CN106850796B - Wireless tracking monitoring method and system based on Internet of things - Google Patents

Abstract

The invention discloses a wireless tracking monitoring method based on the Internet of things, which comprises the following steps: the mobile monitoring equipment serving as a service object processes monitoring state information into a monitoring state beacon and transmits the monitoring state beacon information to the periphery in a wireless information broadcasting mode when the monitoring state beacon meets preset transmission conditions; the network service node equipment performs detection response on the monitoring state beacon information in a wireless information detection mode to acquire access information from the monitoring state beacon; and the network service node equipment performs access identification on the access information and performs classified cooperative processing based on the service plan information. The invention also discloses a wireless tracking monitoring system based on the Internet of things. The invention realizes monitoring and monitoring service for the associated users of the service objects by utilizing the surrounding Internet of things, and has better cooperativity, compatibility, flexibility and pointed on-site emergency service capability.

Description

Wireless tracking monitoring method and system based on Internet of things

Technical Field

The invention relates to the technical field of Internet of things, in particular to a wireless tracking monitoring method and system based on the Internet of things.

Background

At present, monitoring information of personal wearable and household portable intelligent mobile monitoring equipment is mainly uploaded to a smart phone through Bluetooth (Bluetooth Low Energy) communication, and then the smart phone sends the monitoring information to a system host or a server through App software. However, these smart accessory devices make less use of the internet of things services provided by the surrounding environment and lack corresponding mode switching mechanisms and service specifications.

Disclosure of Invention

The invention mainly aims to provide a wireless tracking monitoring method and system based on the Internet of things, and aims to provide a monitoring and processing mechanism for monitoring state information, which is high in response speed, high in cooperativity and low in power consumption.

In order to achieve the purpose, the invention provides a wireless tracking monitoring method based on the internet of things, which comprises the following steps:

the mobile monitoring equipment serving as a service object processes monitoring state information into a monitoring state beacon and transmits the monitoring state beacon information to the periphery in a wireless information broadcasting mode when the monitoring state beacon meets preset transmission conditions;

the network service node equipment performs detection response on the monitoring state beacon information in a wireless information detection mode to acquire access information from the monitoring state beacon;

and the network service node equipment performs access identification on the access information and performs classified cooperative processing based on the service plan information.

Optionally, the step of processing the monitoring status information into a monitoring status beacon by the mobile monitoring device as the service object includes:

the mobile monitoring equipment serving as a service object processes monitoring state information into a monitoring state beacon with a specific format, and superimposes the monitoring state information with the specific format into specified application message push information meeting the beacon standard, wherein the specific format comprises: device attribute information and monitoring status information.

Optionally, the network service node device includes a wireless beacon detection module and a wireless network data communication module for access identification and classification cooperative processing, and a manner of performing the probe response on the monitoring status beacon information sent by the mobile monitoring device by the network service node device includes any one or a combination of the following:

mode switching mode: the wireless beacon detection module and the wireless network data communication module are multiplexed, and the wireless network data communication module is triggered by a timer in a mode switching mode to allocate a time slot window for a beacon detection mode;

independent detection mode: and the wireless beacon detection module in the beacon detection mode sends the detection response information of the monitoring state beacon to the wireless network data communication module through a data communication interface.

Optionally, when receiving the monitoring state beacon information sent by the wireless beacon detection module, the wireless network data communication module performs access identification on the monitoring state beacon information, where the access identification includes device information identification, authorization identification and verification, and servability and service range identification;

and the wireless network data communication module carries out classification and cooperative processing according to the service plan information and the access identification result.

Optionally, the classifying and cooperating based on the service plan information includes:

the network service node equipment establishes communication connection with an upper host, and performs classification task query based on classification service standard management information;

and performing classified cooperative task allocation processing on the monitoring state beacon according to a query result, wherein the classified cooperative task allocation processing comprises the following steps: task allocation among a plurality of network service node devices and coordination management in the task execution process.

Optionally, before the step of processing the dynamic monitoring state information into the dynamic monitoring state beacon in a specific format, the mobile monitoring device as the service object includes:

the mobile monitoring device extracts monitoring state information based on current monitoring data and/or current device conditions.

Optionally, in the classification cooperative processing process, the network service node device performs local storage or distributed storage on the monitoring data and the monitoring state information of the service object, and uploads real-time data or synchronously stores non-real-time data.

