CN116757662A

CN116757662A - Video operation and maintenance management method and platform

Info

Publication number: CN116757662A
Application number: CN202310495022.9A
Authority: CN
Inventors: 杨建文; 曾天槐
Original assignee: Jiangxi Yifuou Technology Co ltd
Current assignee: Jiangxi Yifuou Technology Co ltd
Priority date: 2023-05-05
Filing date: 2023-05-05
Publication date: 2023-09-15

Abstract

The invention is suitable for the technical field of operation and maintenance management, and provides a video operation and maintenance management method and a platform, wherein the method comprises the steps of collecting resource information of each front-end device and matched facilities, and establishing a video resource information base; decoding and acquiring performance data of the front-end equipment and the matched facilities from the butted video monitoring platform according to the resource information of the front-end equipment and the matched facilities in the video resource information base; performing centralized monitoring, analysis, statistics and early warning on performance data of each front-end device and matched facilities; loading performance data of each front-end device and matched facilities to a display platform in a quantitative mode for visual view display; and forming a report according to statistics corresponding to the performance data of each front-end equipment and matched facilities, and correspondingly generating various management and assessment reports according to various preset requirements. The video operation and maintenance management method provided by the invention solves the problem of low efficiency of the existing video operation and maintenance management.

Description

Video operation and maintenance management method and platform

Technical Field

The invention belongs to the technical field of operation and maintenance management, and particularly relates to a video operation and maintenance management method and platform.

Background

The public safety video monitoring construction networking application is an important means for maintaining national safety and social stability under new situation and preventing and striking violent terrorism crimes, and has important significance for improving urban and rural management level and innovating social management system. In recent years, video monitoring system construction is greatly promoted in various markets in China, and great effects are played in the aspects of crime attack, security protection, social management, service civilian life and the like.

The construction of the video monitoring system is a long-term and continuous process, and as the construction of the video monitoring system is continued to be deep, the system construction scale is continuously enlarged, and the problems of large management range, aggravated management difficulty of resource accounts, more participating building units, untimely fault treatment, incapability of effectively quantifying service quality and the like are highlighted. The conventional manual operation mode is simply relied on to carry out daily inspection and maintenance management, so that the high availability of the whole system is difficult to ensure, and effective early warning cannot be carried out, such as damage of a similar camera, video image loss, server failure, damage of storage equipment components, unstable line bandwidth and the like.

Disclosure of Invention

The embodiment of the invention aims to provide a video operation and maintenance management method and platform, which aim to solve the problem of low efficiency of the existing video operation and maintenance management.

The embodiment of the invention is realized in such a way that a video operation and maintenance management method is applied to a video operation and maintenance management platform, and the method comprises the following steps:

collecting resource information of each front-end device and matched facilities, and establishing a video resource information base;

decoding and acquiring performance data of the front-end equipment and the matched facilities from the butted video monitoring platform according to the resource information of the front-end equipment and the matched facilities in the video resource information base;

performing centralized monitoring, analysis, statistics and early warning on performance data of each front-end device and matched facilities;

loading performance data of each front-end equipment for centralized monitoring, analysis, statistics and early warning and matched facilities to a display platform in a quantitative mode for visual view display;

and forming a report according to statistics corresponding to the performance data of each front-end device and matched facilities of centralized monitoring, analysis, statistics and early warning, and correspondingly generating various management and assessment reports according to various preset requirements.

Further, the step of collecting resource information of each front-end equipment and the matched facilities includes:

acquiring information manually input by a user, and collecting the information to obtain the input front-end equipment and the resource information of matched facilities; and/or

Acquiring batch data in a form text imported by a user, and collecting the batch data to obtain the resource information of imported front-end equipment and matched facilities; and/or

And acquiring information data collected by a third-party system platform subjected to interface docking, and collecting resource information of the front-end equipment subjected to synchronous docking and matched facilities.

Further, the step of collecting the resource information of each front-end device and the matched facilities further comprises the following steps:

when the resource information in the video resource information base is obtained to carry out data change operation, submitting the changed data for verification, and updating the data required to be changed after the verification is obtained;

and synchronously reporting the resource information in the local video resource information library to be synchronized to a preset appointed platform at intervals of preset time.

Further, the step of decoding and obtaining performance data of the front-end equipment and the matched facilities from the docked video monitoring platform according to the resource information of the front-end equipment and the matched facilities in the video resource information base includes:

acquiring an equipment list of front-end equipment in the butted video monitoring platform;

determining a decoding mode corresponding to the front-end equipment in each equipment list according to the resource information of the front-end equipment in the video resource information base;

And decoding the video image of the front-end equipment in the video monitoring platform according to the decoding mode corresponding to each front-end equipment to obtain the performance data of the front-end equipment.

Still further, the performance data includes video image data, signaling data, video stream data, key frame data, and connectivity data;

the steps of performing centralized monitoring, analysis, statistics and early warning on the performance data of each front-end device and matched facilities comprise:

monitoring the on-line state of each front-end device in a centralized manner according to the signaling data, video stream data, key frame data and connectivity data of each front-end device;

and performing image processing and recognition analysis according to the video image data of each front-end device to judge the video image quality of each front-end device.

Furthermore, the step of loading the performance data of each front-end device and the matched facilities for centralized monitoring, analysis, statistics and early warning to the display platform in a quantitative mode for visual view display comprises the following steps:

acquiring the identity information of the currently logged-in user;

and displaying the visual view of the corresponding configuration according to the user identity information.

When the same resource information is acquired, comparing the currently acquired resource information with the pre-acquired resource information;

when the current acquired resource information is compared to be consistent with the pre-acquired resource information, combining the current acquired resource information with the pre-acquired resource information;

when the currently acquired resource information is compared with the pre-acquired resource information to change, a difference report is generated and submitted for verification;

and correspondingly determining whether to update the resource information according to the auditing result.

