CN100426732C - Display method for all link service flow statistics on network - Google Patents
Display method for all link service flow statistics on network Download PDFInfo
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- CN100426732C CN100426732C CNB021459584A CN02145958A CN100426732C CN 100426732 C CN100426732 C CN 100426732C CN B021459584 A CNB021459584 A CN B021459584A CN 02145958 A CN02145958 A CN 02145958A CN 100426732 C CN100426732 C CN 100426732C
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Abstract
The present invention relates to a display method for counting all link service flow on a network, which has the technical scheme that the using situation of link counting service resources between two arbitrary nodal points is displayed on a network topological diagram composed of network net element nodal points and links mutually connected to the network net element nodal points. The present invention comprises: a link pattern is divided into two parts connected with each other, wherein the first part is represented by a first color, and the second part is represented by a second color; the proportion of the length of a link pattern represented by the first color to the total length of the link pattern is a ratio of occupied service resources on the links to total service resources of the links; the proportion of the length of a link pattern represented by the second color to the total length of the link pattern is a ratio of idle service resources on the links to the total service resources of the links. The method can display a bidirectional service resource using situation or two single-direction service resource using situations on one link, and the present invention is suitable for network topological diagrams with large scales, complex networks and large service flow counting data and is intuitionistic and brief.
Description
Technical field
The present invention relates to a kind of network management technology, relate to a kind of method that all link traffic flows (perhaps service resources use) statistics on the network is shown or rather, by the service traffics that show the overall network link directly perceived in network topological diagram, the perhaps operating position of service resources, classify, retrieve or carry out other activities so that service resources used
Background technology
In service transport network, include but not limited to: ATM(Asynchronous Transfer Mode), IP, synchronous digital hierarchy (SDH) and wavelength division multiplexing (DWDM) network, general all require on the webmaster with dynamic or static mode display network on the service traffics of each link, the perhaps operating position of service resources, thereby make the webmaster operator can intuitively understand the business configuration distribution situation of whole network and the loading condition of Internet resources, thereby satisfy the requirement of Network increase, business reorganization and the network capacity extension.
Present way is: by the network element node and interconnect on the network topological diagram that link (data transfer channel) forms, the percentage figure that service resources has taken on each link that counting statistics is gone out directly is presented on this corresponding link of network topological diagram.As shown in fig. 1, network element node NE1, NE2, NE 3, NE4, NE5, NE6, interconnect between the network element node and mark the percentage data that two internodal service resources have taken on the link, as shown in FIG. 20%, 92%, 65%, 80%, 33% and 50%.The percentage data that shows among the figure is the percentage data that the link bidirectional service resources has taken between two network element nodes, also can be to represent the percentage that the one way traffic resource of both direction has taken respectively with two data.
The display mode of this network link resource operating position is an acceptable under all fewer situation of, network element node fairly simple at network and link number.But, when network size bigger, the networking more complicated, there is multilink between two network element nodes, perhaps the demonstration length of link is more in short-term in the topological diagram, then all data being presented at will be very in disorder in the whole network topological diagram, and the operator can't browse and judge at all the service traffics situation on the corresponding network link exactly.
If require in topological diagram, to show simultaneously the unidirectional resource operating position of link, need data presented then more, it is disorderly and unsystematic more to seem, can't debate know clear.And in actual applications, on a link of network topological diagram, generally need to show two unidirectional resources use data (direction is just the opposite on link).To the link between the NE5, the one way traffic from NE4 to NE5 just only takies the link traffic resource of NE4 to NE5 such as NE4 in Fig. 1, just only takies the link traffic resource of NE5 to NE4 from the one way traffic of NE 5 to NE4.This two data differences generally speaking, thus all need to show, but according to above data display method, can cause that data presented is more on the network topological diagram, and caused between each data by area constraints not to be easily distinguishable.