Optionally, the classification cooperative processing includes a designated monitoring processing, and the designated monitoring processing performs processing based on the classification cooperative task, and performs superposition combination processing on one or more of the following modules according to a designated timing sequence flow: the method comprises the steps of Internet of things information configuration, monitoring service beacon configuration, peripheral equipment control and designated object monitoring processing.

The invention further provides a wireless tracking monitoring system based on the internet of things, which comprises: a network service node device and a mobile monitoring device as a service object,

the mobile monitoring equipment is used for processing the monitoring state information into a monitoring state beacon and transmitting the monitoring state beacon information to the periphery in a wireless information broadcasting mode when the monitoring state information meets a preset transmission condition;

the network service node equipment is used for carrying out detection response on the monitoring state beacon information in a wireless information detection mode and acquiring access information from the monitoring state beacon; and performing access identification on the access information, and performing classification cooperative processing based on the service plan information.

Optionally, the mobile monitoring device is further configured to process the monitoring state information into a monitoring state beacon in a specific format, and superimpose the monitoring state information in the specific format into specified application packet push information meeting a beacon standard, where the specific format includes: device attribute information and monitoring state information;

the network service node equipment comprises a wireless beacon detection module and a wireless network data communication module used for access identification and classification cooperative processing, wherein the wireless network data communication module is also used for carrying out access identification on monitoring state beacon information when receiving the monitoring state beacon information sent by the wireless beacon detection module, and the access identification comprises equipment information identification, authorization identification and verification and server performance and service range identification.

The invention processes the dynamic monitoring state information into a dynamic monitoring state beacon in a specific format through a mobile monitoring device as a service object, and transmits the monitoring state beacon information to the periphery when the mobile monitoring device meets the preset transmission condition, the network service node device performs detection response on the monitoring state beacon information in a wireless information detection mode to acquire access information from the monitoring state beacon, and finally performs access identification on the access information through the network service node device, and performs classification cooperative processing on the service object based on the service plan information. Through the mode, data transmission is carried out in a beacon mode, so that the mobile monitoring equipment and the network server node are not required to be connected, and the mobile monitoring equipment is sent to the periphery in a wireless information broadcasting mode when the preset conditions are met, the information processing amount is saved, the mobile monitoring equipment serving as a service object carries out real-time monitoring and emergency processing on information by using the peripheral Internet of things service, and the mobile monitoring equipment is strong in independence, high in cooperativity, low in power consumption, good in compatibility and high in response speed.

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 obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a flowchart of an embodiment of a wireless tracking monitoring method based on the internet of things according to the present invention;

FIG. 2 is a system architecture diagram according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a main process in an embodiment of the present invention;

fig. 4 is a flowchart illustrating the processing of the beacon response according to an embodiment of the invention;

FIG. 5 is a flowchart illustrating a detailed process of classification and cooperative processing based on service plan information according to an embodiment of the present invention;

fig. 6 is a schematic diagram illustrating a flow of executing a classification cooperative task according to an embodiment of the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

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

The invention provides a wireless tracking monitoring method based on the Internet of things.

Referring to fig. 1, fig. 1 is a flowchart of an embodiment of a wireless tracking monitoring method based on the internet of things.

In this embodiment, the wireless tracking monitoring method based on the internet of things includes the following steps:

s10, the mobile monitoring device as the service object processes the monitoring state information into a monitoring state beacon, and sends the monitoring state beacon information to the periphery in a wireless information broadcasting mode when the monitoring state beacon meets the preset sending condition;

s20, the network service node device performs detection response to the monitoring state beacon information in a wireless information detection mode to acquire access information from the monitoring state beacon;

and S30, the network service node equipment performs access identification on the access information and performs classification and cooperative processing based on the service plan information.

The monitoring object in the invention can be equipment or a user, the monitoring user state is taken as an example in the embodiment, as shown in a system architecture diagram of the invention in fig. 2, the system architecture of the invention comprises equipment/user/resource associated information management, an intelligent internet of things (IOT) management platform, intelligent internet of things monitoring service and classification cooperative processing service specification management, wherein the equipment/user/resource associated information management comprises equipment calibration and associated information management, user binding and associated information management, authorization pre-establishment and associated information management, subnet system and associated information management and regional resource and associated information management; the intelligent Internet of things (IOT) management platform comprises network calibration information configuration, authorization information configuration management, application service information configuration management and collaborative data storage processing; the intelligent Internet of things monitoring service comprises tracking detection state information processing, service beacon information processing, service plan information processing and classification task processing; the separated cooperative processing service specification management comprises classified cooperative task management and classified cooperative service specification management, and the functions of all modules in the system are explained by combining cases.

