CN105162644A - Flow control channel monitoring method and system - Google Patents

Abstract

The invention discloses a flow control channel monitoring method. When a flow control channel monitoring instruction is received, each to-be-monitored flow control channel corresponding to the flow control channel monitoring instruction is determined; flow control channel data of each to-be-monitored flow control channel is analyzed to determine whether each flow control channel data satisfies preset conditions; when the flow control channel data does not satisfy the preset conditions, warning information is outputted. The invention further discloses a flow control channel monitoring system. Through the method and the system, examination on the flow control channel configuration effect is realized.

Description

Flow Control channel monitoring method and system

Technical field

The present invention relates to the communications field, particularly relate to a kind of Flow Control channel monitoring method and system.

Background technology

Along with the development of the communication technology, the use of the various network equipment is more and more extensive, and use and the configuring condition of flow also more and more receive publicity, as people use online computing time, all wish that network can keep clear.

The fluidic device of current major part specialty, the general Flow Control that following granularity all can be provided: as circuit, Flow Control passage etc., but all there is a problem in current various fluidic device, after Flow Control passage configures, in network operation process, user only can check overall traffic channel, and each concrete Flow Control passage allocative effect how, or is that the flow unreasonable allocation of which Flow Control passage all cannot be known when Caton phenomenon appears in network.

Summary of the invention

Main purpose of the present invention is to propose a kind of Flow Control channel monitoring method and system, is intended to solve the technical problem cannot checking each Flow Control passage allocative effect.

For achieving the above object, a kind of Flow Control channel monitoring method provided by the invention, described Flow Control channel monitoring method comprises the following steps:

When receiving the instruction of Flow Control channel monitoring, determine each Flow Control passage to be monitored that the instruction of described Flow Control channel monitoring is corresponding;

Analyze the Flow Control channel data of each Flow Control passage to be detected described, to determine described in each, whether Flow Control channel data meets pre-conditioned;

When described Flow Control channel data does not meet pre-conditioned, export warning message.

Preferably, when the described pre-conditioned parameters for comprising in described channel parameters does not exist conflict, and/or when described in each, channel parameters does not repeat, the Flow Control channel data of each Flow Control passage to be detected described in described analysis, to determine whether Flow Control channel data described in each meets pre-conditioned step and comprise:

Obtain the channel parameters in Flow Control channel data described in each;

Determine whether the parameters comprised in channel parameters described in each exists conflict, and/or whether channel parameters described in each repeats.

Preferably, when the described pre-conditioned data on flows corresponding for Flow Control passage described in each meets the flow condition that described in each, Flow Control passage is corresponding, the Flow Control channel data of each Flow Control passage to be detected described in described analysis, to determine whether Flow Control channel data described in each meets pre-conditioned step and also comprise:

Obtain the data on flows in Flow Control channel data described in each, and obtain the flow condition that described in each, Flow Control passage is corresponding;

Determine whether the data on flows that described in each, Flow Control passage is corresponding meets the flow condition that described in each, Flow Control passage is corresponding.

Preferably, the Flow Control channel data of each Flow Control passage to be detected described in described analysis, after determining described in each whether Flow Control channel data meets pre-conditioned step, described Flow Control channel monitoring method also comprises:

The Flow Control channel data of Flow Control passage to be monitored described in each is shown at default display interface.

In addition, for achieving the above object, the present invention also proposes a kind of Flow Control channel monitoring system, it is characterized in that, described Flow Control channel monitoring system comprises:

First determination module, for when receiving the instruction of Flow Control channel monitoring, determines each Flow Control passage to be monitored that the instruction of described Flow Control channel monitoring is corresponding;

Second determination module, for analyzing the Flow Control channel data of each Flow Control passage to be detected described, to determine described in each, whether Flow Control channel data meets pre-conditioned;

Output module, for when described Flow Control channel data does not meet pre-conditioned, exports warning message.

Preferably, when the described pre-conditioned parameters for comprising in described channel parameters does not exist conflict, and/or when described in each, channel parameters does not repeat, described second determination module comprises:

First acquiring unit, for obtaining the channel parameters in Flow Control channel data described in each;

First determining unit, for determining whether the parameters comprised in channel parameters described in each exists conflict, and/or whether channel parameters described in each repeats.

