CN105068788A

CN105068788A - User work scene fast recovery method and device in video monitoring system

Info

Publication number: CN105068788A
Application number: CN201510389157.2A
Authority: CN
Inventors: 夏凤君
Original assignee: Zhejiang Uniview Technologies Co Ltd
Current assignee: Zhejiang Uniview Technologies Co Ltd
Priority date: 2015-07-01
Filing date: 2015-07-01
Publication date: 2015-11-18

Abstract

The invention discloses a user work scene fast recovery method and device in a video monitoring system; the method comprises the following steps: collecting and storing layout data1 of a window total interface when a system starts; collecting element data of all scenes related to a business, and storing the data as business flow data when the monitoring business starts; collecting element data of all scenes related to the business, and eliminating the corresponding business flow data when the monitoring business stops; detecting assembly preset trigger events in each interface when interface operation is carried out, and collecting and storing layout data 2of the corresponding assembly in the interface when the preset trigger event happens; calling the stored business flow data, and the layout data1 and 2 so as to reconstruct the user work scene when the video monitoring system fails. The user work scene fast recovery method in the video monitoring system can fully automatically recover scene elements, so the user can conveniently continue to work.

Description

The method of fast quick-recovery user job scene and device in a kind of video monitoring system

Technical field

The present invention relates to video monitoring system, particularly relate to method and the device of fast quick-recovery user job scene in a kind of video monitoring system.

Background technology

Video monitoring system is in operational process, inevitably there is the situation because system exception that the various accidents such as system program collapse, computer glitch, network failure, client or the power-off of monitor video server cause exits, at this moment just need to restart video monitoring system, comprise restarting of the miscellaneous service carried out before the Various types of data before system exception exits being recovered and system exception being exited.

In prior art one, after user starts fact, system is recorded on client or server by the monitoring relation related data that the pane layout of user and live pane are bound.Once after client failure appears in video monitoring system, system can the monitoring relation of fact of pane layout soon before quick-recovery fault and correspondence.But, this video monitoring system fault recovery technology is only consider the fact monitoring relation that live interface pane layout and pane are bound when recording data, namely it is only confined to all live interface layouts of recovering user's startup, and the recovery of live related service function.As user starts other business operation (as cruise, round cut, intercommunication broadcast, configuration data etc.), just need user artificially manually to recover item by item, operate very loaded down with trivial details.And the operation screen of user is if not live interface, but other interfaces (as: map interface/playback interfaces/configuration interface etc.), just cannot return in that interface layout that user finally operates.

Prior art two, collects the mode that the business datum needing user artificially manually to recover in prior art one adopts timing to store, and preserves for breaking down laggard row date restoring, namely avoids the trouble artificially manually recovering to bring.But adopt the mode of this type of timing, a timer interval is set, the data of collection will be caused incomplete as broken down in interval, if interval has arranged greatly (as 10 minutes), within every 10 minutes, collect a secondary data to preserve, if just now broken down the while that in 10 minutes these intervals, user starting some business, the user service data so during this period of time just cannot be preserved; If interval arranges little mistake (as in 10 seconds), then cause too much load can to the runnability of whole system, affect whole system travelling speed.

Summary of the invention

The present invention is directed to deficiency of the prior art, the method for fast quick-recovery user job scene in a kind of video monitoring system is provided, restoration scenario element automatically can be realized comprehensively, user friendly work continued access.

In order to solve the problems of the technologies described above, the present invention is solved by following technical proposals:

For recovering a method for user job scene in video monitoring system, the topology data collecting place forms total interface when system starts stores in the lump; When starting monitoring business, collecting all associated scenario element datas of described business and storing as traffic data; When stopping monitoring business, collecting all associated scenario element datas of described business and the traffic data of its corresponding stored is removed; When carrying out interface operation, detect the predetermined trigger event of assembly in each interface, when the generation of predetermined trigger event is then collected the topology data two at interface, corresponding assembly place and stores; When video monitoring system breaks down, the described traffic data and the topology data one, two that call storage rebuild user job scene.