Summary of the invention
The objective of the invention is to design the display packing of all link traffic traffic statistics on a kind of network, be used to solve demonstration problem in network topological diagram uplink resource operating position, make at extensive and complex network, and on the network topological diagram of big professional traffic statistics data, the also intuitively service traffics of all links (drive access), the perhaps operating position of service resources on the display network.
The technical scheme that realizes the object of the invention is such: the display packing of all link traffic traffic statistics on a kind of network, on the network topological diagram that constitutes by network element node and interconnective link thereof, show the service resources operating position of being added up on the link between two network element nodes, it is characterized in that comprising:
The link figure is divided into two firsts that are connected and second portion; Calculate the coordinate of two parts link graphical interfaces division points on network topological diagram, be ((x2-x1) * r+x1, (y2-y1) * r+y1), (x1 wherein, y1) and (x2, y2) be the coordinates of two end points of link figure on network topological diagram, r is that the link traffic flow of statistics takies total service resources rate; Show the link figure of described first and the link figure of the described second portion of demonstration, the length of this first's link figure accounts for the ratio of link figure total length, be the service resources that taken on this link and the ratio of the total service resources of this link, accounting for the ratio of link figure total length with the length of this second portion link figure, is the ratio of idle service resources and the total service resources of this link on this link.
Comprise that also the coordinate of two parts link graphical interfaces division points on network topological diagram is ((x2+a-x1+a) * r1+x1+a, (y2+a-y1+a) * r1+y1+a), (x1+a wherein, y1+a) and (x2+a, y2+a) be to be positioned at the coordinate (x1 of two end points of link figure on network topological diagram, y1) and (x2, near y2) the coordinate of two end points on network topological diagram, r1 are that single service traffics of a direction of link of statistics take total service resources rate; Also comprise, the coordinate of two parts link graphical interfaces division points on network topological diagram is ((x2-a-x1-a) * r2+x1-a, (y2-a-y1-a) * r2+y1-a), (x1-a wherein, y1-a) and (x2-a, y2-a) be to be positioned at the coordinate (x1 of two end points of link figure on network topological diagram, y1) and (x2, y2) near the coordinate of two end points on network topological diagram in addition, r2 is that single service traffics of another direction of link of statistics take total service resources rate, and a is the width that is used to describe the link figure in the network topological diagram.
The operating position of display network service resources of the present invention is based on the existing network topological diagram on the webmaster, according to the characteristics that link in the network topological diagram shows, directly on the link basis of network topological diagram, intuitively show the service resources operating position of respective link in the mode of different colours figure.
In the webmaster, the link on the network topological diagram is original just to be existed, and method of the present invention was shown as the basis with former link, and the operating position with the graphical display link circuit resource of different colours does not need extra diacritic or literal, intuitive display, succinct.
As in transport service planning and designing system, adopt the technology of the present invention to show the network link service resources operating position of being added up, can increase intuitive and friendly that interface data is browsed;
On network topological diagram, by the color of link figure is set, show and illustrated the operating position of all link circuit resources of whole network intuitively, compactly, the operator can come into plain view, and has improved the operability and the friendly of system.
Description of drawings
Fig. 1 is the data display mode schematic diagram that network link two-way services resource is used;
Fig. 2 is the graphic display mode schematic diagram 1 that network link two-way services resource is used;
Fig. 3 is the graphic display mode schematic diagram 2 that network link one way traffic resource is used.
Embodiment
Referring to Fig. 2, on the network topological diagram of webmaster, adopt the service resources operating position on arbitrary link of method demonstration of the present invention shown in the figure, comprise the demonstration of unidirectional and two-way resource operating position.
On each the bar link on the network topological diagram, with first color (as redness, represent with the solid line line segment, as follows), this link of link diagrammatic representation on service resources situation about being used, situation with the service resources free time on second color this link of link diagrammatic representation of (as green, showing, as follows) with the tubular wire segment table.According to the length of link, be painted with the shared ratio of first color (as redness) part on the link figure, just in time be the service resources that taken on this link and the ratio of the total service resources of this link; Equally, being painted with second color (as green) part proportion on the link figure, just in time is the ratio of idle service resources and the total service resources of this link on this link.
