CN110311813A - A kind of method and device of track comprehensive network management - Google Patents

Abstract

The invention discloses a kind of method and devices of track comprehensive network management, this method includes obtaining the resource occupation amount of the corresponding process of each subsystem group of track Integrated Network Management System, wherein, track Integrated Network Management System includes multiple subsystem groups, the subsystem that each subsystem group includes is determined according to the point table information that each subsystem producer provides, the corresponding process group of each subsystem group, the average resource consumption of each subsystem group is determined according to the resource occupation amount of the corresponding process of each subsystem group, according to the average resource consumption of each subsystem group and the resource occupation amount of the corresponding process of each subsystem group, resource is distributed for the subsystem in each subsystem group.Since the subsystem in each subsystem group can distribute resource according to the resource occupation amount of the corresponding process of each subsystem and average consumed resource, can resource in dynamic equalization each subsystem group in real time, to improve the treatment effeciency for the warning information that each subsystem receives.

Description

A kind of method and device of track comprehensive network management

Technical field

The present embodiments relate to technical field of transportation more particularly to a kind of method and devices of track comprehensive network management.

Background technique

Urban track traffic is that typical system is more, number of devices is huge, it is many kinds of, be related to professional wide, concentrate on one The unified entire urban rail transit equipment failure of monitoring is especially urgent in a system.Currently, although urban track traffic has been deposited It can unify monitoring device failure in some systems, but the system scope of its monitoring is relatively small, when monitoring range constantly expands When big, the decline of system monitoring performance, or even influence the real-time of malfunction monitoring.

In unified management, when monitoring the failure of tens subsystems, each subsystem fault points are up to Integrated Network Management System Hundreds of thousands measuring point, it is understood that there may be while generating a large amount of fault messages, if using same process works, system load pressure compared with Greatly, the real-time monitoring inaccuracy of fault message is caused.

Summary of the invention

The embodiment of the present invention provides a kind of method and device of track comprehensive network management, to each subsystem group of dynamic equalization it Between resource, improve the treatment effeciency for the warning information that each subsystem receives.

In a first aspect, a kind of method of track comprehensive network management provided in an embodiment of the present invention, comprising:

Obtain the resource occupation amount of the corresponding process of each subsystem group of the track Integrated Network Management System；Wherein, described Track Integrated Network Management System includes multiple subsystem groups, and the subsystem that each subsystem group includes is provided according to each subsystem producer Point table information determine；The corresponding process group of each subsystem group；

The average resource of each subsystem group is determined according to the resource occupation amount of the corresponding process of each subsystem group Consumption；

According to the average resource consumption of each subsystem group and the resource of the corresponding process of each subsystem group Occupancy is that the subsystem in each subsystem group distributes resource.

In above-mentioned technical proposal, since the subsystem in each subsystem group can be according to the corresponding process of each subsystem Resource occupation amount and average consumed resource distribute resource, can resource in each subsystem group of dynamic equalization in real time, thus Improve the treatment effeciency for the warning information that each subsystem receives.

Optionally, described corresponding according to the average resource consumption of each subsystem group and each subsystem group The resource occupation amount of process is that the subsystem in each subsystem group distributes resource, comprising:

It is greater than first threshold and each subsystem in the resource occupation amount for determining the corresponding process of each subsystem group When the difference of the average resource consumption of the resource occupation amount and each subsystem group of the corresponding process of group is greater than second threshold, Whether the subsystem group for determining that difference is greater than the second threshold includes multiple subsystems；If so, determining that the difference is big The smallest subsystem of data volume under the subsystem group of second threshold；

The smallest subsystem of the data volume is switched in the smallest subsystem group of load.

Optionally, corresponding in the average resource consumption according to each subsystem group and each subsystem group Process resource occupation amount, be each subsystem group in subsystem distribute resource after, further includes:

Obtaining each received warning information of subsystem, the warning information in each subsystem group includes the equipment under subsystem Fault message；

According to the mapping relations of the warning information and headend equipment graphics primitive object and database failure measuring point, determine described in The corresponding headend equipment graphics primitive object of warning information；

The display color of the corresponding headend equipment graphics primitive object of the warning information is modified according to the warning information.