Further, described topology data one, two comprises interface layout's data and dynamic assembly status data, and described dynamic assembly is occur with business change the assembly that different conditions shows.

Further, described predetermined trigger event is Click event, DbClick event and Dragover event.

Further, the unified contextual data described traffic data being become unified contextual data encapsulation transition to become with topology data one, two encapsulation transition is also assembled into final contextual data record in conjunction with current user information, is stored into the scene monitoring relation table of database.

Further, unified contextual data stores with serial sequence data stream format, described data stream format is made up of current user information and contextual data stream, and described user profile comprises user ID and user name, and described contextual data stream comprises traffic data and topology data.

Further, database stored in contextual data during exception stored in local system, otherwise contextual data is stored in database.

Further, rebuild user job scene to comprise: extract the contextual data record that stores and convert the data layout that business module can identify to; The each business interface of supervisory system is redrawn according to topology data one, two; Start business procedure and import corresponding traffic data.

For recovering a device for user job scene in video monitoring system, comprising: memory module, the topology data collecting place forms total interface when system starts stores in the lump; When starting monitoring business, collecting all associated scenario element datas of described business and storing as traffic data; Remove module, when stopping monitoring business, collecting all associated scenario element datas of described business and the traffic data of its corresponding stored is removed; Memory module, when carrying out interface operation, detects the predetermined trigger event of assembly in each interface, when the generation of predetermined trigger event is then collected the topology data two at interface, corresponding assembly place and stores; Rebuild module, when video monitoring system breaks down, the described traffic data and the topology data one, two that call storage rebuild user job scene.

Further, described device also comprises logging modle, the unified contextual data described traffic data being become unified contextual data encapsulation transition to become with topology data one, two encapsulation transition is also assembled into final contextual data record in conjunction with current user information, is stored into the scene monitoring relation table of database.

Further, unified contextual data is stored into memory module with serial sequence data stream format, described data stream format is made up of current user information and contextual data stream, described user profile comprises user ID and user name, and described contextual data stream comprises traffic data and topology data.

Further, described memory module be used for database stored in contextual data during exception stored in local system, otherwise contextual data is stored in database.

Further, described reconstruction mould, rebuild user job scene and comprise: extract the contextual data record that stores and convert the data layout that business module can identify to; The each business interface of supervisory system is redrawn according to topology data one, two; Start business procedure and import corresponding traffic data.

The present invention obtains following beneficial effect: each interface snapshot operated after the last login system of (1) recording user, comprises live interface and other each business interface (as: map interface/playback interfaces/configuration interface etc.); And the every business operation data started after recording user login system, when user is because of after the system failure logs in again, major interfaces layout before the system failure and business datum are all retained and recover, user friendly work continued access, save user and artificially manually recover loaded down with trivial details flow process item by item; (2) collecting the topology data at interface, corresponding assembly place by detecting assembly predetermined trigger event in each interface, decreasing system storage pressure, avoiding data acquisition frequently and store the too much load caused to the runnability of system; (3) by all elements serial sequence of the operative scenario of user and stored in data-base recording, various exceptions for client exit, user is again after login system, operative scenario pattern before can returning to fast and effectively, thus recover user job scene fast, all sidedly, reduce the operation steps of user, reduce the impact of the user job interruption brought because of abnormal cause to the full extent.

Additional aspect of the present invention and advantage will part provide in the following description, and part will become obvious from the following description, or be recognized by practice of the present invention.

