CN104219071A

CN104219071A - Network quality monitoring method and server

Info

Publication number: CN104219071A
Application number: CN201310211131.XA
Authority: CN
Inventors: 任红颖; 李军; 张伟; 郑刃
Original assignee: Huawei Technologies Co Ltd
Current assignee: Zhejiang Haining Warp Knitting Industrial Park Development Co ltd
Priority date: 2013-05-30
Filing date: 2013-05-30
Publication date: 2014-12-17
Anticipated expiration: 2033-05-30
Also published as: CN104219071B

Abstract

The embodiment of the invention provides a network quality monitoring method and a server, relates to the field of Internet, and aims to monitor and show the network quality of a whole network and subnets, highlight objects with severe problems and solve the problem of the need of repeated skip during checking of alarm information and performance indexes. The method comprises the following steps: displaying all regions on a map, highlighting deteriorated regions, and sequentially displaying the KPI (Key Performance Indicator) of each region to form transverse comparison among the regions; displaying alarm information according to time intervals and highlighting unprocessed alarms; displaying alarm object information, alarm basic information, a physical path where an alarm object is positioned and the alarm object in KPI displaying in a time interval to be inquired in a centralized manner; and displaying service paths on the map, wherein segmented paths in each service path can be displayed. The embodiment of the invention is applied to monitoring of the network quality of the whole network and the subnets.

Description

A kind of method for supervising of network quality and server

Technical field

The present invention relates to internet arena, particularly relate to a kind of method for supervising and server of network quality.

Background technology

All-IP (Internet Protocol, Internet protocol) bearer network is multiple service supporting net based on IP technology, it is the basis of carrier network IPization and network transformation, concerning networking and operation, from legacy network to the transition of All-IP network, can network cost be reduced, more functions of business platform are more flexibly provided.

But along with network A LL-IPization, the O&M of IP network not only cost rises year by year, be also faced with lack effective monitoring means, lack end-to-end quality guarantee, the lot of challenges such as fault location difficulty.

At present, based on passive maintenance in network O&M, mainly monitoring alarm, but alarm is generally created problem, can not provide warning before problem occurs.Therefore, in order to reduce network failure incidence, improving troubleshooting efficiency, significantly promoting network quality, promote user satisfaction, how sending warning is before problems arise current problem demanding prompt solution.

Because network deterioration and performance index change are closely related, the performance index that therefore can be gathered by existing network judges network quality, in order to solve the problem, what adopt in prior art is the mode that alarm (mode comprises the alarm of equipment own and performance index gets over line alarm) and full dose performance index are monitored respectively, this mode is that alarm and performance index have been placed in different functions, can only monitor respectively, cause warning information and performance index dispersion, need redirect repeatedly, significantly adding users memory burden, and performance gets over line alarm and equipment alarm is listed in the mode of form all, accurately can not judge which object problem is serious, and prior art lacks for the whole network, subnet, the monitoring of compartmentalization total quality situation, analysis means.

Summary of the invention

Embodiments of the invention provide a kind of method for supervising and server of network quality, can monitor and represent the network quality of the whole network and subnet, can also the serious object of outstanding problem, and the problem of accusing and needing redirect repeatedly when checking alarming information and performance index can be solved.

For achieving the above object, embodiments of the invention adopt following technical scheme:

First aspect, provides a kind of method for supervising of network quality, and described method comprises:

After triggering the whole network performance queries, obtain initial data according to area information from database; Wherein, described the whole network is divided into multiple region, and have multiple monitored object pre-seted under each region, described area information pre-sets, and comprises the area identification in each region;

The performance index rank in the performance index rank of monitored object under the performance index in each region, each region, the average behavior index of the whole network and each region is obtained according to described initial data; Described performance index is the numerical value obtained after processing initial data by cumulative, average algorithm, for identifying performance quality;

According to the performance index rank display monitoring administration view in the performance index rank of monitored object under the performance index in each region, each region, the average behavior index of the whole network and each region.

In conjunction with first aspect, in the implementation that the first is possible, the performance index rank display monitoring administration view in the performance index rank of monitored object under the described performance index according to each region, each region, the average behavior index of the whole network and each region comprises:

The performance index in top n region the highest for performance index in network-wide basis is presented on the first display interface according to rank by the performance index rank according to described each region;

Viewing area distribution map on described first display interface, and in described regional distribution chart, the region of performance degradation is highlighted;

Described first display interface shows the top n region that the average behavior index of described the whole network, the long history data of the average behavior index of the whole network, the distributed intelligence of the whole network performance index and alarm quantity are maximum;

Wherein, the long history data of the average behavior index of described the whole network are the history value of the average behavior index of the whole network in stipulated time section; The distributed intelligence of described the whole network performance index comprise performance index normal region and performance index in network-wide basis transfinite region respectively shared by percentage, described performance index comprises at least one in CPU usage, memory usage, bandwidth availability ratio and flow.

In conjunction with first aspect, in the implementation that the second is possible, the performance index rank display monitoring administration view in the performance index rank of monitored object under the described performance index according to each region, each region, the average behavior index of the whole network and interior each region comprises:

Second display interface shows the average behavior index of described the whole network;

In the performance index rank according to described each region, the performance index in each for the whole network region is laterally presented on described second display interface according to rank, and is presented in the horizontal direction of average behavior index display position of described the whole network;

Described second display interface shows the performance index overview in the region of current selected, and show the initial data in the region of current selected on described second display interface; Described performance index comprises at least one in CPU usage, memory usage, bandwidth availability ratio and flow.

In conjunction with first aspect, in the implementation that the third is possible, described method also comprises:

After trigger alerts inquiry, obtain the resource identification of object to be checked, topology information and time period to be checked;

From described database, the resource information corresponding with described resource identification, topology information is obtained according to described resource identification, topology information;

Warning information corresponding with described resource information within the described time period to be checked is obtained with the described time period to be checked according to described resource information;

Described warning information is shown.

In conjunction with the third possible implementation of first aspect, in the 4th kind of possible implementation, describedly display carried out in the display of described warning information comprise:

Displaying time axle on the 3rd display interface, is provided with scroll bar on the time axis, the described scroll bar positional representation on the time axis current selected time period;

Described 3rd display interface is presented at all warning information in the described current selected time period.

In conjunction with the 4th kind of possible implementation of first aspect, in the 5th kind of possible implementation, described display by described warning information carries out showing also comprising:

If there is the warning information of not process in time, then the time period at the described not warning information place of process is in time highlighted on the time axis.