In this embodiment, the monitoring state information is taken as the health monitoring state information for explanation, and the mobile monitoring device is an intelligent measuring device capable of continuously monitoring, analyzing and evaluating certain or some health and exercise indexes of the human body. According to use, wear and monitoring mode and use frequency, can divide into wearable mobile monitoring equipment for carry out real-time continuity monitoring guardianship to motion and/or health status with wearing mode, include: motion monitoring devices (such as acceleration sensors, gyroscope sensors, and the like), health measurement and monitoring devices (such as thermometers, cardioverters, sphygmomanometers, and the like); a household mobile monitoring device is used for daily or regular measurement or continuous monitoring and monitoring of exercise and/or health conditions (such as a sphygmomanometer, a weighing machine, a blood glucose meter, a fat measuring instrument, a heart sound monitor, a sleep monitor and the like).

Specifically, in this embodiment, the mobile monitoring device extracts recently stored and dynamic real-time monitoring data based on the current monitoring data and/or the current device status. In this embodiment, the monitoring state information is extracted by computing and analyzing the mobile monitoring device based on the current monitoring data and/or the current device self condition, and can reflect the key index and characteristic information of the state and/or emergency degree of the current service object; monitoring key indexes and relevant characteristic information thereof, wherein the key indexes comprise abnormal heart rate, abnormal sleep, sudden fall, no movement and loss for a long time; the self condition of the equipment comprises self-checking faults of the equipment, insufficient electric quantity of a battery of the equipment and long-time disconnection of the equipment; the emergency degree comprises emergency help seeking and call alarming.

After dynamic monitoring state information is acquired, the monitoring state information is subjected to message superposition processing by mobile monitoring equipment to form a dynamic monitoring state beacon, so that when preset sending conditions are met, wireless beacon information is sent to peripheral network service node equipment in a wireless broadcast mode, the mobile monitoring equipment uploads monitored data information to the peripheral network service node equipment for processing, and the wireless beacon broadcast is a non-connected (including connectable or non-connectable), non-directional and repeatedly-sent wireless signal; and when the wireless beacon broadcast is an intelligent Bluetooth signal, the monitoring state beacon is an intelligent Bluetooth beacon. The message superposition is to superpose monitoring state beacons as message push information according to a sending format of a specified wireless beacon standard, the wireless beacon standard comprises wireless information sending standards (including connectable or non-connectable beacons) in a non-connection state defined based on wireless standards such as intelligent Bluetooth BLE and WiFi, and for the intelligent Bluetooth beacons, the message information comprises: the bluetooth device address, device attribute information (such as device ID, name, category, reference information strength, etc.), and the message push information are the monitoring state information.

After receiving monitoring state beacon information sent by mobile monitoring equipment, network service node equipment carries out access response identification on the monitoring state beacon information, wherein the access response identification comprises equipment information identification, authorization identification and verification, serviceability, service range identification and the like, and the access response identification also comprises single-node identification, multi-node cooperative identification and the participation of a system host in identification and verification if necessary, such as primary access identification of subnet node equipment, and directly sends the monitoring state beacon to an upper node intelligent router in a relay forwarding mode when meeting the primary identification condition; the subnet node equipment carries out initial access identification and sends a request of cooperative identification to the upper node intelligent router when meeting the initial identification condition; the sub-network node equipment has the dual roles of the node service equipment and the environment monitoring equipment; the intelligent router has double roles of the sub-network system host and the node service equipment, and performs merging processing (including superposition, elimination and fitting) on the received access response identification information from the plurality of sub-nodes. The cooperative processing comprises data storage, uploading and synchronization in the classification cooperative processing process, and service plan information and task allocation management information received from the system host in an interactive mode. Classifying and cooperatively processing a service object based on service plan information, wherein the preset classification service condition is a condition for judging according to factors such as access response identification information of the service object and monitoring state information, service necessity and emergency degree and the like based on the service plan information, the service object comprises the mobile monitoring equipment or a related user receiving monitoring service, for example, for any registered wireless mobile monitoring equipment, once the equipment is in a traceable state (such as automatic entry of the service object equipment or a request of a remote monitor), the positioning tracking service is started to serve as basic service of the monitoring service; for any service object authorized by the general monitoring service, when the monitoring state information is abnormal, the classified cooperative processing service is started; for any service object which is authorized by the key monitoring service, when the monitoring state information category is in accordance with a preset key monitoring category, the classified cooperative processing service is maintained whether the abnormality occurs or not; once the abnormity occurs, the monitoring and monitoring service is started; in the emergency state (as a public service), a basic service of a specified monitoring process can be performed for any identifiable, serviceable device (even without any registration or authorization).

