CN102541000A - Layering management method and system of large-scale equipment monitoring - Google Patents

Abstract

The invention belongs to the technical field of real-time monitoring, which particularly discloses a layering management method and a system of large-scale equipment monitoring. By means of the layering management method and the system of the large-scale equipment monitoring, time for analyzing monitoring data code streams can be optically chosen, analysis can be divided into a plurality of steps, and the monitoring data code streams can be analyzed for one time or for a plurality of times. The data code streams collected through real-time monitoring on various data achieve different functions at different layers through multi-time multi-layer distributed data decoding. In this way, layering multi-stage control can be performed. Various functional expansions can be flexibly performed. A distributed analytical method intelligently chooses where the data decoding is performed according to various allocation. The intelligent analytical method can completely be suitable for all business expansions.

Description

The layer-management method and system of large-scale equipment monitoring

Technical field

The invention belongs to real-time monitoring technique field, particularly relate to the layer-management method and system of large-scale equipment monitoring.

Background technology

At present; Along with further developing of IT technology; The application of smart machine more and more widely; The kind of smart machine is also more and more, and the system applies of smart machine being implemented monitoring in real time is also just more and more general, and is increasingly high especially to the technical requirement of aspects such as the dirigibility of supervisory system, compatibility, maintainability, ease for use.Particularly in the communications industry; In base station/machine room, used increasing smart machine; For strengthening the overall management of base station/calculator room equipment; Common carrier has been included the management of base station/calculator room equipment in the centralized monitoring system of network management center, meanwhile appraises through comparison index to signal coverage rate and stability as an important competition between each common carrier.And base station number also increasing year by year, causes the quantity of the smart machine that centralized monitoring system need manage to increase considerably.

Be distributed in the smart machine of the base station/machine room of diverse geographic location, be linked into the centralized monitoring system of network management center, become a control point of centralized monitoring system through the various network connected mode.How centralized monitoring system resolves diversified a large amount of control point original data stream, reaches all smart machines are carried out uniform and effective management, becomes one of core index of weighing the centralized monitoring system performance.Current; Device data stream interpretive model mainly contains modes such as device driver, hardware protocol resolver; All there is not enough place in these device data interpretive models, be mainly reflected in need be in each base station extra deployment hardware protocol resolver, simultaneously; Maintenance upgrade to the base station smart machine has also brought a lot of inconvenience, has increased a large amount of maintenances and operation cost.

Prior art is resolved main employing center analysis mode and bottom analysis mode to the communication protocol of smart machine.

The center analysis mode; Also claim LSC (area monitoring center) center protocol analysis mode; Be meant at on-the-spot FSU (field terminal unit) equipment of monitoring and accomplish the transparent access that monitored device, monitoring function is realized equipment (smart machine just), thereby realize the transparent transmission of Control on Communication, service data information between the LSC--FSU.The smart machine of monitoring the scene is communicated the parsing of agreement by the unification of LSC front-end processing main frame.Adopt LSC center protocol analysis mode; Opening, extendability, the dirigibility of monitoring on-the-spot FSU are higher; For the smart machine that the on-the-spot expansion of monitoring inserts, need not to carry out the agreement upgrading to monitoring on-the-spot FSU equipment, only needing increases the corresponding communication protocol extension at LSC front-end processing main frame; The realization cost of function expansion is lower, helps protecting the construction investment of the existing supervisory system of existing network.But exist LSC front-end processing main frame frequently to upload primary data, cause the problem of network congestion easily to Surveillance center.

The bottom analysis mode is promptly monitored on-the-spot protocol analysis mode; Be meant at the on-the-spot FSU equipment of monitoring; Monitored smart machine is communicated the parsing and the pre-service of agreement, and the analytic uniform such as Control on Communication, data message that various monitored devices, monitoring function realized equipment become the communication protocol of FSU producer.Adopt the on-the-spot protocol analysis mode of monitoring; Opening, extendability, the dirigibility of monitoring on-the-spot FSU are not enough; For the expansion of the on-the-spot monitored device of monitoring, the function expansion of FSU etc., need carry out on-the-spot agreement upgrading to FSU, the realization cost of function expansion is higher.

Summary of the invention

First purpose of the present invention is to overcome the existing existing deficiency of analytic method, has proposed a kind of system that the real-time monitor data stream of large-scale equipment is carried out distributed parsing.