In conjunction with first aspect, in the 6th kind of possible implementation, described method also comprises:

After trigger alerts and performance index are inquired about, obtain the resource identification of query object and described time period to be checked;

Warning information corresponding with described resource identification within the described time period to be checked is obtained with the described time period to be checked according to described resource identification;

Performance index corresponding with described resource identification within the described time period to be checked is obtained with the described time period to be checked according to described resource identification;

Show after being integrated by the performance index of described warning information and described correspondence, described performance index comprises at least one in CPU usage, memory usage, bandwidth availability ratio and flow.

In conjunction with the 6th kind of possible implementation of first aspect, in the 7th kind of possible implementation, described the performance index of warning information and described correspondence is integrated after carry out display and comprise:

All warning information in the described time period to be checked are presented on the 4th interface with the form of warning information list;

The details of the alarm object corresponding to the warning information of current selected in described warning information list are presented on described 4th interface; The details of described alarm object comprise the information of alarm object, alarm essential information, the physical pathway at described alarm object place and the performance index of described alarm object within the described time period to be checked.

In conjunction with the 7th kind of possible implementation of first aspect, in the 8th kind of possible implementation, described method also comprises:

After triggering the analysis to described alarm object, jump to the 5th interface by described 4th interface;

Described 5th interface shows the alarm object of present analysis, and the business to be associated with the alarm object of described present analysis or attribute, and the performance index of the business be associated with the alarm object of described present analysis by the historical performance index of the alarm object of described present analysis or attribute is presented on described 5th interface side by side.

In conjunction with first aspect, in the 9th kind of possible implementation, described method also comprises:

After trigger business service quality rating sectionalization test, obtain end-to-end path;

According to described end-to-end path inquire about from described database described end-to-end path the network element port information of process, obtain the segmented paths information of each segmentation in described end-to-end path, described segmented paths information is the information in the path between every two abutting ends;

Segmented paths information according to each segmentation carries out the configuration of QoS grade on the terminal device, obtain the segmentation QoS grading index value corresponding with each segmentation, described segmentation QoS grading index value comprises time delay, shake and packet loss;

Show after the segmented paths information of each segmentation and segmentation QoS grading index value are integrated.

In conjunction with the 9th kind of possible implementation of first aspect, in the tenth kind of possible implementation, described the segmented paths information of each segmentation and segmentation QoS grading index value are integrated after carry out display and comprise:

The segmented paths information of each segmentation and segmentation QoS grading index value are arranged from high to low according to risk, and by the segmented paths information displaying of top n segmentation QoS grading index value the highest for risk or segmentation on the 6th interface;

The distribution situation of two ends on map of each service path and this service path be presented on described 6th interface, and highlighted by off path, wherein, every bar service path comprises multiple segmented paths.

In conjunction with the tenth kind of possible implementation of first aspect, in the 11 kind of possible implementation, described method also comprises:

The path of each segmentation comprised by the service path of current selected is presented on the 7th interface, and is marked by the path different colours of segmentations different for risk class according to the risk class of the segmentation QoS grading index value of each segmentation described.

Second aspect, provides a kind of monitor server, and described server comprises:

Inquiry polymerized unit, after triggering the whole network performance queries, obtains initial data according to area information from database; Wherein, described the whole network is divided into multiple region, and have multiple monitored object pre-seted under each region, described area information pre-sets, and comprises the area identification in each region;

Described inquiry polymerized unit also for obtaining the performance index rank in the performance index rank of monitored object under the performance index in each region, each region, the average behavior index of the whole network and each region according to described initial data, and is sent to webmaster display unit by after the performance index rank polymerization in the performance index rank of monitored object under the performance index in each region, each region, the average behavior index of the whole network and each region; Described performance index is the numerical value obtained after processing initial data by cumulative, average algorithm, for identifying performance quality;

Webmaster display unit, for receiving the performance index rank in the performance index rank of monitored object under the performance index in each region after polymerization that described inquiry polymerized unit sends, each region, the average behavior index of the whole network and each region, and according to the performance index rank display monitoring administration view in the performance index rank of monitored object under the performance index in each region, each region, the average behavior index of the whole network and each region.

In conjunction with second aspect, in the implementation that the first is possible, described webmaster display unit specifically for:

In conjunction with second aspect, in the implementation that the second is possible, described webmaster display unit specifically for:

In conjunction with second aspect, in the implementation that the third is possible, described server also comprises:

Monitoring control unit, after trigger alerts inquiry, obtains the resource identification of object to be checked, topology information and time period to be checked, and described resource identification, topology information and time period to be checked is sent to topology information administrative unit;

Topology information administrative unit, for receiving described resource identification that described monitoring control unit sends, topology information and time period to be checked, and from described database, obtain the resource information corresponding with described resource identification, topology information according to described resource identification, topology information, more described time period to be checked and described resource information are sent to warning information administrative unit;

Warning information administrative unit, for receiving the time period described to be checked of described topology information administrative unit transmission and described resource information, and obtain warning information corresponding with described resource information within the described time period to be checked according to described resource information with the described time period to be checked, and described warning information is sent to described webmaster display unit;

Described webmaster display unit is used for described warning information to show.

In conjunction with the third possible implementation of second aspect, in the 4th kind of possible implementation, described webmaster display unit specifically for:

In conjunction with the 4th kind of possible implementation of second aspect, webmaster display unit also specifically for:

In conjunction with second aspect, in the 6th kind of possible implementation of second aspect, described server also comprises:

Described monitoring control unit, for after trigger alerts and performance index are inquired about, obtain the resource identification of query object and described time period to be checked, and described resource identification and described time period to be checked are sent to described warning information administrative unit and described inquiry polymerized unit;

Described warning information administrative unit, for obtaining warning information corresponding with described resource identification within the described time period to be checked according to described resource identification with the described time period to be checked, and is sent to described monitoring control unit by described warning information;

Described inquiry polymerized unit, for obtaining performance index corresponding with described resource identification within the described time period to be checked according to described resource identification with the described time period to be checked, and is sent to described monitoring control unit by described performance index;

Described monitoring control unit is also for being sent to described webmaster display unit by the performance index of the described warning information received and described correspondence;

Described webmaster display unit, show after being integrated by the performance index of described warning information and described correspondence, described performance index comprises at least one in CPU usage, memory usage, bandwidth availability ratio and flow.