Optionally, further includes:

The mapping relations of the headend equipment graphics primitive object and database failure measuring point are determined according to following step:

According to the facility information under each subsystem, using Object-oriented Technique, the headend equipment is created in front end page Pel；

Obtain all fault messages that all devices of database purchase generate；All events that all devices are generated Hindering information is one or more equipment fault measuring points；

The front end graphics primitive object and the equipment fault measuring point are associated, the front end graphics primitive object and institute are established State the mapping relations of equipment fault measuring point.

Second aspect, a kind of device of track comprehensive network management provided in an embodiment of the present invention are applied to track comprehensive network management System, comprising:

Acquiring unit, the resource occupation of the corresponding process of each subsystem group for obtaining the track Integrated Network Management System Amount；Wherein, the track Integrated Network Management System includes multiple subsystem groups, and the subsystem that each subsystem group includes is according to each son What the point table information that system manufacturers provide determined；The corresponding process group of each subsystem group；

Processing unit, for determining each subsystem according to the resource occupation amount of the corresponding process of each subsystem group The average resource consumption of group；It is corresponding according to the average resource consumption of each subsystem group and each subsystem group The resource occupation amount of process is that the subsystem in each subsystem group distributes resource.

Optionally, the processing unit is specifically used for:

It is greater than first threshold and each subsystem in the resource occupation amount for determining the corresponding process of each subsystem group When the difference of the average resource consumption of the resource occupation amount and each subsystem group of the corresponding process of group is greater than second threshold, Whether the subsystem group for determining that difference is greater than the second threshold includes multiple subsystems；If so, determining that the difference is big The smallest subsystem of data volume under the subsystem group of second threshold；

The smallest subsystem of the data volume is switched in the smallest subsystem group of load.

Optionally, the processing unit is also used to:

In the average resource consumption according to each subsystem group and the corresponding process of each subsystem group Resource occupation amount, be each subsystem group in subsystem distribute resource after, obtain each subsystem in each subsystem group Received warning information, the warning information include the device fault information under subsystem；

According to the mapping relations of the warning information and headend equipment graphics primitive object and database failure measuring point, determine described in The corresponding headend equipment graphics primitive object of warning information；

The display color of the corresponding headend equipment graphics primitive object of the warning information is modified according to the warning information.

Optionally, the processing unit is also used to:

The mapping relations of the headend equipment graphics primitive object and database failure measuring point are determined according to following step:

According to the facility information under each subsystem, using Object-oriented Technique, the headend equipment is created in front end page Pel；

Obtain all fault messages that all devices of database purchase generate；All events that all devices are generated Hindering information is one or more equipment fault measuring points；

The front end graphics primitive object and the equipment fault measuring point are associated, the front end graphics primitive object and institute are established State the mapping relations of equipment fault measuring point.

The third aspect, the embodiment of the invention also provides a kind of calculating equipment, comprising:

Memory, for storing program instruction；

Processor executes above-mentioned track according to the program of acquisition for calling the program instruction stored in the memory The method of comprehensive network management.

Fourth aspect, the embodiment of the invention also provides a kind of computer-readable non-volatile memory mediums, including calculate Machine readable instruction, when computer is read and executes the computer-readable instruction, so that computer executes above-mentioned track synthesis The method of network management.

Detailed description of the invention

To describe the technical solutions in the embodiments of the present invention more clearly, make required in being described below to embodiment Attached drawing is briefly introduced, it should be apparent that, drawings in the following description are only some embodiments of the invention, for this For the those of ordinary skill in field, without creative efforts, it can also be obtained according to these attached drawings other Attached drawing.

Fig. 1 is a kind of schematic diagram of system architecture provided in an embodiment of the present invention；

Fig. 2 is a kind of flow diagram of the method for track comprehensive network management provided in an embodiment of the present invention；

Fig. 3 is a kind of flow diagram of the method for track comprehensive network management provided in an embodiment of the present invention；

Fig. 4 is a kind of schematic diagram of faulty equipment positioning provided in an embodiment of the present invention；

Fig. 5 is the schematic diagram that one kind provided in an embodiment of the present invention graphically positions；

Fig. 6 is a kind of figure provided in an embodiment of the present invention and the point associated schematic diagram of example；

Fig. 7 is a kind of structural schematic diagram of the device of track comprehensive network management provided in an embodiment of the present invention.