Accompanying drawing explanation

Accompanying drawing described herein is used to provide a further understanding of the present invention, and form a application's part, schematic description and description of the present invention, for explaining the present invention, does not form inappropriate limitation of the present invention.In the accompanying drawings:

Fig. 1 is the data flow diagram one of the embodiment of the method for fast quick-recovery user job scene in a kind of video monitoring system of the present invention;

Fig. 2 is the data flow diagram two of the embodiment of the method for fast quick-recovery user job scene in a kind of video monitoring system of the present invention;

Fig. 3 is the contextual data format chart in the data pool of the embodiment of the method for fast quick-recovery user job scene in a kind of video monitoring system of the present invention;

Fig. 4 is the operative scenario figure in the data pool of the embodiment of the method for fast quick-recovery user job scene in a kind of video monitoring system of the present invention;

Fig. 5 is the layout of the Page [1] in the data pool of the embodiment of the method for fast quick-recovery user job scene in a kind of video monitoring system of the present invention;

Fig. 6 is the layout coordinate diagram of the Page [1] in the data pool of the embodiment of the method for fast quick-recovery user job scene in a kind of video monitoring system of the present invention.

Embodiment

For making the object of the embodiment of the present invention, technical scheme and advantage clearly, below in conjunction with the accompanying drawing of the embodiment of the present invention, the technical scheme of the embodiment of the present invention is clearly and completely described.Obviously, described embodiment is a part of embodiment of the present invention, instead of whole embodiments.Based on described embodiments of the invention, the every other embodiment that those of ordinary skill in the art obtain under without the need to the prerequisite of creative work, all belongs to the scope of protection of the invention.

Unless otherwise defined, technical term used herein or scientific terminology should be in field belonging to the present invention the ordinary meaning that the personage with general technical ability understands." first ", " second " that use in patent application specification of the present invention and claims and similar word do not represent any order, quantity or importance, and are only used to distinguish different ingredients.Equally, the similar word such as " " or " " does not represent restricted number yet, but represents to there is at least one.

As embodiments of the invention, as shown in Figure 1, a kind of method for recovering user job scene in video monitoring system, comprises the following steps:

S1: the topology data collecting place forms total interface when system starts stores in the lump.

Wherein said topology data one is topology data and the dynamic assembly status data of forms total interface, wherein said dynamic assembly is occur with business change the assembly that different conditions shows, by interface layout information and the component status information of comprehensive collection supervisory system, ensure that the comprehensive and integrality that follow-up data recovers.

Data Collection below for user interface layout and state is specifically described, the data queue of interface layout can pre-define 5 elements, as shown in Figure 4, be respectively used to the SNAPSHOT INFO at preservation 5 interfaces, comprise live interface, playback interfaces, map interface, video wall interface and alarm interface, if user did not access this interface online period, then corresponding interface SNAPSHOT INFO was empty.

Each interfaces windows is numbered: Page [X], wherein X: represent interface numbering (X:1 ~ 5).

For live interface, it is numbered Page [1], includes several layout areas as shown in Figure 5.

When collecting layout information, the overall snapshot layout of first recording user place forms.

As the layout pattern of accompanying drawing 5, whole pane layout is divided into A, B, C, D tetra-regions, and B region and D region have again and be divided into respective subregion B [B ₁, B ₂] D [D ₁[D _11,d ₁₂], D ₂], then layout information can be recorded as:

Layout[A,B[B ₁,B ₂],C,D[D ₁[D ₁₁,D ₁₂],D ₂]]

Also need the positional information calculating each region, by the position in each region being corresponded to the positional information obtaining each region in corresponding coordinate diagram simultaneously.As shown in Figure 6, now retouch for region A the positional information obtain manner that x states each region in detail:

With the upper left corner of PC screen for true origin (0,0);

Then four points of region A are Wei A ₁(x ₁, y ₁) A ₂(x ₁, y ₂), A ₃(x ₂, y ₁), A ₄(x ₂, y ₂);

Wherein, the coordinate of A1 point is actual is region A corresponding (left, top), that is: x in a coordinate system ₁=left, y ₁=top;

Then, the height of region A: height=y ₂– y ₁;

Width: width=x ₂– x ₁;

Therefore can show that the coordinate of its excess-three point is: A ₂(x ₁, y ₁+ height), A3 (x ₁+ width, y ₁), A4 (x ₁+ width, y ₁+ height);

By (A ₁, A ₂, A ₃, A ₄) coordinate position of region A can be determined, the position in all the other each regions also can in like manner be released in a manner described.

