CN108512937B - Computer data sharing system based on mobile network - Google Patents

Abstract

The invention discloses a computer data sharing system based on a mobile network, which comprises a flow access module, a network speed monitoring module, a cloud server and a file uploading/downloading module, wherein the flow access module and the network speed monitoring module are respectively connected with the cloud server; the flow access module sends the rest accessed flow, the used total flow and the flow numerical value used in the current day to the cloud server; the network speed monitoring module sends the monitored uploading network speed and the non-uploading network speed to the cloud server; and the cloud server screens and automatically uploads the files stored by the mobile terminal according to the received information. According to the invention, the cloud server and the file uploading/downloading module are combined with the flow access module and the network speed monitoring module, so that the files on the mobile terminal can be automatically screened and uploaded, the file uploading requirements under different states are met, and the utilization rate of the mobile network and the data sharing among the mobile terminals are improved to the maximum extent.

Description

Computer data sharing system based on mobile network

Technical Field

The invention belongs to the technical field of data sharing, and relates to a computer data sharing system based on a mobile network.

Background

The mobile terminal or called mobile communication terminal refers to a computer device that can be used in mobile, and broadly includes a mobile phone, a notebook, a tablet computer, a POS machine, and even a vehicle-mounted computer, but mostly refers to a mobile phone or a smart phone and a tablet computer having multiple application functions. With the development of networks and technologies towards increasingly wider bandwidths, the mobile communication industry will move towards the real mobile information age, and on the other hand, with the rapid development of integrated circuit technologies, the processing capability of the mobile terminal already has strong processing capability, and the mobile terminal is changing from a simple conversation tool to an integrated information processing platform.

The existing mobile terminal has the functions of browsing a webpage, playing a game, downloading a file and the like, but the file in the mobile terminal cannot be automatically transmitted through a mobile network, when the mobile terminal browses the webpage or downloads the file, the network of the mobile terminal cannot be fully utilized, so that the problems that the mobile terminal has more residual flow per month, cannot reasonably utilize network flow, cannot reasonably realize data sharing among the mobile terminals according to the residual flow and has low utilization rate of the mobile network and poor data sharing characteristic are caused.

Disclosure of Invention

The invention aims to provide a computer data sharing system based on a mobile network, which solves the problems that the utilization rate of the existing mobile network is low and the data sharing among mobile terminals cannot be realized.

The purpose of the invention can be realized by the following technical scheme:

a computer data sharing system based on a mobile network comprises a flow access module, a network speed monitoring module, a cloud server and a file uploading/downloading module, wherein the flow access module and the network speed monitoring module are respectively connected with the cloud server, and the cloud server is connected with the file uploading/downloading module;

the traffic access module is used for accessing the rest traffic, the used total traffic and the used traffic numerical value of the mobile terminal on the current day and sending the accessed rest traffic, the used total traffic and the used traffic numerical value of the current day to the cloud server;

the network speed monitoring module is used for monitoring the uploading network speed and the downloading network speed of the mobile terminal in real time and sending the monitored real-time uploading network speed and the real-time non-uploading network speed to the cloud server;

the cloud server is used for receiving the residual flow, the used total flow and the used flow value of the mobile terminal sent by the flow access module, receiving the real-time uploading network speed and the real-time non-uploading network speed sent by the network speed monitoring module, acquiring the ratio of the current used flow to the set current upper limit flow value and the state of the current mobile terminal, judging whether the file formats stored in the mobile terminal are distinguished or not according to the ratio of the current used flow to the current upper limit flow value and the state of the current mobile terminal, screening the file formats conforming to automatic uploading, detecting whether the files conforming to the file formats of automatic uploading are updated or not, and uploading the updated files conforming to the file formats of automatic uploading to the file uploading/downloading module;

the file uploading/downloading module is used for receiving the updated file which is sent by the cloud server and conforms to the file format of automatic uploading, sending the file in the file format to the sharing server, and simultaneously downloading the file from the sharing server.

Further, the real-time non-uploading network speed comprises a network speed for browsing a webpage and a network speed for downloading a file, the sum of the real-time uploading network speed and the real-time non-uploading network speed is less than the total network speed allowed by the mobile terminal, the total network speed allowed by the mobile terminal comprises the uploading network speed, the non-uploading network speed and a buffering network speed, and the ratio of the buffering network speed to the total network speed allowed by the mobile terminal is 0.2-0.4.