Specifically, the falling action of the old man is captured through a motion sensor of an intelligent bracelet worn by the old man, and if the old man falls down, the following old man sits down naturally, or lies down to sleep, or can stand up several seconds after falling down, alarm information cannot be sent; if the old man can not stand up after falling down for several seconds, the old man is dangerous, the old man is in line with the preset condition of monitoring the old man, and at the moment, the corresponding beacon information is sent to the periphery. In specific implementations, the present invention may be applied to a plurality of application scenarios, including but not limited to: health monitoring key indexes and relevant characteristic information thereof: abnormal heart rate, abnormal sleep, sudden fall without starting, no movement for a long time and loss; the equipment self-equipment condition: equipment self-checking faults, insufficient battery capacity of the equipment and long-time disconnection of the equipment; emergency degree: emergency help seeking and calling alarm.

Further, the classification cooperative processing is wireless beacon broadcast processing, including beacon broadcast mode and parameter configuration, and beacon broadcast message content configuration.

The wireless beacon information broadcast processing comprises a beacon broadcast mode and parameter configuration, and beacon broadcast message content configuration, wherein the wireless beacon broadcast comprises public health service beacon broadcast (a conventional public service or advertising beacon broadcast) and classification cooperative service beacon broadcast, and when the service node equipment finds that the service object meets the classification service condition, the service node equipment needs to send help seeking and rescue broadcast information based on the classification cooperative service; the public health service beacon broadcast comprising:

1) environmental monitoring index information: temperature and humidity, PM2.5, harmful gas and the like;

2) such as environmental status indication information, warning information;

3) health resource indication information: nearby rescue resource facilities, information links

4) Environmental location information: as basic service information

The classified collaborative services beacon broadcast, comprising:

1) emergency help information and designated object rescue information

2) And (3) environmental alarm information: such as an environmental condition exception, an environmental incident.

The processing flow of the system of the present invention can be as shown in fig. 3, the network service node device detects the beacon information sent by the detection device through wireless broadcast, when the beacon information is detected, local network event detection is performed, classification task query or terminal response is performed according to classification collaborative service specification management, whether the detected beacon information needs to be processed is determined, if the detected beacon information needs to be processed, the beacon information is used as access information, that is, corresponding access information is acquired, then classification task query is performed according to preset classification service specification management information, it is determined whether the type to be processed is detection state information processing, timer task processing, local trigger response processing or network communication response processing, that is, the access information is classified, and then collaborative task execution processing is performed according to the classification.

The invention processes the monitoring state information into dynamic monitoring state beacons in a specific format through the mobile monitoring equipment as the service object, and sends the monitoring state beacon information to the periphery when the monitoring state beacon information meets the preset sending condition, the network service node equipment performs detection response on the monitoring state beacon information in a wireless information detection mode to acquire access information from the monitoring state beacons, and finally performs access identification on the access information through the network service node equipment, and performs classification cooperative processing on the service object based on the service plan information. Through the mode, data transmission is carried out in a beacon mode, so that the mobile monitoring equipment and the network server node are not required to be connected, and the mobile monitoring equipment is sent to the periphery in a wireless information broadcasting mode when the preset conditions are met, the information processing amount is saved, the mobile monitoring equipment serving as a service object carries out real-time monitoring and emergency processing on monitoring information by using the peripheral Internet of things service, and the mobile monitoring equipment is strong in independence, high in cooperativity, low in power consumption, good in compatibility and high in response speed.

