running state of the wearable fabric is in execution and stop.

4. The internet of things-based wearable fabric human body monitoring feedback system of claim 1, wherein the supplemental feedback signal is:

The instant status of the wearable fabric conforms to the history information and does not conform to the history information, wherein:

the real-time state coincidence history information is that the coordinates of the wearable fabric coincide with the moving path of the history information;

The real-time state coincidence of the wearable fabric is not in line with the history information, namely the coordinate of the wearable fabric is not in line with the moving path of the history information.

5. The internet of things-based wearable fabric human body monitoring feedback system of claim 4, wherein when the instant status of the wearable fabric meets the historical information, the range status monitoring comprises:

Establishing a running path according to the coordinates of the current wearable fabric, inputting the running path into the history information to determine the same running path, re-judging a moving path and a pause area, determining the subsequent running state of the wearable fabric according to the moving path and the pause area, executing regulation configuration, and judging whether the wearable fabric is in a response state or not immediately;

When the instant status of the wearable fabric does not conform to the historical information, the range status monitoring includes:

Setting a monitoring range threshold of the wearable fabric;

Determining the physical and physiological characteristics corresponding to the current wearable fabric;

Determining the coordinates of the current wearable fabric;

Combining the monitoring range threshold value, the physical and physiological characteristics and the coordinates to construct judging conditions, judging other wearable fabrics, determining the history information of other wearable fabrics, determining the comprehensive characteristics based on the history information, presetting the regulation configuration executed on the wearable fabrics by a regulation and control unit (230) according to the comprehensive characteristics, and thereby re-determining whether the wearable fabrics are in a response state immediately.