Specific embodiment

To make the objectives, technical solutions, and advantages of the present invention clearer, below in conjunction with attached drawing to the present invention make into It is described in detail to one step, it is clear that described embodiments are only a part of the embodiments of the present invention, rather than whole implementation Example.Based on the embodiments of the present invention, obtained by those of ordinary skill in the art without making creative efforts All other embodiment, shall fall within the protection scope of the present invention.

Fig. 1 illustratively shows a kind of system architecture that the embodiment of the present invention is applicable in, which can be rail Trace integration network management system, including multiple subsystem groups, each subsystem group include multiple subsystems (channel), each subsystem group packet The subsystem contained is determined according to the point table information that each subsystem producer provides, wherein each subsystem group corresponds to a process group.

As shown in Figure 1, subsystem group 1 corresponds to 1 process group of subsystem group, including dedicated transmission channel, power source special Channel, private radio channel etc., dedicated transmission channel corresponds to dedicated transmissions subsystem, power source special channel corresponds to power source special System, private radio channel correspond to private radio subsystem.

For track Integrated Network Management System by the way of to each subsystem (channel) partition sub-system group, each subsystem group is only The vertical a set for the treatment of progress of operation, is respectively handled each channel alarm data under the group, to effectively avoid each system simultaneously Hair leads to the problem of a large amount of alarm bring information processings not in time.

It should be noted that above-mentioned structure shown in FIG. 1 is only a kind of example, it is not limited in the embodiment of the present invention.

Based on foregoing description, Fig. 2 illustratively shows a kind of side of track comprehensive network management provided in an embodiment of the present invention The process of method, the process can be executed with the device of track comprehensive network management, and it is comprehensive which can be applied to track as shown in Figure 1 Network management system.

As shown in Fig. 2, the process specifically includes:

Step 201, the resource occupation amount of the corresponding process of each subsystem group of the track Integrated Network Management System is obtained.

It is the alarm quantity that the point table provided according to the producer of each subsystem is provided, to each subsystem before the step 201 System is grouped, and guarantees each subsystem alarm integration and subsystem quantity basis equalization in each subsystem group.

Then, the resource occupation amount of the corresponding process of each subsystem group of real-time monitoring, such as can accounting for for CPU and memory Dosage.The resource occupation amount ρ of all processes under each subsystem group can be specifically calculated by formula (1)_i。

Wherein, ρ_iFor the resource occupation amount of i-th of subsystem group, n indicates the process sum under subsystem group, x_jIndicate jth The EMS memory occupation amount of a process, y_jIndicate the CPU occupancy of j-th of process, there are in resource occupation amount in λ (0 < λ < 1) expression Accounting, which can be empirically arranged.

Step 202, each subsystem group is determined according to the resource occupation amount of the corresponding process of each subsystem group Average resource consumption.

When getting the resource occupation amount of the corresponding process of each subsystem group, so that it may determine being averaged for each subsystem group Consumed resource, specifically, the average resource consumption A of each subsystem group can be calculated by formula (2):

Wherein, m indicates subsystem group quantity.

Step 203, according to the average resource consumption of each subsystem group and each subsystem group it is corresponding into The resource occupation amount of journey is that the subsystem in each subsystem group distributes resource.

Specifically, being greater than first threshold and each subsystem group in the resource occupation amount for determining the corresponding process of each subsystem group When the difference of the average resource consumption of the resource occupation amount of corresponding process and each subsystem group is greater than second threshold, determination is poor Whether the subsystem group that value is greater than second threshold includes multiple subsystems；If so, determining that difference is greater than the son of second threshold The smallest subsystem of data volume is finally switched to the smallest subsystem group of load by the smallest subsystem of data volume under system group In.To realize that resources balance is distributed.Wherein, first threshold and second threshold can be empirically arranged.