Further, with continued reference to fig. 1, based on the wireless tracking monitoring method based on the internet of things according to the foregoing embodiment, step S10 includes:

the mobile monitoring equipment serving as a service object processes monitoring state information into a monitoring state beacon with a specific format, and superimposes the monitoring state information with the specific format into specified application message push information meeting the beacon standard, wherein the specific format comprises: device attribute information and monitoring status information.

In this embodiment, in order to quickly identify a packet to determine whether the packet needs to be access-identified or ignored, in this embodiment, monitoring state information is processed into a monitoring state beacon in a specific format. The monitoring status beacon information includes device attribute information and monitoring status information, wherein the device attribute information includes: category, device ID, other device attributes (e.g., reference signal strength); monitoring state information: characteristic state information: category, status; emergency alarm information: category, degree (rank); key index information: category, index, i.e. including the state of the device itself and the monitored environmental conditions detected by the device. In this embodiment, the processing procedure after the network server node receives the monitoring status beacon may include: after detecting the monitoring state beacon access response, a wireless beacon response processing flow may be as shown in fig. 4, including identifying the smart mobile monitoring device and the category of the monitoring state beacon information thereof; after the serviceability identification of the beacon information of the intelligent mobile monitoring equipment and the monitoring state thereof, indexing the service plan information; and when the access response identification information, the service necessity and the emergency degree of the service object and the monitoring state beacon accord with preset conditions, performing classified cooperative task allocation on the service object based on the associated user information, the associated authority information, the monitoring state information and the equipment position information.

After detecting the access response of the monitoring state beacon, the network service node equipment identifies the intelligent mobile monitoring equipment and the category of the monitoring state beacon information thereof, after the serviceability identification of the intelligent mobile monitoring equipment and the monitoring state beacon information thereof, the service plan information is indexed, such as notifying part or all guardians, releasing help-seeking information in a designated area, further extracting more monitoring information of a service object, releasing the help-seeking information to qualified workers, volunteers and expert groups, notifying an emergency call and rescue center, notifying and calling medical resources to implement emergency rescue and the like, and when the access response identification information, the service necessity and the monitored emergency degree of the service object and the monitoring state beacon reach preset conditions, positioning and tracking are carried out based on the user information bound or registered by the intelligent mobile monitoring equipment and the network service node equipment, and carrying out classification cooperative task allocation on the intelligent mobile monitoring equipment, issuing help seeking information or informing a rescue center and the like.

After the beacon information in a specific format is processed, the processed beacon information is superposed, and application message push information of any beacon standard is implanted, so that the beacon information can be compatible with multiple standards, namely, the monitoring state beacon sent by monitoring equipment and the monitoring service beacon sent by service node equipment can be configured in a beacon broadcast mode and parameters, and different monitoring service information is allowed to be sent in a wireless beacon broadcast mode according to different standards, modes and sending parameters.

For example, in this embodiment, when the wireless beacon standard transmission format of the smart bluetooth BLE is adopted for superposition, it is necessary to superpose, as push information, bluetooth device addresses, device attribute information (such as device IDs, names, categories, reference information strengths, and the like) and monitoring state information to form a dynamic monitoring state beacon, and when a preset transmission condition is met, transmit the dynamic monitoring state beacon through wireless beacon broadcast information, and the peripheral smart network service node device performs a probe access response on the monitoring state beacon transmitted by the smart monitoring device in a wireless information probing manner to receive the monitoring beacon information.

Further, the network service node device includes a wireless beacon detection module and a wireless network data communication module for access identification and classification cooperative processing, and a manner of performing the probe response on the monitoring status beacon information sent by the mobile monitoring device by the network service node device includes any one or a combination of the following:

mode switching mode: the wireless beacon detection module and the wireless network data communication module are multiplexed, and the wireless network data communication module is triggered by a timer in a mode switching mode to allocate a time slot window for a beacon detection mode;

independent detection mode: and the wireless beacon detection module in the beacon detection mode sends the detection response information of the environment monitoring state beacon to the wireless network data communication module through a data communication interface.

The mode switching mode has the advantages of hardware cost, and the independent detection mode has the advantages of high response speed of full-speed detection; the data communication interface is commonly UART, I2C and the like. When the wireless communication is in a Bluetooth mode, the wireless beacon detection mode is a Bluetooth detection client mode;

when receiving monitoring state beacon information sent by the wireless beacon detection module, the wireless network data communication module performs access identification on the monitoring state beacon information, wherein the access identification comprises equipment information identification, authorization identification and verification, and serviceability and service range identification;

and the wireless network data communication module carries out classification and cooperative processing according to the service plan information and the access identification result.