Further, if region memory is in the division of subregion, and father region is obtained by the positional information of preceding method in whole screen, position coordinates so for subregion can adopt relative coordinate to determine, namely using described father region as reference object, using its upper left corner as coordinate origin, determine each sub regions each position relative to father region, certainly also can adopt other position in father region as coordinate origin to confirm the wanting position of each sub regions.

Below to describe the positional information obtain manner of all subregion in detail for subregion D1, D2, D11, D12 of region D and Qi Nei, wherein whole layout information can record as follows:

Layout[

A{Position:{(x ₁,y ₁),(x ₂,y ₂)},

SubArea:{}},

B{Position:{(x ₂,y ₁),(x ₃,y ₂)},

SubArea:[B1{Position:{(x _b0,y _b0),(x _b1,y _b1)},SubArea:{},

B2{Position:{(x _b1,y _b0),(x _b2,y _b2),SubArea:{}]},

C{Position:{(x ₁,y ₂),(x ₂,y ₃)},SubArea:{}},

D{Position:{(x ₂,y ₃),(x ₃,y ₃)},SubArea:[

D1{Position:(x _d0,y _d0),(x _d1,y _d1),

SubArea:[

D11{Position:{(x _d0,y _d0),(x _d0,y _d1-1)},SubArea:{}},

D12{Position:(x _d1,y _d1),(x _d2,y _d1-2),SubArea:{}}

]},

D2{Position:(x _d0,y _d1),(x _d1,y _d2),,SubArea:{}}]

}]

Further, the dynamic assembly element of state change can occur to some existence in region, as button, icon etc., can there is different state displays according to the change of business in them, they can be carried out record as dynamic assembly status data as follows:

Area_X：[{Cmp1,S ₁},{Cmp2,S ₂},…,{Cmpn,S _n}]。

S2: when starting monitoring business, collecting all associated scenario element datas of described business and storing as traffic data.

User is after entering supervisory system, each startup monitoring business, as: when the operation such as fact/intercommunication, all associated scenario elements of current started business are all collected the data processing pond of the system of putting into by the business collection module of supervisory system.

S3: when stopping monitoring business, collecting all associated scenario element datas of described business and the traffic data of its corresponding stored is removed.

If when user stops a certain monitoring business, also by the business collection module of activation monitor system.Business collection module collects the associated scenario element data of stopped business, is sent to data processing pond, and data processing pond, by the data dump of the correspondence in pond, upgrades database table simultaneously.

S4: when carrying out interface operation, detects the predetermined trigger event of assembly in each interface, when the generation of predetermined trigger event is then collected the topology data two at interface, corresponding assembly place and stores.

When user operates for supervisory system interface, the business collection module of supervisory system monitor the assembly in each interface predetermined trigger event, here predetermined trigger event can be Click event, DbClick event and Dragover event, thus guarantee to collect the up-to-date topology data at interface, current component place, the predetermined trigger event of other correspondences also can be set according to corresponding service assembly certainly.When the as above event of the assignment component in interface triggers, business collection module starts the topology data two collecting interface, current component place, and put it in the Data buffer of supervisory system, wherein said topology data two is topology data and the dynamic assembly status data of forms total interface, wherein said dynamic assembly is that aforementioned change with business occurs the dynamic assembly element that different conditions changes, as button, icon etc.

S5: when video monitoring system breaks down, the described traffic data and the topology data one, two that call storage rebuild user job scene.