Further, the step of performing image processing and recognition analysis according to the video image data of each front-end device to determine the video image quality of each front-end device includes:

the method comprises the steps of acquiring video image data acquired by each front-end device from a video monitoring platform through timing polling;

analyzing whether abnormal faults exist in the video image data according to image processing and recognition technologies, wherein the abnormal faults comprise no-signal faults and image abnormal faults;

and if the abnormal faults exist, correspondingly determining a fault source generating faults according to the types of the abnormal faults.

It is also an object of another embodiment of the present invention to provide a video operation and maintenance management platform, the platform including a memory, a processor, and a computer program stored on the memory and executable on the processor, the processor implementing the video operation and maintenance management method as described above when executing the computer program.

The video operation and maintenance management method provided by the embodiment of the invention establishes a unified video resource information base by collecting the resource information of each front-end device and matched facilities, so that various resource accounts can be cleared, operation and maintenance management objects can be combed, resource management is realized, and the method is taken as a unique trusted data source as a premise and a basis for implementing effective operation and maintenance work; the performance data of each front-end device and the matched facilities are subjected to centralized monitoring, analysis, statistics and early warning, so that the front-end device and the matched facilities can be subjected to centralized monitoring and unified management, the front-end device and the matched facilities of the whole network video resource can be automatically inspected, faults can be found timely, fault reasons can be rapidly located, the workload of operation and maintenance personnel is obviously reduced, and the management efficiency is improved; by means of visual view display and statistics, the operation conditions of front-end equipment and matched facilities and the examination results of the operation quality of the statistical video can be visually reflected, examination requirements and evaluation are met, efficient and low-fault operation of a video network is achieved, the operation quality of a video application platform is guaranteed, and the problem of low operation and maintenance management efficiency of the existing video is solved.

Drawings

Fig. 1 is a flowchart of a video operation and maintenance management method according to an embodiment of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

In the present invention, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "secured," and the like are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art according to the specific circumstances. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Urban video monitoring systems are an important component of the construction of "safe cities". The current situation faced by the current video operation and maintenance mainly comprises:

1. the number and scale of video equipment are large, and the asset management difficulty is large

The number of equipment resources of the video monitoring project is huge, the video monitoring scale is increased year by year, the equipment types are numerous, the equipment brands are complicated, and in general, one cannot quickly know the specific model, asset attribution, jurisdiction range, specific application, current use state, maintenance range, maintenance company and the like of one piece of equipment, and the type and detailed information of the equipment associated with the equipment. How to manage and clear the resource ledgers is a premise and a basis for implementing effective management, and if an effective resource management system is not available and such complicated resources are managed manually or by a simple IT application, some hidden dangers and problems will always exist.

Meanwhile, due to the fact that the video platform is built in a staged mode, unified standards and standards are not formed, such as non-standardized national standard codes, longitude and latitude information loss and the like. The condition that the video resource information items are incomplete, the attribute missing condition is serious, the video resource information items cannot be normally reported to a higher-level unit to finish the examination, and the information data of each platform is not uniform is also very prominent.

2. Video equipment has wide distribution range and low inspection efficiency

Because of the regional division characteristics of video monitoring projects, including all regions of the whole market and networking access to social unit organization resources, front-end monitoring points are widely distributed, equipment types are inconsistent, installation environments are different, and in general, information such as the running state of the front-end monitoring points, environmental parameters and the like cannot be obtained at the first time. The efficiency of patrolling and examining each scattered supervisory equipment through the manual work is low, and often just discover the camera trouble when need call the video, and is passive relatively, leads to being difficult to know in the first time whether many front end monitoring points have broken down for the efficiency of system front end fortune dimension is lower.

3. The video network has complex structure and difficult fault investigation

Because of the numerous monitoring images, how to uniformly manage the monitoring images and how to classify real-time dynamic information, query and dynamically display history records; how to quickly find out problems, locate the problems and master the problems on a data display layer; how to know whether a camera has quality problems or a platform server application has problems when a certain camera cannot play a video; how to quickly locate the root of the problem, how to provide basis for decision making in time, and the problem which must be faced and solved in daily work.

Based on this, the embodiment of the invention provides a video operation and maintenance management method, and the invention is described by a specific embodiment.

Example 1

Referring to fig. 1, a flowchart of a video operation and maintenance management method according to a first embodiment of the present invention is shown, for convenience of explanation, only a portion related to the embodiment of the present invention is shown, and the method includes:

step S10, collecting resource information of each front-end device and matched facilities, and establishing a video resource information base;

in one embodiment of the invention, due to various resources of the video network, various brands and models of equipment layers are endless from the front-end camera to the back-end server, a large amount of software resources such as business applications, systems and the like exist besides hardware resources, and the equipment is often recorded and checked simply by manual recording or in a form of an electronic table in the face of such huge video running environment, so that a complete set of electronic equipment resource management capability is lacked, a unified equipment resource management library is not available, detailed information of each equipment such as responsible people, maintenance period and the like cannot be known conveniently and quickly, and the association relation among various equipment cannot be known. Therefore, in the embodiment of the invention, the resource information of each front-end device and matched facilities is collected, and a video resource information base is established, so that various resource accounts can be cleared, and the operation and maintenance management objects are combed, thereby being the premise and the foundation for implementing effective operation and maintenance work. The method solves the problems of incomplete, non-uniform and non-compliance of resource information items for a long time, and establishes a set of trusted front-end equipment data information source.

The video operation and maintenance management method is particularly applied to a video operation and maintenance management platform, wherein the video operation and maintenance management platform is provided with a video resource management system, and the video resource management system can perform all-round front-end equipment and resource information acquisition, maintenance and management work of matched facilities, and particularly can comprise information acquisition/input, change/maintenance, inquiry, partition, audit, synchronous reporting and the like.