Preferably, when the described pre-conditioned data on flows corresponding for Flow Control passage described in each meets the flow condition that described in each, Flow Control passage is corresponding, described second determination module also comprises:

Second acquisition unit, for obtaining the data on flows in Flow Control channel data described in each, and obtains the flow condition that described in each, Flow Control passage is corresponding;

Second determining unit, for determining whether the data on flows that described in each, Flow Control passage is corresponding meets the flow condition that described in each, Flow Control passage is corresponding.

Preferably, described Flow Control channel monitoring system also comprises:

Display module, for showing the Flow Control channel data of Flow Control passage to be monitored described in each at default display interface.

The Flow Control channel monitoring method that the present invention proposes and system, when receiving the instruction of Flow Control channel monitoring, determine each Flow Control passage to be monitored that the instruction of described Flow Control channel monitoring is corresponding, analyze the Flow Control channel data of each Flow Control passage to be detected described, to determine described in each, whether Flow Control channel data meets pre-conditioned, when described Flow Control channel data does not meet pre-conditioned, export warning message, achieve the inspection of the allocative effect to each Flow Control passage.

Accompanying drawing explanation

Fig. 1 is the schematic flow sheet of Flow Control channel monitoring method first embodiment of the present invention;

Fig. 2 is the first embodiment refinement schematic flow sheet of step S20 in Fig. 1;

Fig. 3 is the second embodiment refinement schematic flow sheet of step S20 in Fig. 1;

Fig. 4 is the schematic flow sheet of Flow Control channel monitoring method second embodiment of the present invention;

Fig. 5 is the high-level schematic functional block diagram of Flow Control channel monitoring system first embodiment of the present invention;

Fig. 6 is the first embodiment refinement high-level schematic functional block diagram of the second determination module 20 in Fig. 5;

Fig. 7 is the second embodiment refinement high-level schematic functional block diagram of the second determination module 20 in Fig. 5;

Fig. 8 is the high-level schematic functional block diagram of Flow Control channel monitoring system second embodiment of the present invention.

The realization of the object of the invention, functional characteristics and advantage will in conjunction with the embodiments, are described further with reference to accompanying drawing.

Embodiment

Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

The invention provides a kind of Flow Control channel monitoring method.

With reference to the schematic flow sheet that Fig. 1, Fig. 1 are Flow Control channel monitoring method first embodiment of the present invention.

The present embodiment proposes a kind of Flow Control channel monitoring method, and described Flow Control channel monitoring method comprises:

Step S10, when receiving the instruction of Flow Control channel monitoring, determines each Flow Control passage to be monitored that the instruction of described Flow Control channel monitoring is corresponding;

In the present embodiment, the triggering mode of described Flow Control channel monitoring instruction comprises:

1) automatically trigger the instruction of described Flow Control channel monitoring, as according to the time interval clocked flip Flow Control channel monitoring instruction preset, when prefixed time interval arrives, the instruction of Flow Control channel monitoring can be triggered.As: the time of user preset clocked flip Flow Control channel monitoring instruction is 10 minutes, when the time of Flow Control channel end configuration reaches 10 minutes, the instruction of Flow Control channel monitoring can be triggered, or start from Flow Control channel end configuration, trigger the instruction of control channel monitoring every 10 minutes.

2) artificial triggering described Flow Control Air conduct measurement instruction, such as, user by the icon of the Flow Control channel monitoring in touch terminal display interface, or clicks the icon of terminal demonstration interface Flow Control channel monitoring by mouse, triggers the instruction of Flow Control channel monitoring.

The triggering mode of two kinds of Flow Control channel monitorings instruction of enumerating is above only exemplary; those skilled in the art utilize technological thought of the present invention; the triggering mode of other Flow Control channel monitoring instruction proposed according to its real needs, all in protection scope of the present invention, does not carry out exhaustive one by one at this.

Step S20, analyzes the Flow Control channel data of each Flow Control passage to be detected described, to determine described in each, whether Flow Control channel data meets pre-conditioned;

Described Flow Control channel data comprises channel parameters and data on flows, and described channel parameters comprises gap marker, subchannel quantity, channel type (as ensured passage or limiting channel), channel priorities, passage running status (running status or resting state) etc.; The ratio that described data on flows comprises current flow, up-downgoing accounts for total bandwidth, history mean flow rate, history total flow, guarantee bandwidth, limiting bandwidth, number of users (total number of users and active user's number) etc.

There is not conflict in the described pre-conditioned parameters comprised that is preferably in described channel parameters, and/or describedly pre-conditionedly not to repeat for channel parameters described in each.The situation that the parameters comprised in described channel parameters exists conflict is preferably same Flow Control passage not only for limiting channel but also for ensureing passage; The restrictive condition that the situation that described channel parameters repeats is preferably each Flow Control passage is identical.