For example, whether the resource occupation amount for judging the corresponding process of each subsystem group is more than (0 < δ, the 1 < λ a+ (1- λ) of threshold value δ 1 B), a is the maximum occupancy that CPU allows, and b is the maximum occupancy that memory allows；A, b, δ 1 can be empirically configured, If being more than threshold value δ 1 without subsystem group consumption system resource, illustrates current each subsystem group load balancing, do not need to carry out Grouping adjustment；Resource occupation amount is more than the group of threshold value δ 1 if it exists, then calculates the resource occupation of the corresponding process of each subsystem group Difference d between amount and the average resource consumption of each subsystem group, and judge that whether having element in d is more than the (1 < δ of-δ of threshold value δ 2 2 < δ 1), δ 2 can be empirically arranged.Wherein, d=[ρ₁-A,ρ₂-A,…,ρ_i-A,…,ρ_m-A]^T。

If between the resource occupation amount of certain corresponding process of subsystem group and the average resource consumption of each subsystem group Difference is more than threshold value δ 2, then judges whether the subsystem group includes multiple channels (subsystem), if the subsystem group only has one Channel, then without adjustment.

If including that multiple channels are found out by inquiring real-time database and generate data volume under the subsystem group in the subsystem group The smallest channel.The smallest channel of the data volume found is switched in the smallest subsystem group of load, repeatedly, is made each Dynamic load leveling state is between subsystem group, so that the warning information for guaranteeing that each channel receives timely is handled.

Embodiment in order to preferably explain the present invention, below by the method by describing above-mentioned network management under implement scene.

As shown in figure 3, specifically including:

Step 301, real-time monitoring and the resource occupation amount pi of all processes under each subsystem group is calculated.

Step 302, the average resource consumption A of each subsystem group is calculated.

Step 303, judge whether the resource occupation amount pi of each subsystem is more than threshold value δ 1, if so, it is transferred to step 304, Otherwise terminate.

Step 304, whether the difference for judging the resource occupation amount pi and average resource consumption A of each subsystem is more than threshold value Otherwise δ 2 terminates if so, being transferred to step 305.

Step 305, whether judgement is beyond including multiple channels under the subsystem group of threshold value δ 2, if so, being transferred to step 306, otherwise it is transferred to step 301.

Step 306, real-time database is inquired, the data volume of the subsystem group lower channel is ranked up, minimum data amount is found out Channel.

Step 307, the corresponding subsystem in the channel is switched under the smallest subsystem group of load.

The specific implementation process of above-mentioned steps describes in the above-described embodiments, is not repeating herein.

In order to preferably realize the graphical precise positioning to faulty equipment position.For the subsystem in each subsystem group It distributes after resource, each received warning information of subsystem in available each subsystem group, includes subsystem in warning information Under device fault information.Then it is closed according to the mapping of warning information and headend equipment graphics primitive object and database failure measuring point System, determines the corresponding headend equipment graphics primitive object of warning information.The corresponding front end of warning information is finally modified according to warning information The display color of equipment pel object.So as to the staff that is according to the variation of the corresponding display color of equipment pel come The position of quick positioning failure equipment.

Before this, it needs first to determine the mapping relations of above-mentioned headend equipment graphics primitive object and database failure measuring point, has Body, headend equipment figure using Object-oriented Technique, can be created in front end page according to the facility information under each subsystem Member, and obtain all fault messages that all devices of database purchase generate；The faulty letter of institute that all devices are generated Breath is abstracted as one or more equipment fault measuring points.Then front end graphics primitive object and equipment fault measuring point are associated, are established The mapping relations of front end graphics primitive object and equipment fault measuring point.

As shown in figure 4, first having to the actual information according to equipment, using Object-oriented Technique, set in front end page creation Standby graphics primitive object；Meanwhile the issuable all fault messages of collator, and it is abstracted into one or more equipment fault points； Headend equipment graphics primitive object is done with database failure measuring point finally and is mapped, and then realizes the graphical of faulty equipment physical location Precise positioning.

In order to preferably explain the faulty equipment positioning mode, be described by taking the regulation traffic of city as an example below, but It is not limited only to the application of the example.

(1) creation of main foundation table.

Underlying table is mainly reflected in station table (table 1), system table (table 2), equipment list (table 3) and measuring point table in the database (table 4).

