CN115865820A - Alarm clock reminding system and method based on optical modem flow monitoring - Google Patents
Alarm clock reminding system and method based on optical modem flow monitoring Download PDFInfo
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Abstract
The invention relates to an alarm clock reminding system and method based on optical modem flow monitoring, which belong to the technical field of communication networks. The detection of the flow value detection unit is used as a first trigger link, the accumulated time length detection unit is used as a second trigger link, when the first trigger link and the second trigger link reach set conditions, the user prompting unit and the user feedback unit are started as a third trigger link, according to the real-time selection of a user, the first current limiting execution unit and the second current limiting execution unit are selected as a fourth trigger link to be started alternatively, a relatively mild current limiting scheme is realized, after the current limiting scheme is started, the flow forbidding unit is used as a negative feedback regulation means, and the user can automatically start flow forbidding according to the self requirement to realize closed-loop regulation of the flow.
Description
Technical Field
The invention belongs to the technical field of communication networks, and particularly relates to an alarm clock reminding system and method based on optical modem flow monitoring.
Background
With the development of internet technology, the number of domestic net citizens increases dramatically, and the number of teenagers accessing the internet also increases, but the automatic control capability of the teenagers is poor, and most of the net enthusiasm can not be pulled out by themselves. The prior art can monitor the flow of the down-hanging device, limit the time period of the device to be on line and limit the network access of the device, but the limitation is a mandatory stopping behavior and can trigger some psychological counteractions and repulsions of users.
Therefore, at the present stage, an alarm clock reminding system and method based on optical cat flow monitoring needs to be designed to solve the above problems.
Disclosure of Invention
The invention aims to provide an alarm clock reminding system and method based on optical modem flow monitoring, which are used for solving the technical problems in the prior art, such as: the prior art can monitor the flow of the down-hanging device, limit the time period of the device to be on line and limit the network access of the device, but the limitation is a mandatory stopping behavior and can trigger some psychological counteractions and repulsions of users.
In order to achieve the purpose, the technical scheme of the invention is as follows:
an alarm clock reminding system based on optical modem flow monitoring comprises a flow value detection unit, an accumulated time detection unit, a user prompting unit, a user feedback unit, a first current-limiting execution unit, a second current-limiting execution unit, a flow unlocking unit and a main control unit; the main control unit is respectively connected with the flow value detection unit, the accumulated time length detection unit, the user prompt unit, the user feedback unit, the first current limiting execution unit, the second current limiting execution unit and the flow prohibition release unit;
the flow value detection unit is used for detecting an accumulated flow value consumed by a user and judging whether the accumulated flow value reaches an early warning accumulated flow value or not;
the accumulated time length detection unit is used for detecting the online accumulated time length of the user and judging whether the accumulated time length reaches the early warning accumulated time length or not;
the user prompting unit is used for performing current limiting prompting on a user;
the user feedback unit is used for receiving a current limiting scheme selected by a user;
the first current limiting execution unit is used for executing a current limiting scheme selected by a user;
the second current limiting execution unit is used for executing a preset scheme when a user does not select a current limiting scheme;
the traffic unblocking unit is used for forcibly executing a traffic unblocking scheme.
Further, the main control unit controls the flow value detection unit to be normally open, and controls the accumulated time length detection unit, the user prompting unit, the user feedback unit, the first current limiting execution unit, the second current limiting execution unit, the flow forbidding unit and the main control unit to be normally closed;
when the flow value detection unit judges that the accumulated flow value reaches an early warning accumulated flow value, the main control unit controls the accumulated duration detection unit to be started;
when the accumulated time length detection unit judges that the accumulated time length reaches the early warning accumulated time length, the main control unit controls a user prompting unit and a user feedback unit to be started;
if the user feedback unit receives a current limiting scheme selected by a user, the main control unit controls the first current limiting execution unit to be opened, and if the user feedback unit does not receive the current limiting scheme selected by the user, the main control unit controls the second current limiting execution unit to be opened;
after the first current-limiting execution unit or the second current-limiting execution unit is started, if the user feedback unit receives a flow prohibition scheme selected by a user, the main control unit controls the flow prohibition unit to be started.
The system further comprises a face recognition unit, wherein the face recognition unit is connected with the main control unit, and the main control unit controls the face recognition unit to be normally closed;
when the flow value detection unit starts to detect the accumulated flow value consumed by the user, the face recognition unit acquires face data of the user at the moment and records the face data as first face data; when the accumulated flow value reaches the early warning accumulated flow value, the face recognition unit acquires face data of the user at the moment and records the face data as second face data; and comparing and analyzing the first face data and the second face data, if the first face data and the second face data are matched, judging that the user face identification authentication is passed by the face identification unit, controlling the cumulative duration detection unit to be opened by the main control unit, and if the first face data and the second face data are not matched, judging that the user face identification authentication is not passed by the face identification unit, and controlling the cumulative duration detection unit to be closed by the main control unit.