Further, referring to fig. 4, based on the wireless tracking monitoring method based on the internet of things according to the foregoing embodiment, the step of performing classification cooperative processing based on the service plan information includes:

step S31, the network service node equipment establishes communication connection with an upper host, and performs classification task query based on classification service specification management information;

step S32, performing a classification cooperative task allocation process on the monitoring status beacon according to the query result, where the classification cooperative task allocation process includes: task allocation among a plurality of network service node devices and coordination management in the task execution process.

In this embodiment, when receiving the beacon information, the device may perform classification task query based on preset classification service specification management information by establishing communication connection with the upper computer, and according to a query result, may perform task allocation among the plurality of network service node devices and perform coordination management in a task execution process, that is, perform corresponding cooperative processing on the plurality of network service node devices. The upper host refers to any form of management host with management capability on the internet of things subnet system and the service node equipment thereof, such as: intelligent gateway, intelligent router, host computer, local host, system host, etc. The system host refers to a local or remote management host with system management and user and resource management for the Internet of things, and comprises: local hosts (e.g., local servers, workstations); a system host (a network system service host or a cloud server).

Referring to fig. 5, the classification cooperative processing includes a designated monitoring processing, and the designated monitoring processing performs processing based on the classification cooperative task, and performs superposition combination processing on one or more of the following modules according to a designated time sequence flow: the method comprises the following steps of Internet of things information configuration, monitoring service beacon configuration, peripheral equipment control and designated object monitoring processing, wherein the monitoring service beacon configuration comprises a beacon broadcast mode, parameter configuration and beacon broadcast message content configuration; the designated object monitoring processing comprises designated service object connection monitoring, designated service object connection configuration and designated service object connection debugging; the peripheral equipment control comprises peripheral equipment state control, peripheral equipment information configuration and control mode and parameter configuration; the information configuration of the Internet of things comprises the following steps: network calibration and authorization information configuration, service specification and plan information configuration and other information configuration.

Further, in the classification cooperative processing process, the network service node device stores the monitoring data and the monitoring state information of the service object locally or in a distributed manner, and uploads real-time data or synchronously stores non-real-time data.

And the service node equipment adopts the combination or any one of local storage, distributed storage, real-time data uploading, non-real-time data synchronous storage and other modes for the monitoring data and the state information based on the data storage role responsibility of the equipment in the classification cooperative processing process.

Further, the classification cooperative processing includes cooperative processing between a plurality of peripheral network service node devices, cooperative processing between a network service node device and a system host, and cooperative processing between a network service node device and an upper node device or a lower node device. If there are multiple nodes simultaneously acquiring access response identification information for the same service object device, the subnet system host:

1) processing the access information data such as redundant elimination, identification verification, integration, storage and acquisition and the like;

2) performing multi-point combined positioning tracking through wireless information intensity;

3) assigning (based on information strength, current idle degree, and other factors) a certain service node device to establish a connection with the service object device;

4) and assigning a plurality of peripheral service node devices to simultaneously send the wireless beacon broadcast information or control the state of peripheral execution equipment.

Further, in the classification cooperative processing process, the service node device adopts one or more processing modes of local storage, distributed storage, real-time data uploading and non-real-time data synchronous storage for the monitoring data and the monitoring state information of the service object based on the data storage role of the device. The data storage role responsibilities are adjusted based on dynamic information such as predetermined role responsibilities, data storage capacity with current equipment, current network communication conditions, and the task allocation management from the system host.

Further, the classifying cooperative processing is designated monitoring processing, and the designated monitoring processing includes:

transmitting wireless beacon broadcast information as help seeking information to the periphery;

transmitting wireless beacon broadcast information as rescue information to a service object;

requesting to start the telemonitoring rescue service.

In this embodiment, the designated monitoring process is a designated object monitoring process, which includes designated service object connection monitoring, for example, establishing connection and/or dynamic networking with the service object device, and extracting more recently stored and dynamic real-time monitoring data; and (3) specifying the connection configuration of the service object, if the connection configuration meets the preset condition, starting the service of the specified monitoring processing by the classification cooperative processing, wherein the connection configuration comprises the steps of sending the wireless beacon broadcast information serving as help seeking information to the periphery, sending the wireless beacon broadcast information serving as rescue information to the service object and requesting to start the remote monitoring service-monitoring rescue service.

