CN108391283B - Mobile phone traffic monitoring system based on Internet - Google Patents

Abstract

The invention provides a mobile phone flow monitoring system based on the Internet, which introduces a third-party flow monitoring client to objectively record the flow data actually consumed by a mobile phone of a user and compares the flow data with the flow counted by an operator, so that the flow counting has objectivity and can be recognized by the user; secondly, a flow calibration mechanism is provided for an operator to perform recalculation adjustment on inaccurate flow statistics in time, so that bidirectional interaction of flow management of a user and the operator is realized, and the efficiency of flow management is improved; and finally, sending the flow record to a monitoring mechanism after the user and the operator can not reach the agreement on the flow use so as to realize the arbitration management of flow statistics and further improve the objectivity and persuasion of flow management.

Description

Mobile phone traffic monitoring system based on Internet

Technical Field

The application relates to the technical field of smart phones, in particular to a mobile phone traffic monitoring system based on the Internet.

Background

At present, the phenomenon that people surf the internet by using mobile phones is more and more common, more and more users want to inquire the internet flow, for example, the users customize a monthly Internet package service, and can enjoy 200M internet flow, the charge of the part exceeding the flow is higher, and the users want to know the current internet flow so as to be reasonably utilized and save the cost. A user can generally inquire the internet traffic by logging in a website of an operator, dialing a hotline, sending a short message and the like, but the inquired internet traffic data is not real-time due to the fact that the data of a business hall is not updated timely; in addition, the user may neglect to query the internet traffic for various reasons, thereby causing unnecessary loss, and therefore, this query mode lacks an automatic reminding mechanism.

In the prior art, document CN101977365A proposes a method for reminding remaining internet traffic of a mobile phone, which combines the internet traffic of a mobile phone in a business hall with the internet traffic of a mobile phone monitored locally to obtain real-time data of the remaining internet traffic of the mobile phone, and has an automatic reminding function, so that people can timely and accurately know the usage condition of the internet traffic of the mobile phone, and people can reasonably utilize and manage their own internet traffic resources.

However, the above method still has many drawbacks; firstly, the mobile phone internet traffic counted by the business hall is not necessarily the traffic actually used by the user, for example, the user actually uses 95M traffic in a certain period of time, and the traffic counted by the business hall may be 100M, so the reference standard of the traffic statistics is the mobile phone internet traffic counted by the business hall, and the reference standard is not necessarily approved by the user; furthermore, the above method does not provide a solution for the situation where the business hall statistical flow rate approved by the operator is different from the actual usage flow rate, thereby causing the concern of the user about the actual usage flow rate.

Disclosure of Invention

The invention provides a mobile phone flow monitoring system based on the internet, which comprises the following modules:

the system comprises a flow monitoring client authentication module, a flow monitoring client authentication module and a flow monitoring server, wherein the flow monitoring client authentication module is used for monitoring the actual flow consumed by a mobile phone in real time by the flow monitoring client, and the flow monitoring client is subjected to flow monitoring authentication of an operator;

the statistical flow query module is used for setting the monitoring time period through the flow monitoring client by a user, and automatically logging in a business hall of the operator to query the statistical flow consumed in the time period when the time period is over;

and the information prompting module is used for comparing the actual flow with the statistical flow, and prompting prompt information that the flow statistics is inaccurate to the user and the operator if the difference value between the statistical flow and the actual flow is greater than a preset flow deviation value.

A traffic calibration module, configured to receive the prompt message, recalculate traffic consumed by the user based on the statistical period, obtain calibration traffic, and send the calibration traffic to the user;

the deviation identification module is used for acquiring the calibration flow by the flow monitoring client of the user, re-comparing the difference value between the calibration flow and the actual flow, and adding 1 to a preset calibration deviation identification if the difference value between the calibration flow and the actual flow is greater than a preset flow calibration deviation value; and if the difference value between the calibration flow and the actual flow is not greater than a preset flow calibration deviation value, not changing the calibration deviation identifier.

