CN116419292A - Wireless bridge monitoring method, system, device and storage medium - Google Patents

Abstract

The invention discloses a wireless bridge monitoring method, a wireless bridge monitoring system, a wireless bridge monitoring device and a wireless bridge monitoring storage medium. The wireless network bridge monitoring method comprises the following steps: configuring network parameters of the wireless network bridge to enable the wireless network bridge to be connected with the monitoring device; configuring network parameters of the mobile terminal to enable the wireless network bridge to be connected with the mobile terminal; acquiring monitoring data by a monitoring device; the monitoring data is transmitted to the mobile terminal through the wireless bridge, and the monitoring data is displayed by the mobile terminal. According to the invention, the network module in the monitoring device is used for providing a network for the monitoring device, so that the monitoring device can share the network of the monitoring device to other mobile terminals, the use scene of the monitoring device is enriched, the effects that monitoring data can be obtained and the network can be shared with the mobile terminals are achieved, and the problems that the use scene of IPC (network camera) and carry-on WiFi/router products in the prior art is too single and the diversified monitoring requirements cannot be met are solved.

Description

Wireless bridge monitoring method, system, device and storage medium

Technical Field

The present invention relates to the field of wireless monitoring technologies, and in particular, to a wireless bridge monitoring method, system, device, and storage medium.

Background

A wireless bridge is a network device that can convert wireless signals into wired signals, enabling interconnection of the wired devices with a wireless network. It has been widely used in campus, enterprise and home networks to extend network coverage and increase network transmission speed. Meanwhile, the wireless bridge can also be used for monitoring the backup of the data so as to ensure the safety and reliability of the data. The rapid development of the monitoring technology also makes the wireless network bridge play an important role in the monitoring field, and can realize that the monitoring equipment is accessed into the wireless network, thereby being convenient for remote monitoring and management. At present, some applications combine wireless bridges and monitoring technologies, are deployed in the fields of campus and public security, and help to guarantee public security.

At present, in order to conveniently and remotely access monitoring data, a wireless bridge is placed near a monitoring video camera to transmit signals to a monitoring center, so that campus and public safety areas are monitored in real time, and abnormal conditions are found in time.

For example, publication No.: the invention patent of CN106817561A discloses a use method of a wireless network bridge monitoring system, firstly, a camera of the monitoring system shoots a live-action, and graphic data information is transmitted to a controller and a monitor by a wireless transceiver module under the action of a network bridge; the monitor displays the external real-time condition and provides data support; the alarm connected with the controller can sound a warning when a major emergency happens; the bridge generally comprises a conversion chip, an E1 interface module and an Ethernet module, wherein the conversion chip is respectively connected with the Ethernet module and the Ethernet module, the data information of the Ethernet module and the Ethernet module is connected with the conversion chip through a data link control circuit, and the data information is exchanged to other devices under the action of the conversion chip; the wireless receiver is connected with the remote client through the serial port, and data can be processed and graphically displayed on the remote client, so that remote data storage and real-time state monitoring are realized.

For example, publication No.: the invention patent of CN107171916B discloses a special 4G wireless intelligent network bridge for remote monitoring of an industrial metering pump, which consists of a microcontroller, a peripheral circuit, a CAN module and a 4G module, wherein the microcontroller is respectively connected with the peripheral circuit, the CAN module and the 4G module, and the designed 4G wireless intelligent network bridge CAN realize the conversion from CAN protocol data to wireless frames and CAN realize the conversion from wireless frame data to CAN protocol data. Aiming at the problems of poor instantaneity, difficult data safety guarantee, insufficient field efficiency of a pump set and the like, a priority algorithm is formulated, and high, medium and low priority data in metering pump control are effectively processed, so that instantaneity can be improved. Meanwhile, an encryption algorithm is formulated based on DES, and a pump set coordination control algorithm is formulated.