More specifically, in the work of information collection/input, it is mainly to collect the resource information of front-end equipment and matched facilities, and meanwhile, a video resource information base is built according to the collected resource information of each front-end equipment and matched facilities, that is, the video resource information base is a part of the video resource management system, and at this time, the resource ledger can be combed for the actual production environment by building the video resource information base. The front-end equipment mainly comprises camera equipment, including an IP digital camera, an analog camera, a picture snapshot camera and the like, and at the moment, the resource information of the front-end equipment comprises a camera name, a camera IP address, a national standard number, a camera model, a camera brand, installation time, maintenance units and the like. The facilities matched with the front-end equipment in the embodiment of the invention mainly comprise hardware and software resources such as the upright posts, the transmission equipment and the application system. In this case, the resource information of the pole includes pole number, pole model, pole installation position, power taking position, longitude, latitude, belonging area, belonging organization, installation time, maintenance unit, etc. The resource information of the transmission device includes an IP address, an installation location, a physical address, a brand, a model, an uplink device, an area to which the transmission device belongs, an organization to which the transmission device belongs, an installation time, a maintenance unit, and the like. The resource information of the application system comprises a video comprehensive application platform, a big data platform, a networking integration sharing platform, a platform server, an operating system, a database, middleware, a storage system, a virtual resource and business application system, a device installation position, device configuration information, maintenance information and the like.

Further, the above collection of the resource information of each front-end device and the associated facilities may be implemented by any one or more of the following manners:

firstly, acquiring information manually input by a user, and collecting the information to obtain the input front-end equipment and the resource information of matched facilities;

acquiring batch data in a form text imported by a user, and collecting the batch data to obtain the imported front-end equipment and the resource information of matched facilities;

and thirdly, acquiring information data collected by a third-party system platform subjected to interface docking, and collecting the information data to obtain the synchronous docked front-end equipment and the resource information of matched facilities.

Of course, in other embodiments of the present invention, the front-end device and the associated facilities may collect resource information in other manners, for example, the video resource management system may find all IP resources in the network through scanning of the whole network resources, identify the found resources as servers or network devices, and enter the found results into the IP address library. At this time, the front-end equipment and the supporting facilities can be found by periodically executing the scanning task, and meanwhile, the IP black households in the found network should be deleted.

Currently, optionally, in other embodiments of the present invention, the collection of the resource information of the front-end device and the matched facilities may be implemented in other manners, for example, the video resource management system may implement automatic discovery through discovery of the configuration data attribute, where the discovery manner may be, but is not limited to, the following method: by enabling timing discovery for automatic discovery periodically according to a set interval time, discovery by using a plurality of SNMP (Simple Network Management Protocol ) parameters, telnet parameters, SSH (Secure Shell protocol) parameters; by setting filtering conditions for masking some unwanted managed devices and subnets during discovery; by setting whether the network segments are scanned one by one or not, the device (applicable to route and network segment discovery) is comprehensively discovered; and automatically joining the device group by setting the discovered device. The collection and maintenance of resource information through configuration data utilizes various technical means to ensure the accuracy and the integrity of data of various sources, the video resource management system supports a guide type discovery configuration function, a user can realize the setting of a discovery range and discovery parameters through discovery configuration guidance, a reasonable configuration discovery strategy is constructed, and meanwhile, the discovery result can be exported and stored through an Excel format file or directly imported into a video resource information base.

Furthermore, the video resource management system supports expansion and modification of the flexibly defined resource information items, and at this time, a user can conveniently modify and supplement the resource information items of the front-end equipment. For example: a maintenance manufacturer information item is flexibly expanded to the camera in the resource information of the front-end equipment. Meanwhile, attribute information of the resource information can be restrained through constraint rules, so that attribute reporting rules of the resource information can be contracted and associated, for example, national standard codes can automatically generate corresponding code values according to selected dispatching places, equipment types and the like; at this time, the field content with irregular filling cannot be normally collected and input into the video resource information base, for example, when the table text is used for importing data in batches, if a certain record national standard coding value does not correspond to a corresponding administrative region value, a prompt that the data cannot be collected and imported into the video resource information base is given.

Further, the step of collecting resource information of each front-end device and the matched facilities further includes:

Specifically, when the same resource information is obtained from the different acquisition sources, the same resource information is correspondingly identified and combined, and compared with the prior resource information, whether the information changes is judged, if so, a difference report is generated, and a notification is sent to a responsible person for change audit, so that repeated or inconsistent resource information is avoided. In addition, each difference data can be exported to generate an Excel format difference report file, so that a responsible person can backup and review each difference data, and meanwhile, the update and use of the data are met. When the auditing result passing the auditing is obtained, the resource information is correspondingly updated, namely the pre-obtained resource information is replaced by the currently obtained resource information, so that the data is updated. And when the audit result that the audit is not passed is obtained, continuing to use the pre-obtained resource information.