As a preferred embodiment, the traffic monitoring client identifies the type and number of operators of the mobile phone according to a SIM card built in the mobile phone; and respectively monitoring the flow for each operator and the SIM card thereof.

As a preferred embodiment, the traffic monitoring authentication performed by the traffic monitoring client through the operator specifically includes:

the flow monitoring client is a third-party flow monitoring client authenticated by a monitoring department of the operator and is used for monitoring flow data consumed in real time in the mobile terminal.

As a preferred embodiment, the automatically logging in the business hall of the operator when the time period is over to query the statistical traffic consumed in the time period includes:

when the time period is over, the flow monitoring client automatically logs in a business hall of the operator, sets the starting time and the ending time of flow inquiry according to the time period, and inquires the consumed statistical flow in the time range of the starting time and the ending time;

or, when the time period is over, the traffic monitoring client automatically sends the information of the traffic query instruction of the time period to the operator, and automatically extracts the consumed statistical traffic in the time period after receiving the reply information of the information.

As a preferred embodiment, the receiving, by the operator, the prompt information, and recalculating, based on the statistical period, the traffic consumed by the user to obtain a calibration traffic specifically includes:

the operator receives the prompt information, the prompt information carries the information of the statistical period, and the operator determines the identity information of the user according to the prompt information sending number

And the operator recalculates the flow consumed by the user according to the identity information of the user and the statistical period, and uses the calculated flow as the calibration flow.

As a preferred embodiment, the obtaining of the calibration traffic by the traffic monitoring client of the user specifically includes:

the operator sends a query code of the calibration flow to the user;

the flow monitoring client of the user automatically logs in a business hall of the operator and acquires the calibration flow according to the query code;

or, the traffic monitoring client automatically sends the query code of the calibration traffic to the operator, and automatically extracts the calibration traffic after receiving the queried reply information.

As a preferred embodiment, if the difference between the calibration flow and the actual flow is greater than a preset flow calibration deviation value, adding 1 to a preset calibration deviation identifier specifically includes:

the user sets the flow calibration deviation value through the flow monitoring client and automatically resets the initial value of the calibration deviation identifier corresponding to the flow calibration deviation value to 0;

and after each statistical period is finished, if the difference value between the calibration flow and the actual flow is greater than the flow calibration deviation value, adding 1 to the calibration deviation identifier.

As a preferred embodiment, the method further comprises:

setting the calibration offset identification threshold;

after each statistical period is finished, comparing the calibration deviation identification with the calibration deviation identification threshold value; and if the calibration deviation identifier is greater than or equal to the calibration deviation identifier threshold value, sending real-time flow monitoring records of all statistical periods triggering the increase of the numerical value of the calibration deviation identifier, and the corresponding statistical flow and the calibration flow to a server preset by a monitoring department of the operator.

The invention provides a mobile phone flow monitoring system based on the Internet, which introduces a third-party flow monitoring client to objectively record the flow data actually consumed by a mobile phone of a user and compares the flow data with the flow counted by an operator, so that the flow counting has objectivity and can be recognized by the user; secondly, a flow calibration mechanism is provided for an operator to perform recalculation adjustment on inaccurate flow statistics in time, so that bidirectional interaction of flow management of a user and the operator is realized, and the efficiency of flow management is improved; and finally, sending the flow record to a monitoring mechanism after the user and the operator can not reach the agreement on the flow use so as to realize the arbitration management of flow statistics and further improve the objectivity and persuasion of flow management.

Drawings

Fig. 1 is a schematic structural diagram of an internet-based mobile phone traffic monitoring system according to the present invention.

Detailed Description

The embodiments of the present invention are further described below with reference to the drawings.

