CN112512049B - Time management system and method based on wireless network access - Google Patents

Abstract

The invention discloses a time management system and method based on wireless network access, the system comprises a device to be accessed statistics module, a predicted network access time demand setting module, an access terminal device periodic state detection module, a terminal device network access time recording module and a wireless network management unit in the wireless network range, which aim to analyze the access time of the terminal device accessing the wireless network, monitor the state of each accessed terminal device, and pause the access of the terminal device which does not transmit data currently, thereby achieving the maximization of network resource utilization.

Description

Time management system and method based on wireless network access

Technical Field

The invention relates to the field of wireless networks, in particular to a time management system and method based on wireless network access.

Background

Wireless networks are networks that enable interconnection of various communication devices without wiring. Wireless networking technologies cover a wide range of technologies, including both global voice and data networks that allow users to establish long-range wireless connections, and infrared and radio frequency technologies that are optimized for short-range wireless connections. The wireless network can effectively sense the change of the external environment, further understand and learn deeply, and efficiently adjust and configure related resources in the communication network so as to cater for the transition of the external environment. By fully referencing the wireless cognitive network technology, the conflict between the increasing demand of the frequency spectrum and the limited frequency spectrum resource can be solved, the problem of shortage of the frequency spectrum resource can be effectively solved, and the reasonable improvement of the frequency spectrum application efficiency is promoted.

A wireless access point is an access point of a wireless network, commonly known as a "hot spot". The wireless network access system mainly comprises route switching access integrated equipment and pure access point equipment, wherein the integrated equipment performs access and route work, the pure access equipment is only responsible for the access of a wireless client, the pure access equipment is usually used as a wireless network extension and is connected with other APs or a main AP to enlarge wireless coverage, and the integrated equipment is generally the core of the wireless network.

A typical wireless AP, which functions in two ways: as the central point of the wireless LAN, other computers with wireless network cards are connected to the wireless LAN through the central point; the purpose of extending the network range is achieved by providing long-distance wireless connection to a wired local area network or providing long-distance wired connection to a small wireless local area network.

The wireless AP can also be used for connecting a small wireless local area network so as to achieve the aim of expansion. When there are enough wireless network users, one wireless AP should be accessed in the wired network, thereby connecting the wireless network to the wired network backbone. The AP plays a role of a network bridge between the wireless workstation and the wired trunk, and wireless and wired seamless integration is realized. The AP allows wireless stations to access network resources while adding available resources to the wired network.

At present, after the wireless terminal equipment is accessed to the wireless network, the wireless terminal equipment cannot be disconnected with the wireless network under the condition of not manually disconnecting, but the network speed and the data transmission rate of the wireless terminal are fixed.

Disclosure of Invention

The invention aims to provide a time management system and method based on wireless network access, which are used for solving the problems in the prior art.

In order to achieve the above purpose, the present invention provides the following technical solutions:

the system comprises a device to be accessed statistics module, an expected network access time demand setting module, an access terminal device periodic state detection module, a terminal device network access time recording module and a wireless network management unit in a wireless network range, wherein the device to be accessed statistics module, the expected network access time demand setting module, the access terminal device periodic state detection module and the terminal device network access time recording module in the wireless network range are sequentially connected through an intranet, and the device to be accessed statistics module, the expected network access time demand setting module, the access terminal device periodic state detection module and the terminal device network access time recording module in the wireless network range are respectively connected with the wireless network management unit through the intranet;

The wireless network management system comprises a wireless network management unit, a terminal equipment network access time recording module, a terminal equipment network access time judging module and a wireless network management unit, wherein the terminal equipment to be accessed in the wireless network range is used for counting terminal equipment in the wireless network accessible range, the terminal equipment is used for carrying out key verification to access the current wireless network for carrying out data transmission, the predicted network access time demand setting module is used for estimating the time of accessing different terminal equipment into the current wireless network, the access time analysis is carried out according to the data quantity to be sent in the current terminal equipment, the access terminal equipment periodic state detection module is used for monitoring the state of the terminal equipment accessing the wireless network and real-time data transmission, the access time of the current terminal equipment is judged according to the state of the current terminal equipment and the real-time data transmission, the terminal equipment network access time recording module is used for sequencing according to the access time of different terminal equipment, the priority mark of secondary access is carried out according to the access time of different terminal equipment, and the wireless network management unit is used for coordinating each module in the system and carrying out state switching and maintenance on the wireless network which is not accessed into the terminal equipment.

By adopting the technical scheme: the wireless terminal equipment key verification sub-module is used for carrying out key verification on terminal equipment requesting to access the current wireless network, after verification is successful, the terminal equipment to be accessed is counted, and the wireless terminal equipment basic parameter information input sub-module is used for inputting basic parameter information of each terminal equipment to be accessed and summarizing input results.