The flow value detection unit is connected with the main control unit, and the main control unit controls the flow value detection unit to be started and controls the flow value detection unit to be started;
and the subsection timing unit triggers the main control unit to start the face recognition unit according to a set time period.
Further, the user prompting unit adopts text prompting or alarm clock prompting.
Further, the intelligent terminal comprises a wireless communication unit, and the main control unit is connected with a remote intelligent terminal through the wireless communication unit.
An alarm clock reminding method based on optical modem flow monitoring adopts the alarm clock reminding system based on optical modem flow monitoring to carry out alarm clock reminding.
A storage medium, on which a computer program is stored, and when the computer program is executed, the alarm clock reminding method based on optical cat flow monitoring is performed.
Compared with the prior art, the invention has the beneficial effects that:
the flow value detection unit and the accumulated time length detection unit are matched, so that the accumulated flow value and the accumulated time length of a user can be screened out, a subsequent current limiting prompt is triggered, and the situation that the system adopts forced current limiting on the user to cause poor user experience is avoided; if the user does not select the prompted current limiting scheme, the system automatically executes a milder current limiting scheme according to the past use habits of the user (for example, gradually increasing the current limiting scale every certain time until the current limiting scale is increased to a set current limiting value); when a user wants to remove the current limiting scheme, the flow control unit can be actively selected to carry out flow control. The units are started in order and in coordination, so that the units can be started under specific conditions, and the plurality of units are prevented from being in an invalid action state for a long time. The detection of the flow value detection unit is used as a first trigger link, the accumulated time length detection unit is used as a second trigger link, when the first trigger link and the second trigger link reach set conditions, the user prompting unit and the user feedback unit are started as a third trigger link, according to the real-time selection of a user, the first current limiting execution unit and the second current limiting execution unit are selected as a fourth trigger link to be started alternatively, a relatively mild current limiting scheme is realized, after the current limiting scheme is started, the flow forbidding unit is used as a negative feedback regulation means, and the user can automatically start flow forbidding according to the self requirement to realize closed-loop regulation of the flow.
Drawings
Fig. 1 is a schematic system structure diagram according to an embodiment of the present invention.
Fig. 2 is a schematic diagram of the system operation principle according to the embodiment of the present invention.
Fig. 3 is a schematic diagram of a simple application case of the 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 is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the detailed description and specific examples, while indicating the preferred embodiment of the invention, are intended for purposes of illustration only and are not intended to limit the scope of the invention. The components of embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.
Thus, the following detailed description of the embodiments of the present invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments of the present invention without making any creative effort, shall fall within the protection scope of the present invention. It is noted that relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions.
Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrases "comprising a" \8230; "does not exclude the presence of additional like elements in the process, method, article, or apparatus that comprises the element.
As shown in fig. 1, an alarm clock reminding system based on optical modem flow monitoring is provided, which includes a flow value detection unit, an accumulated time detection unit, a user prompt unit, a user feedback unit, a first current-limiting execution unit, a second current-limiting execution unit, a flow prohibition releasing unit, and a main control unit; the main control unit is respectively connected with the flow value detection unit, the accumulated time length detection unit, the user prompt unit, the user feedback unit, the first current limiting execution unit, the second current limiting execution unit and the flow prohibition releasing unit;
the flow value detection unit is used for detecting the accumulated flow value consumed by the user and judging whether the accumulated flow value reaches the early warning accumulated flow value or not;
the accumulated time length detection unit is used for detecting the online accumulated time length of the user and judging whether the accumulated time length reaches the early warning accumulated time length or not;
the user prompting unit is used for performing current limiting prompt on a user;
the user feedback unit is used for receiving a current limiting scheme selected by a user;
the first current limiting execution unit is used for executing a current limiting scheme selected by a user;
the second current limiting execution unit is used for executing a preset scheme when a user does not select a current limiting scheme;
the traffic unblocking unit is used for forcibly executing a traffic unblocking scheme.
In the scheme, the flow value detection unit and the accumulated time length detection unit are matched to screen out the accumulated flow value and the accumulated time length of the user, so that the subsequent current limiting prompt is triggered, and the condition that the system performs forced current limiting on the user to cause poor user experience is avoided; if the user does not select the prompted current limiting scheme, the system automatically executes a more moderate current limiting scheme according to the past use habits of the user (for example, gradually increasing the current limiting scale every certain time until the current limiting scale is increased to a set current limiting value); when a user wants to remove the current limiting scheme, the flow control unit can be actively selected to carry out flow control.