In the present embodiment, the data layout concrete due to each business in user job scene is different, need traffic data and layout class data to carry out storing and be converted to the data stream of consolidation form scene thus improve transfer efficiency, described contextual data stream be packaged into contextual data record in conjunction with user profile and store.The data layout that each business specifically in user job scene is concrete is different, the various situation elements collected need unified storage, such as define a data treatment pond, for various situation elements data encapsulation is changed into unified data stream format, then in conjunction with current user information, be assembled into final contextual data record, the scene monitoring relation table of input database.Wherein shown in the following accompanying drawing 3 of the data layout of situation elements, unified contextual data stores with serial sequence data stream format, described data stream format is made up of current user information and contextual data stream, described user profile comprises user ID and user name, described contextual data stream comprises traffic data and topology data, ensure the efficient of contextual data transmission, alleviate the operating load of whole system and the storage burden of system.

Further, in the present embodiment, as shown in Figure 2, can by contextual data stored in local system stored in supervisory system during exception at database, otherwise contextual data is stored in database.Namely described contextual data record is stored into database, if occur abnormal (as: failure of connection data storehouse, database corruption etc.) stored in database, the data in data processing pond are needed to be deposited in local system, after pending data storehouse is recovered, local file is had to import database again, the security that the data providing supervisory system store.

Described in the present embodiment, supervisory system occurs because of system program collapse, computer glitch, network failure, after the situation that the system exception that the various accidents such as client or the power-off of monitor video server cause exits, user is login system again, as the operative scenario before need recovering, as long as start scene restore funcitons, then the situation elements data of active user will be read in data processing pond from database table, read after in data pool, again the data after serializing are assembled into the data layout that corresponding business module can identify again, then each corresponding business module and layout is sent to redraw module.

Concrete, as shown in Figure 1, when carrying out user job scene and recovering, system is extracted the contextual data record of storage and is converted traffic data and layout class data to, the video monitoring before fault is repainted into according to layout class data, simultaneously activating service program import traffic data to recover the state before described business procedure to fault, thus realize the recovery of whole user job scene, thus each interface snapshot operated after the last login system of recording user, simultaneously by all elements serial sequence of the operative scenario of user and stored in data-base recording, various exceptions for client exit, user is again after login system, operative scenario pattern before can returning to fast and effectively, thus fast, recover user job scene all sidedly, reduce the operation steps of user, reduce the impact of the user job interruption brought because of abnormal cause to the full extent.

Meanwhile, present invention also offers a kind of device for recovering user job scene in video monitoring system of correspondence, comprising:

Memory module, the topology data collecting place forms total interface when system starts stores in the lump; When starting monitoring business, collecting all associated scenario element datas of described business and storing as traffic data;

Remove module, when stopping monitoring business, collecting all associated scenario element datas of described business and the traffic data of its corresponding stored is removed;

Memory module, when carrying out interface operation, detects the predetermined trigger event of assembly in each interface, when the generation of predetermined trigger event is then collected the topology data two at interface, corresponding assembly place and stores;

Rebuild module, when video monitoring system breaks down, the described traffic data and the topology data one, two that call storage rebuild user job scene.

In the present embodiment, described topology data one, two comprises interface layout's data and dynamic assembly status data, and described dynamic assembly is occur with business change the assembly that different conditions shows.

In the present embodiment, described predetermined trigger event is Click event, DbClick event and Dragover event.

In the present embodiment, logging modle, the unified contextual data described traffic data being become unified contextual data encapsulation transition to become with topology data one, two encapsulation transition is also assembled into final contextual data record in conjunction with current user information, is stored into the scene monitoring relation table of database.

In the present embodiment, memory module, unified contextual data stores with serial sequence data stream format, and described data stream format is made up of current user information and contextual data stream, described user profile comprises user ID and user name, and described contextual data stream comprises traffic data and topology data.

In the present embodiment, memory module, database stored in contextual data during exception stored in local system, otherwise contextual data is stored in database.

In the present embodiment, rebuild module, for rebuilding user job scene, wherein rebuilding user job scene and comprising:

Extract the contextual data record that stores and convert the data layout that business module can identify to;

The each business interface of supervisory system is redrawn according to topology data one, two;

Start business procedure and import corresponding traffic data.