Second purpose of the present invention is that a kind of method that the real-time monitor data stream of large-scale equipment is carried out distributed parsing is provided.

In order to realize first goal of the invention, the technical scheme of employing is following:

A kind of layer-management system of large-scale equipment monitoring; Comprise interconnective field terminal unit and Surveillance center; Said field terminal unit comprises the first protocol analysis configuration module, error code data analysis module and the data acquisition module that connects successively; Said data acquisition module is connected with a plurality of smart machines; Said Surveillance center includes the second protocol analysis configuration module, realizes being connected between field terminal unit and the Surveillance center through interconnecting of the first protocol analysis configuration module and the second protocol analysis configuration module.

In the technique scheme, said Surveillance center is connected with a plurality of field terminal units.

Said Surveillance center also comprises interconnective data mining capability module and central processing module, and said central processing module is connected with the second protocol analysis configuration module.Various complex data business logic processing after central processing module is responsible for agreement and is resolved fully.Such as according to the detecting situation of displacement transducer and the detecting situation of infrared sensor, and time order and functions relation of occurring of these alarm detectings is united to judge whether to exist and is stolen feelings alarm or the like.The data mining capability module is responsible for a large amount of taking turn data of the various smart machines in bottom are carried out comprehensive analysis processing, and the more data mining analysis of high added value is provided, and is higher level analysis managerial decision.Such as passing through the internal resistance to accumulator, discharge current, discharge time; Mass data such as sparking voltage are carried out burst, and mining analysis such as cutting can comparative analysis go out the battery performance index of various producers; And can safeguard that decision-making etc. provides scientific basis to cell degradation.

The said first protocol analysis configuration module and/or the second protocol analysis configuration module are provided with the analysis condition of the communication protocol of specific part or whole smart machines, comprise time, the one parsing completion of being resolved, being resolved by the first protocol analysis configuration module or the second protocol analysis configuration module or are divided into repeatedly parsing.

The said first protocol analysis configuration module and the second protocol analysis configuration module are provided with configuration interface, can dispose automatically through human configuration or the software that this configuration interface carries out analysis condition.

In order to realize second goal of the invention, the technical scheme of employing is following:

A kind of layer-management method of large-scale equipment monitoring; Analysis condition through the first protocol analysis configuration module and/or the second protocol analysis configuration module are disposed is resolved the communication protocol of smart machine; Comprise according to the parsing time of configuration and resolving, and resolving is divided into a plurality of steps, can select one parsing to accomplish; Perhaps repeatedly resolve to form and accomplish, with the Multistage Control by different level that realizes resolving.

In the technique scheme, said analysis condition also comprises the field terminal unit that is chosen in the bottom, and perhaps the Surveillance center in center-side resolves.

The present invention can accomplish to select arbitrarily the parsing time and resolve to be divided into a plurality of steps to the data code flow of monitoring, can select to be divided into once or repeatedly to resolve.The monitoring of various data in real time is accomplished different functions at different levels after gathering the distributed data decode through multilayer repeatedly of the data code flow that comes up.So just can carry out Multistage Control by different level.Can carry out various function expansions more flexibly.Distributed analytic method carries out Intelligence Selection according to various configurations and carries out data decode wherein.This intelligentized analytic method can adapt to all business expansions fully.

Description of drawings

The picture that this description of drawings provided is used for auxiliary to further understanding of the present invention, constitutes the application's a part, does not constitute to improper qualification of the present invention, in the accompanying drawings:

Fig. 1 is a resolution system structural representation of the present invention.

Embodiment

To combine accompanying drawing and practical implementation method to specify the present invention below, be used for explaining the present invention in schematic enforcement of the present invention and explanation, but not as to qualification of the present invention.

Embodiment 1:

Structure of the present invention is shown in accompanying drawing 1; Form by Surveillance center and field terminal unit; Said field terminal unit comprises the first protocol analysis configuration module, error code data analysis module and the data acquisition module that connects successively; Said data acquisition module is connected with a plurality of smart machines; Said Surveillance center comprises successively data mining capability module, central processing module and the second protocol analysis configuration module that connects, and realizes being connected between field terminal unit and the Surveillance center through interconnecting of the first protocol analysis configuration module and the second protocol analysis configuration module.