In conjunction with the 6th kind of possible implementation of second aspect, in the 7th kind of possible implementation of second aspect, described webmaster display unit specifically for:

In conjunction with the 7th kind of possible implementation of second aspect, in the 8th kind of possible implementation of second aspect, described webmaster display unit also specifically for:

In conjunction with second aspect, in the 9th kind of possible implementation of second aspect, described server also comprises:

Described monitoring control unit, for after trigger business service quality rating sectionalization test, obtains end-to-end path, and described end-to-end path is sent to described topology information administrative unit;

Described topology information administrative unit, for receiving the end-to-end path that described monitoring control unit sends, and according to described end-to-end path inquire about from described database described end-to-end path the network element port information of process, obtain the segmented paths information of each segmentation in described end-to-end path, described segmented paths information is the information in the path between every two abutting ends, more described segmented paths information is sent to described monitoring control unit;

Described segmented paths information also for receiving the described segmented paths information that described topology information administrative unit sends, and is sent to described dispensing unit by described monitoring control unit;

Dispensing unit, for receiving the segmented paths information that described monitoring control unit sends, and carry out the configuration of QoS grade on the terminal device according to the segmented paths information of each segmentation, obtain the segmentation QoS grading index value corresponding with each segmentation, described segmentation QoS grading index value comprises time delay, shake and packet loss, more described segmentation QoS grading index value is sent to described monitoring control unit;

Described monitoring control unit is also for being sent to described webmaster display unit by the described segmentation QoS received, described segmented paths information;

Described webmaster display unit, shows after the segmented paths information of each segmentation and segmentation QoS grading index value being integrated.

In conjunction with the 9th kind of possible implementation of the second aspect of second aspect, in the tenth kind of possible implementation of second aspect, described webmaster display unit specifically for:

In conjunction with the tenth kind of possible implementation of the second aspect of second aspect, in the 11 kind of possible implementation of second aspect, described webmaster display unit also specifically for:

Embodiments of the invention provide a kind of method for supervising and server of network quality, after triggering the whole network performance queries, initial data is obtained from database according to area information, and the performance index rank in the performance index rank of monitored object under the performance index in each region, each region, the average behavior index of the whole network and each region is obtained according to initial data, and according to these information, all regions are shown on map, outstanding deteriorated region the KPI of regional makes across comparison between regional by rank display; After trigger alerts inquiry, warning message is shown on a time period and untreated alarm is highlighted; After trigger alerts and KPI inquire about, the physical pathway at alarm object information, alarm essential information and alarm object place and the KPI of described alarm object within the described time period to be checked are shown centralized displaying; After trigger business service quality rating, service path is presented on map, and the segmented paths that can show in every bar service path, achieve the monitoring of the network quality of the whole network and subnet and represent, can the serious object of outstanding problem, solve cause due to warning information and KPI dispersion check warning information and KPI time need the problem of redirect repeatedly, also achieve the problem of the accurate location of performance degradation object.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.

The schematic flow sheet of the method for supervising of a kind of network quality that Fig. 1 provides for the embodiment of the present invention;

The schematic flow sheet of the method for supervising of a kind of network quality that Fig. 2 provides for the embodiment of the present invention;

The effect schematic diagram of a kind of display interface that Fig. 3 provides for the embodiment of the present invention;

The effect schematic diagram of a kind of display interface that Fig. 4 provides for the embodiment of the present invention;

The schematic flow sheet of the method for supervising of a kind of network quality that Fig. 5 provides for the embodiment of the present invention;

The effect schematic diagram of a kind of display interface that Fig. 6 provides for the embodiment of the present invention;

The schematic flow sheet of the method for supervising of a kind of network quality that Fig. 7 provides for the embodiment of the present invention;

The effect schematic diagram of a kind of display interface that Fig. 8 provides for the embodiment of the present invention;

The effect schematic diagram of a kind of display interface that Fig. 9 provides for the embodiment of the present invention;

The schematic flow sheet of the method for supervising of a kind of network quality that Figure 10 provides for the embodiment of the present invention;

The effect schematic diagram of a kind of display interface that Figure 11 provides for the embodiment of the present invention;

The effect schematic diagram of a kind of display interface that Figure 12 provides for the embodiment of the present invention;

The structural representation of a kind of monitor server that Figure 13 provides for the embodiment of the present invention;

The structural representation of a kind of monitor server that Figure 14 provides for the embodiment of the present invention;

The structural representation of a kind of monitor server that Figure 15 provides for the embodiment of the present invention;

The structural representation of the another kind of monitor server that Figure 16 provides for the embodiment of the present invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

The embodiment of the present invention provides a kind of method for supervising of network quality, and as shown in Figure 1, described method comprises:

101, after triggering the whole network performance queries, initial data is obtained according to area information from database.

Wherein, the whole network can be understood as the whole network of operator by the management maintenance of management system, the whole network safeguarded due to operator is generally larger, and overlay area is comparatively wide, generally the whole network can be divided into multiple little network when safeguarding, how to divide by region, can be understood as, the whole network is divided into multiple region, and the network in each region can for being called a subnet, and under each region, having multiple monitored object pre-seted, area information pre-sets.

Above-mentioned zone information can be understood as the area identification for identifying zones of different, the place name in such as this region or numbering.

102, the performance index rank in the performance index rank of monitored object under the performance index in each region, each region, the average behavior index of the whole network and each region is obtained according to initial data.Performance index is the numerical value obtained after processing initial data by cumulative, average algorithm, for identifying performance quality; Performance index can comprise at least one in CPU usage, memory usage, bandwidth availability ratio and flow.

103, according to the performance index rank display monitoring administration view in the performance index rank of monitored object under the performance index in each region, each region, the average behavior index of the whole network and each region.

Embodiments of the invention provide a kind of method for supervising of network quality, after triggering the whole network performance queries, initial data is obtained from database according to area information, and the performance index in each region is obtained according to initial data, the performance index rank of monitored object under each region, the average behavior index of the whole network and the performance index rank in each region, and according to the performance index in each region, the performance index rank of monitored object under each region, the average behavior index of the whole network and the performance index rank display monitoring administration view in each region, the network quality of the whole network and subnet can be represented, and can the serious object of outstanding problem, and the problem of accusing and needing redirect repeatedly when checking alarming information and performance index can be solved.

The technical scheme more clearly understood the embodiment of the present invention to enable those skilled in the art and provide, below by specific embodiment, the method for supervising of the another kind of network quality that the embodiment of the present invention provides is described in detail, for convenience of description, in method below by performance index referred to as KPI (Key Performance Indicator, Key performance index), as shown in Figure 2, the method comprises:

201, the inquiry of the whole network performance quality is triggered.

