CN110602320B - Message sending monitoring method and device based on social software - Google Patents

Abstract

The invention provides a message sending monitoring method based on social software, which comprises the following steps: when the social software is in a chat mode and the sent message is an emoticon, judging whether the emoticon is sent abnormally or not; judging whether the current user is an infant or not; and when the emoticon is abnormally sent and the current user uses the baby, sending a prompt signal. Correspondingly, the invention further provides a message sending monitoring device based on the social software. The invention can send out prompt signals in time when the baby uses the parent mobile phone to send out the emoticons in disorder, is beneficial to parents to stop the baby in time, and prevents adverse effects caused by the fact that the baby continuously sends out messages in disorder.

Description

Message sending monitoring method and device based on social software

Technical Field

The invention relates to the field of mobile terminals, in particular to a message sending monitoring method and device based on social software.

Background

At present, mobile devices of mobile phones are increasingly popularized, and various social software such as WeChat and QQ become software which is very frequently used in daily life of people. In daily life, some children often use parents' mobile phones, and easily send messages in a mess in the WeChat of the parents, especially the working groups of the parents, so that adverse effects are caused.

Disclosure of Invention

The invention aims to at least solve one of the technical problems in the prior art, and provides a message sending monitoring method and device based on social software.

In order to solve one of the above technical problems, the present invention provides a message sending monitoring method based on social software, including:

when the social software is in a chat mode and the sent message is an emoticon, judging whether the emoticon is sent abnormally or not;

judging whether the current user is an infant or not;

and when the emoticon is abnormally sent and the current user uses the baby, sending a prompt signal.

Optionally, the determining whether the sending of the emoticon is abnormal includes:

judging whether the current chat mode of the social software is a preset group chat mode or not;

when the social software is currently in the preset group chat mode, detecting the number of the emoticons continuously sent and the duration of the emoticons continuously sent;

and when the number of the sent emoticons in the preset time length exceeds the preset number, determining that the emoticons are sent abnormally.

Optionally, the determining whether the current user is a baby includes:

detecting the touch screen contact area when the emoticon is sent each time within the preset time;

and comparing the touch screen contact area when the emoticon is sent each time with a preset contact area, and if the touch screen contact area when the emoticon is sent each time in the preset time is smaller than the preset contact area, determining that the current user is an infant.

Optionally, the preset contact area is 2/3 of a regular contact area; the conventional contact area is obtained according to the following steps:

acquiring the contact area between a touch control pen and a screen;

acquiring the contact area of the input method keyboard area when the input method keyboard area is clicked each time in the non-parent-child time period of each day in N days as a reference contact area; n is a preset integer more than 1;

and calculating the conventional contact area according to the contact area of the stylus and the screen and each reference contact area.

Optionally, calculating the normal contact area according to the contact area of the stylus with the screen and each reference contact area includes:

for a plurality of reference contact areas in the non-parent-child time periods of any day, removing the reference contact areas with the size ranging from 0.9S to 1.1S from the plurality of reference contact areas in the non-parent-child time periods of each day through primary screening; removing the largest M reference contact areas and the smallest P reference contact areas in the residual reference contact areas after primary screening by secondary screening; calculating the average value of the residual reference contact areas after re-screening to be used as the daily average contact area;

removing the largest Q daily average contact areas and the smallest R daily average contact areas in the daily average contact areas of N days, and calculating the average value of the remaining daily average contact areas as the conventional contact area;

wherein, S is the contact area between the stylus and the screen, and M, P, Q, R are all preset integers greater than 1.

Correspondingly, the invention also provides a message sending monitoring device based on social software, which comprises:

the first judgment module is used for judging whether emoticon sending abnormity occurs or not when the social software is in a chat mode and the sent message is the emoticon;

the second judgment module is used for judging whether the current user is an infant or not;

and the prompting module is used for sending a prompting signal when the first judging module determines that the sending of the emoticon is abnormal and the second judging module judges that the current user uses the baby.

Optionally, the first determining module includes:

the first judging unit is used for judging whether the current chat mode of the social software is a preset group chat mode or not;

the first detection unit is used for detecting the number of the emoticons continuously sent and the duration of the emoticons continuously sent when the first judgment unit judges that the social software is currently in a preset group chat mode;

and the determining unit is used for determining that the sending of the emoticons is abnormal when the number of the sent emoticons in the preset time length exceeds the preset number.