In the present embodiment, the embodiment of step S20 comprises:

1) the first embodiment: reference Fig. 2, when the described pre-conditioned parameters for comprising in described channel parameters does not exist conflict, and/or when described in each, channel parameters does not repeat, described step S20 comprises:

Step S21, obtains the channel parameters in Flow Control channel data described in each;

Use peak period at flow, because Flow Control number of channels is too many, cause corresponding Flow Control channel data very lengthy and jumbled, can according to the Flow Control channel data obtained, the channel parameters only extracted in described Flow Control channel data is analyzed, and to analyze the configuring condition of Flow Control passage, efficiency is higher.

Step S22, determine whether the parameters comprised in channel parameters described in each exists conflict, and/or whether channel parameters described in each repeats.

In the present embodiment, whether the described parameters determining to comprise in channel parameters described in each exists conflict, and/or the mode whether channel parameters described in each repeats comprises:

Mode one: determine whether the parameters comprised in channel parameters described in each exists conflict, to determine described in each, whether Flow Control channel data meets pre-conditioned: based on obtain each described in channel parameters in Flow Control channel data, analyze the channel type (described Flow Control channel type comprises guarantee passage and limiting channel) of Flow Control passage described in each, and based on analyze each described in the channel type of Flow Control passage, determine whether the channel type of Flow Control passage described in each exists simultaneously and ensure passage and limiting channel.If have Flow Control passage to exist ensure passage and limiting channel simultaneously, then there is conflict in the parameters comprised in described Flow Control channel parameters.

Mode two: determine whether channel parameters described in each repeats, pre-conditioned to determine whether channel parameters described in each meets: the channel parameters of each Flow Control passage is carried out comparison between two, whether identical to judge the restrictive condition of Flow Control passage described in each, when there being the restrictive condition of Flow Control passage identical (if two passages are all the bandwidth in order to limited subscriber use 10M-20M), then the channel parameters of the Flow Control passage that this restrictive condition is identical duplicates.

Further, in order to improve the accuracy of Flow Control channel monitoring described in each, in aforesaid way one, when the parameters comprised in channel parameters described in each does not exist conflict, aforesaid way two will be performed, determining whether channel parameters described in each repeats; Or, in aforesaid way two, when channel parameters does not repeat described in each, aforesaid way one will be performed, determine whether the parameters comprised in channel parameters described in each exists conflict.Those skilled in the art, are understandable that, also can arrange the pre-conditioned of other as required, pre-conditioned to determine whether channel parameters described in each meets.

2) the second embodiment: with reference to Fig. 3, when the described pre-conditioned data on flows corresponding for Flow Control passage described in each meets the flow condition that described in each, Flow Control passage is corresponding, described step S20 comprises:

Step S23, obtains the data on flows in Flow Control channel data described in each, and obtains the flow condition that described in each, Flow Control passage is corresponding;

When the network operation, the situation consuming a large amount of datas on flows in real time may be there is in Flow Control passage described in each, network speed can be caused slow especially, therefore can according to the Flow Control channel data obtained, the data on flows extracted in described Flow Control channel data is analyzed, to analyze the situation of consumed flow data in each Flow Control passage, realize the monitoring to data on flows in Flow Control passage.

Step S24, determines whether the data on flows that described in each, Flow Control passage is corresponding meets the flow condition that described in each, Flow Control passage is corresponding.

In the present embodiment, determine that the situation whether data on flows that described in each, Flow Control passage is corresponding meets the flow condition that Flow Control passage is corresponding described in each comprises:

A, flow condition are that data on flows corresponding to application is when being less than or equal to predetermined threshold value, namely the data on flows of the application correspondence of each Flow Control passage is monitored, and each data on flows applied and predetermined threshold value are compared, to determine whether each Flow Control passage meets corresponding flow condition; Such as, flow value corresponding to certain application is greater than predetermined threshold value, thinks the Traffic Anomaly (situation of burst flow) of this application correspondence.