Concrete, the control appliance with display screen can be set at monitor server, administrative staff can by triggering the inquiry of the whole network performance quality to the operation of GUI (Graphical User Interface, graphic user interface) on this control appliance.

202, obtain initial data according to area information from database, and obtain the KPI rank in the KPI rank of monitored object under the KPI in each region, each region, the average KPI of the whole network and each region according to initial data.Above-mentioned zone information pre-sets, and this area information can for the area identification for identifying zones of different, the place name in such as this region or numbering.Monitored object under each region also pre-sets, due to a lot of entity device of physical presence in each region, need will wherein to need the equipment monitored to be set to monitored object in advance, such as, and the corresponding relation set up between this region and the monitored object pre-seted, can associate needing in a certain region the object monitored with the area information in this region.

Wherein, above-mentioned zone information can be understood as the information for identifying zones of different, can be place name or the numbering in this region, but be not limited to this.

And KPI be by adding up to initial data, the numerical value that obtains of average scheduling algorithm, the quality of the performance quality in this region can be identified, wherein, KPI can comprise at least one in the CPU usage of equipment, memory usage, bandwidth availability ratio and flow usually, but is not limited to this.

Exemplary, the KPI in each region can comprise the flow in the CPU usage in this region, memory usage, bandwidth availability ratio and this region; The average KPI of the whole network is the average CPU usage of the whole network, the flow of average memory usage, averaging bandwidth utilization and the whole network; Wherein, the KPI in a region is the numerical value obtained after processing by cumulative, the initial data of average algorithm to monitored object all in this region, and the average KPI of the whole network is the numerical value obtained by adding up to the KPI in each region, after average treatment.

203, according to the KPI rank display monitoring administration view in the KPI rank of monitored object under the KPI in each region, each region, the average KPI of the whole network and each region.

Exemplary, under a kind of implementation, this monitoring management diagram can show the performance quality of the whole network entirely visually, and concrete can comprise:

According to the KPI rank in each region, the KPI of regional can be shown on the first interface, but be limited in scope due to display interface, can the KPI in top n region the highest for KPI in network-wide basis is presented on the first display interface according to rank; Certainly, also by the mode of scroll bar, the KPI in all regions can be shown on the first interface.

Can also on the first display interface viewing area distribution map, such as, with the form of map, and in regional distribution chart, the region of performance degradation is highlighted, such as uses eye-catching color marking to go out.

The top n region that the average KPI of the whole network, the long history data (historical traffic as long-term) of the average KPI of the whole network, the distributed intelligence of the whole network KPI and alarm quantity are maximum can also be shown on the first display interface.Wherein, the long history data of the average KPI of the whole network are the history value of the average KPI of the whole network in stipulated time section; The distributed intelligence of the whole network KPI comprise KPI normal region and KPI in network-wide basis transfinite region respectively shared by percentage.In addition, the value of above-mentioned N is positive integer.

Exemplary, as shown in Figure 3, it is the effect schematic diagram at the first interface, area distribution Figure 31 of the form of map is shown in the region of Fig. 3 upper left, indicate the region of performance degradation by special color (being shadow region in figure) in area distribution Figure 31, the KPI (being CPU usage and memory usage in figure) in the highest top n region of KPI in network-wide basis is shown in the region KPI display window 32 of the below of area distribution Figure 31, KPI normal rates (for the normal rates of averaging bandwidth utilization in Fig. 3) normal region showing the whole network in the average KPI display window 33 on the right side of Fig. 3 and the percentage transfinited shared by the difference of region, the long-term flow histories value of the whole network, the average KPI of the whole network (comprising: CPU usage, average memory usage, averaging bandwidth utilization) and maximum front 5 regions of alarm quantity.

The benefit of above-mentioned display mode is the performance state that intuitively can present the whole network, is shown in all regions on map, normal region and deteriorated region very clear, the KPI of regional makes the contrast between regional more clear by rank display.

Or under another kind of implementation, this monitoring management diagram partly can show the performance quality of the whole network visually, and concrete can comprise:

The average KPI of the whole network can be shown on the second display interface;

In the KPI rank according to each region, the KPI in each for the whole network region laterally can also be presented on the second display interface according to rank, and be presented in the horizontal direction of average KPI display position of the whole network.Because display interface is limited in scope, so the mode of scroll bar can be adopted to be shown.

The KPI overview in the region of current selected can also be shown on the second display interface, and on the second display interface, show the initial data in the region of current selected.Wherein, the initial data in the region of current selected can comprise the interface name (Interface Name) of each monitored object in this region, port bandwidth (Port Bandwidth), inflow flow (Traffic In, comprise mean value and peak value), flow out flow (Traffic Out, comprise mean value and peak value), flow into bandwidth availability ratio (Bandwidth Utilization In, the mean value comprised and peak value), flow out bandwidth availability ratio (Bandwidth Utilization Out, the mean value comprised and peak value) etc.

Exemplary, as shown in Figure 4, for the effect schematic diagram of second contact surface, KPI above the second display interface contrasts the flow value showing the whole network in window 41, and the flow value in each region of the whole network (slide by slider bar and show), and the flow value in each region of the whole network is laterally presented at KPI according to rank and contrasts (shadow representation inflow flow in window 41, white represents outflow flow), in addition, the broken line also showing band node in window 41 is contrasted at KPI, wherein solid line represents inflow bandwidth availability ratio (Traffic Utilization In), dotted line represents outflow bandwidth availability ratio (Traffic Utilization Out).Certainly, except flow value, KPI contrasts window 41 also can show other KPI data (not shown), does not enumerate at this.The lower left contrasting window 41 at KPI is provided with KPI overview window 42, shows region (being Guangzhou in Fig. 4) the KPI overview of current selected, such as flows into flow value and flow out flow value, flow into bandwidth availability ratio and flow out bandwidth availability ratio.The right side of KPI overview window 42 is provided with initial data display window 43, the initial data of all monitored object in Guangzhou is shown in this initial data display window 43, these initial data comprise the interface name of monitored object, port bandwidth, inflow flow (comprising mean value and peak value), outflow flow (comprising mean value and peak value), inflow bandwidth availability ratio (mean value comprised and peak value), outflow bandwidth availability ratio (mean value comprised and peak value).

The benefit of above-mentioned display mode be can be clear and intuitive the network performance of regional is carried out lateral comparison, and can to compare with the average data of the whole network, and the initial data in each region can be browsed fast.

Optionally, the method for supervising of the network quality that embodiment provides, as shown in Figure 5, can also comprise:

301, trigger alerts inquiry.

Concrete, identical with step 201, administrative staff can by carrying out trigger alerts inquiry to the operation of GUI on the control appliance of monitor server.