Further, the file formats conforming to automatic uploading include word files, dot, excel files, xls, music files, mp3 and picture files, jpg is a file format conforming to automatic uploading, and a file format not conforming to automatic uploading includes video playing format files, rm.

Further, the method for realizing computer data sharing by the cloud server comprises the following steps:

s1, acquiring the residual flow, the used total flow and the used flow value of the mobile terminal on the same day, and the real-time uploading network speed and the real-time non-uploading network speed of the monitored mobile terminal;

s2, judging whether the ratio of the flow value used in the current day to the set current day upper limit flow value is between 0 and 0.7, if so, entering the step S3, otherwise, entering the step S9;

s3, acquiring state information of the current mobile terminal, judging whether the ratio of the real-time uploading network speed to the real-time network speed of the browsed webpage is between 0.5 and 1 when the current mobile terminal is in a webpage browsing state, if so, entering a step S4, and if not, increasing the real-time uploading network speed value and reducing the network speed value of the browsed webpage according to the equal value until the ratio of the real-time uploading network speed to the real-time network speed of the browsed webpage is between 0.5 and 1;

when the current mobile terminal is in a downloading state, judging whether the ratio of the real-time uploading network speed to the real-time downloading network speed is between 0.3 and 0.8, if so, executing a step S4, otherwise, increasing the real-time uploading network speed value and reducing the real-time downloading network speed value according to the equal value until the ratio of the real-time uploading network speed to the real-time downloading network speed is between 0.3 and 0.8;

s4, obtaining the file format stored in the mobile terminal, screening out the file corresponding to the file format meeting the automatic uploading, executing the step S5, and executing the step S7 if the file format does not meet the automatic uploading;

s5, comparing the storage time of the file to be uploaded in the file format meeting the automatic uploading requirement with the storage time of the uploaded file which is uploaded latest, if the storage time of the file to be uploaded is the same as the storage time of the uploaded file, indicating that the file is not updated, and not uploading, otherwise, entering the step S6;

s6, counting the flow required by uploading the updated file meeting the file format of automatic uploading, judging whether the ratio of the flow required by uploading the updated file to the set current-day upper limit flow value is between 0 and 0.2, if so, uploading all the updated file to a file uploading/downloading module, otherwise, screening the file of which the ratio of the accumulated flow of the file to be uploaded to the set current-day upper limit flow value is less than 0.2 to the file uploading/downloading module;

s7, extracting the name of the video file, screening whether preset characters exist in the name of the video file or not, if the preset characters exist, not automatically uploading the video under the name of the video file, otherwise, executing the step S8;

s8, judging whether the ratio of the flow rate required by the video file without the preset characters in the name of the uploaded video file to the set current day upper limit flow rate value is between 0 and 0.1, if so, uploading all the video files without the preset characters to a file uploading/downloading module, otherwise, screening out the files of which the ratio of the accumulated flow rate of the video file to be uploaded to the set current day upper limit flow rate value is less than 0.1, and sending the files to the file uploading/downloading module;

s9, gradually increasing the set current upper limit flow value by a fixed flow amplitude value until the current upper limit flow value is more than 1/30 times of the total upper limit flow of the mobile terminal, judging whether the ratio of the current used flow value to 1/30 times of the total upper limit flow is between 0 and 0.7, if so, executing a step S3, otherwise, not uploading any file to the file uploading/downloading module.

Further, the step S6 is to gradually increase the files according to the uploading flow of the files from small to large until the cumulative flow of the files to be uploaded that are screened out is greater than 0.2 times of the set current day upper limit flow value.

Further, the step S8 is to gradually increase the video files from small to large according to the uploading flow of the video files until the cumulative flow of the screened to-be-uploaded video files is greater than 0.1 time of the set current-day upper limit flow value.