The first embodiment is as follows:

fig. 1 is a mobile phone traffic monitoring system based on internet according to the present invention, which includes the following modules:

the system comprises a flow monitoring client authentication module, a flow monitoring client authentication module and a flow monitoring server, wherein the flow monitoring client authentication module is used for monitoring the actual flow consumed by a mobile phone in real time by the flow monitoring client, and the flow monitoring client is subjected to flow monitoring authentication of an operator; it should be noted that, because the traffic monitoring client is authenticated by the traffic monitoring of the operator, the actual traffic consumed by the mobile phone in real time monitored and obtained at this time is accurate and objective; the real-time monitoring can be used for recording the flow data consumed by the mobile phone at each moment in a certain time range and the accumulated flow data consumed in the time range; the flow data consumed at each moment can generate a flow moment curve for a user to refer to, and the flow data consumed at each moment is taken as a statistical basis of the accumulated consumed flow data in the time range. The authentication may be operator authentication, such as a traffic monitoring client developed by the operator; or third party authenticated; for example, a third party developed traffic monitoring client approved by the operator or regulatory authority; and are not intended to be limiting herein.

The statistical flow query module is used for setting the monitoring time period through the flow monitoring client by a user, and automatically logging in a business hall of the operator to query the statistical flow consumed in the time period when the time period is over; it should be noted that the time period may be set by the user, or may be default; the length of the time period may be, without limitation, one quarter hour, one hour, 24 hours a day, one week, etc. In addition, at the moment when the time period is finished, the flow monitoring client automatically logs in a business hall of the operator to inquire the statistical flow consumed in the time period; the business hall can be a user consumption record query client provided by an operator, and can also be a consumption record query website for logging in the operator according to account information provided by the user; at this time, the inquired traffic data consumed in the time period is traffic consumption data automatically recorded by the operator server, that is, traffic data of the operator caliber.

And the information prompting module is used for comparing the actual flow with the statistical flow, and prompting prompt information that the flow statistics is inaccurate to the user and the operator if the difference value between the statistical flow and the actual flow is greater than a preset flow deviation value. For example, if the statistical period set by the user is 1 month, 3 days, 0:00 to 24:00, then at the moment that 24 points come in 1 month, 3 days, the traffic monitoring client automatically logs in the business hall of the operator to inquire the statistical traffic consumed within the time period of 1 month, 3 days, 0:00 to 24:00, for example, 600M, and the traffic monitoring client monitors the actual traffic consumed by the mobile phone in real time within the time period of 1 month, 3 days, 0:00 to 24:00, and obtains the actual traffic consumed within the time period as 500M after accumulating according to the actual traffic consumed in real time; at the moment, comparing the actual flow with the statistical flow to obtain a difference value of 100M; setting a preset flow deviation value to be 50M; and if the difference value 100M between the statistical flow and the actual flow is greater than a preset flow deviation value 50M, prompting information that the flow statistics is inaccurate is prompted to the user and the operator. The flow data used by the user is further verified by the user, so that the legal rights and interests of the user are maintained, and the truth and price of the goods consumed by the user are guaranteed.

A traffic calibration module, configured to receive the prompt message, recalculate traffic consumed by the user based on the statistical period, obtain calibration traffic, and send the calibration traffic to the user; it should be noted that, this embodiment provides a feedback channel of traffic statistics for the operator, thereby avoiding inconvenience to both parties caused by data statistics errors by the operator server. At this time, the operator re-checks the traffic data consumed by the user in the time period, and preferably, in order to ensure the accuracy of the checked traffic data, the server performing the traffic check is different from the server corresponding to the statistical traffic queried in step S2; i.e. two servers provide two means of traffic statistics.