The specific works process of this device is similar to the description in the embodiment of the above-mentioned method for recovering user job scene in video monitoring system, just introduces no longer in detail at this.

Last it is noted that above embodiment is only in order to illustrate technical scheme of the present invention, be not intended to limit; Although with reference to previous embodiment to invention has been detailed description, those of ordinary skill in the art is to be understood that: it still can be modified to the technical scheme described in foregoing embodiments, or carries out equivalent replacement to wherein portion of techniques feature; And these amendments or replacement, do not make the essence of appropriate technical solution depart from the scope of various embodiments of the present invention technical scheme.

In a word, the foregoing is only preferred embodiment of the present invention, all equalizations done according to the present patent application the scope of the claims change and modify, and all should belong to the covering scope of patent of the present invention.

Claims

1., for recovering a method for user job scene in video monitoring system, it is characterized in that:

The topology data collecting place forms total interface when system starts stores in the lump;

When starting monitoring business, collecting all associated scenario element datas of described business and storing as traffic data;

When stopping monitoring business, collecting all associated scenario element datas of described business and the traffic data of its corresponding stored is removed;

When carrying out interface operation, detect the predetermined trigger event of assembly in each interface, when the generation of predetermined trigger event is then collected the topology data two at interface, corresponding assembly place and stores;

When video monitoring system breaks down, the described traffic data and the topology data one, two that call storage rebuild user job scene.

2. the method for recovering user job scene in video monitoring system according to claim 1, it is characterized in that: described topology data one, two comprises interface layout's data and dynamic assembly status data, described dynamic assembly is occur with business change the assembly that different conditions shows.

3. the method for recovering user job scene in video monitoring system according to claim 2, is characterized in that: described predetermined trigger event is Click event, DbClick event and Dragover event.

4. the method for recovering user job scene in video monitoring system according to claim 1, it is characterized in that: described traffic data become unified contextual data with topology data one, two encapsulation transition and is assembled into final contextual data record in conjunction with current user information, being stored into the scene monitoring relation table of database.

5. the method for recovering user job scene in video monitoring system according to claim 4, it is characterized in that: unified contextual data stores with serial sequence data stream format, described data stream format is made up of current user information and contextual data stream, described user profile comprises user ID and user name, and described contextual data stream comprises traffic data and topology data.

6. the method for recovering user job scene in video monitoring system according to right 5, is characterized in that, rebuilds user job scene and comprises:

Monitoring business is recovered according to traffic data.

7. for recovering a device for user job scene in video monitoring system, it is characterized in that, comprising:

8. the device for recovering user job scene in video monitoring system according to claim 7, it is characterized in that: described topology data one, two comprises interface layout's data and dynamic assembly status data, described dynamic assembly is occur with business change the assembly that different conditions shows.

9. the method for recovering user job scene in video monitoring system according to claim 8, is characterized in that: described predetermined trigger event is Click event, DbClick event and Dragover event.

10. the device for recovering user job scene in video monitoring system according to claim 7 or 8, it is characterized in that: also comprise logging modle, the unified contextual data become for described traffic data to be become unified contextual data encapsulation transition with topology data one, two encapsulation transition is also assembled into final contextual data record in conjunction with current user information, is stored into the scene monitoring relation table of database.

11. devices for recovering user job scene in video monitoring system according to claim 10, it is characterized in that: unified contextual data is stored into memory module with serial sequence data stream format, described data stream format is made up of current user information and contextual data stream, described user profile comprises user ID and user name, and described contextual data stream comprises traffic data and topology data.

12. devices for recovering user job scene in video monitoring system according to claim 11, is characterized in that: described memory module be used for database stored in contextual data during exception stored in local system, otherwise contextual data is stored in database.

13. devices for recovering user job scene in video monitoring system according to right 12, it is characterized in that, described reconstruction module reconstructs user job scene comprises:

Start business procedure and import corresponding traffic data.