Optionally, the second determining module includes:

the second detection unit is used for detecting the touch screen contact area when the emoticon is sent every time within the preset time length;

the comparison unit is used for comparing the touch screen contact area when the emoticon is sent each time with a preset contact area;

and a second judging unit, configured to determine that the current user is an infant when the touch screen contact area is smaller than a preset contact area each time the emoticon is sent within the predetermined time.

Optionally, the preset contact area is 2/3 of a regular contact area; the monitoring device further comprises: a computing module, the computing module comprising:

the first acquisition unit is used for acquiring the contact area between the touch pen and the screen;

the second acquisition unit is used for acquiring the contact area of the input method keyboard area when the input method keyboard area is clicked every time in the non-parent-child time period of each day in N days as a reference contact area; n is a preset integer more than 1;

and the calculating unit is used for calculating the conventional contact area according to the contact area of the stylus and the screen and each reference contact area.

Optionally, the computing unit comprises: a first calculation subunit and a second calculation subunit,

for a plurality of reference contact areas in the non-parent-child time periods of any day, the first calculating subunit is configured to remove, by primary screening, the reference contact area with a size in a range from 0.9 × S to 1.1 × S from the plurality of reference contact areas in the non-parent-child time periods of each day; removing the largest M reference contact areas and the smallest P reference contact areas in the residual reference contact areas after primary screening by secondary screening; calculating the average value of the residual reference contact areas after re-screening to be used as the daily average contact area;

the second calculating subunit is configured to remove the largest Q daily average contact areas and the smallest R daily average contact areas from the daily average contact areas for N days, and calculate an average of the remaining daily average contact areas as the regular contact area;

wherein S is a contact area between the stylus and the screen, and M, P, Q, R are integers greater than 1.

In the message sending monitoring method and device provided by the embodiment of the invention, when the current user is detected to be a child and the condition that the emoticon is sent abnormally is detected, the fact that the child uses the mobile phone of the parent to send the emoticon in a mess is indicated, so that a prompt signal is sent out in time, the prompt signal is used for arousing the attention of the child and the parent, the parent can timely stop the child, and adverse effects caused by the fact that the child continues sending the messages in a mess are prevented.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

fig. 1 is a flowchart of a social software-based message sending monitoring method according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of an alternative implementation of determining whether an emoticon is abnormally sent;

fig. 3 is a flowchart of an alternative implementation of step S2 provided in the embodiment of the present invention;

FIG. 4 is a flowchart of a conventional contact area obtaining method provided in an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a message sending monitoring device based on social software according to an embodiment of the present invention;

fig. 6 is a schematic diagram of an alternative structure of a first determining module according to an embodiment of the present invention;

fig. 7 is a schematic diagram of an alternative structure of a first determining module according to an embodiment of the present invention;

fig. 8 is another schematic structural diagram of a message sending monitoring device based on social software according to an embodiment of the present invention.

Detailed Description

The following detailed description of embodiments of the invention refers to the accompanying drawings. It should be understood that the detailed description and specific examples, while indicating the present invention, are given by way of illustration and explanation only, not limitation.

Aiming at the condition that a child uses a parent mobile phone to send messages in a social software randomly, the embodiment of the invention provides a message sending monitoring method based on the social software, wherein the social software is chat software such as WeChat and QQ. Fig. 1 is a flowchart of a social software-based message sending monitoring method according to an embodiment of the present invention, where as shown in fig. 1, the message sending monitoring method includes:

and S1, when the social software is in the chat mode and the sent message is the emoticon, judging whether the emoticon is sent abnormally.

The emoticon is an emoticon picture sent in the process of utilizing software such as WeChat and QQ. The expression symbol sending abnormity refers to that the expression symbol sending condition can not occur in the normal chat process, but the expression packet is sent in a messy way; for example, when a chat group is a work group, emoticons are transmitted in a large amount in a short time.

And S2, judging whether the current user is a child.