The technical scheme that realizes corresponding display effect is: on the graphical interfaces of network topological diagram, generally be to represent link with the formed figure of straight line of the certain width that connects two end nodes, so two of link are made as A1, the end points of A2, coordinate on graphical interfaces can be made as respectively A1 (x1, y1) and A2 (x2, y2), the service traffics of this link take total service resources rate and are come out by the webmaster counting statistics, are made as r.In order to obtain the display effect directly perceived of link flow resource occupation, this link at twice again need draw on the interface, calculate the coordinate of the middle division points M of its two kinds of color figures: M ((x2-x1) * r+x1, (y2-y1) * r+y1), draw the link figure of point from A1 to M then with regard to available first color (as redness), use second color (as green) to draw the link figure of point from M to A2 again.Like this ratio that service traffics take service resources on the link just on this link directly and shown intuitively.
For the demonstration of link bidirectional service resources, just on two internodal link figures, show that with two kinds of colors the service resources of its two-way services is used situation and service resources idle condition.As the link between the link between node NE3, NE4, NE5, NE6, NE7, the NE8 among the figure and node NE9, NE10, NE11, NE12, NE13, the NE14.
Demonstration for link one way traffic resource, just each shows respectively that with two kinds of color figures the service resources of both direction is used situation and service resources idle condition on the link on two internodal two links, in figure, node NE1 is to the link between node NE2, node NE2 is to the link between node NE2-1, node NE2 is to the link between node NE2-2, and node NE1 is to the link between node NE1-1, and node NE1 is to the link between node NE1-2.After adopting method of the present invention to show, can express four kinds of operating positions of link circuit resource: first node to the service resources of second node direction is used situation, service resources idle condition and second node to the service resources of first node direction and is used situation, service resources idle condition.
Referring to Fig. 3, whole shown in the figure are the demonstration of link one way traffic resource.On every on network topological diagram link, express one way traffic resource display packing further from source network element node to link the network element node of place, represent that with first color (as redness) part service resources is used situation, and near source network element node side, represent the service resources idle condition with second color (as green) part, and near place network element node side.
The implementation of corresponding display effect: on the graphical interfaces of network topological diagram, realization and two-way services that one way traffic resources occupation rate on the link shows are roughly the same, but owing to need to show two, the difference of respective handling is: the end points of establishing a link is A1, A2, corresponding coordinate on graphical interfaces is made as A1 (x1 respectively, y1) and A2 (x2, y2), suppose to draw earlier the line segment of expression A1 to A2 one way traffic resource operating position, then this line segment can not cover original link, and this line segment of setting is at A1, the A2 vicinity, the coordinate of its sourcesink point is respectively (x1+a, y1+a) and (x2+a, y2+a), a is a line segment width of marking and drawing link in the network topological diagram, can be with respect to the width value of original link, suggestion is half of original link width value, then according to these two new coordinate figures and A1 to service resources occupancy such as r1 between A2, utilize the method for Fig. 2 described in illustrating to calculate and the A1 that draws represents to use of A2 service resources and the figure straight line of service resources free time.For the line segment of A2 to one way traffic resource operating position between A1, line segment is respectively (x1-a at the coordinate of A1 and A2 place sourcesink point, y1-a) and (x2-a, y2-a), again according to A2 to service resources occupancy such as the r2 of A1, utilize the method for Fig. 2 described in illustrating to calculate and the A2 that draws represents to the figure straight line of A1 service resources use.Need not revise former network topological diagram, on the link of former two-way services resource operating position, just can distinguish the ratio that two one way traffic flows take service resources that demonstrates.