By adopting the technical scheme: the predicted network access time demand setting module comprises a wireless terminal equipment data transmission time prediction sub-module and a wireless terminal equipment data quantity time analysis sub-module to be transmitted, wherein the wireless terminal equipment data transmission time prediction sub-module is used for detecting the data quantity to be transmitted in different wireless terminal equipment, artificially predicting the time of accessing the wireless network at present according to the historical access of the terminal equipment to different communication network time, marking the artificially predicted time, and the wireless terminal equipment data quantity time analysis sub-module is used for monitoring the network speed of the wireless network at present, monitoring the network speed of the wireless network at present and carrying out actual estimation analysis on the access wireless network time of the wireless terminal equipment at present based on the current network speed.

By adopting the technical scheme: the data volume time analysis submodule to be sent of the wireless terminal equipment is used for monitoring the real-time network speed of the current wireless network and setting the real-time network speed of the wireless network as U ₁ 、U ₂ 、U ₃ 、…、U _n-1 、U _n (unit: M/s), setting the lowest rated network speed in the wireless network as U0 (unit: M/s), and extracting two minimum values of the current real-time network speed of the wireless network as U _n min、U _n-1 min，U _n min＜U _n-1 min, where U is _n min＜U0、U _n-1 The min is less than U0, the current wireless network speed is judged to be abnormal, the abnormal wireless network speed is sent to a wireless network management unit for maintenance, the data quantity to be sent by a certain terminal device is set as Y (unit: M), the actual access time required by the terminal device is set as Tr under the current wireless network speed, and the method comprises the following steps of:

the actual access time of the terminal equipment under the current wireless network speed is calculated, the actual access time is compared with the artificial estimated time, the calculated actual access time is sent to the terminal equipment for verification and then fed back, and data transmission is carried out after the verification is successful.

By adopting the technical scheme: the access terminal equipment periodic state detection module comprises an access terminal equipment current data transmission real-time detection sub-module and a periodic access service suspension sub-module, wherein the access terminal equipment current data transmission real-time detection sub-module is used for monitoring the data transmission state of the current terminal equipment accessed to the wireless network, analyzing the time interval of data transmission and each data transmission quantity of the current accessed wireless terminal equipment, transmitting an analysis result to the periodic access service suspension sub-module, the periodic access service suspension sub-module is used for summarizing the analyzed terminal equipment data, when the accessed terminal equipment meets the data specified by the current wireless network, the wireless network does not process the terminal equipment, when the accessed terminal equipment does not meet the data specified by the current wireless network, the wireless connection of the current access terminal equipment is disconnected for a time period, the data transmission of the current terminal equipment is suspended in the time period, when the time exceeds the current time period, the wireless network is automatically accessed to continue data transmission when the terminal equipment does not exist the data to be transmitted, the terminal equipment is automatically accessed to the wireless network to continue the data transmission, when the terminal equipment does not exist the data to be transmitted, the access is suspended in the current time period, and the terminal equipment is not monitored.

By adopting the technical scheme: the terminal equipment network access time recording module comprises a current wireless network access equipment quantity acquisition submodule and a terminal equipment secondary access wireless network priority marking submodule, wherein the current wireless network access equipment quantity acquisition submodule is used for counting the quantity of terminal equipment accessed in the current wireless network, the quantity of the terminal equipment which can be accommodated most in the current wireless network is set to be N, the quantity of the terminal equipment which is accessed in real time is less than or equal to N-3, the terminal equipment secondary access wireless network priority marking submodule is used for acquiring access duration of the terminal equipment in the wireless network, counting the access duration according to descending order, marking priority according to the order of the access duration of each terminal equipment, and accessing according to the mark when the current terminal equipment is accessed in the wireless network for the second time.

By adopting the technical scheme: the wireless network management unit comprises an access terminal equipment real-time data transmission rate monitoring submodule and a terminal equipment access network state switching submodule, wherein the access terminal equipment real-time data transmission rate monitoring submodule is used for carrying out real-time monitoring and feedback on the current terminal equipment data transmission rate accessed to the wireless network, the terminal equipment access network state switching submodule is used for carrying out state switching and real-time maintenance on the wireless network when the wireless network is not accessed to the terminal equipment, switching the state into a waiting awakening state and maintaining the wireless network in the waiting awakening state.

A time management method based on wireless network access comprises the following steps:

s1: counting terminal equipment in a wireless network accessible range by using a to-be-accessed equipment counting module in the wireless network range, and performing key verification by the terminal equipment to access the current wireless network for data transmission;

s2: the method comprises the steps that the time of different terminal equipment accessing to a current wireless network is estimated by using an estimated network access time demand setting module, and access time analysis is carried out according to the data quantity to be sent in the current terminal equipment;

s3: monitoring the state of terminal equipment and real-time data transmission of an access wireless network by using a periodic state detection module of the access terminal equipment, and judging the access time of the current terminal equipment according to the state of the current terminal equipment and the real-time data transmission;

s4: sequencing by using a terminal equipment network access time recording module according to the access time of different terminal equipment, and marking the priority of secondary access according to the access time of different terminal equipment;

s5: and coordinating each module in the system by using a wireless network management unit, and performing state switching and maintenance on the wireless network of the non-access terminal equipment.