302, the resource identification of object to be checked, topology information and time period to be checked is obtained.Wherein, resource typically refers to the record that the object in network shows in systems in which, and resource identification is an attribute of object to be checked, is used for identifying different query objects.

303, from database, the resource information corresponding with resource identification, topology information is obtained according to resource identification, topology information.

304, warning information corresponding with resource information within the time period to be checked is obtained according to resource information with the time period to be checked.

305, warning information is shown.

Wherein, warning information is shown, can specifically comprise:

Can on the 3rd display interface displaying time axle, be provided with scroll bar on a timeline, the scroll bar positional representation on a timeline current selected time period.

Further, the 3rd display interface is presented at all warning information in the current selected time period.

Optionally, can also comprise: if there is the warning information of not process in time, then the time period at the warning information place of not process is in time highlighted on a timeline.

Exemplary, as shown in Figure 6, be the effect schematic diagram at the 3rd interface, 3rd interface shows time shaft 61, time shaft 61 is provided with scroll bar 611, and this scroll bar 611 can slide on time shaft 61, the positional representation of scroll bar 611 on the time shaft 61 current selected time period.

Warning information that can be all in the viewing area display current selected time period on the left of time shaft 61, each warning information can show with the form of an alarm card or window, the KPI of trigger alerts can be comprised in this warning information, such as CPU usage or memory usage, and the history value of this KPI within the time period of current selected.Wherein, optionally, scroll bar acquiescence is positioned at the current residing time period, to show up-to-date warning.

Further, the time period at the warning information place of in time process is highlighted (the use shadow representation of 612 parts in such as Fig. 6 on time shaft) to point out administrative staff to have untreated alarm by eye-catching color (such as red) on a timeline.

Optionally, the method for supervising of the network quality that the present embodiment provides, as shown in Figure 7, can also comprise:

401, trigger alerts and KPI inquire about.

402, the resource identification of query object and time period to be checked is obtained.

403, warning information corresponding with resource identification within the time period to be checked is obtained according to resource identification with the time period to be checked.

404, KPI corresponding with resource identification within the time period to be checked is obtained according to resource identification with the time period to be checked.

405, show after the KPI of warning information and correspondence being integrated.

It should be noted that sequencing unfixing between step 403 and 404.

Wherein, show after warning information and corresponding performance index are integrated, can specifically comprise:

All warning information in time period to be checked can be presented on the 4th interface with the form of warning information list.

And the details of the alarm object corresponding to the warning information of current selected in warning information list are presented on the 4th interface; The details of alarm object comprise the information of alarm object, alarm essential information, the physical pathway (or being called topology information) at alarm object place and the KPI of alarm object within the time period to be checked.

Exemplary, as shown in Figure 8, it is the effect schematic diagram at the 4th interface, in the alarm object display window 81 in the left side at the 4th interface, longitudinally show all alarm object in the form of a list, the KPI (as CPU usage or memory usage) of the trigger alerts of this alarm object is shown in each list item, and the alarm object of performance degradation is out (such as red with comparatively outstanding colour code, replace with the round dot being decorated with oblique line in Fig. 6), performance there is the relatively outstanding colour code of the alarm object of deteriorated risk out (such as yellow, replace with the round dot being decorated with vertical line in Fig. 6).Because all alarm object cannot show by interface restriction, therefore, alarm object display window 81 is opened and can be comprised scroll bar 811, carrys out roll display go out other, alarm object by scroll bar 811.

There is details display window 82 at the right side facility of alarm object display window 81, show the information of the alarm object of the alarm object of current selected, alarm essential information, the physical pathway at alarm object place and the KPI of alarm object within the time period to be checked.Wherein the information of alarm object can comprise: positional information (Location Information), alarm source (Alarm Source, such as cause nodename or the numbering of alarm), the order of severity (Severity), acknowledgement state (Acknowledgement Status) etc., alarm essential information can comprise time of origin (Occurrence Time), the acknowledged alarm time (Acknowledgement Time), operating service type (Carrier Service Type, can be such as VIP), the information such as user and user gradation.Certainly, above act is only exemplary, can also comprise the details of other types in addition to that information, not enumerate at this.The KPI of alarm object within the time period to be checked, for CPU usage in Fig. 8, illustrate what the broken line graph with coordinate represented, its middle polyline is the history value of the CPU usage in this section of query time section, the straight line of horizontal direction is the warning line of CPU usage, once broken line and this straight line have intersection point, just represent that the moment at this intersection point place there occurs more line and triggers alarm, and will the warning triangle of that warn risk and that alarm occurs moment assertive colours (such as yellow and red) be had, as shown in Figure 8, there is representing with the triangle of white triangles on a timeline of warning risk, there is representing with black triangles on a timeline of alarm, the threshold value of this warning line can be arranged as required voluntarily.Optionally, all right setup times Filter Bar on the 4th interface, so that administrative staff self-definedly can arrange query time section.

Such benefit is can by the warning information of alarm object, place physical pathway, and the history KPI concentrated reflection of this object, and can based on time shaft by KPI and warning information simultaneous display, compare and monitor respectively with the warning information of prior art and KPI, greatly reduce the operation of redirect repeatedly between warning information and KPI.And compare performance and get over line alarm and equipment alarm is listed in the mode of form all, accurately can not judge which object problem is serious, the present embodiment accurately can locate the serious monitored object of deterioration.

Optionally, the 4th interface can also be provided with the trigger key analyzing alarm, administrative staff by using the analysis of this button triggering to alarm object, and can jump to the 5th interface by the 4th interface.

5th interface can show the alarm object of present analysis, and the business to be associated with the alarm object of present analysis or attribute, and the performance index of the business be associated with the alarm object of present analysis by the historical performance index of the alarm object of present analysis or attribute is presented on the 5th interface side by side.

Exemplary, as shown in Figure 9, it is the effect schematic diagram at the 5th interface, analytic target window 91 is shown in the left side at the 5th interface, change the object showing present analysis in window 91, and the business to be associated with existing object or attribute, history value contrast window 92 is shown on the right side of analytic target window 91, in this window, simultaneous display has the historical data of the object of present analysis KPI (such as CPU usage) within a period of time, and the historical data of the property value of the business be associated with existing object or attribute.As shown in Figure 9, broken line is historical data, straight line is warning line, broken line and this straight line have intersection point, just represent that the moment at this intersection point place there occurs more line and triggers alarm, and will the warning triangle of that warn risk and that alarm occurs moment assertive colours (such as yellow and red) be had, as shown in Figure 9, there is representing with the triangle of white triangles on a timeline of warning risk, representing with black triangles on a timeline of alarm occurs, and the threshold value of this warning line can be arranged as required voluntarily.Optionally, all right setup times Filter Bar on the 4th interface, so that administrative staff self-definedly can arrange query time section.