The invention has the beneficial effects that:

according to the computer data sharing system based on the mobile network, the cloud server and the file uploading/downloading module are combined with the flow access module and the network speed monitoring module, so that files on the mobile terminal can be automatically screened and uploaded, the file uploading requirements under different states are met, and the utilization rate of the mobile network and the data sharing among the mobile terminals are improved to the maximum extent.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of a mobile network-based computer data sharing system according to the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the present invention is a computer data sharing system based on a mobile network, including a traffic access module, a network speed monitoring module, a cloud server and a file upload/download module, where the traffic access module and the network speed monitoring module are respectively connected to the cloud server, and the cloud server is connected to the file upload/download module;

the traffic access module is used for accessing the rest traffic, the used total traffic and the used traffic numerical value of the current day of the mobile terminal and sending the accessed rest traffic, the used total traffic and the used traffic numerical value of the current day to the cloud server;

the network speed monitoring module is used for monitoring the uploading network speed and the downloading network speed of the mobile terminal in real time and sending the monitored real-time uploading network speed and the real-time non-uploading network speed to the cloud server, wherein the real-time non-uploading network speed comprises the network speed of browsing a webpage and the network speed of downloading a file, the sum of the real-time uploading network speed and the real-time non-uploading network speed is less than the total network speed allowed by the mobile terminal, the total network speed allowed by the mobile terminal comprises the uploading network speed, the non-uploading network speed and the buffering network speed, the ratio of the buffering network speed to the total network speed allowed by the mobile terminal is 0.2-0.4, the ratio of the real-time uploading network speed to the real-time network speed of browsing the webpage is 0.5-1, and the ratio of the real-time uploading network speed to the real-time downloading network speed is 0.3-0.8;

the cloud server is used for receiving the residual flow, the used total flow and the flow value used in the current day of the mobile terminal sent by the flow access module, and receiving the real-time uploading network speed and the real-time non-uploading network speed sent by the network speed monitoring module, acquiring the ratio of the current used flow to the set upper limit flow value in the current day and the current state of the mobile terminal, judging whether to distinguish the file formats stored in the mobile terminal or not according to the ratio of the current used flow and the current upper limit flow value and the current state of the mobile terminal, screening the file formats which accord with automatic uploading, simultaneously detecting whether the files in the file format which accords with automatic uploading are updated or not, and uploading the updated files in the file format which accords with automatic uploading to a file uploading/downloading module, wherein the state of the mobile terminal comprises browsing a webpage and downloading the files;

the file uploading/downloading module is used for receiving the updated file which is sent by the cloud server and conforms to the file format of automatic uploading, sending the file in the file format to the sharing server, and simultaneously downloading the file from the sharing server.

The sharing server is connected with the file uploading/downloading module and used for storing uploaded file contents, the uploaded file contents are divided according to different file formats and are respectively a word file, a dot file, an excel file, an xls file, a music file, an mp3 file, a video playing format file, an rm file, a picture file, a jpg file, the word file, the dot file, the excel file, the xls file, the music file, the mp3 file and the picture file, the jpg file conforms to an automatically uploaded file format, and the video playing format file, the rm does not conform to the automatically uploaded file format.

The method for realizing computer data sharing by the cloud server comprises the following steps:

s1, acquiring the residual flow, the used total flow and the used flow value of the mobile terminal on the same day, and the real-time uploading network speed and the real-time non-uploading network speed of the monitored mobile terminal;

s2, judging whether the ratio of the flow value used in the current day to the set current day upper limit flow value is between 0 and 0.7, if so, entering the step S3, otherwise, entering the step S9;

s3, acquiring state information of the current mobile terminal, judging whether the ratio of the real-time uploading network speed to the real-time network speed of the browsed webpage is between 0.5 and 1 when the current mobile terminal is in a webpage browsing state, if so, entering a step S4, and if not, increasing the real-time uploading network speed value and reducing the real-time network speed value of the browsed webpage according to the equal value until the ratio of the real-time uploading network speed to the real-time network speed of the browsed webpage is between 0.5 and 1;

when the current mobile terminal is in a downloading state, judging whether the ratio of the real-time uploading network speed to the real-time downloading network speed is between 0.3 and 0.8, if so, executing a step S4, otherwise, increasing the real-time uploading network speed value and reducing the real-time downloading network speed value according to the equal value until the ratio of the real-time uploading network speed to the real-time downloading network speed is between 0.3 and 0.8;

s4, obtaining a file format stored in the mobile terminal, screening out a file corresponding to the file format meeting automatic uploading, executing a step S5, and executing a step S7 if the file format does not meet the automatic uploading file format, wherein the file format meeting the automatic uploading comprises word files, dot, excel files, xls, music files, mp3 and picture files, jpg, and the file format not meeting the automatic uploading is video playing format file, rm;

s5, comparing the storage time of the file to be uploaded in the file format meeting the automatic uploading requirement with the storage time of the uploaded file which is uploaded latest, if the storage time of the file to be uploaded is the same as the storage time of the uploaded file, indicating that the file is not updated, and not uploading, otherwise, entering the step S6;

s6, counting the flow required by uploading the updated files meeting the file format of automatic uploading, judging whether the ratio of the flow required by uploading the updated files to the set current-day upper limit flow value is between 0 and 0.2, if so, uploading all the updated files to a file uploading/downloading module, otherwise, screening the files of which the ratio of the cumulative flow of the files to be uploaded to the set current-day upper limit flow value is less than 0.2 to the file uploading/downloading module, wherein the screening sequence is that the files are gradually increased from small to large according to the flow of the files to be uploaded until the cumulative flow of the screened files to be uploaded is more than 0.2 times of the set current-day upper limit flow value;

s7, extracting the name of the video file, screening whether preset characters exist in the name of the video file or not, if the preset characters exist, not automatically uploading the video under the name of the video file, otherwise, executing the step S8;

s8, judging whether the ratio of the flow rate required by the video files without preset characters in the names of the uploaded video files to the set current day upper limit flow rate value is between 0 and 0.1, if so, uploading all the video files without the preset characters to a file uploading/downloading module, otherwise, screening out files with the ratio of the cumulative flow rate of the video files to be uploaded to the set current day upper limit flow rate value being less than 0.1, and sending the files to the file uploading/downloading module, wherein the screening sequence is that the video files are gradually increased from small to large according to the uploading flow rate of the video files until the cumulative flow rate of the screened video files to be uploaded is more than 0.1 time of the set current day upper limit flow rate value;

s9, gradually increasing the set current upper limit flow value by a fixed flow amplitude value until the current upper limit flow value is more than 1/30 times of the total upper limit flow of the mobile terminal, judging whether the ratio of the current used flow value to 1/30 times of the total upper limit flow is between 0 and 0.7, if so, executing a step S3, otherwise, not uploading any file to the file uploading/downloading module.

According to the computer data sharing system based on the mobile network, the cloud server and the file uploading/downloading module are combined with the flow access module and the network speed monitoring module, so that files on the mobile terminal can be automatically screened and uploaded, the file uploading requirements under different states are met, and the utilization rate of the mobile network and the data sharing among the mobile terminals are improved to the maximum extent.

The foregoing is merely exemplary and illustrative of the principles of the present invention and various modifications, additions and substitutions of the specific embodiments described herein may be made by those skilled in the art without departing from the principles of the present invention or exceeding the scope of the claims set forth herein.

Claims (4)

1. A computer data sharing system based on a mobile network, characterized in that: the system comprises a flow access module, a network speed monitoring module, a cloud server and a file uploading/downloading module, wherein the flow access module and the network speed monitoring module are respectively connected with the cloud server, and the cloud server is connected with the file uploading/downloading module;

the traffic access module is used for accessing the rest traffic, the used total traffic and the used traffic numerical value of the mobile terminal on the current day and sending the accessed rest traffic, the used total traffic and the used traffic numerical value of the current day to the cloud server;

the network speed monitoring module is used for monitoring the uploading network speed and the downloading network speed of the mobile terminal in real time and sending the monitored real-time uploading network speed and the real-time non-uploading network speed to the cloud server;

the cloud server is used for receiving the residual flow, the used total flow and the used flow value of the mobile terminal sent by the flow access module, receiving the real-time uploading network speed and the real-time non-uploading network speed sent by the network speed monitoring module, acquiring the ratio of the current used flow to the set current upper limit flow value and the state of the current mobile terminal, judging whether the file formats stored in the mobile terminal are distinguished or not according to the ratio of the current used flow to the current upper limit flow value and the state of the current mobile terminal, screening the file formats conforming to automatic uploading, detecting whether the files conforming to the file formats of automatic uploading are updated or not, and uploading the updated files conforming to the file formats of automatic uploading to the file uploading/downloading module;

the file uploading/downloading module is used for receiving the updated file which is sent by the cloud server and conforms to the file format of automatic uploading, sending the file in the file format to the sharing server, and simultaneously downloading the file from the sharing server.

2. The mobile network based computer data sharing system of claim 1, wherein: the real-time non-uploading network speed comprises a network speed for browsing a webpage and a network speed for downloading a file, the sum of the real-time uploading network speed and the real-time non-uploading network speed is less than the total network speed allowed by the mobile terminal, the total network speed allowed by the mobile terminal comprises the uploading network speed, the non-uploading network speed and the buffering network speed, and the ratio of the buffering network speed to the total network speed allowed by the mobile terminal is 0.2-0.4.

3. The mobile network based computer data sharing system of claim 1, wherein: the file formats conforming to automatic uploading include word files, dot, excel files, xls, music files, mp3 and picture files, GIF is a file format conforming to automatic uploading, and the file formats not conforming to automatic uploading include video playing format files, rm.

4. The mobile network based computer data sharing system of claim 1, wherein: the method for realizing computer data sharing by the cloud server comprises the following steps:

s1, acquiring the residual flow, the used total flow and the used flow value of the mobile terminal on the same day, and the real-time uploading network speed and the real-time non-uploading network speed of the monitored mobile terminal;

s2, judging whether the ratio of the flow value used in the current day to the set current day upper limit flow value is between 0 and 0.7, if so, entering the step S3, otherwise, entering the step S9;

s3, acquiring state information of the current mobile terminal, judging whether the ratio of the real-time uploading network speed to the real-time network speed of the browsed webpage is between 0.5 and 1 when the current mobile terminal is in a webpage browsing state, if so, entering a step S4, and if not, increasing the real-time uploading network speed value and reducing the network speed value of the browsed webpage according to the equal value until the ratio of the real-time uploading network speed to the real-time network speed of the browsed webpage is between 0.5 and 1;

when the current mobile terminal is in a downloading state, judging whether the ratio of the real-time uploading network speed to the real-time downloading network speed is between 0.3 and 0.8, if so, executing a step S4, otherwise, increasing the real-time uploading network speed value and reducing the real-time downloading network speed value according to the equal value until the ratio of the real-time uploading network speed to the real-time downloading network speed is between 0.3 and 0.8;

s4, obtaining the file format stored in the mobile terminal, screening out the file corresponding to the file format meeting the automatic uploading, executing the step S5, and executing the step S7 if the file format does not meet the automatic uploading;

s5, comparing the storage time of the file to be uploaded in the file format meeting the automatic uploading requirement with the storage time of the uploaded file which is uploaded latest, if the storage time of the file to be uploaded is the same as the storage time of the uploaded file, indicating that the file is not updated, and not uploading, otherwise, entering the step S6;

s6, counting the flow required by uploading the updated file meeting the file format of automatic uploading, judging whether the ratio of the flow required by uploading the updated file to the set current-day upper limit flow value is between 0 and 0.2, if so, uploading all the updated file to a file uploading/downloading module, otherwise, screening the file of which the ratio of the accumulated flow of the file to be uploaded to the set current-day upper limit flow value is less than 0.2 to the file uploading/downloading module;

s7, extracting the name of the video file, screening whether preset characters exist in the name of the video file or not, if the preset characters exist, not automatically uploading the video under the name of the video file, otherwise, executing the step S8;

s8, judging whether the ratio of the flow rate required by the video file without the preset characters in the name of the uploaded video file to the set current day upper limit flow rate value is between 0 and 0.1, if so, uploading all the video files without the preset characters to a file uploading/downloading module, otherwise, screening out the files of which the ratio of the accumulated flow rate of the video file to be uploaded to the set current day upper limit flow rate value is less than 0.1, and sending the files to the file uploading/downloading module;

s9, gradually increasing the set current upper limit flow value by a fixed flow amplitude value until the current upper limit flow value is more than 1/30 times of the total upper limit flow of the mobile terminal, judging whether the ratio of the current used flow value to 1/30 times of the total upper limit flow is between 0 and 0.7, if so, executing a step S3, otherwise, not uploading any file to the file uploading/downloading module;

the step S6 is to gradually increase the files according to the uploading flow of the files from small to large until the cumulative flow of the screened files to be uploaded is greater than 0.2 times of the set current day upper limit flow value;

the step S8 is to gradually increase the video files from small to large according to the uploading flow of the video files until the cumulative flow of the screened to-be-uploaded video files is greater than 0.1 time of the set current day upper limit flow value.

Images