By adopting the technical scheme: the time management method further comprises the following steps:

S1-1: the key verification sub-module of the wireless terminal equipment to be accessed is utilized to carry out key verification on the terminal equipment which is requested to access the current wireless network, after the verification is successful, the terminal equipment to be accessed is counted, the basic parameter information of each terminal equipment to be accessed is recorded by the basic parameter information recording sub-module of the wireless terminal equipment, and the recording results are summarized;

s2-1: detecting the data quantity to be transmitted in different wireless terminal equipment by utilizing a wireless terminal equipment data transmission time estimation submodule, artificially estimating the time of accessing the wireless network at present according to the historical access of the terminal equipment to different communication network times, marking the artificially estimated time, monitoring the network speed of the current wireless network by utilizing a wireless terminal equipment data quantity to be transmitted time analysis submodule, monitoring the network speed of the current wireless network, and carrying out actual estimation analysis on the access wireless network time of the current terminal equipment based on the current network speed;

s3-1: monitoring the data transmission state of the current terminal equipment in the wireless network by utilizing a current data transmission real-time detection submodule of the access terminal equipment, wherein the time interval of data transmission of the current accessed wireless terminal equipment and each data transmission quantity are analyzed, an analysis result is transmitted to a periodic access service suspension submodule, the analyzed terminal equipment data are summarized by the periodic access service suspension submodule, when the accessed terminal equipment meets the data regulated by the current wireless network, the wireless network does not process the terminal equipment, when the accessed terminal equipment does not meet the data regulated by the current wireless network, the wireless connection of the current access terminal equipment is disconnected for a time period, the data transmission of the current terminal equipment is suspended in the time period, the time exceeds the current time period, whether the current terminal equipment has the data to be transmitted or not is automatically detected, when the terminal equipment has the data to be transmitted, the wireless network is automatically accessed to continue the data transmission, when the terminal equipment does not have the data to be transmitted, the access of the current time period is suspended, and the terminal equipment is not monitored in the current time period;

S4-1: counting the number of terminal devices accessed in the current wireless network by utilizing a current wireless network access device number acquisition submodule, setting the number of terminal devices which can be accommodated most in the current wireless network as N, wherein the number of terminal devices accessed in real time is less than or equal to N-3, acquiring the access time length of the terminal devices accessed in the wireless network by a terminal device secondary access wireless network priority marking submodule, counting the access time length according to the descending order, marking the priority according to the sequence of the access time length of each terminal device, and accessing according to the mark when the current terminal device carries out secondary access to the wireless network;

s5-1: the terminal equipment access network state switching sub-module is used for carrying out state switching and real-time maintenance on the wireless network when the wireless network is not accessed to the terminal equipment, switching the state into a waiting awakening state and maintaining the wireless network in the waiting awakening state.

By adopting the technical scheme: the step S3-1 is to monitor the data transmission state of the current terminal device accessing the wireless network by using the current data transmission real-time detection submodule of the access terminal device, wherein the time interval of the current accessed wireless terminal device transmitting data and each transmitting data quantity are analyzed, and the analysis result is transmitted to the periodic access service suspension submodule, and the method further comprises the following steps:

The current data transmission real-time detection submodule of the access terminal equipment monitors the current data transmission time interval and each transmission data volume of a certain terminal equipment, and sets the time of each data transmission time interval of the current terminal equipment as T ₁ 、T ₂ 、T ₃ 、…、T _n-1 、T _n (unit: min), setting each data transmission data amount of the current terminal device as K ₁ 、K ₂ 、K ₃ 、…、K _n-1 、K _n (unit: M) extracting the maximum value T of the data transmission time interval of the terminal equipment _n max and minimum value K of each transmitted data amount _n min, when the extraction value satisfies the following formula:

when the terminal equipment accessed to the wireless network meets the formula, the wireless network judges that the current terminal equipment data meets the data specified by the current wireless network, does not process the terminal equipment, and when the terminal equipment accessed to the wireless network does not meet the formula, marks the terminal equipment and sends the terminal equipment to the periodic access service suspension sub-module for processing.

Compared with the prior art, the invention has the beneficial effects that: the invention aims to analyze the access duration of the terminal equipment accessing the wireless network, monitor the state of each accessed terminal equipment, and pause the access of the terminal equipment which does not transmit data currently, so as to maximize the utilization of network resources;

The method comprises the steps that a statistics module of equipment to be accessed in a wireless network range is used for counting terminal equipment in the wireless network accessible range, a key verification access current wireless network is carried out on the terminal equipment to carry out data transmission, a predicted network access time requirement setting module is used for estimating the time of access of different terminal equipment to the current wireless network, access time analysis is carried out according to the data quantity to be sent in the current terminal equipment, a periodic state detection module of the access terminal equipment is used for monitoring the state of the terminal equipment and real-time data transmission of the access wireless network, the access time of the current terminal equipment is judged according to the state of the current terminal equipment and the real-time data transmission, a network access time recording module of the terminal equipment is used for sorting according to the access time of different terminal equipment, secondary access priority marking is carried out according to the access time of different terminal equipment, and a wireless network management unit is used for coordinating each module in a system to carry out state switching and maintenance on the wireless network of the non-access terminal equipment.