B, flow condition be apply the bandwidth that takies within the scope of pre-set bandwidths time, namely the current bandwidth taken of each Flow Control passage is monitored, current for each Flow Control passage bandwidth that takies and pre-set bandwidths scope are compared, to determine whether each Flow Control passage meets corresponding flow condition; Such as, when the current band taken of described Flow Control passage is wider than the maximum boundary value of described pre-set bandwidths scope, think that bandwidth occupancy is too high, the situation of Flow Control channel block may be caused to occur, now determine that current Flow Control passage does not meet preset flow condition; Or when the current bandwidth taken of described Flow Control passage is less than the minimum edge dividing value of described bandwidth range, thinks that bandwidth occupancy is too low, the bandwidth waste of Flow Control passage may be caused, now determine that current Flow Control passage does not meet preset flow condition.

C, flow condition are number of users that single user is reached the standard grade when being less than predetermined threshold value, and the number of users that monitoring single user is reached the standard grade, compares the number of users of each Flow Control passage and predetermined threshold value, to determine whether each Flow Control passage meets the flow condition of correspondence; Due to the number of users of reaching the standard grade user be more than or equal to predetermined threshold value time, Flow Control bandwidth chahnel is caused to take too high, affect Consumer's Experience, then, when the number of users of reaching the standard grade user is more than or equal to predetermined threshold value, determine that described Flow Control passage does not meet corresponding flow condition.

D, flow condition are that the occupied bandwidth of Flow Control passage in prefixed time interval is when being less than pre-set bandwidths threshold value, obtain the occupied bandwidth of each Flow Control passage in prefixed time interval, and when Flow Control passage occupied bandwidth is within a preset time interval more than or equal to pre-set bandwidths threshold value (as Flow Control passage runs full for a long time, affect Consumer's Experience), determine that described Flow Control passage does not meet corresponding flow condition.

Determine that the situation of the whether satisfied corresponding flow condition of described Flow Control passage is only exemplary for four kinds that enumerate above; those skilled in the art utilize technological thought of the present invention; other proposition according to its real needs variously determines whether Flow Control passage meets the situation of corresponding flow condition all in protection scope of the present invention, does not carry out exhaustive one by one at this.

Step S30, when described Flow Control channel data does not meet pre-conditioned, exports warning message.

In the present embodiment, preferred version is, described step S30 comprises:

When channel parameters does not meet pre-conditioned described in each, send a warning message to the communication terminal preset or export warning message; Or, when the data on flows that described Flow Control passage is corresponding does not meet flow condition corresponding to described Flow Control passage, send a warning message to the communication terminal preset or export warning message, the mode of described output warning message is preferably by display interface display alarm window, based on described alarm window outputting alarm information, this described communication terminal preset comprises server or User IP place terminal.

The Flow Control channel monitoring method that the present embodiment proposes, when receiving the instruction of Flow Control channel monitoring, determine each Flow Control passage to be monitored that the instruction of described Flow Control channel monitoring is corresponding, analyze the Flow Control channel data of each Flow Control passage to be detected described, to determine described in each, whether Flow Control channel data meets pre-conditioned, when described Flow Control channel data does not meet pre-conditioned, export warning message, achieve the inspection of the allocative effect to each Flow Control passage.

Further, for improving the accuracy of Flow Control channel monitoring, with reference to Fig. 4, propose Flow Control channel monitoring method second embodiment of the present invention based on the first embodiment, in the present embodiment, after described step S20, described Flow Control channel monitoring method comprises:

Step S40, shows the Flow Control channel data of Flow Control passage to be monitored described in each at default display interface.

In the present embodiment, for improving display precision, preferably adopt the mode of roll display to show Flow Control channel data corresponding to each Flow Control passage, in roll display process, the Flow Control number of channels that every screen display is shown is predetermined number.Such as: user preset Flow Control to be monitored passage is 6 in the number that default display interface shows, when receiving the instruction of Flow Control channel monitoring, each Flow Control passage to be monitored described is according to the order preset, 6 Flow Control passages to be monitored are shown successively at described display interface, and show Flow Control channel data corresponding to described 6 Flow Control passages to be monitored, and after prefixed time interval (as 10 seconds), determine 6 other Flow Control passages to be monitored, replace 6 Flow Control passages of described display interface display.It will be appreciated by persons skilled in the art that the Flow Control passage to be monitored that also can show other quantity as required.

The Flow Control channel data that the Flow Control passage to be monitored of described predetermined number is corresponding shows preferably by form, the Flow Control channel data that the Flow Control passage described to be monitored that user shows based on described form is corresponding, check the configuring condition of described Flow Control passage to be monitored, error correction or adjustment can be carried out to the place of unreasonable allocation in described Flow Control passage to be monitored simultaneously, also can show Flow Control channel data corresponding to described Flow Control passage to be monitored by other display modes (as: column diagram) as required.