However, in the process of implementing the technical scheme of the invention in the embodiment of the application, the inventor of the application finds that at least the following technical problems exist in the above technology:

in the prior art, the use scene of the IPC (webcam) and the portable WiFi/router product is too single, and the problem that the diversified monitoring requirements cannot be met exists.

Disclosure of Invention

According to the wireless bridge monitoring method, system, device and storage medium, the problems that in the prior art, the use scenes of IPC (Internet protocol camera) and carry-on WiFi/router products are too single and diversified monitoring requirements cannot be met are solved, the fact that the monitoring device can share own network to other mobile terminals is achieved, and the use scenes of the monitoring device are enriched.

The embodiment of the application provides a wireless bridge monitoring method, which comprises the following steps: configuring network parameters of the wireless network bridge to enable the wireless network bridge to be connected with the monitoring device; configuring network parameters of the mobile terminal to enable the wireless network bridge to be connected with the mobile terminal; acquiring monitoring data by a monitoring device; the monitoring data is transmitted to the mobile terminal through the wireless bridge, and the monitoring data is displayed by the mobile terminal.

Further, the monitoring device comprises a camera module and a network module, wherein the camera module is used for acquiring monitoring data in real time, and the network module is used for connecting a wireless network bridge and transmitting the monitoring data to the wireless network bridge.

Further, after the network module of the monitoring device is configured by network parameters, a plurality of mobile terminals are supported to be connected simultaneously, network bandwidth is allocated for each accessed mobile terminal, and sharing and accessing of monitoring data are supported.

Further, the specific step of allocating network bandwidth to each accessed mobile terminal includes: setting the initial bandwidth of each accessed mobile terminal as b; according to the MAC address of the mobile terminal accessing the network, the MAC address is used as the unique identifier of the mobile terminal; acquiring the total number n of checking the monitoring data of the mobile terminal which is accessed currently and the checking time length of the ith time

Record as information value under the MAC address of the mobile terminal, i.e. +.>

The method comprises the steps of carrying out a first treatment on the surface of the Calculating a demand index G for the mobile terminal to view the monitoring data: />

Wherein n is 0 to n, i is 1 to n, e is a natural constant,>

and->

Is an adjustment factor; counting the number of mobile terminals which are currently accessed, sequencing the mobile terminals according to the requirement indexes from high to low, and classifying the mobile terminals in priority, wherein the requirement indexes are larger than +.>

The mobile terminals of (2) are classified as most preferred, the demand index is greater than +.>

Less than->

The mobile terminal of (2) is classified as sub-priority, the demand index is less than +.>

The mobile terminals of (2) are classified as non-prioritized, wherein +.>

The method comprises the steps of carrying out a first treatment on the surface of the Setting the most preferred index to +.>

The second priority index is->

The final priority index is->

The method comprises the steps of carrying out a first treatment on the surface of the Calculating the bandwidth B obtained by each mobile terminal: />

。

Further, the mobile terminal may recalculate the demand index of the monitoring data at intervals of a certain period of time T, and the specific steps are as follows: setting an interval time period T; acquiring an information value recorded under the MAC address of the mobile terminal; marking the time period corresponding to the content of the information value as the j-th time period T in the information value, namely

Corresponding in time period->

The resulting demand index in (2) is +.>

The method comprises the steps of carrying out a first treatment on the surface of the When viewing duration +.>

Occurs in the time period +.>

Continuously recording the checking time length if the position is not the end position; when viewing duration +.>

Occurs in the time period +.>

The last position of (a) i.e. the nth view, and the view duration is in time period +.>

The end of (2) is still clocked, the viewing duration is terminated and saved as +.>

Is marked as->

And from the next time period

The initial position is continued to be timed after the last time of the timing position is stopped and stored as +.>

The record is as follows; />

The method comprises the steps of carrying out a first treatment on the surface of the When creating new->

Demand index->

Then according to->

The new demand index is recalculated for the mobile terminal corresponding to the MAC at the information value>

。

The embodiment of the application provides a wireless network bridge monitoring system, which comprises: the system comprises a monitoring device, a wireless network bridge and a mobile terminal, wherein the monitoring device is connected with the wireless network bridge, and the wireless network bridge is connected with the mobile terminal; the monitoring device is used for acquiring monitoring data and transmitting the monitoring data to the wireless network bridge; the wireless network bridge is used for transmitting the received monitoring data to the mobile terminal; the mobile terminal is used for receiving the monitoring data sent by the wireless bridge and displaying the monitoring data.

