CN110515323B - Multi-mode wearable safety protection system and method - Google Patents

Abstract

The invention provides a multi-mode wearable safety protection system and a method, which comprises a main control module, a communication module, a sensing module, a storage module, an alarm module and an alarm button, wherein the main control module is respectively connected with the communication module, the sensing module, the storage module, the alarm module and the alarm button; the communication module comprises an encryption and decryption module, is connected with the server and can be in safe communication with the server. When the wearable device is used, lawless persons master the initiative of the wearable device through a certain means, protected persons or monitoring persons are enabled to be separated from monitoring, the encryption and decryption unit and the background mode control function are added, and the safety of the wearable device is guaranteed.

Description

Multi-mode wearable safety protection system and method

Technical Field

The invention relates to the technical field of electronic information, in particular to a multi-mode wearable safety protection system and a multi-mode wearable safety protection method.

Background

With the integrated and pocket-sized development of the semiconductor technology, various wearable devices enter the lives of people by depending on the mobility and the comprehensive popularization of the internet, the intelligent wearable devices can help people to perceive the external environment where the intelligent wearable devices are located, seamless butt joint and communication of human-computer information can be achieved under the assistance of a computer, the internet or other sensor devices, and the requirements of individuation and function diversification are also provided for wearing equipment. More and more occasions need intelligent wearable equipment, such as monitoring of children and the old; monitoring of outdoor sportsmen; the safety protection of the weak and small people when going out; safety management of military forces, prisons, etc.

Most common wearable devices in the market are not added with an explosion-proof function, the wearable device of a monitored object is damaged and has no alarm function, and the whole wearable device has too single function and can only monitor data such as body and position; the civil and military wearable devices are generally in a single mode to monitor body data, position data and the like of a user, and once a lawless person masters the initiative of the wearable device by a certain means, protected personnel or monitoring personnel can be separated from monitoring, so that irreparable accidents are caused.

Patent document with publication number CN105549745A discloses a wearable monitoring device, which can measure physical sign parameters such as heart rate, blood pressure, blood oxygen, pulse, human metabolite level based on sensing technology, and also can provide environmental parameter collection and GPS positioning information, and the device adopts 4G wireless communication network to realize rapid transmission of collected data, and is further provided with a special data processing and recognition system, which can solve the problems of data compatibility and physical sign data recognition, and can monitor a plurality of human physical sign data simultaneously. However, the scheme can only realize monitoring of data such as body and position, does not have an explosion-proof function, and has no alarm function when the wearable device of the monitored object is damaged.

Disclosure of Invention

In view of the defects in the prior art, the present invention provides a multi-mode wearable safety protection system and method.

According to one aspect of the invention, the multi-mode wearable safety protection system comprises a main control module, a communication module, a sensing module, a storage module, an alarm module and an alarm button, wherein the main control module is respectively connected with the communication module, the sensing module, the storage module, the alarm module and the alarm button; the communication module comprises an encryption and decryption module, is connected with the server and can be in safe communication with the server.

Preferably, the sensing module can monitor the health state and the position and posture information of the user and transmit the monitoring data information to the main control module.

Preferably, the storage module can store the monitoring data information received by the main control module.

Preferably, the system further comprises an operation interface, wherein the operation interface is connected with the main control module and can send instructions to the main control module.

According to another aspect of the invention, a multi-mode wearable safety protection method is provided, which comprises the following steps:

step 1: starting a multi-mode wearable safety protection system, reading the configuration sent by a server or the configuration set by a user through an operation interface, and selecting to enter a mixed mode or a safety mode;

if the user selects to enter the safety mode, the main control module is not controlled by the operation interface, and the multi-mode wearable safety protection system detects and reports the health state and the position and posture information of the user in real time;

if the mixed mode is selected to be entered, entering the step 2 to continue execution;

step 2: the method comprises the following steps that a sensing module sends a monitored user data packet to a main control module, and the main control module records and stores the data packet through a storage module, wherein the data packet comprises health state and position posture information;