The deviation identification module is used for acquiring the calibration flow by the flow monitoring client of the user, re-comparing the difference value between the calibration flow and the actual flow, and adding 1 to a preset calibration deviation identification if the difference value between the calibration flow and the actual flow is greater than a preset flow calibration deviation value; and if the difference value between the calibration flow and the actual flow is not greater than a preset flow calibration deviation value, not changing the calibration deviation identifier. It should be noted that, for example, the traffic monitoring client of the user obtains the calibration traffic as 550M, and compares the difference between the calibration traffic 550M and the actual traffic 500M again; and setting the flow calibration deviation value to be 30M, and adding 1 to a preset calibration deviation identifier if the difference value 50M between the calibration flow and the actual flow is greater than the preset flow calibration deviation value 30M. And the calibration deviation identification user records the times that the difference value between the calibration flow and the actual flow is greater than a preset flow calibration deviation value in a certain statistical period.

As a preferred embodiment, the traffic monitoring client identifies the type and number of operators of the mobile phone according to a SIM card built in the mobile phone; and respectively monitoring the flow for each operator and the SIM card thereof. It should be noted that the traffic monitoring client may automatically identify the type and number of the SIM cards in the mobile phone, or even may identify the virtual SIM card in the mobile phone by the call type; at this time, the user may set to perform traffic monitoring on each SIM card, or may set to perform traffic monitoring only on a certain SIM card, so that a corresponding traffic monitoring method may be set for each SIM card, so as to improve the pertinence and flexibility of traffic monitoring.

As a preferred embodiment, the traffic monitoring authentication performed by the traffic monitoring client through the operator specifically includes:

the flow monitoring client is a third-party flow monitoring client authenticated by a monitoring department of the operator and is used for monitoring flow data consumed in real time in the mobile terminal. It should be noted that the authentication is that the traffic data counted by the traffic monitoring client can be approved by the operator and the regulatory department.

As a preferred embodiment, the automatically logging in the business hall of the operator when the time period is over to query the statistical traffic consumed in the time period includes:

when the time period is over, the flow monitoring client automatically logs in a business hall of the operator, sets the starting time and the ending time of flow inquiry according to the time period, and inquires the consumed statistical flow in the time range of the starting time and the ending time; it should be noted that the above-mentioned login, setting and query operations are all performed automatically, and do not require manual input by the user; the business hall can be a user consumption record query client provided by an operator, and can also be a consumption record query website for logging in the operator according to account information provided by the user.

Or, when the time period is over, the traffic monitoring client automatically sends the information of the traffic query instruction of the time period to the operator, and automatically extracts the consumed statistical traffic in the time period after receiving the reply information of the information. It should be noted that the query instruction may be generated by one-time automatic input, or may be generated by querying traffic first, and then setting a time period for traffic query after obtaining operator reply information; the specific implementation manner may be set differently according to different operators, and is not limited herein. In addition, the operation of automatic extraction is to automatically extract the traffic data in the information replied by the operator.

As a preferred embodiment, the receiving, by the operator, the prompt information, and recalculating, based on the statistical period, the traffic consumed by the user to obtain a calibration traffic specifically includes:

the operator receives the prompt information, the prompt information carries the information of the counting period, and the operator determines the identity information of the user according to the prompt information sending number; it should be noted that the server of the operator may automatically recognize that the prompt information is information for user traffic calibration, and in addition, in order to ensure information security of the user, the prompt information may carry verification information of the user identity; and at the same time, the identity of the user is identified based on the sending number of the information.

And the operator recalculates the flow consumed by the user according to the identity information of the user and the statistical period, and uses the calculated flow as the calibration flow. In order to ensure the accuracy of the traffic data obtained by the verification, the server performing the traffic verification is different from the server corresponding to the statistical traffic obtained by the query in step S2; i.e. two servers provide two means of traffic statistics.

As a preferred embodiment, the obtaining of the calibration traffic by the traffic monitoring client of the user specifically includes:

the operator sends a query code of the calibration flow to the user; it should be noted that sending the query code is an operation performed when the operator is inconvenient or unable to directly obtain the traffic data query result for the user; the security of the private data of the user is also ensured at the moment.