Further, as shown in fig. 2, the main control unit controls the flow value detection unit to be normally open, and controls the accumulated time length detection unit, the user prompt unit, the user feedback unit, the first current limiting execution unit, the second current limiting execution unit, the flow prohibition unit and the main control unit to be normally closed;
when the flow value detection unit judges that the accumulated flow value reaches an early warning accumulated flow value, the main control unit controls the accumulated duration detection unit to be started;
when the accumulated time length detection unit judges that the accumulated time length reaches the early warning accumulated time length, the main control unit controls a user prompting unit and a user feedback unit to be started;
if the user feedback unit receives a current limiting scheme selected by a user, the main control unit controls the first current limiting execution unit to be opened, and if the user feedback unit does not receive the current limiting scheme selected by the user, the main control unit controls the second current limiting execution unit to be opened;
after the first current-limiting execution unit or the second current-limiting execution unit is started, if the user feedback unit receives a flow prohibition scheme selected by a user, the main control unit controls the flow prohibition unit to be started.
In the scheme, the control flow value detection unit, the accumulated time detection unit, the user prompt unit, the user feedback unit, the first current-limiting execution unit, the second current-limiting execution unit and the flow prohibition unit are sequentially matched for starting, so that each unit can be started under a specific condition, the plurality of units are prevented from being in an invalid action state for a long time, and the collection of excessive invalid data can be avoided. Meanwhile, the detection of the flow value detection unit is used as a first trigger link, the accumulated time detection unit is used as a second trigger link, when the first trigger link and the second trigger link reach set conditions, the user prompt unit and the user feedback unit are started as a third trigger link, according to the real-time selection of a user, the first current limiting execution unit and the second current limiting execution unit are selected as a fourth trigger link to be started alternatively to realize a relatively mild current limiting scheme, after the current limiting scheme is started, the flow prohibition unit is used as a negative feedback regulation means, and the user can start flow prohibition automatically according to the self requirement to realize closed-loop regulation of the flow.
The system further comprises a face recognition unit, wherein the face recognition unit is connected with the main control unit, and the main control unit controls the face recognition unit to be normally closed;
when the flow value detection unit starts to detect the accumulated flow value consumed by the user, the face recognition unit acquires face data of the user at the moment and records the face data as first face data; when the accumulated flow value reaches the early warning accumulated flow value, the face recognition unit acquires face data of the user at the moment and records the face data as second face data; and comparing and analyzing the first face data and the second face data, if the first face data and the second face data are matched, judging that the user face identification authentication is passed by the face identification unit, controlling the cumulative duration detection unit to be opened by the main control unit, and if the first face data and the second face data are not matched, judging that the user face identification authentication is not passed by the face identification unit, and controlling the cumulative duration detection unit to be closed by the main control unit.
In the scheme, the situation that the user is replaced midway in the detection time period of the flow value detection unit is avoided, so the face recognition unit is designed to perform face recognition authentication when the flow value detection unit is just started and accumulates the flow value, and the user replacement midway is avoided.
The flow value detection unit is connected with the main control unit, and the main control unit controls the flow value detection unit to be started and controls the flow value detection unit to be started;
and the subsection timing unit triggers the main control unit to start the face recognition unit according to a set time period.
In the scheme, in order to improve the identification and authentication precision of the face identification unit, the segmented timing unit is designed, so that the face identification unit is triggered and started in a segmented manner according to a set time period.
Further, the user prompting unit adopts text prompting or alarm clock prompting.
Furthermore, the intelligent terminal also comprises a wireless communication unit, and the main control unit is connected with a remote intelligent terminal through the wireless communication unit, so that remote data interaction is realized.
An alarm clock reminding method based on optical modem flow monitoring adopts the alarm clock reminding system based on optical modem flow monitoring to carry out alarm clock reminding.
Specifically, a simple embodiment is shown in fig. 3 (in the case where there is a large flow rate user for a certain period of time).
Precondition:
1. the user uses the optical modem which comprises voice input and output and can monitor the network state of the user terminal hung down.
2. The optical modem page has an option to configure the monitored hanging-down device, the set excessive flow can trigger an alarm, and the set time period and the alarm time length which need to be alarmed are set.
3. The voice mode can be used for inputting instructions to change the size and the time period of the trigger alarm flow and the alarm duration.
Using the logic:
1. setting the flow and the alarm time length which can pass by the equipment needing to be monitored and the specified time period when a user enters the optical modem page.
2. Adjusting the flow size and time period can then be adjusted in the manner of input speech.
3. When the specified monitoring device for hanging down arrives at the specified time period, if the configured internet traffic is passed, the voice module of the optical modem reminds the user in a ringing mode.