Further, the classification cooperative processing is to establish connection and/or dynamic networking between the network service node equipment and the service object, and extract recently stored and dynamic real-time monitoring data.

Further, the classification cooperative processing is that the network service node device opens and uses peripheral service facilities in an authorization mode, or controls peripheral intelligent network terminal devices in a linkage mode, such as controlling the states, configuring information, and configuring control modes and parameters of peripheral devices, for example, access control, lighting, streaming media sound boxes, cameras, calling devices, alarm devices, monitoring and emergency equipment, and the like.

Further, the classification cooperative processing is information configuration of the internet of things, and comprises network calibration information configuration, authorization information configuration, service specification and plan information configuration, and emergency service information configuration.

The invention further provides a wireless tracking monitoring system based on the internet of things, which comprises: peripheral network service node equipment and mobile monitoring equipment serving as a service object, wherein the peripheral network service node equipment and the cooperative processing form the Internet of things,

the mobile monitoring equipment is used for processing the monitoring state information into a monitoring state beacon and transmitting the monitoring state beacon information to the periphery in a wireless information broadcasting mode when the monitoring state information meets a preset transmission condition;

the network service node equipment is used for carrying out detection response on the monitoring state beacon information in a wireless information detection mode and acquiring access information from the monitoring state beacon; and performing access identification on the access information, and performing classification cooperative processing based on the service plan information.

Further, the mobile monitoring device is further configured to process the monitoring state information into a monitoring state beacon in a specific format, and superimpose the monitoring state information in the specific format into specified application packet push information meeting a beacon standard, where the specific format includes: device attribute information and monitoring state information;

the network service node equipment comprises a wireless beacon detection module and a wireless network data communication module used for access identification and classification cooperative processing, wherein the wireless network data communication module is also used for carrying out access identification on monitoring state beacon information when receiving the monitoring state beacon information sent by the wireless beacon detection module, and the access identification comprises equipment information identification, authorization identification and verification and server performance and service range identification.

Specifically, the network service node device is the network service node device described in the above embodiment, and the mobile monitoring device is the network service node device described in the above embodiment, which is not described herein again.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A wireless tracking monitoring method based on the Internet of things is characterized by comprising the following steps:

the method comprises the steps that mobile monitoring equipment serving as a service object processes monitoring state information into monitoring state beacons, and sends the monitoring state beacon information to the periphery in a wireless information broadcasting mode when the monitoring state information meets preset sending conditions, wherein the monitoring state information is key indexes and characteristic information which can reflect the state and/or emergency degree of a current service object based on current monitoring data and/or the self condition of the current equipment;

the network service node equipment performs detection response on the monitoring state beacon information in a wireless information detection mode to acquire access information from the monitoring state beacon;

the network service node equipment performs access identification on the access information, indexes the service plan information after passing through serviceability identification, and performs classification cooperative processing based on the service plan information;

the network service node equipment performs access identification on the access information, indexes the service plan information after passing through serviceability identification, and performs classified cooperative processing based on the service plan information, and the steps include:

after the serviceability identification of the beacon information of the intelligent mobile monitoring equipment and the monitoring state thereof, indexing the service plan information;

and when the access response identification information, the service necessity and the emergency degree of the service object and the monitoring state beacon accord with preset conditions, performing classified cooperative task allocation on the service object based on the associated user information, the associated authority information, the monitoring state information and the equipment position information.

2. The wireless tracking and monitoring method based on the internet of things as claimed in claim 1, wherein the step of processing the monitoring state information into the monitoring state beacon by the mobile monitoring device serving as the object comprises:

the mobile monitoring equipment serving as a service object processes monitoring state information into a monitoring state beacon with a specific format, and superimposes the monitoring state information with the specific format into specified application message push information meeting the beacon standard, wherein the specific format comprises: device attribute information and monitoring status information.