Method of the present invention, on the network topological diagram of existing webmaster, color by link is set is also got in touch with resource operating position and idle condition, intuitively, show and illustrated the use and the idle condition of all link circuit resources of whole network compactly, the operator comes into plain view, and has improved the operability and the friendly of system.
Claims (2)
1. the display packing of all link traffic traffic statistics on the network, on the network topological diagram that constitutes by network element node and interconnective link thereof, show the service resources operating position of being added up on the link between two network element nodes, it is characterized in that comprising:
The link figure is divided into two firsts that are connected and second portion; Calculate the coordinate of two parts link graphical interfaces division points on network topological diagram, be ((x2-x1) * r+x1, (y2-y1) * r+y1), (x1 wherein, y1) and (x2, y2) be the coordinates of two end points of link figure on network topological diagram, r is that the link traffic flow of statistics takies total service resources rate; Show the link figure of described first and the link figure of the described second portion of demonstration, the length of this first's link figure accounts for the ratio of link figure total length, be the service resources that taken on this link and the ratio of the total service resources of this link, accounting for the ratio of link figure total length with the length of this second portion link figure, is the ratio of idle service resources and the total service resources of this link on this link.
2. the display packing of all link traffic traffic statistics on a kind of network according to claim 1, it is characterized in that: comprise that also the coordinate of two parts link graphical interfaces division points on network topological diagram is ((x2+a-x1+a) * r1+x1+a, (y2+a-y1+a) * r1+y1+a), (x1+a wherein, y1+a) and (x2+a, y2+a) be to be positioned at the coordinate (x1 of two end points of link figure on network topological diagram, y1) and (x2, y2) near the coordinate of two end points on network topological diagram, r1 are that single service traffics of a direction of link of statistics take total service resources rate; Also comprise, the coordinate of two parts link graphical interfaces division points on network topological diagram is ((x2-a-x1-a) * r2+x1-a, (y2-a-y1-a) * r2+y1-a), (x1-a wherein, y1-a) and (x2-a, y2-a) be to be positioned at the coordinate of two end points of link figure on network topological diagram (x 1, y1) and (x2, y2) near the coordinate of two end points on network topological diagram in addition, r2 is that single service traffics of another direction of link of statistics take total service resources rate, and a is the width that is used to describe the link figure in the network topological diagram.
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CN100365996C (en) * | 2005-08-06 | 2008-01-30 | 华为技术有限公司 | Method for statistics of service flow based on IPv6 |
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CN101739260A (en) * | 2010-01-11 | 2010-06-16 | 北京数码大方科技有限公司 | Method and device for displaying node information |
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CN104660693A (en) * | 2015-02-06 | 2015-05-27 | 北京京东尚科信息技术有限公司 | Method and device for graphically displaying node state information |
CN105162627B (en) * | 2015-08-24 | 2018-12-18 | 上海天旦网络科技发展有限公司 | It was found that the method and system with presentation network application access information |
CN108540302B (en) * | 2017-03-03 | 2020-08-04 | 腾讯科技(深圳)有限公司 | Big data processing method and equipment |
CN107238775B (en) * | 2017-05-24 | 2019-06-18 | 中国电子科技集团公司第四十一研究所 | A kind of channel status color identifier method |
CN110505439A (en) * | 2018-05-18 | 2019-11-26 | 杭州海康威视数字技术股份有限公司 | Video traffic the Visual Implementation method, apparatus, electronic equipment and storage medium |
CN109600436B (en) * | 2018-12-10 | 2021-06-29 | 浪潮电子信息产业股份有限公司 | Distributed iscsi service implementation method, system and related device |
US11290348B1 (en) * | 2019-03-28 | 2022-03-29 | Juniper Networks, Inc. | Interactive user interfaces for displaying features of an optimized network plan |
CN111538501B (en) * | 2020-07-10 | 2020-10-27 | 北京东方通科技股份有限公司 | Artificial intelligence-based multivariate heterogeneous network data visualization method and system |
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