Optionally, the method for supervising of the network quality that embodiment provides, as shown in Figure 10, can also comprise:

501, trigger business service quality rating (Service Level Agreement, SLA) sectionalization test.Concrete, identical with step 201, administrative staff can by carrying out trigger alerts inquiry to the operation of GUI on the control appliance of monitor server.SLA agreement is about a contract between Internet service provider and client, there is defined COS, service quality and customer payment etc., generally can comprise family bandwidth limit, the client's number that can simultaneously serve, notice arrangement before the network change that may affect user behavior, dial in the contents such as access availability, the minimal network utility that service supplier supports, the traffic priority of all kinds of client, client technologies support and service.

502, end-to-end path is obtained.

503, according to end-to-end path inquire about from database end-to-end path the network element port information of process, obtain the segmented paths information of each segmentation in end-to-end path, segmented paths information is the information in the path between every two abutting ends (such as network element port or node).

504, carry out SLA configuration on the terminal device according to the segmented paths information of each segmentation, obtain the segmentation SLA desired value corresponding with each segmentation, segmentation SLA desired value comprises time delay, shake and packet loss.

505, show after the segmented paths information of each segmentation and segmentation SLA desired value being integrated.

Concrete, the segmented paths information of each segmentation and segmentation QoS grading index value can be arranged from high to low according to risk, and by the segmented paths information displaying of top n segmentation QoS grading index value the highest for risk or segmentation on the 6th interface.Wherein, N is positive integer.

The distribution situation of two ends on map of each service path and this service path can be presented on the 6th interface, and be highlighted by off path, wherein, every bar service path comprises multiple segmented paths.

Exemplary, as shown in figure 11, it is the effect schematic diagram at the 6th interface, the rank of segmented paths information or the rank of SLA desired value is shown at the rank window 111 in the left side at the 6th interface, segmented paths information can comprise the CPU usage of this segmentation, memory usage, the information such as flow utilance, the CPU usage of segmented paths as shown in the figure, memory usage, the ranks of information such as flow utilance and the rank of SLA desired value can be switched by select button 110 and show, and (what show in Figure 11 is the rank of SLA desired value, include time delay, shake and packet loss).

Service path ground Figure 112 is shown on the right side at the 6th interface, this service path ground Figure 112 shows the two ends of each service path and this service path, wherein, by excessive risk path, or become performance degradation path with red (replacing red with adding thick line in Figure 11), the path of medium risk can be used yellow (replacing yellow in Figure 11 with dotted line).

Further, leading subscriber can jump to the 7th display interface by clicking wherein one article of service path triggering, the path of each segmentation that the service path of current selected can be comprised in this interface is presented on the 7th interface, and is marked by the path different colours of segmentations different for risk class according to the risk class of the segmentation QoS grading index value of each segmentation.

As shown in figure 12,7th interface shows current selected service path all network element ports of process, path between every two network element ports is exactly a segmentation, wherein high risk stretch footpath redness is highlighted as shown in the figure (replacing with adding thick line in figure).The below at the 7th interface also shows the SLA desired value of this article of service path, and concrete shows example, time delay, shake, packet loss, flow and flow utilance etc.

Such benefit can locate abnormal service path and segmented paths intuitively, accurately.

It should be noted that the negative direction that the first above interface is X-axis in accompanying drawing to " left side " in the 7th interface, " right side " is the positive direction of X-axis in accompanying drawing, in addition, the displaying contents in any one interface above-mentioned is only exemplary, includes but not limited to above content.

Embodiments of the invention provide a kind of method for supervising of network quality, after triggering the whole network performance queries, initial data is obtained from database according to area information, and the performance index rank in the performance index rank of monitored object under the performance index in each region, each region, the average behavior index of the whole network and each region is obtained according to initial data, and according to these information, all regions are shown on map, outstanding deteriorated region the KPI of regional makes across comparison between regional by rank display; After trigger alerts inquiry, warning message is shown on a time period and untreated alarm is highlighted; After trigger alerts and KPI inquire about, the physical pathway at alarm object information, alarm essential information and alarm object place and the KPI of alarm object within the time period to be checked are shown centralized displaying; After trigger business service quality rating, service path is presented on map, and the segmented paths that can show in every bar service path, achieve the monitoring of the network quality of the whole network and subnet and represent, can the serious object of outstanding problem, solve cause due to warning information and KPI dispersion check warning information and KPI time need the problem of redirect repeatedly, also achieve the problem of the accurate location of performance degradation object.

The embodiment of the present invention also provides a kind of monitor server 01, and as shown in figure 13, monitor server 01 comprises:

Inquiry polymerized unit 011, after triggering the whole network performance queries, obtains initial data according to area information from database; Wherein, the whole network is divided into multiple region, and have multiple monitored object pre-seted under each region, area information pre-sets, and comprises the area identification in each region.

Inquiry polymerized unit 011 also for obtaining the performance index rank in the performance index rank of monitored object under the performance index in each region, each region, the average behavior index of the whole network and each region according to initial data, and is sent to webmaster display unit 012 by after the performance index rank polymerization in the performance index rank of monitored object under the performance index in each region, each region, the average behavior index of the whole network and each region; Wherein performance index is the numerical value obtained after processing initial data by cumulative, average algorithm, for identifying performance quality.

Webmaster display unit 012, for receiving the performance index rank in the performance index rank of monitored object under the performance index in each region after polymerization that inquiry polymerized unit 011 sends, each region, the average behavior index of the whole network and each region, and according to the performance index rank display monitoring administration view in the performance index rank of monitored object under the performance index in each region, each region, the average behavior index of the whole network and each region.

Wherein, webmaster display unit 012 can be specifically for:

The performance index in top n region the highest for performance index in network-wide basis is presented on the first display interface according to rank by the performance index rank according to each region;

Viewing area distribution map on the first display interface, and in regional distribution chart, the region of performance degradation is highlighted;

First display interface shows the top n region that the average behavior index of the whole network, the long history data of the average behavior index of the whole network, the distributed intelligence of the whole network performance index and alarm quantity are maximum;

Wherein, the long history data of the average behavior index of the whole network are the history value of the average behavior index of the whole network in stipulated time section; The distributed intelligence of the whole network performance index comprise performance index normal region and performance index in network-wide basis transfinite region respectively shared by percentage, performance index can comprise at least one in CPU usage, memory usage, bandwidth availability ratio and flow.