Further, the monitoring device is further used for distributing network bandwidth for the accessed mobile terminal and sending the monitoring data to the mobile terminal; the mobile terminal is also used for connecting with the monitoring device, sharing the network of the monitoring device and receiving the monitoring data sent by the monitoring device.

Further, when the mobile terminal shares the network of the monitoring device, the mobile terminal is further used for uploading the total number of times of checking the monitoring data and checking time length, so that the monitoring device can allocate network bandwidth for the accessed mobile terminal.

The embodiment of the application provides a wireless network bridge monitoring device, which comprises a network bridge configuration module, a terminal configuration module, a monitoring module and a checking module: the bridge configuration module: the network parameters are used for configuring the wireless network bridge, so that the wireless network bridge is connected with the monitoring device; the terminal configuration module: the network parameters are used for configuring the network parameters of the mobile terminal, so that the wireless network bridge is connected with the mobile terminal; the monitoring module is used for: for obtaining monitoring data by a monitoring device; the viewing module: for transmitting the monitoring data to the mobile terminal via the wireless bridge, the monitoring data being displayed by the mobile terminal.

Embodiments of the present application provide a computer readable storage medium storing a program that when executed by a processor implements a wireless bridge monitoring method.

One or more technical solutions provided in the embodiments of the present application at least have the following technical effects or advantages:

1. the network module in the monitoring device provides a network for the monitoring device, so that the monitoring device can share the network of the monitoring device with other mobile terminals, the use scene of the monitoring device is enriched, and the problems that in the prior art, the use scene of IPC (network camera) and a carry-on WiFi/router product is too single, and the diversified monitoring requirements cannot be met are effectively solved.

2. The network bandwidth allocation algorithm is arranged in the monitoring device, and network bandwidth resources are dynamically allocated according to the total checking times and checking time length of the monitoring data of each mobile terminal, so that network bandwidth allocation is carried out on each accessed mobile terminal according to the requirement index of the mobile terminal for checking the monitoring data, each accessed mobile terminal is guaranteed to be available in a network, transmission and display of the monitoring data can be balanced and coordinated among different mobile terminals, meanwhile, the mobile terminals with large requirement indexes are guaranteed not to be blocked when the monitoring data are checked, and the efficiency and performance of the system are improved.

3. By combining the network bandwidth allocation algorithm with the recalculation of the demand indexes, each mobile terminal has the opportunity to rank the demand indexes in a certain time period and allocate the demand indexes to a larger network bandwidth at the same time, so that more fair, reasonable and efficient bandwidth resource allocation is realized, and the network use experience of the mobile terminal corresponding to the user is optimized.

Drawings

Fig. 1 is a flowchart of a wireless bridge monitoring method provided in an embodiment of the present application;

fig. 2 is a schematic structural diagram of a wireless bridge monitoring system according to an embodiment of the present application;

fig. 3 is a block diagram of a wireless bridge monitoring device according to an embodiment of the present application.

Detailed Description

According to the wireless bridge monitoring method, system, device and storage medium, the problems that in the prior art, the use scene of IPC (network camera) and a portable WiFi/router product is too single and diversified monitoring requirements cannot be met are solved, and a network module in a monitoring device provides a network for the monitoring device, so that the monitoring device can share own network to other mobile terminals, and the use scene of the monitoring device is enriched.

The technical scheme in this application embodiment is for solving the aforesaid, and the use scene of IPC (webcam) and portable wiFi/router product is too single, has the problem that can't satisfy diversified control demand, and the overall thinking is as follows:

network parameters configuring a wireless bridge: configuring network parameters of the wireless network bridge, including setting network names, encryption modes, passwords and the like, so as to ensure that the wireless network bridge and the monitoring device can be connected; connecting the monitoring device with the wireless network bridge: connecting the monitoring device with the wireless bridge in an electric connection and wireless connection mode so as to ensure that the monitoring device can transmit acquired monitoring data to the wireless bridge; configuring network parameters of the mobile terminal: configuring network parameters of the mobile terminal to enable the mobile terminal to be connected to a wireless bridge, wherein the configuration comprises the steps of setting a network name, an encryption mode, a password and the like; connecting the wireless bridge with the mobile terminal: connecting the wireless network bridge with the mobile terminal in an electric connection and wireless connection mode so that the wireless network bridge can transmit monitoring data to the mobile terminal and the mobile terminal displays the monitoring data; the monitoring device acquires monitoring data: the camera module in the monitoring device acquires monitoring data in real time, wherein the monitoring data comprises image acquisition through a camera; transmitting the monitoring data through the wireless bridge: the network module in the monitoring device is connected to the wireless bridge, and the monitoring data is transmitted to the mobile terminal through the wireless bridge, so that the data transmission between the monitoring device and the mobile terminal can be realized by taking the wireless bridge as a bridge; the mobile terminal displays the monitoring data: the mobile terminal receives the monitoring data transmitted by the wireless network bridge and displays and demonstrates the monitoring data; the mobile terminal can also check the total times and check the time information through uploading the monitoring data, and feed back the data to the monitoring device for distributing the network bandwidth, so that the use scene of the monitoring device is enriched, meanwhile, the multi-user simultaneous monitoring is convenient, and the flexibility and the expansibility of the monitoring system are improved.

The mode that the monitoring data acquired by the monitoring device are transmitted to the mobile terminal through the wireless bridge is suitable for the situation that the monitoring device and the mobile terminal are far away from each other and cannot be connected, when the distance is short, the mobile terminal can be directly connected to the monitoring device, the mobile terminal can access to the network of the monitoring device, namely the network sharing the monitoring device, and the network provided by the monitoring device is used for checking the monitoring data.

In order to better understand the above technical solutions, the following detailed description will refer to the accompanying drawings and specific embodiments.

As shown in fig. 1, a flowchart of a wireless bridge monitoring method according to an embodiment of the present application is provided, where the method is applied to a wireless bridge monitoring device, and the method includes the following steps: configuring network parameters of the wireless network bridge to enable the wireless network bridge to be connected with the monitoring device; configuring network parameters of the mobile terminal to enable the wireless network bridge to be connected with the mobile terminal; acquiring monitoring data by a monitoring device; the monitoring data is transmitted to the mobile terminal through the wireless bridge, and the monitoring data is displayed by the mobile terminal.

In this embodiment, the connection between the wireless bridge and the monitoring device includes an electrical connection and a wireless connection, and the connection between the wireless bridge and the mobile terminal includes an electrical connection and a wireless connection; when the monitoring device is far away from the mobile terminal and cannot be directly connected, a connecting bridge is built between the monitoring device and the mobile terminal through a wireless bridge, the wireless bridge transmits monitoring data acquired by the monitoring device to the mobile terminal, and the mobile terminal receives the monitoring data and displays the monitoring data.

Further, the monitoring device comprises a camera module and a network module, wherein the camera module is used for acquiring monitoring data in real time, and the network module is used for connecting the wireless network bridge and transmitting the monitoring data to the wireless network bridge.

In this embodiment, the network module and the camera in the camera module are electrically connected to perform data transmission; the camera module at least comprises a camera, and a storage module special for storing monitoring data is not arranged in the monitoring device, so the camera module needs to acquire and upload the monitoring data to the mobile terminal in real time, the middle is transmitted and backed up through a wireless bridge, and if the middle is not provided with the wireless bridge, a data storage module is needed to be arranged in the mobile terminal and used for storing the monitoring data immediately after the monitoring data is received.

Further, after the network module of the monitoring device is configured by network parameters, the network module supports the simultaneous connection of a plurality of mobile terminals, distributes network bandwidth for each accessed mobile terminal, and supports the sharing and access of monitoring data.

In this embodiment, the network module in the monitoring device needs to configure network parameters so that the network module can be accessed by other mobile terminals and share the network provided by the network module in the monitoring device, and when the network parameters are configured, the upper limit of the access mobile terminal can be limited at the same time, and meanwhile, the network module needs to store a network bandwidth allocation algorithm for each accessed mobile terminal, so as to allocate network bandwidth for the accessed mobile terminal.

Further, the specific steps of allocating network bandwidth to each accessed mobile terminal are as follows: setting the initial bandwidth of each accessed mobile terminal as b; according to the MAC address of the mobile terminal accessing the network, the MAC address is used as the unique identifier of the mobile terminal; acquiring the total number n of checking the monitoring data of the mobile terminal which is accessed currently and the checking time length of the ith time

Record as information value under the MAC address of the mobile terminal, i.e. +.>

The method comprises the steps of carrying out a first treatment on the surface of the Calculating a demand index G for the mobile terminal to view the monitoring data: />

Wherein n is 0 to n, i is 1 to n, e is a natural constant,>

and->

Is an adjustment factor; counting the number of mobile terminals which are currently accessed, sequencing the mobile terminals according to the requirement indexes from high to low, and classifying the mobile terminals in priority, wherein the requirement indexes are larger than +.>

The mobile terminals of (2) are classified as most preferred, the demand index is greater than +.>

Less than->

The mobile terminal of (2) is classified as sub-priority, the demand index is less than +.>

The mobile terminals of (2) are classified as non-prioritized, wherein +.>

The method comprises the steps of carrying out a first treatment on the surface of the Setting the most preferred index to +.>

The second priority index is->

The final priority index is->

The method comprises the steps of carrying out a first treatment on the surface of the Calculating the bandwidth B obtained by each mobile terminal: />

。

In this embodiment, the upper and lower threshold limits are further required to be performed for the network bandwidth that can be allocated to each mobile terminal according to the actual network bandwidth, so as to avoid that the network bandwidth of one mobile terminal is too large or too small; the specific step of allocating the network bandwidth for each accessed mobile terminal is stored in a network module of the monitoring device as a network bandwidth allocation algorithm, and is used for timely adjusting the network bandwidth allocation obtained by each mobile terminal, so that the mobile terminal with high monitoring data checking requirement index is ensured to allocate larger network bandwidth, the mobile terminal checking the monitoring data is ensured not to be blocked in the checking process, the timely transmission and smooth display of the monitoring data are ensured, and the efficiency and performance of the system are improved.

Further, the mobile terminal may recalculate the demand index of the monitoring data at intervals of a certain period of time T, and the specific steps are as follows: setting an interval time period T; acquisition of record in the moveInformation value under MAC address of mobile terminal; marking the time period corresponding to the content of the information value as the j-th time period T in the information value, namely

Corresponding in time period->

The resulting demand index in (2) is +.>

The method comprises the steps of carrying out a first treatment on the surface of the When viewing duration +.>

Occurs in the time period +.>

Continuously recording the checking time length if the position is not the end position; when viewing time length

Occurs in the time period +.>

The last position of (a) i.e. the nth view, and the view duration is in time period +.>

The end of (2) is still clocked, the viewing duration is terminated and saved as +.>

Is marked as->

And from the next time period +>

The initial position is continued to be timed after the last time of the timing position is stopped and stored as +.>

The record is as follows; />

The method comprises the steps of carrying out a first treatment on the surface of the When creating new->

Demand index->

Then according to->

The new demand index is recalculated for the mobile terminal corresponding to the MAC at the information value>

。

In this embodiment, when a large number of users use the network at the same time, bandwidth resources of the network are limited by allocation, so that network congestion is caused, and experience of mobile terminal users is affected; the mobile terminals which occupy the bandwidth for a long time can be restrained to a certain extent by periodically re-calculating the demand index, so that more mobile terminals can be guaranteed to obtain fair bandwidth allocation; in addition, after each recalculation, the information value corresponding to the requirement index record before the removal can be selected according to the actual situation so as to facilitate data searching and analysis, or the information value corresponding to the requirement index record before the removal can be selected so as to save storage resources.