Table 1

Field	Type	Length	Major key explanation	Explanation of field
					id	int	10	Major key	Station ID
name	varchar	128		Station name
					label	varchar	64		Station label
line_id	int	10		Affiliated route

Table 2

Table 3

Table 4

Field	Type	Length	Major key explanation	Explanation of field
					id	int	8	Major key 1	Measuring point ID
station_id	int	4		Affiliated station
					subsystem_id	int	1	Major key 2	Affiliated subsystem
name	string	255		Measuring point title
					label	string	255		Measuring point tag name
pnt_type	int	1		Measuring point type
					dev_id	int	8		Corresponding device
dev_type	int	2		Device type
					unit_id	int	2		Unit
init_value	int	4		Initial value
					cur_time	int	8		Timestamp
value	int	4		The value of measuring point
					input_group_id	int	4		State input group
rtu_id	int	4		Acquire RTU
					dot_input_id	int	4		Input component
tp_point_id	int	8		Template measuring point

(2) system public resource configures:

Including station configuration, subsystem configuration, type of alarm configuration, alert levels configuration and the configuration of subsystem group etc.；

(3) fault information acquisition configures:

1, channel configures: according to the communication mode between comprehensive network management and each subsystem, configuring Integrated Network Management System logical Communication type (such as TCP (Transmission Control Protocol transmission control protocol) client, TCP clothes during letter Be engaged in end, UDP (User Datagram Protocol, User Datagram Protocol) communication, serial communication etc.) and mailing address etc. believe Breath.

2, RTU (RemoteTerminalUnit, remote-terminal unit) is configured: main configuration Integrated Network Management System and each son Communication protocol between system, as MODBUS agreement, SNMP (Simple Network Management Protocol, simply Network Management Protocol) agreement, CORBA (ask by Common Object Request Broker Architecture, common object Seek agent architecture) agreement, the customized agreement specification of user etc..

3, IO (input and output) point configuration: the configuration mainly configures I O point under specific channel, including I O point number, point Type etc..

(3) warning information equipment modeling.

Main includes creation equipment template, creation point template, creation device instance and creation point example etc., is being established a little When example, example and I O point are established into mapping relations.

(4) graphical precise positioning.

Graphical precise positioning method is with each station information of urban track traffic, computer room information, facility information, point table and son The fault message that system uploads is basic data, and one, a station is established centered on equipment, staff can be allowed to grasp rapidly The basic condition of equipment, such as device location, real-time status information.Graphical precise positioning includes two kinds of dimensions: one, from station Dimension position step by step, station topology (station)-Station Layout (computer room, cabinet)-cabinet panel figure (equipment)-board/mould Block pel (failure minimum unit)；Two, it is positioned step by step from the dimension of system, system topological (system)-station system logic is (selected Station System logic chart) (failure is minimum for-Station Layout (computer room, cabinet)-cabinet panel figure (equipment)-board/module pel Unit).It is as shown in Figure 5 that process is embodied.

As shown in Figure 5 it is found that the content of the right dashed box is to create the whole process at one, a station, station topology, system are opened up Flutter, Station Layout and device panel figure can be drawn according to construction drawing, the pel drawn is closed with measuring point again Connection, can be realized pel and is associated with corresponding equipment, to realize the monitoring to equipment fault.

9 basic steps of equipment-measuring point creation are described in detail below.

As shown in fig. 6, being associated with by equipment modeling and figure and point example, the connection of realization real time fail and graphic picture It is dynamic, specifically include following 9 steps:

1., creation equipment template: different sub-systems have a different types of plurality of devices, and equipment template is based on subsystem, one Class equipment correspond to a specific equipment template, equipment template include 4 essential attributes: equipment template ID, equipment template name, Device type and affiliated subsystem.

2., creation point template: point template be based on equipment template, indicate fault message type all under certain class equipment.

3., creation device instance: device instance is to be under the jurisdiction of station, and derive from from equipment template, can inherit equipment The all properties of template, while also having the attributes such as the distinctive device location of device instance, device numbering.

4., creation point an example: point example be to be automatically generated according to point template, all point template attributes are all inherited down Come, can not modify, indicates the fault message of specific equipment, there are two state value 0 (normal/fault recovery) and 1 (events for each point Barrier).