The flow monitoring client of the user automatically logs in a business hall of the operator and acquires the calibration flow according to the query code; it should be noted that the query code here is different from the operation of the user to log in the traffic query obtained by the business hall conventionally, and by the query code, the user can obtain the traffic data of the user stored in the traffic calibration server.

Or, the traffic monitoring client automatically sends the query code of the calibration traffic to the operator, and automatically extracts the calibration traffic after receiving the queried reply information. It should be noted that the query code here is different from the operation of the user to log in the traffic query obtained by the business hall conventionally, and by the query code, the user can obtain the traffic data of the user stored in the traffic calibration server.

As a preferred embodiment, if the difference between the calibration flow and the actual flow is greater than a preset flow calibration deviation value, adding 1 to a preset calibration deviation identifier specifically includes:

the user sets the flow calibration deviation value through the flow monitoring client and automatically resets the initial value of the calibration deviation identifier corresponding to the flow calibration deviation value to 0; it should be noted that, each time the user resets the flow calibration deviation value, the calibration deviation flag is reset, so that the accuracy in different statistical time intervals, i.e. in the just statistical period, is improved.

And after each statistical period is finished, if the difference value between the calibration flow and the actual flow is greater than the flow calibration deviation value, adding 1 to the calibration deviation identifier. It should be noted that, after each statistical period is finished, when the difference between the calibration flow rate and the actual flow rate is greater than the flow rate calibration deviation value, the calibration deviation flag is incremented by 1.

As a preferred embodiment, the method further comprises:

setting the calibration offset identification threshold; note that, for example, the user sets the calibration offset flag threshold to 5.

After each statistical period is finished, comparing the calibration deviation identification with the calibration deviation identification threshold value; and if the calibration deviation identifier is greater than or equal to the calibration deviation identifier threshold value, sending real-time flow monitoring records of all statistical periods triggering the increase of the numerical value of the calibration deviation identifier, and the corresponding statistical flow and the calibration flow to a server preset by a monitoring department of the operator. It should be noted that, in the following description,

the invention provides a mobile phone flow monitoring system based on the Internet, which introduces a third-party flow monitoring client to objectively record the flow data actually consumed by a mobile phone of a user and compares the flow data with the flow counted by an operator, so that the flow counting has objectivity and can be recognized by the user; secondly, a flow calibration mechanism is provided for an operator to perform recalculation adjustment on inaccurate flow statistics in time, so that bidirectional interaction of flow management of a user and the operator is realized, and the efficiency of flow management is improved; and finally, sending the flow record to a monitoring mechanism after the user and the operator can not reach the agreement on the flow use so as to realize the arbitration management of flow statistics and further improve the objectivity and persuasion of flow management.

It will be understood by those within the art that each block of the block diagrams and/or flowchart illustrations, and combinations of blocks in the block diagrams and/or flowchart illustrations, 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, 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 methods specified in the block or blocks of the block diagrams and/or flowchart block or blocks.

Those of skill in the art will appreciate that various operations, methods, steps in the processes, acts, or solutions discussed in the present application may be alternated, modified, combined, or deleted. Further, various operations, methods, steps in the flows, which have been discussed in the present application, may be interchanged, modified, rearranged, decomposed, combined, or eliminated. Further, steps, measures, schemes in the various operations, methods, procedures disclosed in the prior art and the present invention can also be alternated, changed, rearranged, decomposed, combined, or deleted.