Distributed interpretive model of the present invention is bottom-up along the original agreement data flow, comprises the smart machine collection from the base station, protocol analysis, and transmission, a series of links such as center processing are all included unified planning to deploy in.

Protocol analysis can be chosen in bottom (being field terminal unit) or carry out repeatedly layering parsing in center-side (being Surveillance center) according to certain condition or configuration.Divide configuration planning again with the closely bound up characteristic Monitoring Data of hardware device, system selects how to resolve to data according to the data that configure automatically automatically.Data based configuration after the parsing is carried out the application function expansion in bottom and center respectively.Just be configured in the bottom automatically and carry out association and accomplished such as lack analysis and judgement function that judge to steal feelings successively through three-phase electricity, handle the ground floor decoding in the bottom just to having been filtered out such as the error code data.The error code data just can not cause burden to network like this.If the user shields a certain monitoring point in Surveillance center, the bottom just can issue the instantaneous acquiring data that stop this monitoring point of taking turn, can accomplish monitoring point shielding truly.

Under this distributed protocol interpretive model, can carry out more reasonably resolving configuration according to the integrated service demand.More the opportunity of the selection of intelligence parsing, the interpretive model of total system also no longer is to be confined to single bottom and center-side parsing.Carry out protocol analysis but be divided into multilayer mode repeatedly; Under this intelligent protocol analysis pattern, can plan the monitoring variable of various smart machines according to different user's requests, intelligent protocol is resolved configuration module be configured.Under this protocol analysis pattern: can not influence any function expansion.Can use simultaneously littler bandwidth and center processing ability still less to handle more information to greatest extent.Can accomplish more massive concentrating to monitoring.

More than the technical scheme that the embodiment of the invention provided has been carried out detailed introduction; Used concrete example among this paper the principle and the embodiment of the embodiment of the invention are set forth, the explanation of above embodiment only is applicable to the principle that helps to understand the embodiment of the invention; Simultaneously, for one of ordinary skill in the art, according to the embodiment of the invention, the part that on embodiment and range of application, all can change, in sum, this description should not be construed as limitation of the present invention.

Claims (7)

1. the layer-management system of large-scale equipment monitoring is characterized in that:

Comprise interconnective field terminal unit and Surveillance center; Said field terminal unit comprises the first protocol analysis configuration module, error code data analysis module and the data acquisition module that connects successively; Said data acquisition module is connected with a plurality of smart machines; Said Surveillance center includes the second protocol analysis configuration module, realizes being connected between field terminal unit and the Surveillance center through interconnecting of the first protocol analysis configuration module and the second protocol analysis configuration module.

2. the layer-management system of large-scale equipment monitoring according to claim 1 is characterized in that:

Said Surveillance center is connected with a plurality of field terminal units.

3. the layer-management system of large-scale equipment monitoring according to claim 1 and 2 is characterized in that:

Said Surveillance center also comprises interconnective data mining capability module and central processing module, and said central processing module is connected with the second protocol analysis configuration module.

4. the layer-management system of large-scale equipment monitoring according to claim 1 is characterized in that:

The said first protocol analysis configuration module and/or the second protocol analysis configuration module are provided with the analysis condition of the communication protocol of specific part or whole smart machines, comprise time, the one parsing completion of being resolved, being resolved by the first protocol analysis configuration module or the second protocol analysis configuration module or are divided into repeatedly parsing.

5. the layer-management system of large-scale equipment monitoring according to claim 4 is characterized in that:

The said first protocol analysis configuration module and the second protocol analysis configuration module are provided with configuration interface, can dispose automatically through human configuration or the software that this configuration interface carries out analysis condition.

6. the layer-management method of large-scale equipment monitoring is characterized in that:

Analysis condition through the first protocol analysis configuration module and/or the second protocol analysis configuration module are disposed is resolved the communication protocol of smart machine; Comprise according to the configuration the parsing time resolve; And resolving is divided into a plurality of steps; Can select one parsing to accomplish, perhaps repeatedly resolve to form and accomplish, with the Multistage Control by different level that realizes resolving.

7. layer-management method according to claim 6 is characterized in that:

Said analysis condition also comprises the field terminal unit that is chosen in the bottom, and perhaps the Surveillance center in center-side resolves.

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