That is, the step of collecting the resource information of each front-end device and the matched facilities further includes:

Specifically, no matter any mode is used for collecting the resource information of the front-end equipment and the matched facilities, the front-end equipment and the matched facilities all need to be checked by a responsible person for checking the resource information, and meanwhile, the operation performed on the resource information also needs to be checked, and the resource information after the checking is passed can be saved and validated, that is, in the process of information change and maintenance, the change validation of the resource information needs to be checked and determined by the responsible person, so that the validity of the change is ensured. Meanwhile, the method also supports to check the resource data change report during the change audit so that a responsible person can determine whether to need to change the resource information. And simultaneously, when the resource information is changed, a subscriber or a third party system platform of the data can be notified in real time so as to inform the changed content. Meanwhile, the video resource management system can realize version tracking and maintenance of resource information, when the resource information generates a new version, the original version record can be automatically tracked, recorded, updated and saved, and for the resource information with a plurality of versions, the video resource management system also supports comparison among the versions. It should be noted that the third party system platform may include an operation and maintenance system, a video networking/sharing platform, etc., where the resource information data in the video resource management system is used as a unique and safe data source to provide data support for other platforms or systems, that is, other platforms or systems may obtain the resource information of each front-end device and the matched facilities from the video resource management system, so as to be used for service circulation and data application of their own system. For example, when a new brand of camera is used by changing the brand of camera during maintenance of the camera, the video resource management system must change the corresponding resource information, and the resource information of the changed camera is provided to a third party system through an interface for data processing. At this time, if the video networking platform is used for retrieving the images of the cameras, the resource information of the corresponding cameras needs to be updated, so that the video decoding work is quickly performed, and the problem that the cameras cannot be effectively monitored due to the change of the resource information is avoided.

Furthermore, the video resource management system also periodically reports the resource information in the local video resource information base to be synchronized to a preset appointed platform. Wherein the user can customize the reporting time, for example: daily, weekly, etc.

That is, after the user logs in the video resource management system, the user adds the resource information of the front-end equipment and the matched facilities through a manual entry mode, an external data import mode, an external system interface docking mode or the like, at this time, whether the collected added resource information is already entered or different from the existing one is checked, then the user performs the checking and checking during the above-mentioned entry or subsequent change operation through the operation and maintenance personnel, and synchronizes to other system platforms after the checking and the saving of the resource information are completed, so as to realize the collection flow of the resource information.

Meanwhile, the video resource management system also provides a retrieval function, can perform data query on all resource information according to a full-text retrieval mode, can perform combined query according to a plurality of groups of resource information, and returns a query result in a list form, and can correspondingly check detailed resource information of a single front-end device when the query result is clicked in the query list. And meanwhile, the video resource management system also provides a latest searching and recording function, so that the latest and commonly used keywords of searching can be recorded and quickly searched by clicking. Meanwhile, the video resource management system can also conduct data export on resource information in an Excel format file and other modes, and display the resource information of each front-end device in a chart mode, conduct statistical analysis and the like. At this time, through statistical output and chart display of the resource information, unified and unique output sources and storage sources of the resource information can be met, and the number of front-end devices can be counted and analyzed according to different dimensions, for example, data item statistics and reference can be carried out from various dimensions such as device types, device manufacturers, monitoring point types and the like. Meanwhile, through statistics of resource information of each front-end device and matched facilities, whether key attributes (such as longitude and latitude, camera type, function type and the like) of data filling are absent can be correspondingly checked, so that data quality conditions are counted, data with missing acquired information are counted, the missing data are conveniently and correspondingly recorded by operation and maintenance personnel, and the problems that the existing video resource information items are incomplete and the attribute missing conditions are serious are avoided.

Furthermore, the video resource management system adopts a distributed architecture design, so that smooth expansion of system performance is ensured, and when the current performance of the system cannot meet the requirement or performance bottleneck occurs due to the increase of managed resource information, the increase of system data volume or the increase of access volume, the system performance can be improved in a horizontal expansion mode, so that the system performance can be improved, and the pressure and the requirement on the performance of the system can be adapted to the increase of scale. The video resource management system supports partition management of resource information, the resource information can be partitioned according to factors such as regions of users and organization distribution, different management domains are established, and each organization manages the resource information in the jurisdiction of the organization respectively.

Furthermore, the video resource management system also supports perfect relation management among the resource information, provides an visual relation list and a visual view, and can help operation and maintenance personnel to quickly know the association relation between the resource information item and other resource information items through the relation management, so that the operation and maintenance personnel can be helped to quickly judge the importance degree and the dependency relation of the resource information item, a relation chain can be quickly formed, and data reference can be provided for the case of tracing a source for a fault. For example, a plurality of cameras and the vertical rod form a relation chain, so that when monitoring and analyzing a specific camera fault, the specific position of the camera can be quickly found out according to the information of the vertical rod installation position longitude, latitude, the area and the like in the resource information of the vertical rod, and the field fault can be detected. Meanwhile, other cameras on the same upright post associated with the fault camera can be correspondingly determined according to the relation chain, so that a manager can correspondingly check whether the other cameras have faults.

Furthermore, the video resource management system also has a certain safety function, and specifically comprises: 1. authority control safety design, through unified user identity authentication, user role authority control, reasonable control of functions and data which can be accessed by a user, perfect audit backtracking is provided for personnel operation. 2. The fault-tolerant safety design of the system prevents various misoperation and malicious operation by applying verification and fault-tolerant technologies, and improves the robustness of the system. And in the data stream processing, data are checked, and malicious data are subjected to early warning prompt, so that the error information can be prevented from entering a video resource information base. 3. The data transmission safety design supports the schemes of transmission encryption, MD5 (Message-Digest Algorithm) information summarization method and the like through communication technologies such as HTTP (Hyper Text Transfer Protocol ), MQ (Message Queue) and the like, so as to ensure the safety, the integrity and the consistency of data in the service information transmission process. At the moment, potential safety hazards are reduced through safety design and measures, the safety of a video resource management system and data is improved, and the safe operation of the system is comprehensively guaranteed through aspects of system access control, system fault tolerance, data transmission and the like.

In the embodiment of the invention, a unified video resource information base is established by collecting resource information of each front-end device and matched facilities, so that various resource accounts can be cleared, operation and maintenance management objects can be combed, resource management can be realized, and the invention is a premise and foundation for implementing effective operation and maintenance work as a unique trusted data source. The method solves the problems of incomplete, non-uniform and non-compliance of the resource information items in the prior art for a long time.

