CN105828408B - Method and device for controlling internet surfing time - Google Patents

Abstract

The invention provides a method and a device for controlling internet surfing time, which are applied to the field of communication. The method comprises the steps of firstly obtaining message information of interactive messages between a user detection time point and a last detection time point at a certain detection time point, determining whether the detection time point is active according to the message information of a plurality of continuous messages before the detection time point, changing the detection time point from inactive to active until the detection time point becomes inactive again to be an internet access time period, counting the duration of all the internet access time periods to obtain the internet access duration, finally judging whether the internet access duration is equal to or greater than the preset internet access duration, and if so, controlling the network of the user. Compared with the prior art, the method and the device have the advantages that the actual internet surfing duration of the user is determined through the message information of the message instead of the specific time limit, the user can surf the internet at any time, the activity of the user can be limited after certain internet surfing time is reached, the method and the device are more intelligent and superior than the existing scheme, and the user experience degree is improved.

Description

Method and device for controlling internet surfing time

Technical Field

The present invention relates to the field of communications, and in particular, to a method and an apparatus for controlling internet access time.

Background

With the popularization of intelligent terminals, more and more teenagers become 'lower-head families', the time for playing mobile phones is longer, particularly after the family surfs the internet through wifi, the time for playing the mobile phones is longer, how to control the internet surfing time of a specific user is more and more important, and as all routers with wifi functions do not have similar functions at present, some manufacturers develop parental control functions in order to make up for the gap of market demands, and set a fixed time period for the user to surf the internet, but the method is too old and has defects, for example, if the user does not surf the internet in the fixed time period, the user cannot surf the internet again in one day, and for common users, if the user wants to surf the internet again, the administrator password is required to set the allowed internet surfing time again, which is very inconvenient.

Disclosure of Invention

The invention provides a method and a device for controlling internet surfing time, and solves the problem of low user experience caused by unreasonable internet surfing time control in the prior art.

In order to solve the above problems, the present invention provides a method for controlling internet surfing time, which comprises:

acquiring message information of an interactive message between the detection time point of a user and the last detection time point at a certain detection time point, wherein the message information comprises message time information;

determining whether the detection time point is active according to the message information of a plurality of continuous messages before the detection time point;

changing from inactive to active until the time period of changing to inactive again is the internet surfing time period, and counting the duration of all the internet surfing time periods to obtain the internet surfing duration;

and judging whether the internet surfing time is equal to or greater than the preset internet surfing time, if so, controlling the network of the user.

In an embodiment of the present invention, the determining whether the detection time point is active according to the packet information of the plurality of consecutive packets before the detection time point includes: obtaining at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message according to the message time information of a plurality of continuous messages; and determining whether the detection time point is active according to at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message.

In an embodiment of the present invention, the message information further includes message destination address information; the determining whether the detection time point is active according to the message information of the plurality of continuous messages before the detection time point includes: obtaining at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message according to the message time information of a plurality of continuous messages; obtaining the address diversity of the message according to the message destination address information; and determining whether the detection time point is active or not according to at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message and the address diversity of the message.

In an embodiment of the present invention, when determining whether the detection time point is active according to at least one of the persistence of the packet, the interval of the packet, and the frequency uniformity of the packet, and the address diversity of the packet, the following steps are performed: determining whether the detection time point is active according to the continuity of the message, the interval of the message, the frequency uniformity of the message and the address diversity of the message, wherein the determination comprises the following steps: firstly, determining whether the detection time point is active according to the address diversity of the message and the frequency uniformity degree of the message, and if the detection time point is not active, determining whether the detection time point is active according to the continuity of the message and the interval of the message.

In an embodiment of the present invention, the determining whether the detection time point is active according to address diversity of the packet and frequency uniformity of the packet includes: judging whether the address diversity of the message is single, if so, judging whether the frequency uniformity degree of the message is uniform, and if so, determining that the detection time point is inactive; if not, determining whether the detection time point is active according to the continuity of the messages and the interval of the messages; if not, directly determining whether the detection time point is active or not according to the continuity of the messages and the interval of the messages;

the determining whether the detection time point is active according to the text persistence and the message interval includes: and judging whether the continuity of the message is continuous or not, if so, determining that the detection time point is active, otherwise, judging whether the intermittence of the message is greater than or equal to a preset threshold value or not, if so, determining that the detection time point is inactive, and if not, determining that the detection time point is active.

In an embodiment of the present invention, the determining whether the detection time point is active according to the packet information of the plurality of consecutive packets before the detection time point includes: obtaining at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message corresponding to each destination address according to the message time information and the message destination address information of a plurality of continuous messages; and determining whether the detection time point is active or not according to at least one of the continuity of the message corresponding to each destination address, the interval of the message and the frequency uniformity of the message.

In an embodiment of the present invention, when determining whether the detection time point is active according to at least one of the persistence of the packet, the interval of the packet, and the frequency uniformity of the packet corresponding to each destination address: according to the persistence of the message corresponding to each destination address, the interval of the message and the frequency uniformity degree of the message, the method comprises the following steps: judging whether the frequency of the message corresponding to each destination address is uniform, and if so, determining that the detection time point is inactive; if at least one unevenness exists, judging whether the persistence of the message corresponding to the uneven destination address is continuous, if so, determining that the detection time point is active, if not, judging whether the intermittence of the message is more than or equal to a preset threshold value, if so, determining that the detection time point is inactive, and if not, determining that the detection time point is active.

In an embodiment of the present invention, the detection time point includes a time point when an interactive packet occurs.

In an embodiment of the present invention, the message information further includes message destination address information; before determining whether the detection time point is active according to the message information of the continuous messages before the detection time point, the method further comprises the following steps: and judging whether the destination address of the message is in a preset address list, if so, discarding the message corresponding to the destination address, and if not, performing the subsequent steps.