Or webmaster display unit 012 can be specifically for:

Second display interface shows the average behavior index of the whole network;

In the performance index rank according to each region, the performance index in each for the whole network region is laterally presented on the second display interface according to rank, and is presented in the horizontal direction of average behavior index display position of the whole network;

Second display interface shows the performance index overview in the region of current selected, and on the second display interface, showing the initial data in the region of current selected, performance index can comprise at least one in CPU usage, memory usage, bandwidth availability ratio and flow.

Further, as shown in figure 14, monitor server 01 can also comprise:

Monitoring control unit 013, after trigger alerts inquiry, obtains the resource identification of object to be checked, topology information and time period to be checked, and resource identification, topology information and time period to be checked is sent to topology information administrative unit 014;

Topology information administrative unit 014, for receiving resource identification that monitoring control unit 013 sends, topology information and time period to be checked, and from database, obtain the resource information corresponding with resource identification, topology information according to resource identification, topology information, then time period to be checked and resource information are sent to warning information administrative unit 015;

Warning information administrative unit 015, for receiving time period to be checked and the resource information of topology information administrative unit 014 transmission, and obtain warning information corresponding with resource information within the time period to be checked according to resource information with the time period to be checked, and warning information is sent to webmaster display unit 012;

Webmaster display unit 012 is for showing warning information.

Wherein, webmaster display unit 012 can be specifically for:

Displaying time axle on the 3rd display interface, is provided with scroll bar on a timeline, the scroll bar positional representation on a timeline current selected time period;

3rd display interface is presented at all warning information in the current selected time period.

Optionally, webmaster display unit 012 can also be specifically for:

If there is the warning information of not process in time, then the time period at the warning information place of not process is in time highlighted on a timeline.

Or, optionally, in another kind of implementation:

Monitoring control unit 013 can also be used for obtaining the resource identification of query object and time period to be checked, and resource identification and time period to be checked is sent to warning information administrative unit and inquires about polymerized unit 011;

Warning information administrative unit 015 can also be used for obtaining warning information corresponding with resource identification within the time period to be checked according to resource identification with the time period to be checked, and warning information is sent to monitoring control unit 013;

Inquiry polymerized unit 011 can also be used for obtaining performance index corresponding with resource identification within the time period to be checked according to resource identification with the time period to be checked, and performance index is sent to monitoring control unit 013;

Monitoring control unit 013 can also be used for the warning information received and corresponding performance index to be sent to webmaster display unit 012;

Webmaster display unit 012 can also be used for showing after warning information and the integration of corresponding performance index, and performance index can comprise at least one in CPU usage, memory usage, bandwidth availability ratio and flow.

Wherein, webmaster display unit 012 can be specifically for:

All warning information in time period to be checked are presented on the 4th interface with the form of warning information list;

The details of the alarm object corresponding to the warning information of current selected in warning information list are presented on the 4th interface; The details of alarm object comprise the information of alarm object, alarm essential information, the physical pathway at alarm object place and the performance index of alarm object within the time period to be checked.

Further, webmaster display unit 012 can also be specifically for:

After triggering is to the analysis of alarm object, jump to the 5th interface by the 4th interface;

5th interface shows the alarm object of present analysis, and the business to be associated with the alarm object of present analysis or attribute, and the performance index of the business be associated with the alarm object of present analysis by the historical performance index of the alarm object of present analysis or attribute is presented on the 5th interface side by side.

Optionally, under another kind of implementation, as shown in figure 15, monitor server 01 also comprises dispensing unit 016, wherein, concrete:

Monitoring control unit 013, also for after trigger business service quality rating sectionalization test, obtains end-to-end path, and end-to-end path is sent to topology information administrative unit 014;

Topology information administrative unit 014 is also for receiving the end-to-end path that monitoring control unit sends, and according to end-to-end path inquire about from database end-to-end path the network element port information of process, obtain the segmented paths information of each segmentation in end-to-end path, segmented paths information is the information in the path between every two abutting ends, then segmented paths information is sent to monitoring control unit 013;

Segmented paths information also for receiving the segmented paths information that topology information administrative unit sends, and is sent to dispensing unit 016 by monitoring control unit 013;

Dispensing unit 016, for receiving the segmented paths information that monitoring control unit sends, and carry out the configuration of QoS grade on the terminal device according to the segmented paths information of each segmentation, obtain the segmentation QoS grading index value corresponding with each segmentation, segmentation QoS grading index value comprises time delay, shake and packet loss, then segmentation QoS grading index value is sent to monitoring control unit 013;

Monitoring control unit 013 is also for being sent to webmaster display unit 012 by the segmentation received QoS, segmented paths information;

Webmaster display unit 012, shows after the segmented paths information of each segmentation and segmentation QoS grading index value being integrated.

Wherein, webmaster display unit 012 can be specifically for:

The distribution situation of two ends on map of each service path and this service path be presented on the 6th interface, and highlighted by off path, wherein, every bar service path comprises multiple segmented paths.

Further, webmaster display unit 012 can also be specifically for:

The path of each segmentation comprised by the service path of current selected is presented on the 7th interface, and is marked by the path different colours of segmentations different for risk class according to the risk class of the segmentation QoS grading index value of each segmentation.

Embodiments of the invention provide a kind of monitoring server, after triggering the whole network performance queries, initial data is obtained from database according to area information, and the performance index rank in the performance index rank of monitored object under the performance index in each region, each region, the average behavior index of the whole network and each region is obtained according to initial data, and according to these information, all regions are shown on map, outstanding deteriorated region the KPI of regional makes across comparison between regional by rank display; After trigger alerts inquiry, warning message is shown on a time period and untreated alarm is highlighted; After trigger alerts and KPI inquire about, the physical pathway at alarm object information, alarm essential information and alarm object place and the KPI of alarm object within the time period to be checked are shown centralized displaying; After trigger business service quality rating, service path is presented on map, and the segmented paths that can show in every bar service path, achieve the monitoring of the network quality of the whole network and subnet and represent, can the serious object of outstanding problem, solve cause due to warning information and KPI dispersion check warning information and KPI time need the problem of redirect repeatedly, also achieve the problem of the accurate location of performance degradation object.