and step 3: the main control module judges whether the data packet collected by the sensing module exceeds a configured threshold value sent by the server or a configured threshold value set by a user through an operation interface or whether an alarm button is pressed down by the user;

when the main control module judges that the data packet collected by the sensing module exceeds a configured threshold value sent by the server or a configured threshold value set by the user through the operation interface, or the main control module judges that the alarm button is pressed down by the user, the step 4 is carried out continuously;

when the main control module judges that the data packet collected by the sensing module does not exceed the configured threshold value sent by the server or the configured threshold value set by the user through the operation interface, or the main control module judges that the alarm button is not pressed down by the user, the step 2 is returned to continue to be executed;

and 4, step 4: the main control module informs the alarm module to send an alarm signal, sends the alarm signal to the server through the communication module and the encryption and decryption module, and waits for a command of the server;

and 5: after receiving the alarm signal, the server sends an instruction whether to enter a safety mode or not in an encryption mode;

when the server sends out an instruction of entering a safe mode, the execution continues in step 6;

when the server sends out an instruction not to enter the safe mode, the main control module receives and decrypts the instruction that the server does not enter the safe mode through the encryption and decryption module, and the step 2 is returned to continue to be executed;

step 6: the main control module receives the command of entering the safety mode through the encryption and decryption module decryption server, then the multi-mode wearable safety protection system enters the safety mode, the main control module is not controlled by the operation interface, and the main control module detects the health state and the position and posture information of the reported user in real time.

Preferably, the multi-mode wearable safety protection system is adopted to perform multi-mode wearable safety protection.

Compared with the prior art, the invention has the following beneficial effects:

1. when the wearable device is used, lawless persons master the initiative of the wearable device through a certain means, protected persons or monitoring persons are enabled to be separated from monitoring, the encryption and decryption unit and the background mode control function are added, and the safety of the wearable device is guaranteed.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a block diagram of a multi-mode wearable safety shield system according to the present invention.

FIG. 2 is a flow chart of a multi-mode wearable safety protection method of the present invention.

Detailed Description

The present invention will be described in detail with reference to specific examples. The following examples will assist those skilled in the art in further understanding the invention, but are not intended to limit the invention in any way. It should be noted that it would be obvious to those skilled in the art that various changes and modifications can be made without departing from the spirit of the invention. All falling within the scope of the present invention.

According to an aspect of the present invention, a multi-mode wearable safety protection system is provided, as shown in fig. 1, and includes a main control module, a communication module, a sensing module, a storage module, an alarm module, and an alarm button, where the main control module is respectively connected to the communication module, the sensing module, the storage module, the alarm module, and the alarm button; the communication module comprises an encryption and decryption module, is connected with the server and can be in safe communication with the server. The sensing module can monitor the health state and position and posture information of the user and transmit the monitoring data information to the main control module. The storage module can store the monitoring data information received by the main control module. The operation interface is connected with the main control module and can send instructions to the main control module.

The multi-mode wearable safety protection system provided by the invention can realize a multi-mode safety protection function; the multi-mode wearable safety protection method or algorithm provided by the invention realizes switching function opening, closing and safety control. The main control unit of the multi-mode wearable safety protection system is connected with the communication module to realize communication with the server, and the communication module is additionally provided with an encryption and decryption module to realize safety communication; the main control module is connected with the sensor module to acquire monitoring signals; the main control module is connected with the storage module and used for storing signals such as monitoring signals and the like; the main control module receives an instruction sent by an operation interface in a mixed mode; the main control module is connected with the alarm module and the alarm button to realize the alarm function.