In order to solve the above problem, the present invention further provides a device for controlling internet surfing time, which includes an obtaining module, a determining module, a counting module and a control module:

the acquisition module is used for acquiring message information of an interactive message between the detection time point of a user and the last detection time point at a certain detection time point, wherein the message information comprises message time information;

the determining module is used for determining whether the detection time point is active according to the message information of a plurality of continuous messages before the detection time point;

the counting module is used for converting the non-active state into the active state until the time period of the non-active state is changed into the internet surfing time period again, and counting the time length of all the internet surfing time periods to obtain the internet surfing time length;

the control module is used for judging whether the internet surfing time length is equal to or greater than the preset internet surfing time length or not, and if so, controlling the network of the user.

In an embodiment of the present invention, the control module is further configured to obtain at least one of a persistence of the packet, an interval of the packet, and a frequency uniformity of the packet according to the packet time information of the plurality of consecutive packets; and determining whether the detection time point is active according to at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message.

In an embodiment of the present invention, the message information further includes message destination address information; the control module is further configured to: obtaining at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message according to the message time information of a plurality of continuous messages; obtaining the address diversity of the message according to the message destination address information; and determining whether the detection time point is active or not according to at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message and the address diversity of the message.

In an embodiment of the present invention, the determining module is further configured to: judging whether the address diversity of the message is single, if so, judging whether the frequency uniformity degree of the message is uniform, and if so, determining that the detection time point is inactive; if not, determining whether the detection time point is active according to the continuity of the messages and the interval of the messages; if not, directly determining whether the detection time point is active or not according to the continuity of the messages and the interval of the messages;

the determination module is further to: and judging whether the continuity of the message is continuous or not, if so, determining that the detection time point is active, otherwise, judging whether the intermittence of the message is greater than or equal to a preset threshold value or not, if so, determining that the detection time point is inactive, and if not, determining that the detection time point is active.

In an embodiment of the present invention, the confirmation module is further configured to: obtaining at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message corresponding to each destination address according to the message time information and the message destination address information of a plurality of continuous messages; and determining whether the detection time point is active or not according to at least one of the continuity of the message corresponding to each destination address, the interval of the message and the frequency uniformity of the message.

In an embodiment of the present invention, the confirmation module is further configured to: according to the persistence of the message corresponding to each destination address, the interval of the message and the frequency uniformity degree of the message, the method comprises the following steps: judging whether the frequency of the message corresponding to each destination address is uniform, and if so, determining that the detection time point is inactive; if at least one unevenness exists, judging whether the persistence of the message corresponding to the uneven destination address is continuous, if so, determining that the detection time point is active, if not, judging whether the intermittence of the message is more than or equal to a preset threshold value, if so, determining that the detection time point is inactive, and if not, determining that the detection time point is active.

In an embodiment of the present invention, the message information further includes message destination address information; the confirmation module is further configured to, before determining whether the detection time point is active according to the message information of the plurality of continuous messages before the detection time point, determine whether a destination address of the message is in a preset address list, if so, discard the message corresponding to the destination address, and if not, perform subsequent steps.

The invention has the beneficial effects that:

the invention provides a method and a device for controlling internet surfing time, and the method for controlling the internet surfing time specifically comprises the following steps: the method comprises the steps of firstly obtaining message information of interactive messages between a user detection time point and a last detection time point at a certain detection time point, determining whether the detection time point is active according to the message information of a plurality of continuous messages before the detection time point, changing the detection time point from inactive to active until the detection time point becomes inactive again to be an internet access time period, counting the duration of all the internet access time periods to obtain the internet access duration, finally judging whether the internet access duration is equal to or greater than the preset internet access duration, and if so, controlling the network of the user. Compared with the prior art, the method and the device have the advantages that the actual internet surfing duration of the user is determined through the message information of the message instead of the specific time limit, the user can surf the internet at any time, the activity of the user can be limited after certain internet surfing time is reached, the method and the device are more intelligent and superior than the existing scheme, and the user experience degree is improved.

Drawings

Fig. 1 is a schematic flow chart of a method for controlling internet surfing time according to an embodiment of the present invention;

fig. 2 is a schematic flow chart of a method for controlling internet surfing time according to a second embodiment of the present invention;

fig. 3 is a schematic flow chart of a method for controlling internet surfing time according to a third embodiment of the present invention;

fig. 4 is a schematic flow chart of a method for controlling internet surfing time according to a fourth embodiment of the present invention;

fig. 5 is a flowchart of acquiring a MAC address of a monitored user according to a fifth embodiment of the present invention;

fig. 6 is a flowchart of a method for intercepting user message information according to a fifth embodiment of the present invention;

fig. 7 is a flowchart of a method for determining an active STA according to a fifth embodiment of the present invention;

fig. 8 is a flowchart of a method for jumping to a module according to a fifth embodiment of the present invention;

fig. 9 is a schematic structural diagram of a device for controlling internet surfing time according to a sixth embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings.

Example one

As shown in fig. 1, the method for controlling internet surfing time of the present embodiment includes the following steps:

step S101: acquiring message information of an interactive message between a user detection time point and a previous detection time point at a certain detection time point, wherein the message information comprises message time information;

in this step, the user generally sends or receives a message when surfing the internet, that is, the user interacts with the message when surfing the internet. The messages include message requests and message responses, and other messages that can represent that the user is on the internet. It should be understood that the interaction of detecting the presence of a message at the user terminal may indicate that the user may be on the internet at the time. And acquiring message information of the interactive messages, wherein the message information at least comprises message time information, so that whether the user is active or not is convenient to determine, if so, the user is likely to surf the internet, and the internet surfing time of the user is obtained according to the change between activity and inactivity. It is noted that the interactive message herein includes a sending message and/or a receiving message. It should be noted that a certain detection time point herein is a general time, and a specific time point may be a time point at which the internet access situation is desired to be known, or each time point according to a preset time interval, or a time point at which a message is interacted each time, that is, the detection may be performed constantly, that is, the time information of the message is obtained every time a message appears, so that the internet access duration may be obtained more accurately. For example, in the 5 messages before the user acquired at 12 o 'clock, the corresponding times of the five messages are 11 o' clock 58 min, 11 o 'clock 58 min 20 sec, 11 o' clock 58 min 40 sec, 11 o 'clock 59 min and 12 o' clock, respectively.