Developing logic:
1. and the optical modem reads the information of the lower hanging device and monitors the real-time flow condition of the lower hanging device.
2. And if the flow rate of the drop-off equipment in the appointed time period exceeds the expectation, reporting to a voice module, and alarming in a ringing mode.
A storage medium, on which a computer program is stored, and when the computer program is executed, the alarm clock reminding method based on optical cat flow monitoring is performed.
The above are preferred embodiments of the present invention, and all changes made according to the technical scheme of the present invention that produce functional effects do not exceed the scope of the technical scheme of the present invention belong to the protection scope of the present invention.
Claims (8)
1. An alarm clock reminding system based on optical modem flow monitoring is characterized by comprising a flow value detection unit, an accumulated time detection unit, a user prompting unit, a user feedback unit, a first current-limiting execution unit, a second current-limiting execution unit, a flow unlocking unit and a main control unit; the main control unit is respectively connected with the flow value detection unit, the accumulated time length detection unit, the user prompt unit, the user feedback unit, the first current limiting execution unit, the second current limiting execution unit and the flow prohibition releasing unit;
the flow value detection unit is used for detecting an accumulated flow value consumed by a user and judging whether the accumulated flow value reaches an early warning accumulated flow value or not;
the accumulated time length detection unit is used for detecting the online accumulated time length of the user and judging whether the accumulated time length reaches the early warning accumulated time length or not;
the user prompting unit is used for performing current limiting prompting on a user;
the user feedback unit is used for receiving a current limiting scheme selected by a user;
the first current limiting execution unit is used for executing a current limiting scheme selected by a user;
the second current limiting execution unit is used for executing a preset scheme when a user does not select a current limiting scheme;
the traffic unblocking unit is used for forcibly executing a traffic unblocking scheme.
2. The alarm clock reminding system based on optical modem flow monitoring as claimed in claim 1, wherein the main control unit controls the flow value detection unit to be normally open, controls the accumulated time detection unit, the user prompting unit, the user feedback unit, the first current limiting execution unit, the second current limiting execution unit, the flow disabling unit and the main control unit to be normally closed;
when the flow value detection unit judges that the accumulated flow value reaches an early warning accumulated flow value, the main control unit controls the accumulated duration detection unit to be started;
when the accumulated time length detection unit judges that the accumulated time length reaches the early warning accumulated time length, the main control unit controls a user prompting unit and a user feedback unit to be started;
if the user feedback unit receives a current limiting scheme selected by a user, the main control unit controls the first current limiting execution unit to be opened, and if the user feedback unit does not receive the current limiting scheme selected by the user, the main control unit controls the second current limiting execution unit to be opened;
after the first current-limiting execution unit or the second current-limiting execution unit is started, if the user feedback unit receives a flow prohibition scheme selected by a user, the main control unit controls the flow prohibition unit to be started.
3. The alarm clock reminding system based on optical cat flow monitoring as claimed in claim 2, further comprising a face recognition unit, wherein the face recognition unit is connected with the main control unit, and the main control unit controls the face recognition unit to be normally closed;
when the flow value detection unit starts to detect the accumulated flow value consumed by the user, the face recognition unit acquires face data of the user at the moment and records the face data as first face data; when the accumulated flow value reaches the early warning accumulated flow value, the face recognition unit acquires face data of the user at the moment and records the face data as second face data; and comparing and analyzing the first face data and the second face data, if the first face data and the second face data are matched, judging that the user face identification authentication is passed by the face identification unit, controlling the cumulative duration detection unit to be opened by the main control unit, and if the first face data and the second face data are not matched, judging that the user face identification authentication is not passed by the face identification unit, and controlling the cumulative duration detection unit to be closed by the main control unit.
4. The alarm clock reminding system based on optical cat flow monitoring as claimed in claim 3, further comprising a segmented timing unit, wherein the segmented timing unit is connected with the main control unit, and the main control unit controls the segmented timing unit to be started when the flow value detection unit is started;
and the subsection timing unit triggers the main control unit to start the face recognition unit according to a set time period.
5. The alarm clock reminding system based on optical cat flow monitoring as claimed in claim 4, wherein the user prompting unit adopts text prompt or alarm clock prompt.
6. The alarm clock reminding system based on light cat flow monitoring of claim 1, further comprising a wireless communication unit, wherein the main control unit is connected with a remote intelligent terminal through the wireless communication unit.
7. An alarm clock reminding method based on optical cat flow monitoring is characterized in that the alarm clock reminding is carried out by adopting the alarm clock reminding system based on optical cat flow monitoring as claimed in any one of claims 1-6.
8. A storage medium, characterized in that the storage medium stores thereon a computer program, and the computer program is executed to execute an alarm clock reminding method based on light cat traffic monitoring according to claim 7.
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