In step S2, it may be determined whether the current user is an infant by face detection, area of contact with the screen detection, or the like. The term "young child" as used herein means especially a child under the age of 10.

And S3, when the emoticon is abnormally sent and the current user uses the baby, sending a prompt signal.

The prompt signal may be a sound signal, or may be a vibration signal for controlling the vibration of the terminal where the social software is located.

It should be noted that the sequence of steps S1 to S3 is not particularly limited, and step S2 may be performed after step S1 or simultaneously with step S1.

In the message sending monitoring method of the embodiment of the invention, when the current user is detected to be a child and the condition that the emoticon is sent abnormally is detected, the current user is indicated to be sent by the child in a mess by using the mobile phone of the parent, so that a prompt signal is sent, the prompt signal is used for arousing the attention of the child and the parent, the parent can timely stop the child, and adverse effects caused by the fact that the child continues sending the message in a mess are prevented.

Fig. 2 is a schematic diagram of an alternative implementation manner of determining whether an emoticon is abnormal in transmission, and as shown in fig. 2, determining whether an emoticon is abnormal in transmission includes:

s11, judging whether the current chat mode of the social software is a preset group chat mode; if yes, the process proceeds to step S12.

The preset group chat mode can be particularly the group chat of a working group. Generally, each group in the social software is provided with a tag, such as "friend group", "co-worker group", "work group", and so on, and step S11 may determine whether the group is currently in the group chat mode of the work group by detecting the tag, for example, if the tag of the group includes the tag of "co-worker", "work", and so on, it is determined that the group is currently in the preset group chat mode. Or, a tag setting request may be generated in advance for a user to set a tag of the working group in advance, and when it is detected that the tag of the current group is consistent with the tag set in advance by the user in the message sending monitoring process, it is determined that the current chat mode is the group chat mode of the working group.

And S12, detecting the number of the emoticons sent continuously and the time length of the emoticons sent continuously.

S13, judging whether the number of the sent emoticons in the preset time length exceeds the preset number, and if so, determining that the emoticons are sent abnormally.

The preset number and the preset duration can be set according to actual needs. For example, the preset time period is 2 minutes, and the preset number is 5.

Since few people send a large number of emoticons continuously in a work group in real life, when a plurality of emoticons are sent continuously in a short time, it can be determined that the emoticon is sent abnormally.

Fig. 3 is a flowchart of an alternative implementation manner of step S2 provided in the embodiment of the present invention, and as shown in fig. 3, step S2 includes:

and S21, detecting the touch screen contact area when the emoticon is sent each time within the preset time.

The touch screen contact area refers to an area of the screen in contact with the touch object when information (i.e., emoticons) is sent.

And S22, comparing the touch screen contact area when the emoticon is sent each time with a preset contact area, and if the touch screen contact area when the emoticon is sent each time within a preset time period is smaller than the preset contact area, determining that the current user is an infant.

The preset contact area may be preset, and optionally, the preset contact area in this embodiment is 2/3 of a conventional contact area, where the conventional contact area is a contact area between a finger and a screen each time a user (the user is an adult) to which the terminal belongs clicks the screen when sending information.

Since the finger of an infant is usually small, the contact area with the screen is small when the screen is clicked, and whether the current user is an infant can be determined by detecting the contact area.

Fig. 4 is a flowchart of a conventional contact area obtaining method provided in an embodiment of the present invention, and as shown in fig. 4, the conventional contact area is obtained through the following steps:

and S41, acquiring the contact area between the touch pen and the screen. The contact area between the touch pen and the screen is as follows: and when the touch pen is normally used, the contact area between the touch pen and the screen is increased.

And S42, acquiring the contact area of the input method keyboard area when the input method keyboard area is clicked each time in the non-parent-child time period of each day in N days as the reference contact area. N is a preset integer more than 1; for example, N may be set at 100. Wherein, the "N days" may be the last N days before the message sending monitoring method is performed. When the terminal use time is less than N days, N can be the current total use days.

The non-parent-child period is a time when the user is not together with the infant and the infant does not contact the terminal, for example, the non-parent-child period is a working time of an adult user. The non-parent-child time period may be preset, for example, from 9 am to 5 pm on a weekday. Thus, most of the plurality of reference contact areas detected by step S42 are contact areas when the adult user clicks the screen.