Step S102: determining whether the detection time point is active or not according to the message information of a plurality of continuous messages before the detection time point;

in this step, the message time information refers to the time of message transmission or reception, for example, if the user transmits a message at the time of 11 points 58 minutes and 20 seconds, the user is active at the detection time point. Of course, whether to be active or not may also be determined in other ways according to the message information. It should be noted that, here, the determination is made by the message information of a plurality of messages before the detection point, and in step S102, there is a possibility that there is no interactive message, and there is no message information of the message, and the determination can be made by using the message information acquired earlier. The judgment of whether the message is active or not may be to judge the activity degree of the message, and when the activity degree is higher than a certain threshold value, the message is considered to be active, and when the activity degree is lower than the certain threshold value, the message is considered to be inactive, or the message is considered to be active when the preset condition is directly met, and the message is not satisfied, and if the message is confirmed to be always interacted by the user, the message is considered to be active.

Step S103: changing from inactive to active until the time period of changing to inactive again is the internet surfing time period, and counting the duration of all the internet surfing time periods to obtain the internet surfing duration;

in this step, it should be understood that the internet access time period may be timed by a timer, for example, when the transition from inactive to active is confirmed, the timer is started to start timing, and when the inactive state is encountered again, the timing is stopped. And the internet access time period can be obtained through the message time information. As described with reference to the example of S101, if 11 point 58 corresponding to the message is active and previously inactive, and 11 point 59 is inactive, the time counting is started at 11 point 58, and stopped at 11 point 59, and the internet access time period is 1 minute, which can also be calculated by message time information 11 point 59 and 11 point 58. Of course, other ways of determining the time period for the user to surf the internet may be implemented. In this step, the internet surfing duration refers to the total internet surfing duration of the user, and when the user surfs the internet for many times, the user stops surfing the internet, i.e., the user stops surfing the internet after being active for a period of time, the user accumulates the durations of the multiple time periods to obtain the total internet surfing duration of the user. For example, it is determined that a certain user has been on the internet three times today through the transition between active and inactive states, the first time period of internet surfing is 1 hour, the second time period of internet surfing is 1 hour, and the third time period of internet surfing is 2 hours, so that the internet surfing time of the user is 4 hours.

Step S104: and judging whether the internet surfing time is equal to or greater than the preset internet surfing time, if so, controlling the network of the user.

In this step, when it is known that the total internet surfing duration of the user exceeds the preset internet surfing duration, the network of the user is controlled, for example, the internet surfing service is stopped being provided for the user. The specific preset internet surfing time can be set according to specific conditions, and different internet surfing times can be set for different users. Describing with reference to the example in step S103, if the preset internet surfing duration set by the user is 5 hours, the user may continue to use the network; if the preset internet surfing time of the user is 4 hours, the user cannot continue to use the network.

Preferably, in step S101, after the interactive message of the user is obtained, the message is stored in time sequence, that is, the message is stored and the time information of the message is recorded, so that it is convenient for later analysis whether the time corresponding to the message is active, and further the internet access duration of the user actually accessing the internet is obtained. Preferably, in order to analyze the latest messages and obtain the latest internet surfing duration, the messages may be stored in a queue. For example, the messages are stored in a storage structure similar to queues queue1 and queue2, where queue1 stores the most recent messages and queue2 stores the relatively old messages.

Preferably, in step S102, determining whether the detection time point is active according to the message information of a plurality of consecutive messages before the detection time point includes: obtaining at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message according to the message time information of a plurality of continuous messages; and determining whether the detection time point is active according to at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message. For example, the determination may be made only according to the persistence of the message, and if the persistence of the message is persistent, the message is considered to be active, and if the persistence of the message is not persistent, the message is considered to be inactive; similarly, the determination may be performed according to the interval of the message, for example, if the interval of the message is greater than a certain preset degree or a certain preset value, the message is considered to be inactive, and if not, the message is considered to be active; similarly, the frequency uniformity of the message can be judged, if the frequency uniformity of the message is uniform, the message is considered to be inactive, and if the frequency uniformity of the message is not uniform, the message is considered to be active. Of course, they may be combined arbitrarily, and when combining, the ratio or function of each may be set, or the priority may be set, and the first determination is made therein. For example, according to the message interval and the message frequency uniformity, the determination is performed according to the message frequency uniformity, and then the determination is performed according to the message interval. It should be understood that the manner of determining the degree of the jump can be varied, and the specific manner can be set according to specific situations.

Further, the message information also comprises message destination address information; determining whether the detection time point is active according to the message information of a plurality of continuous messages before the detection time point comprises: obtaining at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message according to the message time information of a plurality of continuous messages; obtaining the address diversity of the message according to the message destination address information; and determining whether the detection time point is active or not according to at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message and the address diversity of the message. Specifically, when determining whether the detection time point is active according to at least one of the persistence of the message, the interval of the message, and the frequency uniformity of the message, and the address diversity of the message: determining whether the detection time point is active according to the continuity of the message, the interval of the message, the frequency uniformity of the message and the address diversity of the message, wherein the method comprises the following steps: firstly, determining whether the detection time point is active according to the address diversity of the message and the frequency uniformity of the message, and if the detection time point is not active, determining whether the detection time point is active according to the continuity of the message and the interval of the message. Specifically, determining whether the detection time point is active according to the address diversity of the message and the frequency uniformity of the message includes: judging whether the address diversity of the message is single, if so, judging whether the frequency uniformity degree of the message is uniform, and if so, determining that the detection time point is inactive; if not, determining whether the detection time point is active according to the continuity of the messages and the interval of the messages; if not, determining whether the detection time point is active or not directly according to the continuity of the message and the interval of the message; determining whether the detection time point is active according to the persistence of the messages and the interval of the messages comprises the following steps: and judging whether the continuity of the message is continuous or not, if so, determining that the detection time point is active, otherwise, judging whether the intermittence of the message is greater than or equal to a preset threshold value or not, if so, determining that the detection time point is inactive, and if not, determining that the detection time point is active.

Preferably, in step S102, determining whether the detection time point is active according to the message information of a plurality of consecutive messages before the detection time point includes: obtaining at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message corresponding to each destination address according to the message time information and the message destination address information of a plurality of continuous messages; and determining whether the detection time point is active or not according to at least one of the continuity of the message corresponding to each destination address, the interval of the message and the frequency uniformity of the message. Specifically, when determining whether the detection time point is active according to at least one of the persistence of the message, the interval of the message, and the frequency uniformity of the message corresponding to each destination address: according to the persistence of the message corresponding to each destination address, the interval of the message and the frequency uniformity degree of the message, the method comprises the following steps: judging whether the frequency of the message corresponding to each destination address is uniform, and if so, determining that the detection time point is inactive; if at least one unevenness exists, judging whether the persistence of the message corresponding to the uneven destination address is continuous, if so, determining that the detection time point is active, if not, judging whether the intermittence of the message is more than or equal to a preset threshold value, if so, determining that the detection time point is inactive, and if not, determining that the detection time point is active.

Because sometimes the user has some background programs in the interactive messages, but the user does not surf the internet at this time. In order to better determine that the user is surfing the internet, the rules of the front and rear messages can be obtained according to the message time information, and then whether the user is surfing the internet is judged according to the rules of the front and rear messages. It should be understood that the rules of the messages herein are some characteristics that can reflect the message receiving or sending of the user when the user is on the internet, and these characteristics can experience the activity of the user using the network, that is, more accurately determine whether the time corresponding to the message is active. Specifically, the determining whether the check time point is active according to the message information of the message includes: obtaining the frequency of the message and/or the continuity of the message according to the message time information of the message; and judging whether the checking time point is active or not according to the frequency of the message and/or the continuity of the message.

Further, the user may be on some specific websites or use some resources of the intranet, and the checking time point is the network, but the user is working, especially for students, and some networks are learning websites to avoid the students being addicted to the network for entertainment. For example, to avoid calculating the normal use network of the user to the limited internet access time, the addresses of the websites may be added into a specific preset specific address list, and when the destination address of the message of the user is the address for accessing the website, the message is determined to be inactive, that is, the message is not determined, and the message is excluded.

Preferably, before the step 102, the message information further includes message destination address information; before determining whether the detection time point is active according to the message information of a plurality of continuous messages before the detection time point, the method comprises the following steps: judging whether the destination address of the message is in a preset address list, excluding the message corresponding to the destination address in the preset address list, and performing subsequent steps on the message which is not in the preset address list. Therefore, the user can be better shown to surf the internet, and limited surfing is realized, and the user experience is improved.

Preferably, in step S104, the network of the user may be controlled, and the destination address in the message request of the user may be modified, and the user jumps to a specified page or a gateway page of the router to display the network disconnection prompting information. Therefore, the user can be reminded of having too long internet surfing time and reasonably arranging own time by paying attention to rest. Further, after stopping providing the network service, the method further comprises the following steps: and starting a skip timer, recording time, closing a skip process and adjusting the original preset internet surfing duration after the rest time is reached, and retransmitting the message information sent by the user before. Therefore, the user can surf the internet after the user surfs the internet for a period of time, so that the reference of an administrator is reduced, the flexibility of surfing the internet is provided, and the experience degree of the user is enhanced.

Example two

In this embodiment, it is described by taking an example of determining whether a check time point is active according to the frequency of a message, as shown in fig. 2, a method for controlling internet access time in this embodiment includes the following steps:

step S201: receiving a message in a certain time window; the message comprises a message sent by the user client and/or received by the user client;

step S202: judging whether the destination addresses of the messages are in a preset list, if so, entering step S203, and if not, entering step S204;

step S203: excluding the message, which means that some specific access may not be included in the limitation of the internet access time;

step S204: judging whether the frequency uniformity degree of the message is uniform, if so, entering step S205, and if not, entering step S206;

step S205: the window time client is not active, and may be a message automatically interacted by some programs running in the background, which indicates that although the message exists, the user does not actually surf the internet.

Step S206: the window time is active, and the non-uniform message interaction shows that the user may actually surf the internet at the moment, and the interaction of various messages is performed during operation and access.

Further, when there are multiple background running programs, the message interaction time of each program is different, which leads to the error being considered as active, in order to solve the problem, the message information also includes message destination address information, and in the above step S204-step S206, it can be judged whether the frequency uniformity degree of the message corresponding to each destination address is uniform, if so, the check time point is inactive; the check point in time is active if there is at least one non-uniformity.

Further, sometimes, some messages may be received midway when the QQ program runs in the background, for example, some recommended news information may be received when the QQ program runs in the background, which may cause the frequency uniformity of the original message to be uneven, in order to avoid that the situation is considered to be active by mistake, specifically, when the frequency uniformity of the message and/or the persistence of the message are obtained according to the message time information of the message, a time interval of obtaining the message according to the message time information of the message is also included, when the frequency uniformity is uneven, whether the time interval of the message is less than or equal to a preset threshold value is also included, if so, the check time point is active, otherwise, the check time point is inactive.