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

Claims (6)

1. The mobile phone traffic monitoring system based on the Internet is characterized by comprising the following modules:

the system comprises a flow monitoring client authentication module, a flow monitoring client authentication module and a flow monitoring server, wherein the flow monitoring client authentication module is used for monitoring the actual flow consumed by a mobile phone in real time by the flow monitoring client, and the flow monitoring client is subjected to flow monitoring authentication of an operator;

the statistical flow query module is used for setting the monitoring time period through the flow monitoring client by a user, and automatically logging in a business hall of the operator to query the statistical flow consumed in the time period when the time period is over;

the information prompting module is used for comparing the actual flow with the statistical flow, and prompting the user and the operator about inaccurate flow statistics if the difference value between the statistical flow and the actual flow is greater than a preset flow deviation value;

a traffic calibration module, configured to receive the prompt message, recalculate traffic consumed by the user based on the statistical period, obtain calibration traffic, and send the calibration traffic to the user;

the deviation identification module is used for acquiring the calibration flow by the flow monitoring client of the user, re-comparing the difference value between the calibration flow and the actual flow, and adding 1 to a preset calibration deviation identification if the difference value between the calibration flow and the actual flow is greater than a preset flow calibration deviation value; if the difference value between the calibration flow and the actual flow is not larger than a preset flow calibration deviation value, the calibration deviation identification is not changed;

further comprising: the flow monitoring client identifies the type and the number of operators of the mobile phone according to an SIM card built in the mobile phone; respectively monitoring the flow for each operator and the SIM card thereof; the SIM cards comprise a solid SIM card and a virtual SIM card; identifying a virtual SIM card in the mobile phone through the call type;

further comprising: setting the calibration offset identification threshold; after each statistical period is finished, comparing the calibration deviation identification with the calibration deviation identification threshold value; and if the calibration deviation identifier is greater than or equal to the calibration deviation identifier threshold value, sending real-time flow monitoring records of all statistical periods triggering the increase of the numerical value of the calibration deviation identifier, and the corresponding statistical flow and the calibration flow to a server preset by a monitoring department of the operator.

2. The system for monitoring mobile phone traffic according to claim 1, wherein the traffic monitoring client is authenticated by the operator for traffic monitoring, and specifically comprises:

the flow monitoring client is a third-party flow monitoring client authenticated by a monitoring department of the operator and is used for monitoring flow data consumed in real time in the mobile terminal.

3. The system for monitoring mobile phone traffic as claimed in claim 1, wherein said automatically logging in the business hall of the operator when the time period is over to query the statistical traffic consumed in the time period comprises:

when the time period is over, the flow monitoring client automatically logs in a business hall of the operator, sets the starting time and the ending time of flow inquiry according to the time period, and inquires the consumed statistical flow in the time range of the starting time and the ending time;

or, when the time period is over, the traffic monitoring client automatically sends the information of the traffic query instruction of the time period to the operator, and automatically extracts the consumed statistical traffic in the time period after receiving the reply information of the information.

4. The system for monitoring mobile phone traffic according to claim 1, wherein the operator receives the prompt message, recalculates the traffic consumed by the user based on the statistical period, and obtains a calibration traffic, specifically including:

the operator receives the prompt information, the prompt information carries the information of the statistical period, and the operator determines the identity information of the user according to the prompt information sending number

And the operator recalculates the flow consumed by the user according to the identity information of the user and the statistical period, and uses the calculated flow as the calibration flow.

5. The system for monitoring mobile phone traffic according to claim 3, wherein the obtaining of the calibration traffic by the traffic monitoring client of the user specifically includes:

the operator sends a query code of the calibration flow to the user;

the flow monitoring client of the user automatically logs in a business hall of the operator and acquires the calibration flow according to the query code;

or, the traffic monitoring client automatically sends the query code of the calibration traffic to the operator, and automatically extracts the calibration traffic after receiving the queried reply information.

6. The system for monitoring mobile phone traffic according to claim 1, wherein if the difference between the calibration traffic and the actual traffic is greater than a preset traffic calibration deviation value, adding 1 to a preset calibration deviation flag specifically includes:

the user sets the flow calibration deviation value through the flow monitoring client and automatically resets the initial value of the calibration deviation identifier corresponding to the flow calibration deviation value to 0;

and after each statistical period is finished, if the difference value between the calibration flow and the actual flow is greater than the flow calibration deviation value, adding 1 to the calibration deviation identifier.

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