Drawings

In order that the invention may be more readily understood, a more particular description of the invention will be rendered by reference to specific embodiments that are illustrated in the appended drawings.

Fig. 1 is a schematic block diagram of a time management system based on wireless network access according to the present invention;

fig. 2 is a schematic diagram of steps of a time management method based on wireless network access according to the present invention;

fig. 3 is a schematic diagram of specific steps of a time management method based on wireless network access according to the present invention;

fig. 4 is a schematic diagram of an implementation method of a time management system based on wireless network access according to the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 4, in an embodiment of the present invention, a time management system and a method based on wireless network access, where the system includes a device to be accessed statistics module, an expected network access time requirement setting module, an access terminal device periodic state detection module, a terminal device network access time recording module and a wireless network management unit in a wireless network range, where the device to be accessed statistics module, the expected network access time requirement setting module, the access terminal device periodic state detection module and the terminal device network access time recording module in the wireless network range are sequentially connected through an intranet, and the device to be accessed statistics module, the expected network access time requirement setting module, the access terminal device periodic state detection module and the terminal device network access time recording module in the wireless network range are respectively connected with the wireless network management unit through an intranet;

The wireless network management system comprises a wireless network management unit, a terminal equipment network access time recording module, a terminal equipment network access time judging module and a wireless network management unit, wherein the terminal equipment to be accessed in the wireless network range is used for counting terminal equipment in the wireless network accessible range, the terminal equipment is used for carrying out key verification to access the current wireless network for carrying out data transmission, the predicted network access time demand setting module is used for estimating the time of accessing different terminal equipment into the current wireless network, the access time analysis is carried out according to the data quantity to be sent in the current terminal equipment, the access terminal equipment periodic state detection module is used for monitoring the state of the terminal equipment accessing the wireless network and real-time data transmission, the access time of the current terminal equipment is judged according to the state of the current terminal equipment and the real-time data transmission, the terminal equipment network access time recording module is used for sequencing according to the access time of different terminal equipment, the priority mark of secondary access is carried out according to the access time of different terminal equipment, and the wireless network management unit is used for coordinating each module in the system and carrying out state switching and maintenance on the wireless network which is not accessed into the terminal equipment.

By adopting the technical scheme: the wireless terminal equipment key verification sub-module is used for carrying out key verification on terminal equipment requesting to access the current wireless network, after verification is successful, the terminal equipment to be accessed is counted, and the wireless terminal equipment basic parameter information input sub-module is used for inputting basic parameter information of each terminal equipment to be accessed and summarizing input results.

By adopting the technical scheme: the predicted network access time demand setting module comprises a wireless terminal equipment data transmission time prediction sub-module and a wireless terminal equipment data quantity time analysis sub-module to be transmitted, wherein the wireless terminal equipment data transmission time prediction sub-module is used for detecting the data quantity to be transmitted in different wireless terminal equipment, artificially predicting the time of accessing the wireless network at present according to the historical access of the terminal equipment to different communication network time, marking the artificially predicted time, and the wireless terminal equipment data quantity time analysis sub-module is used for monitoring the network speed of the wireless network at present, monitoring the network speed of the wireless network at present and carrying out actual estimation analysis on the access wireless network time of the wireless terminal equipment at present based on the current network speed.

By adopting the technical scheme: the data volume time analysis submodule to be sent of the wireless terminal equipment is used for monitoring the real-time network speed of the current wireless network and setting the real-time network speed of the wireless network as U ₁ 、U ₂ 、U ₃ 、…、U _n-1 、U _n (unit: M/s), setting the lowest rated network speed in the wireless network as U0 (unit: M/s), and extracting two minimum values of the current real-time network speed of the wireless network as U _n min、U _n-1 min，U _n min＜U _n-1 min, where U is _n min＜U0、U _n-1 The min is less than U0, the current wireless network speed is judged to be abnormal, the abnormal wireless network speed is sent to a wireless network management unit for maintenance, the data quantity to be sent by a certain terminal device is set as Y (unit: M), the actual access time required by the terminal device is set as Tr under the current wireless network speed, and the method comprises the following steps of:

the actual access time of the terminal equipment under the current wireless network speed is calculated, the actual access time is compared with the artificial estimated time, the calculated actual access time is sent to the terminal equipment for verification and then fed back, and data transmission is carried out after the verification is successful.

By adopting the technical scheme: the access terminal equipment periodic state detection module comprises an access terminal equipment current data transmission real-time detection sub-module and a periodic access service suspension sub-module, wherein the access terminal equipment current data transmission real-time detection sub-module is used for monitoring the data transmission state of the current terminal equipment accessed to the wireless network, analyzing the time interval of data transmission and each data transmission quantity of the current accessed wireless terminal equipment, transmitting an analysis result to the periodic access service suspension sub-module, the periodic access service suspension sub-module is used for summarizing the analyzed terminal equipment data, when the accessed terminal equipment meets the data specified by the current wireless network, the wireless network does not process the terminal equipment, when the accessed terminal equipment does not meet the data specified by the current wireless network, the wireless connection of the current access terminal equipment is disconnected for a time period, the data transmission of the current terminal equipment is suspended in the time period, when the time exceeds the current time period, the wireless network is automatically accessed to continue data transmission when the terminal equipment does not exist the data to be transmitted, the terminal equipment is automatically accessed to the wireless network to continue the data transmission, when the terminal equipment does not exist the data to be transmitted, the access is suspended in the current time period, and the terminal equipment is not monitored.