EXAMPLE III

In this embodiment, an example of determining whether the check time point is active according to the persistence of the packet is described, as shown in fig. 3, the method for controlling the internet access time in this embodiment includes the following steps:

step S301: receiving a message in a certain time window; the message comprises a message sent by the user client and/or received by the user client;

step S302: judging whether the destination addresses of the messages are in a preset list, if so, entering step S203, and if not, entering step S204;

step S303: excluding the message, which means that some specific access may not be included in the limitation of the internet access time;

step S304: judging whether the continuity of the message is continuous or not, if so, continuing to step S305, and if not, continuing to step S306;

step S305: the window time client is active, and the message continuously indicates that the message is always interacted, indicating that the user uses the network.

Step S306: the window time the client is inactive and the message is not interacting all the time, indicating that the user may not be using the network and thus not interacting with the message.

Further, sometimes, a user may interact with a message, only a certain time interval may be set between the messages, the message interaction does not exist all the time, but the user is still using the network, to avoid that the situation is considered as inactive by mistake, specifically, when the frequency of the message and/or the duration of the message are obtained according to the message time information of the message, the time interval of the message is obtained according to the message time information of the message, when the message is not continued, the time interval of the message is judged whether the time interval of the message is less than or equal to a preset threshold value, if so, the check time point is active, otherwise, the check time point is inactive.

Example four

In this embodiment, it is described by taking an example of determining whether the check time point is active according to the frequency uniformity of the message and the persistence of the message, as shown in fig. 4, the method for controlling the internet access time in this embodiment includes the following steps:

step S401: receiving a message in a certain time window; the message comprises a message sent by the user client and/or received by the user client;

step S402: judging whether the destination addresses of the messages are in a preset list or not, if so, entering step S403, and if not, entering step S404;

step S403: excluding the message, which means that some specific access may not be included in the limitation of the internet access time;

step S404: judging whether the frequency uniformity degree of the message is uniform, if so, entering a step S405, and if not, entering a step S406;

step S405: the window time client is not active, and may be a message automatically interacted by some programs running in the background, which indicates that although the message exists, the user does not actually surf the internet.

Step S406: judging whether the continuity of the message is continuous or not, if so, continuing to step S407, and if not, continuing to step S408;

step S407: the window time client is active, and the message continuously indicates that the message is always interacted, indicating that the user uses the network.

Step S408: the window time the client is inactive and the message is not interacting all the time, indicating that the user may not be using the network and thus not interacting with the message.

Further, when there are multiple background running programs, the message interaction time of each program is different, which leads to the error being considered as active, in order to solve the problem, the message information also includes message destination address information, and in the above step S404-step S408, it can be judged whether the frequency uniformity degree of the message corresponding to each destination address is uniform, if so, the check time point is inactive; the check point in time is active if there is at least one non-uniformity.

Further, sometimes, a user may interact with a message, only a certain time interval may be set between the messages, the message interaction does not exist all the time, but the user is still using the network, to avoid that the situation is considered as inactive by mistake, specifically, when the frequency uniformity degree of the message and/or the persistence of the message are obtained according to the message time information of the message, the time interval of the message is obtained according to the message time information of the message, when the message is not persistent, the time interval of the message is judged whether the time interval of the message is less than or equal to a preset threshold, if so, the check time point is active, otherwise, the check time point is inactive.

EXAMPLE five

In order to make the module composition, technical scheme, purpose and advantages of the present invention clearer, the flow and technical scheme of the present invention are explained in detail, in this embodiment, the cumulative internet time of the user is mainly judged by calculating the user activity, duration and interval time of the wired or wifi access router, that is, the device for controlling the internet time is explained as the router. When a certain threshold value is reached, namely the preset internet surfing duration in the first embodiment, all network requests of the user are automatically jumped to a certain specified page so as to achieve the purpose of preventing addiction; and recovering all network requests of the user after the anti-addiction execution is finished or a specific instruction is input. The invention can make users who access the hot spot reasonably arrange the internet surfing time completely and intelligently, and prevent the enthusiasm of the network, and the detailed description is provided below by combining the figures 5-8.

As shown in fig. 5, the figure is a schematic flow diagram for setting a restriction on a user, that is, the cumulative time for the user to surf the internet is calculated, and the cumulative time may not only be for all client STAs accessing a hotspot, but also be for a single STA, that is, all network requests of other STAs accessing may not be affected. It should be understood that the module can support the function of recording new STA information, and this module records monitored STA information, including MAC, HostNmae, etc. When the user starts the function, the router board needs to initialize a database DB1, the user inputs the information such as the MAC address of the STA to be accessed, and stores the information in the database DB1, the process is as shown in fig. 5, and includes the following steps:

step S501: initializing each module;

step S502: a user terminal initiates a request, namely a client of a user establishes connection with a router;

step S503: inputting the MAC address of a certain device, namely inputting the MAC address of the device corresponding to the client;

step S504: judging whether the MAC address is repeated, if so, entering a step S505; if not, it indicates that it is not stored, go to step S506;

step S505: discarding the MAC address, which indicates that the setting is already performed before and the setting is unnecessary to be repeated;

step S506: setting the activable time M and the limited time N for the client corresponding to the MAC address, namely setting the time length N for which the client corresponding to the MAC address can surf the internet and the specific surf the internet in what time period M;

step S507: the information corresponding to the MAC address and the specifically set activable time M and the limitation time N are stored in the database DB 1.