5., creation device level count measuring point: be the statistics measuring point that carrier creates equipment using specific equipment, the value of measuring point is to be somebody's turn to do The failure sum that all boards generate under equipment.

6., creation station-system statistics measuring point: station-system statistics measuring point is certain system all devices under certain station Failure sum.

7., creation station grade statistics measuring point: station grade statistics measuring point using station as object, count all devices under the station Fault message sum.

8., the system-level statistics measuring point of creation: system statistics measuring point counts under the subsystem and owns using each subsystem as object The fault message sum of equipment.

9., figure is associated with measuring point: fault point table information and construction drawing are provided according to producer, by specific equipment/plate Card is associated with point example all on the upper equipment plate card；Meanwhile System Overview figure, line topological figure, subsystem topology figure and Each pel of Station Layout respectively with system statistics measuring point, station statistic measuring point, station-system statistics measuring point and device statistics Measuring point is associated, and when Integrated Network Management System receives the fault message of subsystem, the value of corresponding points can be modified by real-time database, The variation of measuring point value can directly drive the variation of relational graph color, the specific location where prompting maintenance personnel's faulty equipment.

Above-described embodiment shows to obtain the resource occupation of the corresponding process of each subsystem group of track Integrated Network Management System Amount, wherein track Integrated Network Management System includes multiple subsystem groups, and the subsystem that each subsystem group includes is according to each subsystem What the point table information that producer provides determined, the corresponding process group of each subsystem group, according to the money of the corresponding process of each subsystem group Source occupancy determines the average resource consumption of each subsystem group, according to the average resource consumption and each son of each subsystem group The resource occupation amount of the corresponding process of system group is that the subsystem in each subsystem group distributes resource.Due to each subsystem group In subsystem can distribute resource according to the resource occupation amount of the corresponding process of each subsystem and average consumed resource, can With resource in each subsystem group of real-time dynamic equalization, to improve the treatment effeciency for the warning information that each subsystem receives.

The method of track comprehensive network management provided in an embodiment of the present invention, has used the mode of subsystem group to manage independently respectively Process, and can be realized the dynamic adjustment of management of process resource, improve the real-time and stability of system failure monitoring.Benefit simultaneously The graphical precise positioning and malfunction elimination of faulty equipment are realized with Equipment Foundations information and the mode for putting logic.From failure It is better than existing urban track traffic centralized alarm system in the angle that device location graphically positions.

Based on the same technical idea, Fig. 7 illustratively shows a kind of track comprehensive network provided in an embodiment of the present invention The structure of the device of pipe, the device can execute the process of track comprehensive network management, which can be applied to rail as shown in Figure 1 Trace integration network management system.

As shown in fig. 7, the device specifically includes:

Acquiring unit 701, the resource of the corresponding process of each subsystem group for obtaining the track Integrated Network Management System Occupancy；Wherein, the track Integrated Network Management System includes multiple subsystem groups, and the subsystem that each subsystem group includes is basis What the point table information that each subsystem producer provides determined；The corresponding process group of each subsystem group；

Processing unit 702, for determining each son according to the resource occupation amount of the corresponding process of each subsystem group The average resource consumption of system group；According to the average resource consumption of each subsystem group and each subsystem group pair The resource occupation amount for the process answered is that the subsystem in each subsystem group distributes resource.

Optionally, the processing unit 702 is specifically used for:

It is greater than first threshold and each subsystem in the resource occupation amount for determining the corresponding process of each subsystem group When the difference of the average resource consumption of the resource occupation amount and each subsystem group of the corresponding process of group is greater than second threshold, Whether the subsystem group for determining that difference is greater than the second threshold includes multiple subsystems；If so, determining that the difference is big The smallest subsystem of data volume under the subsystem group of second threshold；

The smallest subsystem of the data volume is switched in the smallest subsystem group of load.

Optionally, the processing unit 702 is also used to:

In the average resource consumption according to each subsystem group and the corresponding process of each subsystem group Resource occupation amount, be each subsystem group in subsystem distribute resource after, obtain each subsystem in each subsystem group Received warning information, the warning information include the device fault information under subsystem；

According to the mapping relations of the warning information and headend equipment graphics primitive object and database failure measuring point, determine described in The corresponding headend equipment graphics primitive object of warning information；

The display color of the corresponding headend equipment graphics primitive object of the warning information is modified according to the warning information.