The present invention further provides a kind of Flow Control channel monitoring system.

With reference to the high-level schematic functional block diagram that Fig. 5, Fig. 5 are Flow Control channel monitoring system first embodiment of the present invention.

It is emphasized that, to one skilled in the art, functional block diagram shown in Fig. 5 is only the exemplary plot of a preferred embodiment, and those skilled in the art, around the functional module of the Flow Control channel monitoring system shown in Fig. 5, can carry out supplementing of new functional module easily; The title of each functional module is self-defined title, only for auxiliary each program function block understanding this Flow Control channel monitoring system, be not used in and limit technical scheme of the present invention, the core of technical solution of the present invention is, the function that the functional module of respective define name will be reached.

The present embodiment proposes a kind of Flow Control channel monitoring system, and described Flow Control channel monitoring system comprises:

First determination module 10, for when receiving the instruction of Flow Control channel monitoring, determines each Flow Control passage to be monitored that the instruction of described Flow Control channel monitoring is corresponding;

In the present embodiment, the triggering mode of described Flow Control channel monitoring instruction comprises:

1) automatically trigger the instruction of described Flow Control channel monitoring, as according to the time interval clocked flip Flow Control channel monitoring instruction preset, when prefixed time interval arrives, the instruction of Flow Control channel monitoring can be triggered.As: the time of user preset clocked flip Flow Control channel monitoring instruction is 10 minutes, when the time of Flow Control channel end configuration reaches 10 minutes, the instruction of Flow Control channel monitoring can be triggered, or start from Flow Control channel end configuration, trigger the instruction of control channel monitoring every 10 minutes.

2) artificial triggering described Flow Control Air conduct measurement instruction, such as, user by the icon of the Flow Control channel monitoring in touch terminal display interface, or clicks the icon of terminal demonstration interface Flow Control channel monitoring by mouse, triggers the instruction of Flow Control channel monitoring.

The triggering mode of two kinds of Flow Control channel monitorings instruction of enumerating is above only exemplary; those skilled in the art utilize technological thought of the present invention; the triggering mode of other Flow Control channel monitoring instruction proposed according to its real needs, all in protection scope of the present invention, does not carry out exhaustive one by one at this.

Second determination module 20, for analyzing the Flow Control channel data of each Flow Control passage to be detected described, to determine described in each, whether Flow Control channel data meets pre-conditioned;

Described Flow Control channel data comprises channel parameters and data on flows, and described channel parameters comprises gap marker, subchannel quantity, channel type (as ensured passage or limiting channel), channel priorities, passage running status (running status or resting state) etc.; The ratio that described data on flows comprises current flow, up-downgoing accounts for total bandwidth, history mean flow rate, history total flow, guarantee bandwidth, limiting bandwidth, number of users (total number of users and active user's number) etc.

There is not conflict in the described pre-conditioned parameters for comprising in described channel parameters, and/or describedly pre-conditionedly not to repeat for channel parameters described in each.The situation that the parameters comprised in described channel parameters exists conflict is preferably same Flow Control passage not only for limiting channel but also for ensureing passage; The restrictive condition that the situation that described channel parameters repeats is preferably each Flow Control passage is identical.

In the present embodiment, the second determination module 20 analyzes the Flow Control channel data of each Flow Control passage to be detected described, to determine whether Flow Control channel data described in each meets pre-conditioned embodiment and comprise:

1) the first embodiment: reference Fig. 6, when the described pre-conditioned parameters for comprising in described channel parameters does not exist conflict, and/or when described in each, channel parameters does not repeat, described second determination module 20 comprises:

First acquiring unit 21, for obtaining the channel parameters in Flow Control channel data described in each;

Use peak period at flow, because Flow Control number of channels is too many, cause corresponding Flow Control channel data very lengthy and jumbled, can according to the Flow Control channel data obtained, the channel parameters only extracted in described Flow Control channel data is analyzed, and to analyze the configuring condition of Flow Control passage, efficiency is higher.

First determining unit 22, for determining whether the parameters comprised in channel parameters described in each exists conflict, and/or whether channel parameters described in each repeats.