By adopting the technical scheme: the terminal equipment network access time recording module comprises a current wireless network access equipment quantity acquisition submodule and a terminal equipment secondary access wireless network priority marking submodule, wherein the current wireless network access equipment quantity acquisition submodule is used for counting the quantity of terminal equipment accessed in the current wireless network, the quantity of the terminal equipment which can be accommodated most in the current wireless network is set to be N, the quantity of the terminal equipment which is accessed in real time is less than or equal to N-3, the terminal equipment secondary access wireless network priority marking submodule is used for acquiring access duration of the terminal equipment in the wireless network, counting the access duration according to descending order, marking priority according to the order of the access duration of each terminal equipment, and accessing according to the mark when the current terminal equipment is accessed in the wireless network for the second time.

By adopting the technical scheme: the wireless network management unit comprises an access terminal equipment real-time data transmission rate monitoring submodule and a terminal equipment access network state switching submodule, wherein the access terminal equipment real-time data transmission rate monitoring submodule is used for carrying out real-time monitoring and feedback on the current terminal equipment data transmission rate accessed to the wireless network, the terminal equipment access network state switching submodule is used for carrying out state switching and real-time maintenance on the wireless network when the wireless network is not accessed to the terminal equipment, switching the state into a waiting awakening state and maintaining the wireless network in the waiting awakening state.

A time management method based on wireless network access comprises the following steps:

s1: counting terminal equipment in a wireless network accessible range by using a to-be-accessed equipment counting module in the wireless network range, and performing key verification by the terminal equipment to access the current wireless network for data transmission;

s2: the method comprises the steps that the time of different terminal equipment accessing to a current wireless network is estimated by using an estimated network access time demand setting module, and access time analysis is carried out according to the data quantity to be sent in the current terminal equipment;

s3: monitoring the state of terminal equipment and real-time data transmission of an access wireless network by using a periodic state detection module of the access terminal equipment, and judging the access time of the current terminal equipment according to the state of the current terminal equipment and the real-time data transmission;

s4: sequencing by using a terminal equipment network access time recording module according to the access time of different terminal equipment, and marking the priority of secondary access according to the access time of different terminal equipment;

s5: and coordinating each module in the system by using a wireless network management unit, and performing state switching and maintenance on the wireless network of the non-access terminal equipment.

By adopting the technical scheme: the time management method further comprises the following steps:

S1-1: the key verification sub-module of the wireless terminal equipment to be accessed is utilized to carry out key verification on the terminal equipment which is requested to access the current wireless network, after the verification is successful, the terminal equipment to be accessed is counted, the basic parameter information of each terminal equipment to be accessed is recorded by the basic parameter information recording sub-module of the wireless terminal equipment, and the recording results are summarized;

s2-1: detecting the data quantity to be transmitted in different wireless terminal equipment by utilizing a wireless terminal equipment data transmission time estimation submodule, artificially estimating the time of accessing the wireless network at present according to the historical access of the terminal equipment to different communication network times, marking the artificially estimated time, monitoring the network speed of the current wireless network by utilizing a wireless terminal equipment data quantity to be transmitted time analysis submodule, monitoring the network speed of the current wireless network, and carrying out actual estimation analysis on the access wireless network time of the current terminal equipment based on the current network speed;

s3-1: monitoring the data transmission state of the current terminal equipment in the wireless network by utilizing a current data transmission real-time detection submodule of the access terminal equipment, wherein the time interval of data transmission of the current accessed wireless terminal equipment and each data transmission quantity are analyzed, an analysis result is transmitted to a periodic access service suspension submodule, the analyzed terminal equipment data are summarized by the periodic access service suspension submodule, when the accessed terminal equipment meets the data regulated by the current wireless network, the wireless network does not process the terminal equipment, when the accessed terminal equipment does not meet the data regulated by the current wireless network, the wireless connection of the current access terminal equipment is disconnected for a time period, the data transmission of the current terminal equipment is suspended in the time period, the time exceeds the current time period, whether the current terminal equipment has the data to be transmitted or not is automatically detected, when the terminal equipment has the data to be transmitted, the wireless network is automatically accessed to continue the data transmission, when the terminal equipment does not have the data to be transmitted, the access of the current time period is suspended, and the terminal equipment is not monitored in the current time period;

S4-1: counting the number of terminal devices accessed in the current wireless network by utilizing a current wireless network access device number acquisition submodule, setting the number of terminal devices which can be accommodated most in the current wireless network as N, wherein the number of terminal devices accessed in real time is less than or equal to N-3, acquiring the access time length of the terminal devices accessed in the wireless network by a terminal device secondary access wireless network priority marking submodule, counting the access time length according to the descending order, marking the priority according to the sequence of the access time length of each terminal device, and accessing according to the mark when the current terminal device carries out secondary access to the wireless network;

s5-1: the terminal equipment access network state switching sub-module is used for carrying out state switching and real-time maintenance on the wireless network when the wireless network is not accessed to the terminal equipment, switching the state into a waiting awakening state and maintaining the wireless network in the waiting awakening state.

By adopting the technical scheme: the step S3-1 is to monitor the data transmission state of the current terminal device accessing the wireless network by using the current data transmission real-time detection submodule of the access terminal device, wherein the time interval of the current accessed wireless terminal device transmitting data and each transmitting data quantity are analyzed, and the analysis result is transmitted to the periodic access service suspension submodule, and the method further comprises the following steps:

The current data transmission real-time detection submodule of the access terminal equipment monitors the current data transmission time interval and each transmission data volume of a certain terminal equipment, and sets the time of each data transmission time interval of the current terminal equipment as T ₁ 、T ₂ 、T ₃ 、…、T _n-1 、T _n (unit: min), setting each data transmission data amount of the current terminal device as K ₁ 、K ₂ 、K ₃ 、…、K _n-1 、K _n (unit: M) extracting the maximum value T of the data transmission time interval of the terminal equipment _n max and minimum value K of each transmitted data amount _n min, when the extraction value satisfies the following formula:

when the terminal equipment accessed to the wireless network meets the formula, the wireless network judges that the current terminal equipment data meets the data specified by the current wireless network, does not process the terminal equipment, and when the terminal equipment accessed to the wireless network does not meet the formula, marks the terminal equipment and sends the terminal equipment to the periodic access service suspension sub-module for processing.

Example 1: the limiting condition is that the data quantity time analysis submodule to be transmitted by the wireless terminal equipment is used for monitoring the real-time network speed of the current wireless network, setting the real-time network speed of the wireless network to be 12M/s, 7M/s, 5.2M/s, 11M/s and 1.3M/s, setting the lowest rated network speed inside the wireless network to be 3M/s, extracting two minimum values of the real-time network speed of the current wireless network to be 1.3M/s and 5.2M/s, Setting the data quantity to be transmitted of a certain terminal device as 7.1G, and setting the data quantity to be transmitted of the certain terminal device in the current wireless networkThe actual access time of the terminal equipment at the network speed is Tr, and the method is as follows:

min

the actual access time of the terminal equipment under the current wireless network speed is calculated to be 22min, the actual access time is compared with the artificial estimated time, the calculated actual access time is sent to the terminal equipment for verification and then fed back, and data transmission is carried out after the verification is successful.

Example 2: under the limiting condition, the current data transmission real-time detection submodule of the access terminal equipment monitors the current data transmission time interval of a certain terminal equipment and each transmission data amount, sets the time of each data transmission time interval of the current terminal equipment to be 6min, 11min, 3min, 22min and 41min, sets the data transmission data amount of each data transmission data of the current terminal equipment to be 0.7M, 1M, 11M, 21M and 4M, extracts the maximum value of the data transmission time interval of the terminal equipment to be 41min and the minimum value of each transmission data amount to be 0.7M, and when the extracted value meets the following formula:

when the terminal equipment accessed to the wireless network does not meet the formula, the terminal equipment is marked and sent to a periodic access service suspension sub-module for processing, the accessed terminal equipment does not meet the data specified by the current wireless network, the wireless connection of the current access terminal equipment is disconnected for a time period, the data transmission of the current terminal equipment is suspended in the time period, whether the data to be transmitted exist in the current terminal equipment is automatically detected, when the data to be transmitted exist in the terminal equipment, the wireless network is automatically accessed to continue data transmission, when the data to be transmitted does not exist in the terminal equipment, the access of the current time period is suspended, and the terminal equipment is not monitored in the current time period.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. A time management system based on wireless network access, characterized in that: the system comprises a device to be accessed statistics module, an expected network access time demand setting module, an access terminal device periodic state detection module, a terminal device network access time recording module and a wireless network management unit in a wireless network range, wherein the device to be accessed statistics module, the expected network access time demand setting module, the access terminal device periodic state detection module and the terminal device network access time recording module in the wireless network range are sequentially connected through an intranet, and the device to be accessed statistics module, the expected network access time demand setting module, the access terminal device periodic state detection module and the terminal device network access time recording module in the wireless network range are respectively connected with the wireless network management unit through the intranet;

The wireless network management system comprises a wireless network management unit, a terminal equipment network access time recording module, a terminal equipment network access time judging module and a wireless network management unit, wherein the terminal equipment to be accessed in the wireless network range is used for counting terminal equipment in the wireless network accessible range, the terminal equipment is used for carrying out key verification to access the current wireless network for carrying out data transmission, the predicted network access time demand setting module is used for estimating the time of accessing different terminal equipment into the current wireless network, the access time analysis is carried out according to the data quantity to be sent in the current terminal equipment, the access terminal equipment periodic state detection module is used for monitoring the state of the terminal equipment accessing the wireless network and real-time data transmission, the access time of the current terminal equipment is judged according to the state of the current terminal equipment and the real-time data transmission, the terminal equipment network access time recording module is used for sequencing according to the access time of different terminal equipment, the priority mark of secondary access is carried out according to the access time of different terminal equipment, and the wireless network management unit is used for coordinating each module in the system and carrying out state switching and maintenance on the wireless network which is not accessed into the terminal equipment.

2. A time management system based on wireless network access as recited in claim 1, wherein: the wireless terminal equipment key verification sub-module is used for carrying out key verification on terminal equipment requesting to access the current wireless network, after verification is successful, the terminal equipment to be accessed is counted, and the wireless terminal equipment basic parameter information input sub-module is used for inputting basic parameter information of each terminal equipment to be accessed and summarizing input results.

3. A time management system based on wireless network access as recited in claim 1, wherein: the predicted network access time demand setting module comprises a wireless terminal equipment data transmission time prediction sub-module and a wireless terminal equipment data quantity time analysis sub-module to be transmitted, wherein the wireless terminal equipment data transmission time prediction sub-module is used for detecting the data quantity to be transmitted in different wireless terminal equipment, artificially predicting the time of accessing the wireless network at present according to the historical access of the terminal equipment to different communication network time, marking the artificially predicted time, and the wireless terminal equipment data quantity time analysis sub-module is used for monitoring the network speed of the wireless network at present, monitoring the network speed of the wireless network at present and carrying out actual estimation analysis on the access wireless network time of the wireless terminal equipment at present based on the current network speed.

4. A base according to claim 3The time management system for wireless network access is characterized in that: the data volume time analysis submodule to be sent of the wireless terminal equipment is used for monitoring the real-time network speed of the current wireless network and setting the real-time network speed of the wireless network as U ₁ 、U ₂ 、U ₃ 、…、U _n-1 、U _n (unit: M/s), setting the lowest rated network speed in the wireless network as U0 (unit: M/s), and extracting two minimum values of the current real-time network speed of the wireless network as U _n min、U _n-1 min，U _n min＜U _{n- 1} min, where U is _n min＜U0、U _n-1 The min is less than U0, the current wireless network speed is judged to be abnormal, the abnormal wireless network speed is sent to a wireless network management unit for maintenance, the data quantity to be sent by a certain terminal device is set as Y (unit: M), the actual access time required by the terminal device is set as Tr under the current wireless network speed, and the method comprises the following steps of:

the actual access time of the terminal equipment under the current wireless network speed is calculated, the actual access time is compared with the artificial estimated time, the calculated actual access time is sent to the terminal equipment for verification and then fed back, and data transmission is carried out after the verification is successful.

5. A time management system based on wireless network access as recited in claim 1, wherein: the access terminal equipment periodic state detection module comprises an access terminal equipment current data transmission real-time detection sub-module and a periodic access service suspension sub-module, wherein the access terminal equipment current data transmission real-time detection sub-module is used for monitoring the data transmission state of the current terminal equipment accessed to the wireless network, analyzing the time interval of data transmission and each data transmission quantity of the current accessed wireless terminal equipment, transmitting an analysis result to the periodic access service suspension sub-module, the periodic access service suspension sub-module is used for summarizing the analyzed terminal equipment data, when the accessed terminal equipment meets the data specified by the current wireless network, the wireless network does not process the terminal equipment, when the accessed terminal equipment does not meet the data specified by the current wireless network, the wireless connection of the current access terminal equipment is disconnected for a time period, the data transmission of the current terminal equipment is suspended in the time period, when the time exceeds the current time period, the wireless network is automatically accessed to continue data transmission when the terminal equipment does not exist the data to be transmitted, the terminal equipment is automatically accessed to the wireless network to continue the data transmission, when the terminal equipment does not exist the data to be transmitted, the access is suspended in the current time period, and the terminal equipment is not monitored.

6. A time management system based on wireless network access as recited in claim 1, wherein: the terminal equipment network access time recording module comprises a current wireless network access equipment quantity acquisition submodule and a terminal equipment secondary access wireless network priority marking submodule, wherein the current wireless network access equipment quantity acquisition submodule is used for counting the quantity of terminal equipment accessed in the current wireless network, the quantity of the terminal equipment which can be accommodated most in the current wireless network is set to be N, the quantity of the terminal equipment which is accessed in real time is less than or equal to N-3, the terminal equipment secondary access wireless network priority marking submodule is used for acquiring access duration of the terminal equipment in the wireless network, counting the access duration according to descending order, marking priority according to the order of the access duration of each terminal equipment, and accessing according to the mark when the current terminal equipment is accessed in the wireless network for the second time.

7. A time management system based on wireless network access as recited in claim 1, wherein: the wireless network management unit comprises an access terminal equipment real-time data transmission rate monitoring submodule and a terminal equipment access network state switching submodule, wherein the access terminal equipment real-time data transmission rate monitoring submodule is used for carrying out real-time monitoring and feedback on the current terminal equipment data transmission rate accessed to the wireless network, the terminal equipment access network state switching submodule is used for carrying out state switching and real-time maintenance on the wireless network when the wireless network is not accessed to the terminal equipment, switching the state into a waiting awakening state and maintaining the wireless network in the waiting awakening state.