As shown in fig. 2, for a schematic structural diagram of a wireless bridge monitoring system provided in an embodiment of the present application, the wireless bridge monitoring system provided in an embodiment of the present application includes a monitoring device, a wireless bridge, and a mobile terminal, where the monitoring device is connected to the wireless bridge, and the wireless bridge is connected to the mobile terminal: the monitoring device is used for acquiring monitoring data and transmitting the monitoring data to the wireless network bridge; the wireless network bridge is used for transmitting the received monitoring data to the mobile terminal; the mobile terminal is used for receiving the monitoring data sent by the wireless bridge and displaying the monitoring data.

In this embodiment, the monitoring device includes a camera module and a network module; the wireless bridge comprises a networking module, a transmission module and a backup module, wherein the networking module is used for configuring a network, so that the wireless bridge is connected to a monitoring device and a mobile terminal, the transmission module is used for forwarding data transmitted by the monitoring device to the mobile terminal, forwarding the data transmitted by the mobile terminal to the monitoring device, and the backup module is used for backing up all information forwarded by the transmission module, so that the later searching is convenient, the monitoring device can perform more comprehensive functions in a system, the tasks such as data acquisition, bandwidth allocation and network management can be performed, the overall performance and the effect of the system are improved, wherein the backed-up monitoring data can be compressed into smaller files, the storage space is saved, and more monitoring data can be stored.

Further, the monitoring device is further used for distributing network bandwidth for the accessed mobile terminal and sending the monitoring data to the mobile terminal; the mobile terminal is also used for connecting the monitoring device, sharing the network of the monitoring device and receiving the monitoring data sent by the monitoring device.

In this embodiment, the monitoring device is not only responsible for collecting monitoring data, but also plays a role of network management, and by providing network connection and bandwidth control for the mobile terminal, the data transmission speed and priority of the mobile terminal in the monitoring system can be controlled, so as to ensure timely transmission and reliability of the monitoring data. When the monitoring device is small in size and the movable power supply is used for supporting the monitoring device to acquire monitoring data in the moving process, the monitoring device can acquire the monitoring data in the moving process and serve as a mobile WiFi device, network connection with other devices is shared conveniently, the monitoring device is more flexible and portable, and acquisition and sharing of the monitoring data can be realized in different scenes.

Further, when the mobile terminal shares the network of the monitoring device, the mobile terminal is further used for uploading the total checking times and checking time of the monitoring data, so that the monitoring device can allocate network bandwidth for the accessed mobile terminal.

In this embodiment, the mobile terminal transmits the information of the total number of times and the time length of checking the monitoring data back to the monitoring device, and the monitoring device can allocate the network bandwidth according to the information. The monitoring device can dynamically allocate network bandwidth resources according to the requirements and the service conditions of the mobile terminal by monitoring the total number of times and the time length of checking the data. If a certain mobile terminal frequently checks the monitoring data or continuously checks for a long time, the monitoring device can allocate more bandwidth resources to the terminal so as to ensure smooth monitoring data receiving and displaying. For the mobile terminal with fewer total times or shorter checking time, the monitoring device can allocate fewer bandwidth resources so as to save network resources and meet the requirements of other terminals. The dynamic algorithm for distributing network bandwidth can improve the efficiency and performance of the whole monitoring system, and ensures that the transmission and the viewing of monitoring data can be balanced and coordinated among all mobile terminals.