3. The wireless tracking and monitoring method based on the internet of things as claimed in claim 1, wherein the network service node device includes a wireless beacon detection module and a wireless network data communication module for access identification and classification coordination processing, and a manner of the network service node device performing the detection response on the monitoring status beacon information sent by the mobile monitoring device includes any one or a combination of the following:

mode switching mode: the wireless beacon detection module and the wireless network data communication module are multiplexed, and the wireless network data communication module is triggered by a timer in a mode switching mode to allocate a time slot window for a beacon detection mode;

independent detection mode: and the wireless beacon detection module in the beacon detection mode sends the detection response information of the monitoring state beacon to the wireless network data communication module through a data communication interface.

4. The wireless tracking monitoring method based on the internet of things as claimed in claim 3, wherein the wireless network data communication module performs access identification on the monitoring state beacon information when receiving the monitoring state beacon information sent by the wireless beacon detection module, wherein the access identification comprises equipment information identification, authorization identification and verification, and serviceability and service range identification;

and the wireless network data communication module carries out classification and cooperative processing according to the service plan information and the access identification result.

5. The wireless tracking and monitoring method based on the internet of things according to claim 1, wherein the step of performing classification cooperative processing based on the service plan information comprises:

the network service node equipment establishes communication connection with an upper host, and performs classification task query based on classification service standard management information;

and performing classified cooperative task allocation processing on the monitoring state beacon according to a query result, wherein the classified cooperative task allocation processing comprises the following steps: task allocation among a plurality of network service node devices and coordination management in the task execution process.

6. The wireless tracking and monitoring method based on the internet of things as claimed in any one of claims 1 to 5, wherein the step of processing the dynamic monitoring state information into a dynamic monitoring state beacon in a specific format by the mobile monitoring device as the service object is preceded by the steps of:

the mobile monitoring device extracts monitoring state information based on current monitoring data and/or current device conditions.

7. The wireless tracking and monitoring method based on the internet of things as claimed in any one of claims 1 to 6, wherein in the classification cooperative processing process, the network service node device performs local storage or distributed storage on the monitoring data and the monitoring state information of the service object, and uploads real-time data or synchronously stores non-real-time data.

8. The wireless tracking and monitoring method based on the internet of things as claimed in any one of claims 1 to 6, wherein the classification cooperative processing comprises a designated monitoring processing, the designated monitoring processing is executed based on the classification cooperative task, and the designated monitoring processing is executed by performing superposition combination processing on one or more of the following modules according to a designated time sequence flow: the method comprises the steps of Internet of things information configuration, monitoring service beacon configuration, peripheral equipment control and designated object monitoring processing.

9. The wireless tracking monitoring system based on the Internet of things is characterized by comprising: a peripheral network service node device and a mobile monitoring device as a service object,

the mobile monitoring equipment is used for processing monitoring state information into a monitoring state beacon and sending the monitoring state beacon information to the periphery in a wireless information broadcasting mode when the monitoring state information meets a preset sending condition, wherein the monitoring state information is key indexes and characteristic information which can reflect the state and/or emergency degree of a current service object based on current monitoring data and/or the self condition of the current equipment;

the network service node equipment is used for carrying out detection response on the monitoring state beacon information in a wireless information detection mode and acquiring access information from the monitoring state beacon; performing access identification on the access information, indexing the service plan information after the serviceability identification is passed, and performing classification cooperative processing based on the service plan information;

the network service node equipment performs access identification on the access information, indexes the service plan information after passing through serviceability identification, and performs classified cooperative processing based on the service plan information, and the method comprises the following steps:

after the serviceability identification of the beacon information of the intelligent mobile monitoring equipment and the monitoring state thereof, indexing the service plan information;

and when the access response identification information, the service necessity and the emergency degree of the service object and the monitoring state beacon accord with preset conditions, performing classified cooperative task allocation on the service object based on the associated user information, the associated authority information, the monitoring state information and the equipment position information.

10. The wireless tracking and monitoring system based on the internet of things of claim 9, wherein the mobile monitoring device is further configured to process the monitoring state information into a monitoring state beacon in a specific format, and superimpose the monitoring state information in the specific format into specified application message push information meeting a beacon standard, where the specific format includes: device attribute information and monitoring state information;

the network service node equipment comprises a wireless beacon detection module and a wireless network data communication module used for access identification and classification cooperative processing, wherein the wireless network data communication module is also used for carrying out access identification on monitoring state beacon information when receiving the monitoring state beacon information sent by the wireless beacon detection module, and the access identification comprises equipment information identification, authorization identification and verification and server performance and service range identification.

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