Step S20, decoding and obtaining performance data of the front-end equipment and the matched facilities from the butted video monitoring platform according to the resource information of the front-end equipment and the matched facilities in the video resource information base;

In the embodiment of the present invention, the step S20 may be implemented by the following steps:

The video operation and maintenance management platform is in butt joint with the video monitoring platform according to national standard, at the moment, equipment lists of all front-end equipment are obtained from the video monitoring platform through national standard butt joint, for example, camera names, camera IP addresses and the like of the front-end equipment are obtained, then specific resource information of the front-end equipment is correspondingly determined in a video resource information base according to the equipment lists of the front-end equipment, for example, camera models, camera brands and the like of the front-end equipment are determined, at the moment, a decoding mode corresponding to the front-end equipment can be correspondingly determined according to the camera models and the resource information of the camera brands, then the front-end equipment is correspondingly decoded by utilizing the decoding mode to obtain performance data of the front-end equipment, wherein the performance data comprise, but are not limited to video image data, signaling data, video stream data, key frame data and communication data, and the video image data are video image information currently collected by the front-end equipment; the signaling data is signaling delay, wherein the signaling is mainly SIP (Session Initiation Protocol ) signaling, the SIP signaling is an IP voice session control protocol from the Internet, and at the moment, the session response time length during transmission of the multimedia system can be determined through the signaling delay, so that the video image transmission communication state and quality are determined; wherein the video stream data is video stream time delay; the key frame data is key frame time delay; the connectivity data is a connectivity status, which is typically an on-line status or an off-line status, i.e. whether or not it is in communication with the head-end equipment.

It should be noted that, referring to the foregoing, the video resource management system adopts a distributed architecture design and supports partition management of resource information, so that the video resource management system can decode in each partition to obtain performance data of front-end devices in each partition, and then each partition synchronizes the decoded performance data of each front-end device to the centrally managed video resource management system uniformly, so as to avoid the problem of slow decoding caused by too large number of decoded front-end devices, and effectively alleviate performance pressure on the system.

Furthermore, when the performance data is obtained by decoding the supporting facilities of the front-end equipment in the video resource information base, the performance data is mainly decoded for the application system in the supporting facilities, and the performance data is mainly collected and monitored by adopting a monitoring agent mode, which is generally described above. In a cloud data center environment, a monitoring agent mode can be used for embedding an agent program into a virtual machine template, and collection and monitoring of performance data of all basic application resources on a virtual machine can be realized when the virtual machine is created.

Specifically, for example, in the server, the collection and monitoring of performance data is implemented through IPMI (Intelligent Platform Management Interface ) protocol, where the hardware performance data index of the server includes: server current, sensor fan, sensor status, sensor temperature, server power supply power, etc. Wherein the software performance data index of the server comprises: various performance indexes of the server, such as indexes of a CPU (central processing unit ), a RAM (Random Access Memory, random access memory), a disk, a load, a file system, a network, monitoring, service and the like; important events of the server, such as Windows Event, syslog; a server common system service comprising: HTTP (Hyper Text Transfer Protocol ), DNS (Domain Name System, domain name system), TCP (Transmission Control Protocol ), SSH (Secure Shell protocol), SNMP (Simple Network Management Protocol ), WMI (Windows Management Instrumentation, windows management service).

In the storage system, performance data is collected and monitored through SMI-S (storage management interface specification, storage management interface standard) and SNMP (Simple Network Management Protocol ) protocols, wherein performance data indexes of the storage system comprise: storage array, physical disk, storage pool, controller, storage volume group. Of course, if the storage system is supported by the device, it may also support the collection and monitoring of the environmental parameters of the device, such as temperature, fan, power voltage, etc.

And among the middleware, the performance data index includes: web services middleware such as Apache, tomcat, IIS, nginx, JBoss, lighttpd, weblogic, websphere, etc.; caching middleware such as Redis, memcached and the like; message middleware such as ActiveMQ, rabbitMQ, kafka, etc.; big data middleware such as etcd, HAProxy, elasticsearch, hadoop (HDFS, mapReduce, zookeeper) and the like.

It should be noted that, the supporting facilities of the front-end equipment in the video resource information base further include other supporting facilities, and the corresponding supporting facilities acquire the performance data according to the performance data and the monitoring index required to be acquired, which are not specifically limited herein.

Step S30, performance data of each front-end equipment and matched facilities are monitored, analyzed, counted and pre-warned in a centralized mode;

in one embodiment of the invention, after the performance data of the front-end equipment and the matched facilities are decoded and acquired from the video monitoring platform, the performance data of each front-end equipment and the matched facilities are monitored in a centralized manner, and at the moment, operation and maintenance personnel can effectively and timely master the operation conditions of all the front-end equipment and the matched facilities by monitoring the front-end equipment and the matched facilities in a centralized manner, so that the operation information of the front-end equipment and the matched facilities can be collected and tidied, and potential hidden hazards can be discovered in time. Furthermore, besides the monitoring, the system also correspondingly performs centralized data analysis on the performance data of each front-end device and the matched facilities to determine the operation conditions of each front-end device and the matched facilities and whether faults occur, and simultaneously performs effective early warning when the monitoring and analysis shows that the front-end device or the matched facilities fail or exceed a preset range, so that operation and maintenance personnel correspondingly perform fault response processing on the front-end device or the matched facilities according to the early warning information. Furthermore, in addition to the above monitoring, analysis and early warning, the data of the monitored analysis are also counted correspondingly.