Secondly, storing the IP message requests initiated by a single STA, in order to ensure that the user is an active user, storing the IP message requests initiated by the STA according to a time sequence, and respectively storing the IP message requests in a queue1 and a queue2, wherein the queue1 stores the latest message information, and the queue2 stores the message information overflowing after the queue1 is full, namely the relatively old message information. The following can be described by way of example: assuming that the queue1 capacity is m and the queue2 capacity is n, i.e.:

queue1：q1,q2,q3.....qm

queue2：Q1,Q 2,Q 3.....Q n

storing the latest message requests initiated by the STA into Q1, Q2 and Q q3... qm in the queue1, transferring Q1 into the queue2 when the queue1 is full, namely storing Q1 into Q1, and so on, discarding the old message when the queue2 is full, wherein the two queues can be used for calculating the frequency of the message sent by the user. The same is true for other message storage methods transmitted by the STA. The specific process is shown in fig. 6 as a flow chart, and comprises the following steps:

step S601: receiving an IP message sent by a client STA; the IP message received by the client may also be received, or the IP message sent and received by the client may also be received, and may be specifically selected according to specific situations;

step S602: judging whether the STA comes from a specified client; thus, the message of the detected client, namely the limited client, is mainly processed; if not, go to step S603; if yes, go to step S604;

step S603: the message is lost;

step S604: storing the message into a queue1, and storing the message according to a time sequence, such as q1, q2, q3... qm;

step S605: judging whether the queue1 is full, if so, going to step S606, and if not, going back to step S604;

step S606: storing the message overflowing from the queue1 into the queue according to a time sequence, for example, if Q1 overflows, storing Q1 into the queue2 as Q1;

step S607: judging whether the queue2 is full, if so, going to step S608, and if not, going back to step S606;

step S608: discarding the message stored first.

Thirdly, analyzing the message sent by the designated STA, as shown in fig. 7, includes the steps of:

step S701: a message received in a certain time window, namely a message detected at a certain detection point;

step S702: recording the time window timei and a starting timer, wherein the timer is used for timing the active time period;

step S703: judging whether the destination address of the message is single and is not in the special address list; if yes, go to step S704; if not, go to step S706;

step S704: judging whether the message is uniform, if so, entering step S705; if not, go to step S706;

step S705: consider the client STA inactive during this time window;

step S706: calculating the persistence of the message;

step S707: judging whether the continuity of the message is continuous, if so, entering the step S7011; if not, go to step S708;

step S708: obtaining the time interval of the message;

step S709: judging whether the time interval is greater than a preset threshold value, and if so, entering a step S7010; otherwise, go to step S7011;

step S7011: consider the client STA inactive during this time window;

step S7012: and accumulating the active time length in the time window into the total active time T, namely the total internet surfing time length.

It is worth noting that the activity analysis here indicates whether activity is active or not. To determine whether the STA is active, this part includes at least two key points: the activity analysis process module and the timing process module. The activity of the STA is time-sequential, so the method of calculating the cumulative internet access time of the user needs to consider the time factor, i.e. a timing module is needed. Factors of reference for STA liveness include: the message request continuity, the message request interval, the message request frequency uniformity, the message request destination address diversity, etc. The continuous MA meaning of the message request is whether the message is sent all the time, the interval MI meaning of the message request is the interval time of the last message and a new message, the uniform MF meaning of the frequency of the message request is whether the frequency of the message sending is basically consistent, and the destination address diversity MD meaning of the message request is whether the message from the STA is sent to a plurality of destination addresses.

Assume messages from STA messages 1, message2, message3 … message i … message. These messages are stored in the queues queue1 and queue2, and the activity of the STA in a certain Time window is calculated according to the messages according to the Time0 of the Time window.

Namely, the activity of the STA in a single time window timei is in direct proportion to MA (message request persistence), in inverse proportion to MI (message request interval), in direct proportion to MD (message request destination address diversity), and in inverse proportion to MF (message request frequency uniformity). Wherein the persistence MA of the message request calculates whether the messagei message can be received.

The interval MI requested by the message calculates the interval between messagei and messagei +1, if a certain threshold value is exceeded, the message is considered to be interrupted, and the interruption time is calculated. The destination address diversity MD of the message request compares IP segments in the messagei message and records different IPs. The degree of uniformity MF of the frequency requested by the message calculates the difference in size between messagei and messagei +1 within the time window. If the message destinations of the STA are many, the frequency of the message request can be ignored.

And when the plurality of time windows timei of the STA are all in an active state, namely the active time of the STA is equal to the sum of all the time windows timei, and after the anti-addiction control time is reached, message request skipping is carried out. The flow chart of the algorithm is shown in fig. 8, and comprises the following steps:

step S801: filtering messages sent by a client STA;

step S802: receiving the MAC address of the STA of the client;

step S803: judging whether the message is from the client STA which limits the network access according to the MAC address of the client STA, if so, entering the step S804; if not, go to step S805;

step S804: discarding the message, namely not limiting the client to access the internet, without processing the message;

step S805: modifying the destination address of the IP section, namely processing the sent message to limit the Internet access because the IP section is the client for limiting the Internet access;

step S806: jumping to a gateway or a designated webpage, namely controlling the Internet and prompting the Internet;

step S807: starting a skip timer to time;

step S808: judging whether the rest time is over, namely judging whether the Internet is limited for a period of time; if so, go to step S809; if not, go back to step S806;

step S809: and closing the jump, and retransmitting the message cached before, namely adjusting the limited internet surfing time so that the user can continue to surf the internet.

It is worth noting that, the message request of the STA with long accumulated internet access time (total active time T > limit time T) is skipped, all messages are firstly screened, the message request sent by the specified STA is obtained, the destination address of the IP segment in the message request is modified, and the destination address is skipped to a specified page or a gateway page of a router (CPE/UFI), so as to prompt the user to take a rest and protect eyesight. And meanwhile, starting a skip timer, recording time, closing the skip process when the rest time is reached, and retransmitting the message information sent by the user before.