8. A time management method based on wireless network access is characterized in that:

s1: counting terminal equipment in a wireless network accessible range by using a to-be-accessed equipment counting module in the wireless network range, and performing key verification by the terminal equipment to access the current wireless network for data transmission;

s2: the method comprises the steps that the time of different terminal equipment accessing to a current wireless network is estimated by using an estimated network access time demand setting module, and access time analysis is carried out according to the data quantity to be sent in the current terminal equipment;

s3: monitoring the state of terminal equipment and real-time data transmission of an access wireless network by using a periodic state detection module of the access terminal equipment, and judging the access time of the current terminal equipment according to the state of the current terminal equipment and the real-time data transmission;

s4: sequencing by using a terminal equipment network access time recording module according to the access time of different terminal equipment, and marking the priority of secondary access according to the access time of different terminal equipment;

s5: and coordinating each module in the system by using a wireless network management unit, and performing state switching and maintenance on the wireless network of the non-access terminal equipment.

9. The method for time management based on wireless network access according to claim 8, wherein: the time management method further comprises the following steps:

s1-1: the key verification sub-module of the wireless terminal equipment to be accessed is utilized to carry out key verification on the terminal equipment which is requested to access the current wireless network, after the verification is successful, the terminal equipment to be accessed is counted, the basic parameter information of each terminal equipment to be accessed is recorded by the basic parameter information recording sub-module of the wireless terminal equipment, and the recording results are summarized;

s2-1: detecting the data quantity to be transmitted in different wireless terminal equipment by utilizing a wireless terminal equipment data transmission time estimation submodule, artificially estimating the time of accessing the wireless network at present according to the historical access of the terminal equipment to different communication network times, marking the artificially estimated time, monitoring the network speed of the current wireless network by utilizing a wireless terminal equipment data quantity to be transmitted time analysis submodule, monitoring the network speed of the current wireless network, and carrying out actual estimation analysis on the access wireless network time of the current terminal equipment based on the current network speed;

s3-1: monitoring the data transmission state of the current terminal equipment in the wireless network by utilizing a current data transmission real-time detection submodule of the access terminal equipment, wherein the time interval of data transmission of the current accessed wireless terminal equipment and each data transmission quantity are analyzed, an analysis result is transmitted to a periodic access service suspension submodule, the analyzed terminal equipment data are summarized by the periodic access service suspension submodule, when the accessed terminal equipment meets the data regulated by the current wireless network, the wireless network does not process the terminal equipment, when the accessed terminal equipment does not meet the data regulated by the current wireless network, the wireless connection of the current access terminal equipment is disconnected for a time period, the data transmission of the current terminal equipment is suspended in the time period, the time exceeds the current time period, whether the current terminal equipment has the data to be transmitted or not is automatically detected, when the terminal equipment has the data to be transmitted, the wireless network is automatically accessed to continue the data transmission, when the terminal equipment does not have the data to be transmitted, the access of the current time period is suspended, and the terminal equipment is not monitored in the current time period;

S4-1: counting the number of terminal devices accessed in the current wireless network by utilizing a current wireless network access device number acquisition submodule, setting the number of terminal devices which can be accommodated most in the current wireless network as N, wherein the number of terminal devices accessed in real time is less than or equal to N-3, acquiring the access time length of the terminal devices accessed in the wireless network by a terminal device secondary access wireless network priority marking submodule, counting the access time length according to the descending order, marking the priority according to the sequence of the access time length of each terminal device, and accessing according to the mark when the current terminal device carries out secondary access to the wireless network;

s5-1: the terminal equipment access network state switching sub-module is used for carrying out state switching and real-time maintenance on the wireless network when the wireless network is not accessed to the terminal equipment, switching the state into a waiting awakening state and maintaining the wireless network in the waiting awakening state.

10. The method for time management based on wireless network access according to claim 9, wherein: the step S3-1 is to monitor the data transmission state of the current terminal device accessing the wireless network by using the current data transmission real-time detection submodule of the access terminal device, wherein the time interval of the current accessed wireless terminal device transmitting data and each transmitting data quantity are analyzed, and the analysis result is transmitted to the periodic access service suspension submodule, and the method further comprises the following steps:

The current data transmission real-time detection submodule of the access terminal equipment monitors the current data transmission time interval and each transmission data volume of a certain terminal equipment, and sets the time of each data transmission time interval of the current terminal equipment as T ₁ 、T ₂ 、T ₃ 、…、T _n-1 、T _n (unit: min), setting each data transmission data amount of the current terminal device as K ₁ 、K ₂ 、K ₃ 、…、K _n-1 、K _n (unit: M) extracting the maximum value T of the data transmission time interval of the terminal equipment _n max and minimum value K of each transmitted data amount _n min, when the extraction value satisfies the following formula:

when the terminal equipment accessed to the wireless network meets the formula, the wireless network judges that the current terminal equipment data meets the data specified by the current wireless network, does not process the terminal equipment, and when the terminal equipment accessed to the wireless network does not meet the formula, marks the terminal equipment and sends the terminal equipment to the periodic access service suspension sub-module for processing.