In the present embodiment, described first determining unit 22 determines whether the parameters comprised in channel parameters described in each exists conflict, and/or the mode whether channel parameters described in each repeats comprises:

Mode one: described first determining unit 22 determines whether the parameters comprised in channel parameters described in each exists conflict, pre-conditioned to determine whether channel parameters described in each meets; Obtain based on the first acquiring unit 21 each described in channel parameters in Flow Control channel data, analyze the channel type (described Flow Control channel type comprises guarantee passage and limiting channel) of Flow Control passage described in each, and based on analyze each described in the channel type of Flow Control passage, described first determining unit 22 is determined whether the channel type of Flow Control passage described in each exists simultaneously and is ensured passage and limiting channel.If have Flow Control passage to exist ensure passage and limiting channel simultaneously, then there is conflict in the parameters comprised in described Flow Control channel parameters.

Mode two, described first determining unit 22 determines described in each, whether channel parameters described in each repeats, pre-conditioned to determine whether channel parameters described in each meets; The channel parameters of each Flow Control passage is carried out comparison between two, whether identical to judge the restrictive condition of Flow Control passage described in each, when there being the restrictive condition of Flow Control passage identical (if two passages are all the bandwidth in order to limited subscriber use 10M-20M), then the channel parameters of the Flow Control passage that this restrictive condition is identical duplicates.

Further, in order to improve the accuracy of Flow Control channel monitoring described in each, in aforesaid way one, when there is not conflict in the parameters comprised in channel parameters described in each, to perform above-mentioned aforesaid way two, described first determining unit 22 determines whether channel parameters described in each repeats; Or in aforesaid way two, when channel parameters does not repeat described in each, will perform aforesaid way one, described first determining unit 22 determines whether the parameters comprised in channel parameters described in each exists conflict.Those skilled in the art, are understandable that, described first determining unit 22 also can arrange the pre-conditioned of other as required, pre-conditioned to determine whether channel parameters described in each meets.

2) the second embodiment: with reference to Fig. 7, when the described pre-conditioned data on flows corresponding for Flow Control passage described in each meets the flow condition that described in each, Flow Control passage is corresponding, described second determination module 20 also comprises:

Second acquisition unit 23, for obtaining the data on flows in Flow Control channel data described in each, and obtains the flow condition that described in each, Flow Control passage is corresponding;

When the network operation, the situation consuming a large amount of datas on flows in real time may be there is in Flow Control passage described in each, network speed can be caused slow especially, therefore can according to the Flow Control channel data obtained, the data on flows extracted in described Flow Control channel data is analyzed, to analyze the situation of consumed flow data in each Flow Control passage, realize the monitoring to data on flows in Flow Control passage.

Second determining unit 24, for determining whether the data on flows that described in each, Flow Control passage is corresponding meets the flow condition that described in each, Flow Control passage is corresponding.

In the present embodiment, described second determining unit 24 determines that the situation whether data on flows that described in each, Flow Control passage is corresponding meets the flow condition that Flow Control passage is corresponding described in each comprises:

A, flow condition are that data on flows corresponding to application is when being less than or equal to predetermined threshold value, namely the data on flows of the application correspondence of each Flow Control passage is monitored, and each data on flows applied and predetermined threshold value are compared, described second determining unit 24 determines whether each Flow Control passage meets corresponding flow condition; Such as, flow value corresponding to certain application is greater than predetermined threshold value, thinks the Traffic Anomaly (situation of burst flow) of this application correspondence.

B, flow condition be apply the bandwidth that takies within the scope of pre-set bandwidths time, namely the current bandwidth taken of each Flow Control passage is monitored, current for each Flow Control passage bandwidth that takies and pre-set bandwidths scope are compared, described second determining unit 24 determines whether each Flow Control passage meets corresponding flow condition; Such as, when the current band taken of described Flow Control passage is wider than the maximum boundary value of described pre-set bandwidths scope, think that bandwidth occupancy is too high, the situation of Flow Control channel block may be caused to occur, now described second determining unit 24 determines that current Flow Control passage does not meet preset flow condition; Or when the current bandwidth taken of described Flow Control passage is less than the minimum edge dividing value of described bandwidth range, think that bandwidth occupancy is too low, may cause the bandwidth waste of Flow Control passage, now described second determining unit 24 determines that current Flow Control passage does not meet preset flow condition.

C, flow condition are that number of users that single user is reached the standard grade is when being less than predetermined threshold value, the number of users that monitoring single user is reached the standard grade, the number of users of each Flow Control passage and predetermined threshold value are compared, described second determining unit 24 determines whether each Flow Control passage meets corresponding flow condition; Due to the number of users of reaching the standard grade user be more than or equal to predetermined threshold value time, Flow Control bandwidth chahnel is caused to take too high, affect Consumer's Experience, when the number of users of then reaching the standard grade user is more than or equal to predetermined threshold value, described second determining unit 24 determines that described Flow Control passage does not meet corresponding flow condition.