According to another aspect of the present invention, there is provided a multi-mode wearable safety protection method, as shown in fig. 2, including the following steps:

step 1: starting a multi-mode wearable safety protection system, reading the configuration sent by a server or the configuration set by a user through an operation interface, and selecting to enter a mixed mode or a safety mode;

if the user selects to enter the safety mode, the main control module is not controlled by the operation interface, and the multi-mode wearable safety protection system detects and reports the health state and the position and posture information of the user in real time;

if the mixed mode is selected to be entered, entering the step 2 to continue execution;

step 2: the method comprises the following steps that a sensing module sends a monitored user data packet to a main control module, and the main control module records and stores the data packet through a storage module, wherein the data packet comprises health state and position posture information;

and step 3: the main control module judges whether the data packet collected by the sensing module exceeds a configured threshold value sent by the server or a configured threshold value set by a user through an operation interface or whether an alarm button is pressed down by the user;

when the main control module judges that the data packet collected by the sensing module exceeds a configured threshold value sent by the server or a configured threshold value set by the user through the operation interface, or the main control module judges that the alarm button is pressed down by the user, the step 4 is carried out continuously;

when the main control module judges that the data packet collected by the sensing module does not exceed the configured threshold value sent by the server or the configured threshold value set by the user through the operation interface, or the main control module judges that the alarm button is not pressed down by the user, the step 2 is returned to continue to be executed;

and 4, step 4: the main control module informs the alarm module to send an alarm signal, sends the alarm signal to the server through the communication module and the encryption and decryption module, and waits for a command of the server;

and 5: after receiving the alarm signal, the server sends an instruction whether to enter a safety mode or not in an encryption mode;

when the server sends out an instruction of entering a safe mode, the execution continues in step 6;

when the server sends out an instruction not to enter the safe mode, the main control module receives and decrypts the instruction that the server does not enter the safe mode through the encryption and decryption module, and the step 2 is returned to continue to be executed;

step 6: the main control module receives the command of entering the safety mode through the encryption and decryption module decryption server, then the multi-mode wearable safety protection system enters the safety mode, the main control module is not controlled by the operation interface, and the main control module detects the health state and the position and posture information of the reported user in real time.

Preferably, the multi-mode wearable safety protection system is adopted to perform multi-mode wearable safety protection.

Those skilled in the art will appreciate that, in addition to implementing the systems, apparatus, and various modules thereof provided by the present invention in purely computer readable program code, the same procedures can be implemented entirely by logically programming method steps such that the systems, apparatus, and various modules thereof are provided in the form of logic gates, switches, application specific integrated circuits, programmable logic controllers, embedded microcontrollers and the like. Therefore, the system, the device and the modules thereof provided by the present invention can be considered as a hardware component, and the modules included in the system, the device and the modules thereof for implementing various programs can also be considered as structures in the hardware component; modules for performing various functions may also be considered to be both software programs for performing the methods and structures within hardware components.

The foregoing description of specific embodiments of the present invention has been presented. It is to be understood that the present invention is not limited to the specific embodiments described above, and that various changes or modifications may be made by one skilled in the art within the scope of the appended claims without departing from the spirit of the invention. The embodiments and features of the embodiments of the present application may be combined with each other arbitrarily without conflict.

Claims (2)

1. A multi-mode wearable safety protection system is characterized by comprising a main control module, a communication module, a sensing module, a storage module, an alarm module and an alarm button, wherein the main control module is respectively connected with the communication module, the sensing module, the storage module, the alarm module and the alarm button; the communication module comprises an encryption and decryption module, is connected with the server and can carry out safe communication with the server;

the sensing module can monitor the health state and position and posture information of a user and transmit the monitoring data information to the main control module;

the storage module can store the monitoring data information received by the main control module;

the operation interface is connected with the main control module and can send instructions to the main control module;

the method for carrying out safety protection by utilizing the multi-mode wearable safety protection system comprises the following steps:

step 1: starting a multi-mode wearable safety protection system, reading the configuration sent by a server or the configuration set by a user through an operation interface, and selecting to enter a mixed mode or a safety mode;

if the user selects to enter the safety mode, the main control module is not controlled by the operation interface, and the multi-mode wearable safety protection system detects and reports the health state and the position and posture information of the user in real time;