It is to be noted that, in this embodiment, on one hand, the technical solution includes a user information obtaining and recording function, and obtains accessed state information, which includes information such as hostname, AC, IP, and the like; providing a database table DB for storing the MAC of the monitored equipment, and allowing a user to define the MAC address; and may define an anti-addiction time N. In one aspect, user initiated and received message requests are received and stored in a storage structure similar to queues queue1 and queue2, where queue1 stores the most recent messages and queue2 stores the relatively old messages; on one hand, an STA active time analysis process module is started, whether the user is online or not is judged according to message information sent by the user, and indexes comprise message information contained in the queue1 and the queue2, the number and frequency of sent messages, duration and interval time. Therefore, the accumulated internet surfing time of the user can be calculated. The specific calculation method will be described later. On one hand, a timing process module is started to record information such as initial message sending time, maximum message sending time interval, last message sending time and the like sent by a user. On one hand, the request skip function carries out IP skip on the message information sent by the user, and when the accumulated internet surfing time of the accessed user is too long, all the message information or specific message information sent by the user is skipped to prompt the user to take a rest and protect eyesight.

EXAMPLE six

The device 901 for controlling internet surfing time in this embodiment includes an obtaining module 9011, a determining module 9012, a counting module 9013, and a control module 9014: the acquiring module 9011 is configured to acquire, at a certain detection time point, message information of an interactive message between the detection time point and a previous detection time point of a user, where the message information includes message time information; the determining module 9012 is configured to determine whether the detection time point is active according to the message information of the multiple continuous messages before the detection time point; the counting module 9013 is configured to change from inactive to active until the period of time that becomes inactive again is an internet access period of time, count durations of all internet access periods of time to obtain an internet access duration, and the control module 9014 is configured to determine whether the internet access duration is equal to or greater than a preset internet access duration, and if so, control the network of the user.

Further, the control module 9014 is further configured to obtain at least one of continuity of the packet, granularity of the packet, and frequency uniformity of the packet according to the packet time information of the plurality of consecutive packets; and determining whether the detection time point is active according to at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message.

Further, the message information also comprises message destination address information; the control module 9014 is further configured to: obtaining at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message according to the message time information of a plurality of continuous messages; obtaining the address diversity of the message according to the message destination address information; and determining whether the detection time point is active or not according to at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message and the address diversity of the message.

Further, the determining module 9012 is further configured to: judging whether the address diversity of the message is single, if so, judging whether the frequency uniformity degree of the message is uniform, and if so, determining that the detection time point is inactive; if not, determining whether the detection time point is active according to the continuity of the messages and the interval of the messages; if not, directly determining whether the detection time point is active or not according to the continuity of the messages and the interval of the messages; the determining module 9012 is further configured to: and judging whether the continuity of the message is continuous or not, if so, determining that the detection time point is active, otherwise, judging whether the intermittence of the message is greater than or equal to a preset threshold value or not, if so, determining that the detection time point is inactive, and if not, determining that the detection time point is active.

Further, the confirmation module is further configured to: obtaining at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message corresponding to each destination address according to the message time information and the message destination address information of a plurality of continuous messages; and determining whether the detection time point is active or not according to at least one of the continuity of the message corresponding to each destination address, the interval of the message and the frequency uniformity of the message.

Further, the confirmation module is further configured to: according to the persistence of the message corresponding to each destination address, the interval of the message and the frequency uniformity degree of the message, the method comprises the following steps: judging whether the frequency of the message corresponding to each destination address is uniform, and if so, determining that the detection time point is inactive; if at least one unevenness exists, judging whether the persistence of the message corresponding to the uneven destination address is continuous, if so, determining that the detection time point is active, if not, judging whether the intermittence of the message is more than or equal to a preset threshold value, if so, determining that the detection time point is inactive, and if not, determining that the detection time point is active.

Further, the message information also comprises message destination address information; the confirmation module is further configured to, before determining whether the detection time point is active according to the message information of the plurality of continuous messages before the detection time point, determine whether a destination address of the message is in a preset address list, if so, discard the message corresponding to the destination address, and if not, perform subsequent steps.

It will be understood by those skilled in the art that all or part of the steps of the above methods may be implemented by instructing the relevant hardware through a program, and the program may be stored in a computer readable storage medium, such as a read-only memory, a magnetic or optical disk, and the like. Alternatively, all or part of the steps of the above embodiments may be implemented using one or more integrated circuits. Accordingly, each module/unit in the above embodiments may be implemented in the form of hardware, and may also be implemented in the form of a software functional module. The present invention is not limited to any specific form of combination of hardware and software.

The above embodiments are merely to illustrate the technical solutions of the present invention and not to limit the present invention, and the present invention has been described in detail with reference to the preferred embodiments. It will be understood by those skilled in the art that various modifications and equivalent arrangements may be made without departing from the spirit and scope of the present invention and it should be understood that the present invention is to be covered by the appended claims.

Claims (14)

1. A method for controlling internet surfing time is characterized by comprising the following steps:

acquiring message information of an interactive message between the detection time point of a user and the last detection time point at a certain detection time point, wherein the message information comprises message time information;

determining whether the detection time point is active according to the message information of a plurality of continuous messages before the detection time point;

changing from inactive to active until the time period of changing to inactive again is the internet surfing time period, and counting the duration of all the internet surfing time periods to obtain the internet surfing duration;

judging whether the internet surfing time is equal to or greater than preset internet surfing time, if so, controlling the network of the user;

the determining whether the detection time point is active according to the message information of the plurality of continuous messages before the detection time point includes: obtaining at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message according to the message time information of a plurality of continuous messages; and determining whether the detection time point is active according to at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message.

2. The method according to claim 1, wherein the message information further includes message destination address information; the determining whether the detection time point is active according to the message information of the plurality of continuous messages before the detection time point includes: obtaining at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message according to the message time information of a plurality of continuous messages; obtaining the address diversity of the message according to the message destination address information; and determining whether the detection time point is active or not according to at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message and the address diversity of the message.