Optionally, the processing unit 702 is also used to:

The mapping relations of the headend equipment graphics primitive object and database failure measuring point are determined according to following step:

According to the facility information under each subsystem, using Object-oriented Technique, the headend equipment is created in front end page Pel；

Obtain all fault messages that all devices of database purchase generate；All events that all devices are generated Hindering information is one or more equipment fault measuring points；

The front end graphics primitive object and the equipment fault measuring point are associated, the front end graphics primitive object and institute are established State the mapping relations of equipment fault measuring point.

Based on the same technical idea, the embodiment of the invention also provides a kind of calculating equipment, comprising:

Memory, for storing program instruction；

Processor executes above-mentioned track according to the program of acquisition for calling the program instruction stored in the memory The method of comprehensive network management.

Based on the same technical idea, the embodiment of the invention also provides a kind of computer-readable non-volatile memories to be situated between Matter, including computer-readable instruction, when computer is read and executes the computer-readable instruction, so that computer executes The method for stating track comprehensive network management.

The present invention be referring to according to the method for the embodiment of the present invention, the process of equipment (system) and computer program product Figure and/or block diagram describe.It should be understood that every one stream in flowchart and/or the block diagram can be realized by computer program instructions The combination of process and/or box in journey and/or box and flowchart and/or the block diagram.It can provide these computer programs Instruct the processor of general purpose computer, special purpose computer, Embedded Processor or other programmable data processing devices to produce A raw machine, so that being generated by the instruction that computer or the processor of other programmable data processing devices execute for real The device for the function of being specified in present one or more flows of the flowchart and/or one or more blocks of the block diagram.

These computer program instructions, which may also be stored in, is able to guide computer or other programmable data processing devices with spy Determine in the computer-readable memory that mode works, so that it includes referring to that instruction stored in the computer readable memory, which generates, Enable the manufacture of device, the command device realize in one box of one or more flows of the flowchart and/or block diagram or The function of being specified in multiple boxes.

These computer program instructions also can be loaded onto a computer or other programmable data processing device, so that counting Series of operation steps are executed on calculation machine or other programmable devices to generate computer implemented processing, thus in computer or The instruction executed on other programmable devices is provided for realizing in one or more flows of the flowchart and/or block diagram one The step of function of being specified in a box or multiple boxes.

Although preferred embodiments of the present invention have been described, it is created once a person skilled in the art knows basic Property concept, then additional changes and modifications may be made to these embodiments.So it includes excellent that the following claims are intended to be interpreted as It selects embodiment and falls into all change and modification of the scope of the invention.

Obviously, various changes and modifications can be made to the invention without departing from essence of the invention by those skilled in the art Mind and range.In this way, if these modifications and changes of the present invention belongs to the range of the claims in the present invention and its equivalent technologies Within, then the present invention is also intended to include these modifications and variations.

Claims (10)

1. a kind of method of track comprehensive network management, which is characterized in that be applied to track Integrated Network Management System, comprising:

Obtain the resource occupation amount of the corresponding process of each subsystem group of the track Integrated Network Management System；Wherein, the track Integrated Network Management System includes multiple subsystem groups, and the subsystem that each subsystem group includes is the point provided according to each subsystem producer What table information determined；The corresponding process group of each subsystem group；

The average resource consumption of each subsystem group is determined according to the resource occupation amount of the corresponding process of each subsystem group Amount；

According to the average resource consumption of each subsystem group and the resource occupation of the corresponding process of each subsystem group Amount is that the subsystem in each subsystem group distributes resource.

2. the method as described in claim 1, which is characterized in that the average resource consumption according to each subsystem group And the resource occupation amount of the corresponding process of each subsystem group, it is that the subsystem in each subsystem group distributes resource, Include:

It is greater than first threshold and each subsystem group pair in the resource occupation amount for determining the corresponding process of each subsystem group When the difference of the average resource consumption of the resource occupation amount for the process answered and each subsystem group is greater than second threshold, determine Whether the subsystem group that difference is greater than the second threshold includes multiple subsystems；If so, determining that the difference is greater than the The smallest subsystem of data volume under the subsystem group of two threshold values；

The smallest subsystem of the data volume is switched in the smallest subsystem group of load.