And S43, calculating the normal contact area according to the contact area of the touch pen and the screen and each reference contact area.

In this case, when an adult user uses the input method, an operation of clicking a keyboard region of the screen with a stylus may occur, and therefore, a portion of the reference contact areas may be a contact area between the stylus and the screen, and therefore, when a normal contact area (i.e., a contact area between a finger and the screen when the adult user clicks the screen) is calculated, the contact area between the stylus and the screen may be removed first.

Specifically, step S43 may specifically include:

s43a, for the plurality of reference contact areas in the non-parent-child time periods on any day, removing the reference contact areas with the size in the range of 0.9 × S to 1.1 × S from the plurality of reference contact areas in the non-parent-child time periods on each day through primary screening; removing the largest M times of contact area and the smallest P times of contact area in the residual reference contact area after primary screening through secondary screening; and the average value of the reference contact areas remaining after the re-screening was calculated as the daily average contact area.

Wherein S is a contact area between the touch pen and the screen, that is, when the touch pen is used to click the screen, the touch pen is in contact with the screen. M, P are each preset integers greater than 1. It will be appreciated that the sum of M and N should be less than the number of reference contact areas remaining after the initial screening.

In addition, it should be noted that "the largest M reference contact areas among the reference contact areas remaining after the initial screening" means that the first M reference contact areas in the sequence are sorted from large to small; the "smallest P reference contact areas" are the last P reference contact areas in the sequence.

S43b, removing the largest Q daily average contact areas and the smallest R daily average contact areas from the N-day daily average contact areas, and calculating the average of the remaining daily average contact areas as the regular contact area.

Q, R are all preset integers greater than 1. It should be understood that the sum of Q and R should be less than the number of reference contact areas remaining after the rescreening.

The "largest Q daily average contact areas out of the N daily average contact areas" means the first Q daily average contact areas in the sequence, in which the N daily average contact areas for the N days are sorted from large to small; the "smallest R daily average contact areas" is the last R reference contact areas in the sequence.

In one embodiment, N is 100 (if the terminal is used for less than 100 days, then N is adjusted to the number of actual days used in the calculation), M and P are both 20, and Q and R are both 10. In this case, the conventional contact area acquisition process can be understood as follows: detecting the contact area of a user and an input method keyboard area when the user uses the input method in the non-parent-child time every day; calculating a daily average contact area (i.e., the largest 20 contact areas and the smallest contact area of the plurality of contact areas per day are removed and the remaining contact areas are averaged); the maximum average daily contact area of 10 days and the minimum average daily contact area of 10 days are removed from the average daily contact areas of the days in the last 100 days, and the average daily contact areas of the rest multiple days are averaged to obtain the conventional contact area.

In the embodiment of the invention, whether the current user is an infant or not is judged by comparing the contact area when the current user clicks the screen with the conventional contact area, and the contact area (namely the conventional contact area) between the owner of the terminal and the screen when the owner normally clicks the screen can be accurately determined by detecting the contact area for a plurality of times in non-parent-child time, and screening and averaging for a plurality of times, so that whether the current user is an infant or not can be accurately judged by comparing the contact areas. And when the current user is a child and the number of the emoticons sent in a short time is large, the mobile phone of the adult is determined to be used by the child in a mess, and the false prompt is prevented by combining the judgment of the identity of the current user with the sending time length and the sending amount of the emoticon.

Fig. 5 is a schematic structural diagram of a message sending monitoring device based on social software according to an embodiment of the present invention, where the message sending monitoring device is configured to execute the message sending monitoring method. As shown in fig. 5, the message transmission monitoring apparatus includes: the device comprises a first judging module 10, a second judging module 20 and a prompting module 30.

The first judging module 10 is configured to judge whether emoticon sending abnormality occurs when the social software is in the chat mode and the sent message is an emoticon.

The second determination module 20 is used for determining whether the current user is a baby.

The prompting module 30 is configured to send a prompting signal when the first determining module 10 determines that the emoticon is abnormally sent and the second determining module 20 determines that the current user uses the baby.