When the performance data of each front-end device and the matched facilities are subjected to early warning, the early warning generation condition can be checked through a time axis, and early warning events at a specific time can be checked. Certainly, the early warning generation condition can be checked in a blocking mode, and at the moment, the fault early warning is classified and summarized in a blocking mode through the service tag. Therefore, the early warning quantity, the emergency degree and the like of the early warning are presented, and the operation and maintenance personnel can conveniently and intuitively grasp the early warning information. Meanwhile, the early warning event can be filtered and checked, and the early warning type concerned by the operation and maintenance personnel can be correspondingly selected through setting the early warning filtering condition. For example, when operation and maintenance personnel only need to check the fault of the camera currently, the operation and maintenance personnel can correspondingly filter and screen out early warning information of the fault of the camera. And meanwhile, merging the early warning information, and merging the related early warning events at the moment. Meanwhile, the early warning information can be closed, for example, after an operation and maintenance person determines that the fault is recovered, the operation and maintenance person stops the operation and maintenance person, the early warning information is correspondingly closed after the monitoring system is in error report, and the like, so that the repeated operation of other operation and maintenance persons is avoided. Meanwhile, the early warning information can be visually displayed, the display of the early warning information based on a time line is supported, and meanwhile, the unified display of the associated front-end equipment and the early warning information corresponding to the same area range is supported, so that operation and maintenance personnel can conveniently and quickly check and analyze the early warning information.

The centralized monitoring, analysis, statistics and early warning of the performance data of each front-end device and matched facilities can be realized through the following steps:

Specifically, referring to the foregoing description of performance data, at this time, the online state of the front-end device may be monitored correspondingly by using signaling data, video stream data, key frame data and connectivity data of the front-end device, where whether the front-end device is online is determined correspondingly mainly by using connectivity data, and whether the communication quality with the front-end device is good is determined correspondingly by using signaling data, video stream data and key frame data.

Correspondingly, the steps of performing image processing and recognition analysis according to the video image data of each front-end device to judge the video image quality of each front-end device include:

Specifically, the video image quality of the front-end equipment can be correspondingly monitored through the video image data of the front-end equipment, firstly, the video operation and maintenance management platform can periodically poll the video image data acquired by each front-end equipment from the video monitoring platform, for example, acquire a video image acquired by each front-end equipment at intervals of ten minutes, and then analyze whether abnormal faults exist in the video image through an image processing and identification technology; the abnormal faults comprise no-signal faults and image abnormal faults; wherein no signal faults include no video signal, black screen, blue screen, etc.; wherein the image anomaly faults comprise image brightness anomalies, image stripes, image blurring, image color cast, image snowflakes and the like. It should be noted that the no-signal fault is typically a communication fault of the front-end equipment or the matched facilities, and is not a fault generated by the operation of the front-end equipment. The abnormal image faults are usually faults generated by the front-end equipment working, such as the conditions of over-bright or over-dark image frames, stripes in video images and the like caused by various camera faults, and the phenomena of video image blurring, video image color cast, video image snowflake and the like caused by the conditions of inaccurate camera focusing and the like. Therefore, the method can process, identify and analyze the video image quality according to the video image data of the front-end equipment, and correspondingly analyze the fault source, thereby effectively realizing the quick solution of the problem of operation and maintenance personnel.

Further, the performing image processing and identifying analysis on the video image data of each front-end device to determine the video image quality of each front-end device may further include, by obtaining video integrity of the monitoring front-end device corresponding to a preset description file fed back by the video monitoring platform, specifically, for example, initiating a video storage query request for a day before each front-end device to the video monitoring platform after 24 hours, at this time, obtaining a storage detail data source of each video, feeding back, by the video monitoring platform, the video storage condition description file to the video operation and maintenance management platform according to a national standard management specification, where the file records a detailed time period of each video recording loss in the video camera, and the video operation and maintenance management platform performs summary analysis on the video storage condition description file of different time periods of each front-end device, and performs detailed presentation, thereby being capable of correspondingly monitoring and analyzing the video integrity of each front-end device. Meanwhile, the method can display the video storage state of the preset days (for example, the last 30 days) in a list, at the moment, the situation of video deletion in the last 30 days can be checked, and meanwhile, the situation of video deletion in different time periods of each day can be checked in detail.

Therefore, the operation condition of the facilities matched with the front-end equipment can be correspondingly monitored through the performance data of the facilities matched with the front-end equipment, and the front-end equipment and the matched facilities are monitored in a centralized mode and managed in a unified mode, so that when the fault problem is monitored, the fault generated by the front-end equipment or the problem generated by the matched facilities can be effectively judged in time, for example, whether a camera is faulty or a server is down, or a storage equipment component is damaged, or the line bandwidth is unstable can be effectively judged, the fault source can be timely judged, and the problem can be effectively solved by operation and maintenance personnel.

The existing video project is complex in structure, and relates to complex and complicated software and hardware equipment, the frequent occurrence and positioning of faults cannot be effectively solved by means of manual inspection, meanwhile, due to the lack of a unified and standard monitoring and management platform, operation and maintenance personnel cannot timely master the operation condition of a video network and the operation condition of the video equipment, cannot collect, sort, count and analyze the operation information of the video network, cannot timely find potential hidden dangers, can only find problems by simple inspection or failure, and basically is in a passive fire-fighting state, and the problems generated in video business cannot be accurately and timely solved and processed by the passive operation and maintenance work of the operation and maintenance personnel, so that the normal operation of a video system is likely to be affected by a small fault. Once a certain service application runs slowly or has problems, whether the video service system itself has problems or not can not be judged in time, or whether the equipment associated with the service system has problems, such as a camera failure and a server downtime, the problems can not be timely judged, the problems can not be timely solved, the normal running of the video service can not be timely recovered, and even the video service is possibly interrupted when serious, because a complete video service monitoring system is not formed, operation and maintenance personnel can not perform overall monitoring and mastering on a video network, the video service and associated resources thereof, only each part of the divided management can not form effective and uniform service management, each manager can not only manage a single camera, a service application system, a server and a database, and can not construct the resources into an integral service logic structure for monitoring and management, and when the faults occur, the faults are not timely judged to originate from the video service system itself or other soft resources of the video support service system, so that the fault response time is slow, and timely and effective treatment can not be obtained, and thus the recovery and the steady running of the video service can not be influenced. In the embodiment of the invention, the performance data of each front-end device and the matched facilities are subjected to centralized monitoring, analysis, statistics and early warning, so that the centralized monitoring, centralized management can be realized, the automatic inspection of each front-end device and the matched facilities of the whole network video resource is realized, faults are found in time, the fault reasons are rapidly positioned, the workload of operation and maintenance personnel is obviously reduced, and the management efficiency is improved.