D, flow condition are that the occupied bandwidth of Flow Control passage in prefixed time interval is when being less than pre-set bandwidths threshold value, obtain the occupied bandwidth of each Flow Control passage in prefixed time interval, and when Flow Control passage occupied bandwidth is within a preset time interval more than or equal to pre-set bandwidths threshold value (as Flow Control passage runs full for a long time, affect Consumer's Experience), described second determining unit 24 determines that described Flow Control passage does not meet corresponding flow condition.

Determine that the situation of the whether satisfied corresponding flow condition of described Flow Control passage is only exemplary for four kinds that enumerate above; those skilled in the art utilize technological thought of the present invention; other proposition according to its real needs variously determines whether Flow Control passage meets the situation of corresponding flow condition all in protection scope of the present invention, does not carry out exhaustive one by one at this.

Output module 30, for when described Flow Control channel data does not meet pre-conditioned, exports warning message.

In the present embodiment, preferred version is, when described Flow Control channel data does not meet pre-conditioned, described output module 30 exports warning message and comprises: when described in each, channel parameters does not meet pre-conditioned, or, when the data on flows that described Flow Control passage is corresponding does not meet flow condition corresponding to described Flow Control passage, described output module 30 sends a warning message to the communication terminal preset or exports warning message, described output module 30 exports the mode of warning message preferably by display interface display alarm window, and based on described alarm window outputting alarm information, this described communication terminal preset comprises server or User IP place terminal.

The Flow Control channel monitoring system that the present embodiment proposes, when receiving the instruction of Flow Control channel monitoring, determine each Flow Control passage to be monitored that the instruction of described Flow Control channel monitoring is corresponding, analyze the Flow Control channel data of each Flow Control passage to be detected described, to determine described in each, whether Flow Control channel data meets pre-conditioned, when described Flow Control channel data does not meet pre-conditioned, export warning message, achieve the inspection of the allocative effect to each Flow Control passage.

Further, for improving the accuracy of Flow Control channel monitoring, with reference to Fig. 8, propose Flow Control channel monitoring system second embodiment of the present invention based on the first embodiment, in the present embodiment, described Flow Control channel monitoring system also comprises:

Display module 40, for showing the Flow Control channel data of Flow Control passage to be monitored described in each at default display interface.

In the present embodiment, for improving display precision, described display module 40 preferably adopts the mode of roll display to show Flow Control channel data corresponding to each Flow Control passage, and in roll display process, the Flow Control number of channels that the every screen display of described display module 30 is shown is predetermined number.Such as: user preset Flow Control to be monitored passage is 6 in the number that default display interface shows, when receiving the instruction of Flow Control channel monitoring, each Flow Control passage to be monitored described is according to the order preset, 6 Flow Control passages to be monitored are shown successively at described display interface, and described display module 40 shows Flow Control channel data corresponding to described 6 Flow Control passages to be monitored, and after prefixed time interval (as 10 seconds), determine 6 other Flow Control passages to be monitored, replace 6 Flow Control passages of described display interface display.It will be appreciated by persons skilled in the art that described display module 40 also can show the Flow Control passage to be monitored of other quantity as required.

The Flow Control channel data that the Flow Control passage to be monitored of described predetermined number is corresponding shows preferably by form, the Flow Control channel data that the Flow Control passage described to be monitored that user shows based on described form is corresponding, check the configuring condition of described Flow Control passage to be monitored, can carry out error correction or adjustment to the place of unreasonable allocation in described Flow Control passage to be monitored, described display module 40 also can show Flow Control channel data corresponding to described Flow Control passage to be monitored by other display modes (as: column diagram) as required simultaneously.

It should be noted that, in this article, term " comprises ", " comprising " or its other variant any are intended to contain comprising of nonexcludability, thus make to comprise the process of a series of key element, method, article or system and not only comprise those key elements, but also comprise other key element clearly do not listed, or also comprise by the intrinsic key element of this process, method, article or system.When not more restrictions, the key element limited by statement " comprising ... ", and be not precluded within process, method, article or the system comprising this key element and also there is other identical element.

The invention described above embodiment sequence number, just to describing, does not represent the quality of embodiment.