3. The method according to claim 2, wherein when determining whether the detection time point is active according to at least one of the persistence of the message, the interval of the message, and the frequency uniformity of the message, and the address diversity of the message, the method comprises: determining whether the detection time point is active according to the continuity of the message, the interval of the message, the frequency uniformity of the message and the address diversity of the message, wherein the determination comprises the following steps: firstly, determining whether the detection time point is active according to the address diversity of the message and the frequency uniformity degree of the message, and if the detection time point is not active, determining whether the detection time point is active according to the continuity of the message and the interval of the message.

4. The method according to claim 3, wherein the determining whether the detection time point is active according to the address diversity of the message and the frequency uniformity of the message comprises: judging whether the address diversity of the message is single, if so, judging whether the frequency uniformity degree of the message is uniform, and if so, determining that the detection time point is inactive; if not, determining whether the detection time point is active according to the continuity of the messages and the interval of the messages; if not, directly determining whether the detection time point is active or not according to the continuity of the messages and the interval of the messages;

the determining whether the detection time point is active according to the text persistence and the message interval includes: and judging whether the continuity of the message is continuous or not, if so, determining that the detection time point is active, otherwise, judging whether the intermittence of the message is greater than or equal to a preset threshold value or not, if so, determining that the detection time point is inactive, and if not, determining that the detection time point is active.

5. The method according to claim 2, wherein the determining whether the detection time point is active according to the message information of the plurality of continuous messages before the detection time point comprises: obtaining at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message corresponding to each destination address according to the message time information and the message destination address information of a plurality of continuous messages; and determining whether the detection time point is active or not according to at least one of the continuity of the message corresponding to each destination address, the interval of the message and the frequency uniformity of the message.

6. The method according to claim 5, wherein when determining whether the detection time point is active according to at least one of the persistence of the message, the interval of the message, and the frequency uniformity of the message corresponding to each destination address, the method comprises: according to the persistence of the message corresponding to each destination address, the interval of the message and the frequency uniformity degree of the message, the method comprises the following steps: judging whether the frequency of the message corresponding to each destination address is uniform, and if so, determining that the detection time point is inactive; if at least one unevenness exists, judging whether the persistence of the message corresponding to the uneven destination address is continuous, if so, determining that the detection time point is active, if not, judging whether the intermittence of the message is more than or equal to a preset threshold value, if so, determining that the detection time point is inactive, and if not, determining that the detection time point is active.

7. The method according to any of claims 1-6, wherein the detection time point comprises a time point when an interactive message occurs.

8. The method for controlling internet surfing time according to any one of claims 1-6, wherein said message information further comprises message destination address information; before determining whether the detection time point is active according to the message information of the continuous messages before the detection time point, the method further comprises the following steps: and judging whether the destination address of the message is in a preset address list, if so, discarding the message corresponding to the destination address, and if not, performing the subsequent steps.

9. The device for controlling the internet surfing time is characterized by comprising an acquisition module, a determination module, a statistic module and a control module:

the acquisition module is used for acquiring message information of an interactive message between the detection time point of a user and the last detection time point at a certain detection time point, wherein the message information comprises message time information;

the determining module is used for determining whether the detection time point is active according to the message information of a plurality of continuous messages before the detection time point;

the counting module is used for converting the non-active state into the active state until the time period of the non-active state is changed into the internet surfing time period again, and counting the time length of all the internet surfing time periods to obtain the internet surfing time length;

the control module is used for judging whether the internet surfing time is equal to or greater than preset internet surfing time, and if so, controlling the network of the user;

the control module is further used for obtaining at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message according to the message time information of the plurality of continuous messages; and determining whether the detection time point is active according to at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message.

10. The apparatus for controlling internet surfing time according to claim 9, wherein said message information further comprises message destination address information; the control module is further configured to: obtaining at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message according to the message time information of a plurality of continuous messages; obtaining the address diversity of the message according to the message destination address information; and determining whether the detection time point is active or not according to at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message and the address diversity of the message.

11. The apparatus for controlling internet surfing time of claim 10 wherein said determining module is further configured to: judging whether the address diversity of the message is single, if so, judging whether the frequency uniformity degree of the message is uniform, and if so, determining that the detection time point is inactive; if not, determining whether the detection time point is active according to the continuity of the messages and the interval of the messages; if not, directly determining whether the detection time point is active or not according to the continuity of the messages and the interval of the messages;

the determination module is further to: and judging whether the continuity of the message is continuous or not, if so, determining that the detection time point is active, otherwise, judging whether the intermittence of the message is greater than or equal to a preset threshold value or not, if so, determining that the detection time point is inactive, and if not, determining that the detection time point is active.

12. The apparatus for controlling internet surfing time of claim 9 wherein said determining module is further configured to: obtaining at least one of the continuity of the message, the interval of the message and the frequency uniformity of the message corresponding to each destination address according to the message time information and the message destination address information of a plurality of continuous messages; and determining whether the detection time point is active or not according to at least one of the continuity of the message corresponding to each destination address, the interval of the message and the frequency uniformity of the message.

13. The apparatus for controlling internet surfing time of claim 12 wherein said determining module is further configured to: according to the persistence of the message corresponding to each destination address, the interval of the message and the frequency uniformity degree of the message, the method comprises the following steps: judging whether the frequency of the message corresponding to each destination address is uniform, and if so, determining that the detection time point is inactive; if at least one unevenness exists, judging whether the persistence of the message corresponding to the uneven destination address is continuous, if so, determining that the detection time point is active, if not, judging whether the intermittence of the message is more than or equal to a preset threshold value, if so, determining that the detection time point is inactive, and if not, determining that the detection time point is active.

14. The apparatus for controlling internet surfing time according to any one of claims 9-13, wherein said message information further comprises message destination address information; the determining module is further configured to determine whether a destination address of the packet is in a preset address list before determining whether the detection time point is active according to packet information of a plurality of consecutive packets before the detection time point, if so, discard the packet corresponding to the destination address, and if not, perform subsequent steps.

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