Fig. 6 is a schematic diagram of an alternative structure of the first determining module according to the embodiment of the present invention, and as shown in fig. 6, the first determining module 10 includes: a first judging unit 11, a first detecting unit 12 and a determining unit 13.

The first judging unit 11 is configured to judge whether a current chat mode of the social software is a preset group chat mode.

The first detecting unit 12 is configured to detect the number of emoticons continuously sent and the duration of the emoticons continuously sent when the first determining unit 11 determines that the social software is currently in the preset group chat mode.

The determining unit 13 is configured to determine that emoticons are abnormally sent when the number of emoticons sent within the preset time exceeds a preset number.

Fig. 7 is a schematic diagram of an alternative structure of the first determining module according to an embodiment of the present invention, and as shown in fig. 7, the second determining module 20 includes: a second detection unit 21, a comparison unit 22 and a second judgment unit 23.

The second detecting unit 21 is configured to detect a touch screen contact area of each emoticon sent in a preset time period.

The comparison unit 22 is configured to compare the touch screen contact area at each emoticon sending time with a preset contact area.

The second judging unit 23 is configured to determine that the current user is an infant when the touch screen contact area when the emoticon is sent each time within the predetermined time is smaller than the preset contact area.

Wherein the predetermined area is 2/3 of the normal contact area.

Fig. 8 is another schematic structural diagram of a message sending monitoring device based on social software according to an embodiment of the present invention, and as shown in fig. 8, the message sending monitoring device further includes a calculating module 40, and the calculating module 40 includes: a first acquisition unit 41, a second acquisition unit 42 and a calculation unit 43.

The first obtaining unit 41 is configured to obtain a contact area between the stylus and the screen.

The second obtaining unit 42 is configured to obtain, in a non-parent-child time period of each day of N days, a contact area of the input method keyboard region when the input method keyboard region is clicked each time, as a reference contact area; n is a preset integer larger than 1.

The calculation unit 43 is used for calculating a regular contact area according to the contact area of the stylus with the screen and each reference contact area.

Wherein the calculation unit 43 includes: a first calculation subunit 43a and a second calculation subunit 43 b.

For the plurality of reference contact areas in the non-parent-child time periods on any day, the first calculating subunit 43a is configured to remove, by the primary screening, the reference contact area having a size in a range of 0.9 × S to 1.1 × S from the plurality of reference contact areas in the non-parent-child time periods on each day; removing the largest M reference contact areas and the smallest P reference contact areas in the residual reference contact areas after primary screening by secondary screening; and the average value of the reference contact areas remaining after the re-screening was calculated as the daily average contact area.

The second calculation subunit 43b is configured to divide the largest Q daily average contact areas and the smallest R daily average contact areas out of the daily average contact areas for N days, and calculate an average of the remaining daily average contact areas as the regular contact area.

Wherein S is a contact area between the stylus and the screen, and M, P, Q, R are integers greater than 1.

For the description of the implementation details and the technical effects of each module, unit, and sub-unit, reference may be made to the description of the above method embodiment, and details are not described here.

It will be understood that the above embodiments are merely exemplary embodiments taken to illustrate the principles of the present invention, which is not limited thereto. It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit and substance of the invention, and these modifications and improvements are also considered to be within the scope of the invention.

Claims (4)

1. A message sending monitoring method based on social software is characterized by comprising the following steps:

when the social software is in a chat mode and the sent message is an emoticon, judging whether the emoticon is sent abnormally or not;

judging whether the current user is an infant or not;

when the expression symbol is abnormally sent and the current user uses the infant, a prompt signal is sent out;

the judging whether the current user is a child includes:

detecting a touch screen contact area when the emoticon is sent each time within a preset time;

comparing the touch screen contact area when the emoticon is sent each time with a preset contact area, and if the touch screen contact area when the emoticon is sent each time within a preset time is smaller than the preset contact area, determining that the current user is an infant;

the preset contact area is 2/3 of the conventional contact area; the conventional contact area is obtained according to the following steps:

acquiring the contact area between a touch control pen and a screen;

acquiring the contact area of the input method keyboard area when the input method keyboard area is clicked each time in the non-parent-child time period of each day in N days as a reference contact area; n is a preset integer more than 1;

calculating the conventional contact area according to the contact area of the stylus and the screen and each reference contact area;

calculating the normal contact area according to the contact area of the stylus and the screen and each reference contact area, wherein the calculation comprises the following steps:

screening and averaging the contact area of the stylus and the screen and each reference contact area for multiple times, and determining the conventional contact area;

the judging whether the sending of the emoticons is abnormal includes:

judging whether the current chat mode of the social software is a preset group chat mode or not;

when the social software is currently in the preset group chat mode, detecting the number of the emoticons continuously sent and the duration of the emoticons continuously sent;

and when the number of the sent emoticons in the preset time length exceeds the preset number, determining that the emoticons are sent abnormally.