Through the above description of the embodiments, those skilled in the art can be well understood to the mode that above-described embodiment method can add required general hardware platform by software and realize, hardware can certainly be passed through, but in a lot of situation, the former is better execution mode.Based on such understanding, technical scheme of the present invention can embody with the form of software product the part that prior art contributes in essence in other words, this computer software product is stored in a storage medium (as ROM/RAM, magnetic disc, CD), comprising some instructions in order to make a station terminal equipment (can be mobile phone, computer, server, air conditioner, or the network equipment etc.) perform method described in each embodiment of the present invention.

These are only the preferred embodiments of the present invention; not thereby the scope of the claims of the present invention is limited; every utilize specification of the present invention and accompanying drawing content to do equivalent structure or equivalent flow process conversion; or be directly or indirectly used in other relevant technical field, be all in like manner included in scope of patent protection of the present invention.

Claims (8)

1. a Flow Control channel monitoring method, is characterized in that, described Flow Control channel monitoring method comprises the following steps:

When receiving the instruction of Flow Control channel monitoring, determine each Flow Control passage to be monitored that the instruction of described Flow Control channel monitoring is corresponding;

Analyze the Flow Control channel data of each Flow Control passage to be detected described, to determine described in each, whether Flow Control channel data meets pre-conditioned;

When described Flow Control channel data does not meet pre-conditioned, export warning message.

2. Flow Control channel monitoring method as claimed in claim 1, it is characterized in that, when the described pre-conditioned parameters for comprising in described channel parameters does not exist conflict, and/or when described in each, channel parameters does not repeat, the Flow Control channel data of each Flow Control passage to be detected described in described analysis, to determine whether Flow Control channel data described in each meets pre-conditioned step and comprise:

Obtain the channel parameters in Flow Control channel data described in each;

Determine whether the parameters comprised in channel parameters described in each exists conflict, and/or whether channel parameters described in each repeats.

3. Flow Control channel monitoring method as claimed in claim 1, it is characterized in that, when the described pre-conditioned data on flows corresponding for Flow Control passage described in each meets the flow condition that described in each, Flow Control passage is corresponding, the Flow Control channel data of each Flow Control passage to be detected described in described analysis, to determine whether Flow Control channel data described in each meets pre-conditioned step and also comprise:

Obtain the data on flows in Flow Control channel data described in each, and obtain the flow condition that described in each, Flow Control passage is corresponding;

Determine whether the data on flows that described in each, Flow Control passage is corresponding meets the flow condition that described in each, Flow Control passage is corresponding.

4. the Flow Control channel monitoring method as described in any one of claim 1-3, it is characterized in that, the Flow Control channel data of each Flow Control passage to be detected described in described analysis, after determining described in each whether Flow Control channel data meets pre-conditioned step, described Flow Control channel monitoring method also comprises:

The Flow Control channel data of Flow Control passage to be monitored described in each is shown at default display interface.

5. a Flow Control channel monitoring system, is characterized in that, described Flow Control channel monitoring system comprises:

First determination module, for when receiving the instruction of Flow Control channel monitoring, determines each Flow Control passage to be monitored that the instruction of described Flow Control channel monitoring is corresponding;

Second determination module, for analyzing the Flow Control channel data of each Flow Control passage to be detected described, to determine described in each, whether Flow Control channel data meets pre-conditioned;

Output module, for when described Flow Control channel data does not meet pre-conditioned, exports warning message.

6. Flow Control channel monitoring system as claimed in claim 5, is characterized in that, when the described pre-conditioned parameters for comprising in described channel parameters does not exist conflict, and/or when described in each, channel parameters does not repeat, described second determination module comprises:

First acquiring unit, for obtaining the channel parameters in Flow Control channel data described in each;

First determining unit, for determining whether the parameters comprised in channel parameters described in each exists conflict, and/or whether channel parameters described in each repeats.

7. Flow Control channel monitoring system as claimed in claim 5, it is characterized in that, when the described pre-conditioned data on flows corresponding for Flow Control passage described in each meets the flow condition that described in each, Flow Control passage is corresponding, described second determination module also comprises:

Second acquisition unit, for obtaining the data on flows in Flow Control channel data described in each, and obtains the flow condition that described in each, Flow Control passage is corresponding;

Second determining unit, for determining whether the data on flows that described in each, Flow Control passage is corresponding meets the flow condition that described in each, Flow Control passage is corresponding.

8. the Flow Control channel monitoring system as described in any one of claim 5-7, is characterized in that, described Flow Control channel monitoring system also comprises:

Display module, for showing the Flow Control channel data of Flow Control passage to be monitored described in each at default display interface.