Step S40, loading performance data of each front-end equipment and matched facilities for centralized monitoring, analysis, statistics and early warning to a display platform in a quantitative mode for visual view display;

in one embodiment of the invention, after the performance data of each front-end device and the matched facilities are monitored, analyzed, counted and pre-warned in a centralized manner, the performance data of the monitoring, analyzing, counting and pre-warned can be correspondingly and intensively loaded to a display platform in a quantifiable manner to display visual views, wherein the quantifying manner comprises graph/table or datamation, and the statistical formation chart of the performance data is visually displayed in the forms of pie charts, bar charts, line charts, area charts, ring charts, roses, radar charts, instrument panels, counters, tables, texts, tellurions, topological relation charts and the like, and particularly is displayed through a visual chart in a scene, such as a projection screen and the like, so that operation and maintenance personnel can correspondingly determine the running states of the current front-end device and the matched facilities according to the visual information.

Wherein the visual view presentation includes, for example: video three-rate (access rate, online rate, integrity rate) chart presentation, video operation and maintenance overall situation presentation and the like. Wherein the views may include business overview views, hierarchy views, performance views, alert views, and the like. In other embodiments of the present invention, customized presentation may be performed according to a specific scene of the carding corresponding to the actual situation, which is not limited herein.

acquiring the identity information of the currently logged-in user;

Specifically, the video operation and maintenance management platform has a permission control safety design, at this time, each role is provided with a corresponding user identity, such as the responsible person and the operation and maintenance personnel, and different roles are endowed with different permission controls, and corresponding controls are performed on functions and data which can be accessed by the roles, such as auditing of the responsible person when the resource information is changed, and meanwhile, perfect audit backtracking can be provided for the operation process of each role to check the previous operation process of the role.

At the moment, correspondingly, the user identity information logged in at present is acquired first, and then the visual view of the corresponding configuration is displayed according to the user identity information. Namely, the roles of the users with different rights display views with different levels, so that the problem that users with lower rights leak or destroy resource information is avoided. While the user roles of the different partitions reveal views of the different partitions.

Step S50, forming a report according to statistics corresponding to performance data of each front-end device and matched facilities of centralized monitoring, analysis, statistics and early warning, and correspondingly generating various management and assessment reports according to various preset requirements;

in one embodiment of the invention, after the performance data of each front-end device and the matched facilities are monitored, analyzed, counted and pre-warned in a centralized way, the performance data of each front-end device and the matched facilities can be counted correspondingly to form a report. It should be noted that, the sequence of steps S40 and S50 is not executed, that is, the steps may be performed first and then the statistics may be performed, the statistics may be performed first and then the visualization may be performed, and the statistics and the visualization may be performed simultaneously, which is not limited herein.

Wherein, according to the various management of the corresponding design of actual use needs and examination report forms, realize management and examination function, wherein the report forms can include: availability report forms, and availability statistical report forms of software and hardware such as video, servers, databases, middleware, virtual machines and the like; the performance report forms are analyzed through the operation performance of the front-end equipment and matched facilities to form performance statistical report forms, the operation performance trend analysis is mastered, and the performance bottleneck is diagnosed; the video report forms are used for carrying out statistical analysis on the data such as the faults of the front-end equipment, the access rate, the online rate, the integrity rate and the like of the front-end equipment; the evaluation report satisfies the related requirements of operation service management and evaluation, for example, the front-end equipment is judged and designed on line as follows: the method comprises the steps of interfacing with a video monitoring platform through national standard, requesting all registered front-end devices in the video monitoring platform, achieving 5 paths of video concurrency for 10 seconds, detecting time delay of SIP signaling, video stream and key frames, processing any index which is not responded for 10 seconds as off-line according to the management assessment standard, and providing assessment management reports of subordinate units and maintenance providers according to actual management requirements and management system design, wherein the assessment management reports comprise three-rate (access rate, online rate and integrity rate) reports, daily operation and maintenance work quality reports and the like.

In the embodiment of the invention, through visual view display and statistical report, the running condition of front-end equipment and matched facilities and the checking result of the statistical video running quality can be intuitively reflected, the quantifiable running quality data support is provided, the running and maintenance checking requirement and evaluation are met, the efficient and low-fault running of the video network is realized, and the running quality of the video application platform is ensured.

In summary, in the embodiment of the present invention, by collecting the resource information of each front-end device and the matched facilities, a unified video resource information base is established, so that various resource accounts can be cleared, operation and maintenance management objects can be combed, resource management is realized, and the resource management is used as a premise and a basis for implementing effective operation and maintenance work as a unique trusted data source; the performance data of each front-end device and the matched facilities are subjected to centralized monitoring, analysis, statistics and early warning, so that the front-end device and the matched facilities can be subjected to centralized monitoring and unified management, the front-end device and the matched facilities of the whole network video resource can be automatically inspected, faults can be found timely, fault reasons can be rapidly located, the workload of operation and maintenance personnel is obviously reduced, and the management efficiency is improved; by means of visual view display and statistics, the operation conditions of front-end equipment and matched facilities and the examination results of the operation quality of the statistical video can be visually reflected, examination requirements and evaluation are met, efficient and low-fault operation of a video network is achieved, the operation quality of a video application platform is guaranteed, and the problem of low operation and maintenance management efficiency of the existing video is solved.