2. The message transmission monitoring method according to claim 1, wherein calculating the regular contact area based on the contact area of the stylus with the screen and each of the reference contact areas comprises:

for a plurality of reference contact areas in the non-parent-child time periods of any day, removing the reference contact areas with the size ranging from 0.9S to 1.1S from the plurality of reference contact areas in the non-parent-child time periods of each day through primary screening; removing the largest M reference contact areas and the smallest P reference contact areas in the residual reference contact areas after primary screening by secondary screening; calculating the average value of the residual reference contact areas after re-screening to be used as the daily average contact area;

removing the largest Q daily average contact areas and the smallest R daily average contact areas in the daily average contact areas of N days, and calculating the average value of the remaining daily average contact areas as the conventional contact area;

wherein, S is the contact area between the stylus and the screen, and M, P, Q, R are all preset integers greater than 1.

3. A social software-based messaging monitoring device, comprising:

the first judgment module is used for judging whether emoticon sending abnormity occurs or not when the social software is in a chat mode and the sent message is the emoticon;

the second judgment module is used for judging whether the current user is an infant or not;

the prompting module is used for sending a prompting signal when the first judging module determines that the expression symbol is abnormally sent and the second judging module judges that the current user uses the infant;

the second judging module includes:

the second detection unit is used for detecting the touch screen contact area when the emoticon is sent each time within a preset time length;

the comparison unit is used for comparing the touch screen contact area when the emoticon is sent each time with a preset contact area;

the second judging unit is used for determining that the current user is an infant when the touch screen contact area is smaller than the preset contact area when the emoticon is sent each time within the preset time;

the preset contact area is 2/3 of the conventional contact area; the monitoring device further comprises: a computing module, the computing module comprising:

the first acquisition unit is used for acquiring the contact area between the touch pen and the screen;

the second acquisition unit is used for acquiring the contact area of the input method keyboard area when the input method keyboard area is clicked every time in the non-parent-child time period of each day in N days as a reference contact area; n is a preset integer more than 1;

the calculating unit is used for calculating the conventional contact area according to the contact area of the stylus and the screen and each reference contact area;

the calculation unit is specifically used for screening and averaging the contact area of the stylus and the screen and each reference contact area for multiple times to determine the conventional contact area;

the first judging module comprises:

the first judging unit is used for judging whether the current chat mode of the social software is a preset group chat mode or not;

the first detection unit is used for detecting the number of the emoticons continuously sent and the duration of the emoticons continuously sent when the first judgment unit judges that the social software is currently in a preset group chat mode;

and the determining unit is used for determining that the sending of the emoticons is abnormal when the number of the sent emoticons in the preset time length exceeds the preset number.

4. The message transmission monitoring device according to claim 3, wherein the calculation unit includes: a first calculation subunit and a second calculation subunit,

for a plurality of reference contact areas in the non-parent-child time periods of any day, the first calculating subunit is configured to remove, by primary screening, the reference contact area with a size in a range from 0.9 × S to 1.1 × S from the plurality of reference contact areas in the non-parent-child time periods of each day; removing the largest M reference contact areas and the smallest P reference contact areas in the residual reference contact areas after primary screening by secondary screening; calculating the average value of the residual reference contact areas after re-screening to be used as the daily average contact area;

the second calculating subunit is configured to remove the largest Q daily average contact areas and the smallest R daily average contact areas from the daily average contact areas for N days, and calculate an average of the remaining daily average contact areas as the regular contact area;

wherein S is a contact area between the stylus and the screen, and M, P, Q, R are integers greater than 1.

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