3. the method as described in claim 1, which is characterized in that consumed described according to the average resource of each subsystem group The resource occupation amount of amount and the corresponding process of each subsystem group is that the subsystem in each subsystem group distributes resource Later, further includes:

Obtaining each received warning information of subsystem, the warning information in each subsystem group includes the equipment fault under subsystem Information；

According to the mapping relations of the warning information and headend equipment graphics primitive object and database failure measuring point, the alarm is determined The corresponding headend equipment graphics primitive object of information；

The display color of the corresponding headend equipment graphics primitive object of the warning information is modified according to the warning information.

4. method as claimed in claim 3, which is characterized in that further include:

The mapping relations of the headend equipment graphics primitive object and database failure measuring point are determined according to following step:

According to the facility information under each subsystem, using Object-oriented Technique, the headend equipment pel is created in front end page；

Obtain all fault messages that all devices of database purchase generate；The faulty letter of institute that all devices are generated Breath is abstracted as one or more equipment fault measuring points；

The front end graphics primitive object and the equipment fault measuring point are associated, the front end graphics primitive object is established and is set with described The mapping relations of standby failure measuring point.

5. a kind of device of track comprehensive network management, which is characterized in that be applied to track Integrated Network Management System, comprising:

Acquiring unit, the resource occupation amount of the corresponding process of each subsystem group for obtaining the track Integrated Network Management System； Wherein, the track Integrated Network Management System includes multiple subsystem groups, and the subsystem that each subsystem group includes is according to each subsystem Unite what the point table information that producer provides determined；The corresponding process group of each subsystem group；

Processing unit, for determining each subsystem group according to the resource occupation amount of the corresponding process of each subsystem group Average resource consumption；According to the average resource consumption of each subsystem group and the corresponding process of each subsystem group Resource occupation amount, be each subsystem group in subsystem distribute resource.

6. device as claimed in claim 5, which is characterized in that the processing unit is specifically used for:

It is greater than first threshold and each subsystem group pair in the resource occupation amount for determining the corresponding process of each subsystem group When the difference of the average resource consumption of the resource occupation amount for the process answered and each subsystem group is greater than second threshold, determine Whether the subsystem group that difference is greater than the second threshold includes multiple subsystems；If so, determining that the difference is greater than the The smallest subsystem of data volume under the subsystem group of two threshold values；

The smallest subsystem of the data volume is switched in the smallest subsystem group of load.

7. device as claimed in claim 5, which is characterized in that the processing unit is also used to:

In the average resource consumption according to each subsystem group and the money of the corresponding process of each subsystem group Source occupancy is that the subsystem in each subsystem group distributes after resource, obtains each subsystem in each subsystem group and receive Warning information, the warning information includes the device fault information under subsystem；

According to the mapping relations of the warning information and headend equipment graphics primitive object and database failure measuring point, the alarm is determined The corresponding headend equipment graphics primitive object of information；

The display color of the corresponding headend equipment graphics primitive object of the warning information is modified according to the warning information.

8. device as claimed in claim 7, which is characterized in that the processing unit is also used to:

The mapping relations of the headend equipment graphics primitive object and database failure measuring point are determined according to following step:

According to the facility information under each subsystem, using Object-oriented Technique, the headend equipment pel is created in front end page；

Obtain all fault messages that all devices of database purchase generate；The faulty letter of institute that all devices are generated Breath is abstracted as one or more equipment fault measuring points；

The front end graphics primitive object and the equipment fault measuring point are associated, the front end graphics primitive object is established and is set with described The mapping relations of standby failure measuring point.

9. a kind of calculating equipment characterized by comprising

Memory, for storing program instruction；

Processor requires 1 to 4 according to the program execution benefit of acquisition for calling the program instruction stored in the memory Described in any item methods.

10. a kind of computer-readable non-volatile memory medium, which is characterized in that including computer-readable instruction, work as computer When reading and executing the computer-readable instruction, so that computer executes such as the described in any item methods of Claims 1-4.