As shown in fig. 3, in order to provide a structure diagram of a wireless bridge monitoring device according to an embodiment of the present application, the wireless bridge monitoring device provided in the embodiment of the present application includes a bridge configuration module, a terminal configuration module, a monitoring module, and a checking module: bridge configuration module: the network parameters are used for configuring the wireless network bridge, so that the wireless network bridge is connected with the monitoring device; terminal configuration module: the network parameters are used for configuring the network parameters of the mobile terminal, so that the wireless network bridge is connected with the mobile terminal; and a monitoring module: for obtaining monitoring data by a monitoring device; and a viewing module: for transmitting the monitoring data to the mobile terminal via the wireless bridge, the monitoring data being displayed by the mobile terminal.

In this embodiment, when the distance between the monitoring device and the mobile terminal exceeds the connectable range, the network parameters of the wireless network bridge are first configured by the network bridge configuration module to connect the wireless network bridge with the mobile terminal, then the network parameters of the mobile terminal are configured by the terminal configuration module to connect the wireless network bridge with the mobile terminal, then the monitoring device acquires the monitoring data in the monitoring module, and finally the monitoring data is transmitted to the mobile terminal through the wireless network bridge in the viewing module and displayed by the mobile terminal.

The embodiment of the application also provides a computer readable storage medium for storing a program, and the program is executed by a processor to realize a wireless bridge monitoring method.

The technical scheme in the embodiment of the application at least has the following technical effects or advantages: relative to publication No.: according to the application method of the wireless network bridge monitoring system disclosed by the CN106817561A, the network module in the monitoring device is used for providing a network for the monitoring device, so that the monitoring device can share the network of the monitoring device to other mobile terminals, the use scene of the monitoring device is further enriched, simultaneous monitoring of multiple users is facilitated, and the flexibility and expansibility of the monitoring system are improved; relative to publication No.: the embodiment of the application provides a wireless network bridge monitoring method which is more flexible, reliable and rich in functions through the aspects of wireless connection, network bandwidth control of a mobile terminal, sharing and data backup of monitoring data, expansion of functions of a monitoring device and the like.

It will be appreciated by those skilled in the art that embodiments of the present invention may be provided as a method, system, or computer program product. Accordingly, the present invention may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, CD-ROM, optical storage, and the like) having computer-usable program code embodied therein.

The present invention is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the invention. It will be understood that each flow and/or block of the flowchart illustrations and/or block diagrams, and combinations of flows and/or blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

While preferred embodiments of the present invention have been described, additional variations and modifications in those embodiments may occur to those skilled in the art once they learn of the basic inventive concepts. It is therefore intended that the following claims be interpreted as including the preferred embodiments and all such alterations and modifications as fall within the scope of the invention.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present invention without departing from the spirit or scope of the invention. Thus, it is intended that the present invention also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (10)

1. A wireless bridge monitoring method, comprising the steps of:

configuring network parameters of the wireless network bridge to enable the wireless network bridge to be connected with the monitoring device;

configuring network parameters of the mobile terminal to enable the wireless network bridge to be connected with the mobile terminal;

acquiring monitoring data by a monitoring device;

the monitoring data is transmitted to the mobile terminal through the wireless bridge, and the monitoring data is displayed by the mobile terminal.

2. The wireless bridge monitoring method of claim 1, wherein: the monitoring device comprises a camera module and a network module, wherein the camera module is used for acquiring monitoring data in real time, and the network module is used for connecting a wireless network bridge and transmitting the monitoring data to the wireless network bridge.

3. The wireless bridge monitoring method of claim 2, wherein: after the network module of the monitoring device is configured by network parameters, a plurality of mobile terminals are supported to be connected simultaneously, network bandwidth is allocated for each accessed mobile terminal, and sharing and accessing of monitoring data are supported.