Example two

The second embodiment of the present invention also proposes a video operation and maintenance management platform, which includes a memory, a processor, and a computer program stored on the memory and executable on the processor, where the processor implements the video operation and maintenance management method according to the first embodiment.

The processor may in some embodiments be a central processing unit (Central Processing Unit, CPU), controller, microcontroller, microprocessor or other data processing chip for running program code or processing data stored in the memory 20, e.g. executing an access restriction program or the like.

Wherein the memory comprises at least one type of readable storage medium including flash memory, hard disk, multimedia card, card memory (e.g., SD or DX memory, etc.), magnetic memory, magnetic disk, optical disk, etc. The memory may in some embodiments be an internal storage unit of the video operation and maintenance management platform, for example a hard disk of the video operation and maintenance management platform. The memory may also be an external storage device of the video operation and maintenance management platform in other embodiments, for example, a Smart Media Card (SMC) equipped on the video operation and maintenance management platform, a Secure Digital (SD) Card, a Flash Card (Flash Card), etc.

In summary, the video operation and maintenance management platform in the above embodiment of the present invention establishes a unified video resource information base by collecting resource information of each front-end device and associated facilities, so as to clear various resource accounts, comb operation and maintenance management objects, realize resource partition management, and serve as a premise and basis for implementing effective operation and maintenance work as a unique trusted data source; the performance data of each front-end device and the matched facilities are subjected to centralized monitoring, analysis, statistics and early warning, so that the front-end device and the matched facilities can be subjected to centralized monitoring and unified management, the front-end device and the matched facilities of the whole network video resource can be automatically inspected, faults can be found timely, fault reasons can be rapidly located, the workload of operation and maintenance personnel is obviously reduced, and the management efficiency is improved; by means of visual view display and statistics, the operation conditions of front-end equipment and matched facilities and the examination results of the operation quality of the statistical video can be visually reflected, examination requirements and evaluation are met, efficient and low-fault operation of a video network is achieved, the operation quality of a video application platform is guaranteed, and the problem of low operation and maintenance management efficiency of the existing video is solved.

The embodiment of the invention also provides a readable storage medium, on which a program is stored, which when executed by a processor, implements the steps of the video operation and maintenance management method according to the above embodiment. The readable storage medium, such as: ROM/RAM, magnetic disks, optical disks, etc.

It will be apparent to those skilled in the art that, for convenience and brevity of description, only the above-described division of the functional units and modules is illustrated, and in practical application, the above-described functional allocation may be performed by different functional units or modules according to needs, i.e. the internal structure of the storage device is divided into different functional units or modules, so as to perform all or part of the above-described functions. The functional units and modules in the embodiment may be integrated in one processing unit, or each unit may exist alone physically, or two or more units may be integrated in one unit, where the integrated units may be implemented in a form of hardware or a form of a software functional unit. In addition, the specific names of the functional units and modules are only for distinguishing from each other, and are not used for limiting the protection scope of the present application.

Those of skill in the art will appreciate that the logic and/or steps represented in the flow diagrams or otherwise described herein, e.g., a ordered listing of executable instructions for implementing logical functions, can be embodied in any readable storage medium for use by or in connection with an instruction execution system, apparatus, or device, such as a computer-based system, processor-containing system, or other system that can fetch the instructions from the instruction execution system, apparatus, or device and execute the instructions. For the purposes of this description, a "readable storage medium" can be any means that can contain, store, communicate, propagate, or transport the program for use by or in connection with the instruction execution system, apparatus, or device.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, schematic representations of the above terms do not necessarily refer to the same embodiments or examples. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The above examples merely represent a few embodiments of the present invention, which are described in more detail and are not to be construed as limiting the scope of the present invention. It should be noted that it will be apparent to those skilled in the art that several variations and modifications can be made without departing from the spirit of the invention, which are all within the scope of the invention. Accordingly, the scope of the invention should be assessed as that of the appended claims.

Claims

1. A video operation and maintenance management method, which is applied to a video operation and maintenance management platform, the method comprising:

2. The video operation and maintenance management method according to claim 1, wherein the step of collecting resource information of each head-end equipment and associated facilities comprises:

3. The video operation and maintenance management method according to claim 1, wherein the step of collecting resource information of each front-end equipment and associated facilities further comprises:

4. The video operation and maintenance management method according to claim 1, wherein the step of decoding and obtaining performance data of the front-end equipment and the matched facilities from the docked video monitoring platform according to the resource information of the front-end equipment and the matched facilities in the video resource information base comprises the steps of:

5. The video operation and maintenance management method according to claim 1, wherein the performance data includes video image data, signaling data, video stream data, key frame data, and connectivity data;

6. The video operation and maintenance management method according to claim 1, wherein the step of loading the performance data of each front-end device and the matched facilities for centralized monitoring, analysis, statistics and early warning to the display platform in a quantization manner for visual view display comprises:

acquiring the identity information of the currently logged-in user;

7. The video operation and maintenance management method according to claim 1, wherein the step of collecting resource information of each head-end equipment and associated facilities comprises:

8. The video operation and maintenance management method according to claim 5, wherein the step of performing image processing and recognition analysis on the video image data of each front-end device to determine the video image quality of each front-end device comprises:

9. A video operation and maintenance management platform, characterized in that the platform comprises a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the video operation and maintenance management method according to any one of claims 1-8 when executing the computer program.