if the mixed mode is selected to be entered, entering the step 2 to continue execution;

step 2: the method comprises the following steps that a sensing module sends a monitored user data packet to a main control module, and the main control module records and stores the data packet through a storage module, wherein the data packet comprises health state and position posture information;

and step 3: the main control module judges whether the data packet collected by the sensing module exceeds a configured threshold value sent by the server or a configured threshold value set by a user through an operation interface or whether an alarm button is pressed down by the user;

when the main control module judges that the data packet collected by the sensing module exceeds a configured threshold value sent by the server or a configured threshold value set by the user through the operation interface, or the main control module judges that the alarm button is pressed down by the user, the step 4 is carried out continuously;

when the main control module judges that the data packet collected by the sensing module does not exceed the configured threshold value sent by the server or the configured threshold value set by the user through the operation interface, or the main control module judges that the alarm button is not pressed down by the user, the step 2 is returned to continue to be executed;

and 4, step 4: the main control module informs the alarm module to send an alarm signal, sends the alarm signal to the server through the communication module and the encryption and decryption module, and waits for a command of the server;

and 5: after receiving the alarm signal, the server sends an instruction whether to enter a safety mode or not in an encryption mode;

when the server sends out an instruction of entering a safe mode, the execution continues in step 6;

when the server sends out an instruction not to enter the safe mode, the main control module receives and decrypts the instruction that the server does not enter the safe mode through the encryption and decryption module, and the step 2 is returned to continue to be executed;

step 6: the main control module receives the command of entering the safety mode through the encryption and decryption module decryption server, then the multi-mode wearable safety protection system enters the safety mode, the main control module is not controlled by the operation interface, and the main control module detects the health state and the position and posture information of the reported user in real time.

2. A multi-mode wearable safety protection method is characterized by comprising the following steps:

step 1: starting a multi-mode wearable safety protection system, reading the configuration sent by a server or the configuration set by a user through an operation interface, and selecting to enter a mixed mode or a safety mode;

if the user selects to enter the safety mode, the main control module is not controlled by the operation interface, and the multi-mode wearable safety protection system detects and reports the health state and the position and posture information of the user in real time;

if the mixed mode is selected to be entered, entering the step 2 to continue execution;

step 2: the method comprises the following steps that a sensing module sends a monitored user data packet to a main control module, and the main control module records and stores the data packet through a storage module, wherein the data packet comprises health state and position posture information;

and step 3: the main control module judges whether the data packet collected by the sensing module exceeds a configured threshold value sent by the server or a configured threshold value set by a user through an operation interface or whether an alarm button is pressed down by the user;

when the main control module judges that the data packet collected by the sensing module exceeds a configured threshold value sent by the server or a configured threshold value set by the user through the operation interface, or the main control module judges that the alarm button is pressed down by the user, the step 4 is carried out continuously;

when the main control module judges that the data packet collected by the sensing module does not exceed the configured threshold value sent by the server or the configured threshold value set by the user through the operation interface, or the main control module judges that the alarm button is not pressed down by the user, the step 2 is returned to continue to be executed;

and 4, step 4: the main control module informs the alarm module to send an alarm signal, sends the alarm signal to the server through the communication module and the encryption and decryption module, and waits for a command of the server;

and 5: after receiving the alarm signal, the server sends an instruction whether to enter a safety mode or not in an encryption mode;

when the server sends out an instruction of entering a safe mode, the execution continues in step 6;

when the server sends out an instruction not to enter the safe mode, the main control module receives and decrypts the instruction that the server does not enter the safe mode through the encryption and decryption module, and the step 2 is returned to continue to be executed;

step 6: the main control module receives the command of entering the safety mode through the encryption and decryption module decryption server, then the multi-mode wearable safety protection system enters the safety mode, the main control module is not controlled by the operation interface, and the main control module detects the health state and the position and posture information of the reported user in real time.

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