4. A wireless bridge monitoring method as claimed in claim 3, characterized in that: the specific steps of allocating network bandwidth for each accessed mobile terminal are as follows:

setting the initial bandwidth of each accessed mobile terminal as b;

according to the MAC address of the mobile terminal accessing the network, the MAC address is used as the unique identifier of the mobile terminal;

acquiring the total number n of checking the monitoring data of the mobile terminal which is accessed currently and the checking time length of the ith time

，

Record as information value under the MAC address of the mobile terminal, i.e

；

Calculating a demand index G for the mobile terminal to view the monitoring data:

wherein n is 0 to n, i is 1 to n, e is a natural constant,>

and->

Is an adjustment factor;

counting the number of mobile terminals which are currently accessed, sequencing the mobile terminals according to the requirement indexes from high to low, and classifying the mobile terminals in priority, wherein the requirement indexes are larger than the requirement indexes

The mobile terminals of (2) are classified as most preferred, the demand index is greater than +.>

Less than

The mobile terminal of (2) is classified as sub-priority, the demand index is less than +.>

The mobile terminals of (2) are classified as non-prioritized, wherein +.>

；

Setting the most preferred index as

The second priority index is->

The final priority index is->

；

Calculating the bandwidth B obtained by each mobile terminal:

。

5. the wireless bridge monitoring method of claim 4, wherein: the mobile terminal checks the requirement index of the monitoring data and recalculates the requirement index in a certain time period T, and the method comprises the following specific steps:

setting an interval time period T;

acquiring an information value recorded under the MAC address of the mobile terminal;

marking the time period corresponding to the content of the information value as the j-th time period T in the information value, namely

Corresponding in time period->

The resulting demand index in (2) is +.>

；

When viewing time length

Occurs in the time period +.>

Continuously recording the checking time length if the position is not the end position;

when viewing time length

Occurs in the time period +.>

The last position of (a) i.e. the nth view, and the view duration is in time period +.>

The end of (2) is still clocked, the viewing duration is terminated and saved as +.>

Is marked as->

And from the next time period +>

The initial position is continued to be timed after the last time of the timing position is stopped and stored as +.>

The record is as follows;

；

when a new one is generated

Demand index->

Then according to->

The new demand index is recalculated for the mobile terminal corresponding to the MAC at the information value>

。

6. A wireless bridge monitoring system, the wireless bridge monitoring system comprising: the system comprises a monitoring device, a wireless network bridge and a mobile terminal, wherein the monitoring device is connected with the wireless network bridge, and the wireless network bridge is connected with the mobile terminal;

the monitoring device is used for acquiring monitoring data and transmitting the monitoring data to the wireless network bridge;

the wireless network bridge is used for transmitting the received monitoring data to the mobile terminal;

the mobile terminal is used for receiving the monitoring data sent by the wireless bridge and displaying the monitoring data.

7. The wireless bridge monitoring system of claim 6, wherein: the monitoring device is also used for distributing network bandwidth for the accessed mobile terminal and sending the monitoring data to the mobile terminal;

the mobile terminal is also used for connecting with the monitoring device, sharing the network of the monitoring device and receiving the monitoring data sent by the monitoring device.

8. The wireless bridge monitoring system of claim 7, wherein: when the mobile terminals share the network of the monitoring device, the mobile terminals are also used for uploading the total checking times and checking time of the monitoring data, so that the monitoring device can allocate network bandwidth for the accessed mobile terminals.

9. The wireless network bridge monitoring device is characterized by comprising a network bridge configuration module, a terminal configuration module, a monitoring module and a checking module:

the bridge configuration module: the network parameters are used for configuring the wireless network bridge, so that the wireless network bridge is connected with the monitoring device;

the terminal configuration module: the network parameters are used for configuring the network parameters of the mobile terminal, so that the wireless network bridge is connected with the mobile terminal;

the monitoring module is used for: for obtaining monitoring data by a monitoring device;

the viewing module: for transmitting the monitoring data to the mobile terminal via the wireless bridge, the monitoring data being displayed by the mobile terminal.

10. A computer-readable storage medium storing a program, characterized by: the program, when executed by a processor, implements the wireless bridge monitoring method as set forth in claims 1 to 5.

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