The embodiment of the present invention also carries another kind of monitor server 02, and as shown in figure 16, this monitor server 02 comprises bus 021, and is connected to communication interface 022, memory 023 and the processor 024 in bus 021; Wherein, communication interface 022 for net element communication, memory 023 for storage program 0231, processor 024 executive program 0231 for:

After triggering the whole network performance queries, obtain initial data according to area information from database; Wherein, the whole network is divided into multiple region, and have multiple monitored object pre-seted under each region, area information pre-sets, and comprises the area identification in each region;

The performance index rank in the performance index rank of monitored object under the performance index in each region, each region, the average behavior index of the whole network and each region is obtained according to initial data; Performance index is the numerical value obtained after processing initial data by cumulative, average algorithm, for identifying performance quality;

Performance index rank according to the performance index rank of monitored object under the performance index in each region, each region, the average behavior index of the whole network and each region shows.

Processor 024 executive program 0231 specifically for:

Or, processor 024 executive program 0231 specifically for:

Second display interface shows the average behavior index of the whole network;

Optionally, processor 024 executive program 0231 can also be used for:

From database, the resource information corresponding with resource identification, topology information is obtained according to resource identification, topology information;

Warning information corresponding with resource information within the time period to be checked is obtained with the time period to be checked according to resource information;

Warning information is shown.

Wherein, processor 024 executive program 0231 can be specifically for:

Further, if there is the warning information of not process in time, then the time period at the warning information place of not process is in time highlighted on a timeline.

Optionally, processor 024 executive program 0231 can also be used for:

After trigger alerts and performance index are inquired about, obtain the resource identification of query object and time period to be checked;

Warning information corresponding with resource identification within the time period to be checked is obtained with the time period to be checked according to resource identification;

Performance index corresponding with resource identification within the time period to be checked is obtained with the time period to be checked according to resource identification;

Show after warning information and corresponding performance index being integrated, performance index can comprise at least one in CPU usage, memory usage, bandwidth availability ratio and flow.

Wherein, processor 024 executive program 0231 can be specifically for:

Further, after triggering is to the analysis of alarm object, the 5th interface is jumped to by the 4th interface;

Optionally, processor 024 executive program 0231 can also be used for:

According to end-to-end path inquire about from database end-to-end path the network element port information of process, obtain the segmented paths information of each segmentation in end-to-end path, segmented paths information is the information in the path between every two abutting ends;

Segmented paths information according to each segmentation carries out the configuration of QoS grade on the terminal device, obtain the segmentation QoS grading index value corresponding with each segmentation, segmentation QoS grading index value comprises time delay, shake and packet loss;

Wherein, processor 024 executive program 0231 can be specifically for:

Further, the path of each segmentation that the service path of current selected can be comprised is presented on the 7th interface, and is marked by the path different colours of segmentations different for risk class according to the risk class of the segmentation QoS grading index value of each segmentation.

In several embodiments that the application provides, should be understood that disclosed method and apparatus can realize by another way.Such as, device embodiment described above is only schematic, such as, the division of described unit, be only a kind of logic function to divide, actual can have other dividing mode when realizing, such as multiple unit or assembly can in conjunction with or another system can be integrated into, or some features can be ignored, or do not perform.Another point, shown or discussed coupling each other or direct-coupling or communication connection can be by some interfaces, and the indirect coupling of device or unit or communication connection can be electrical, machinery or other form.

The described unit illustrated as separating component or can may not be and physically separates, and the parts as unit display can be or may not be physical location, namely can be positioned at a place, or also can be distributed in multiple network element.Some or all of unit wherein can be selected according to the actual needs to realize the object of the present embodiment scheme.

In addition, each functional unit in each embodiment of the present invention can be integrated in a processing unit, also can be that the independent physics of unit comprises, also can two or more unit in a unit integrated.Above-mentioned integrated unit both can adopt the form of hardware to realize, and the form that hardware also can be adopted to add SFU software functional unit realizes.

The above-mentioned integrated unit realized with the form of SFU software functional unit, can be stored in a computer read/write memory medium.Above-mentioned SFU software functional unit is stored in a storage medium, comprising some instructions in order to make a computer equipment (can be personal computer, server, or the network equipment etc.) perform the part steps of method described in each embodiment of the present invention.And aforesaid storage medium comprises: USB flash disk, portable hard drive, read-only memory (Read-Only Memory, be called for short ROM), random access memory (Random Access Memory, be called for short RAM), magnetic disc or CD etc. various can be program code stored medium.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, is anyly familiar with those skilled in the art in the technical scope that the present invention discloses; change can be expected easily or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection range of described claim.

Claims

1. a method for supervising for network quality, is characterized in that, described method comprises:

2. method according to claim 1, it is characterized in that, the performance index rank display monitoring administration view in the performance index rank of monitored object under the described performance index according to each region, each region, the average behavior index of the whole network and each region comprises:

3. method according to claim 1, it is characterized in that, the performance index rank display monitoring administration view in the performance index rank of monitored object under the described performance index according to each region, each region, the average behavior index of the whole network and interior each region comprises:

4. method according to claim 1, is characterized in that, described method also comprises:

Described warning information is shown.

5. method according to claim 4, is characterized in that, describedly display is carried out in described warning information display comprises:

6. method according to claim 5, is characterized in that, described display by described warning information carries out showing also comprising:

7. method according to claim 1, is characterized in that, described method also comprises:

8. method according to claim 7, is characterized in that, described the performance index of warning information and described correspondence is integrated after carry out display and comprise:

9. method according to claim 8, is characterized in that, described method also comprises:

10. method according to claim 1, is characterized in that, described method also comprises:

11. methods according to claim 10, is characterized in that, described the segmented paths information of each segmentation and segmentation QoS grading index value are integrated after carry out display and comprise:

12. methods according to claim 11, is characterized in that, described method also comprises:

13. 1 kinds of monitor servers, is characterized in that, described server comprises:

14. servers according to claim 13, is characterized in that, described webmaster display unit specifically for:

15. servers according to claim 13, is characterized in that, described webmaster display unit specifically for:

16. servers according to claim 13, is characterized in that, described server also comprises:

17. servers according to claim 16, is characterized in that, described webmaster display unit specifically for:

18. servers according to claim 17, is characterized in that, webmaster display unit also specifically for:

19. servers according to claim 13, is characterized in that, described server also comprises:

20. servers according to claim 19, is characterized in that, described webmaster display unit specifically for:

21. servers according to claim 20, is characterized in that, described webmaster display unit also specifically for:

22. servers according to claim 13, is characterized in that, described server also comprises:

23. servers according to claim 22, is characterized in that, described webmaster display unit specifically for:

24. servers according to claim 23, is characterized in that, described webmaster display unit also specifically for: