CN102651699A - Tree-like layered structure monitoring system and monitoring method - Google Patents
Tree-like layered structure monitoring system and monitoring method Download PDFInfo
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- CN102651699A CN102651699A CN2011100450599A CN201110045059A CN102651699A CN 102651699 A CN102651699 A CN 102651699A CN 2011100450599 A CN2011100450599 A CN 2011100450599A CN 201110045059 A CN201110045059 A CN 201110045059A CN 102651699 A CN102651699 A CN 102651699A
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Abstract
The invention discloses a tree-like layered structure monitoring system and a monitoring method. The monitoring system comprises multistage service ends, multistage monitoring clients and multistage monitoring facilities, wherein the multistage service ends comprise a plurality of service ends in tree-like layered structures, the stages of the service ends positioned in different layers are different, the stages of the service ends positioned in the same layer are identical, the multistage monitoring service ends comprise a plurality of monitoring clients which are respectively connected with the service ends of each stage, the multistage monitoring facilities comprise a plurality of monitoring facilities which are respectively connected with the service ends of each stage, the monitoring client ends are used for submitting account verification to the corresponding service ends, the service ends are used for returning a monitoring resource list to the monitoring clients passing through the verification, and the monitoring clients select and broadcast or receive the monitoring stream media according to the monitoring resource list. The system and the method have the advantages that the routing information synchronization step can be simplified, the expandability and the reliability of the system are improved, meanwhile, the data safety is effectively ensured, and the unnecessary management work is reduced.
Description
Technical field
The invention belongs to the electronic communication field, relate to a kind of tree hierarchy supervisory control system and method for supervising.
Background technology
For large-scale group or organization, its monitoring range relates to general headquarters of group, each province branch; And the districts and cities branch in the each province; The monitoring place distributes wide and institutional framework has level, and therefore corresponding supervisory control system also should have the level corresponding with the management organization structure, and promptly the higher level can visit the monitoring content of subordinate; Subordinate can't visit higher level's monitoring content; And the other side's that can not exchange visits between the peer monitoring content, satisfying the leveled demand of this large organization mechanism for supervisory control system, the supervisory control system of tree because of its clearly level can be competent at this demand undoubtedly.
Existing tree-shaped supervisory control system, it relies on the recombination region with flat structure and looks the screen supervisory control system, forms multistage tree-shaped supervisory control system after the catalogue with authority information that superposes above that.Flat composite video supervisory control system can the realization system be asked the interconnected entirely of information; Sharing of message; Therefore when routing table is synchronous,, need earlier synchronous by central field more synchronously to central field to each subdomain by subdomain if certain sub-domain routing iinformation changes; Tree type synchronization structure then is the compound of a plurality of star-like synchronization structures, carries out downwards synchronously after needing when therefore the tree-shaped supervisory control system routing iinformation of this kind is synchronous to make progress earlier.Have the supervisory control system of hierarchical relationship up and down and horizontal uncorrelated tree for authority, the bi-directional synchronization of routing iinformation seems unnecessary.And existing tree-shaped supervisory control system, the record catalogue of node is unique in whole tree-shaped system, and adopts the numbering plan of regional code and order of classification, makes tree-shaped supervisory control system be difficult for expansion.
Summary of the invention
Technical problem to be solved by this invention is: a kind of tree hierarchy supervisory control system is provided, and this supervisory control system can be simplified the step of synchronization of routing information, improves the extensibility of system;
The present invention also provides a kind of method for supervising of tree hierarchy supervisory control system.
For solving the problems of the technologies described above, the present invention adopts following technical scheme.
A kind of tree hierarchy supervisory control system comprises multistage service end, multilevel monitor client and multilevel monitor equipment; Said multistage service end comprises a plurality of service ends that are tree-shaped layering, and the rank of service end that is positioned at different layers is different, is positioned at the rank of the service end of one deck identical; Said multilevel monitor client comprises a plurality of monitor clients that link to each other with other service end of each grade respectively; Said multilevel monitor equipment comprises a plurality of watch-dogs that link to each other with other service end of each grade respectively; Said monitor client is in order to submit the account number checking to the service end of correspondence; Said service end is in order to return monitoring the Resources list to the monitor client through checking, and said monitor client is selected according to said monitoring the Resources list and broadcasting or reception monitoring flow medium.
As a kind of preferred version of the present invention, said each other service end of level includes database, Back Administration Module and monitoring service module; Said database is used for storage monitoring relevant information, and said monitoring relevant information comprises monitor data, monitor client data, monitor state and monitoring daily record; Said Back Administration Module links to each other with database in the same service end, in order to the establishment inlet of management and monitoring relevant information; Said monitoring service module links to each other with database in the same service end; In order to the monitor data in the database being carried out logical process and with going to each service end that is connected with service end at the corresponding levels in the said monitor data, and then be transferred to the monitor client that links to each other with said each service end.
A kind of method for supervising of tree hierarchy supervisory control system may further comprise the steps:
Step 1; Each next stage service end requires that according to the monitoring level nodal information in each comfortable said tree hierarchy supervisory control system is committed to corresponding upper level service end and verifies, and connects with said corresponding upper level service end through the back in checking;
As a kind of preferred version of the present invention, said nodal information comprises the node identity of node identity, node type, the network address and corresponding even higher level of node.
As another kind of preferred version of the present invention, each service end and each monitor client all form by ICP/IP protocol and connect.
As another preferred version of the present invention, said method for supervising also comprises step 3, and when certain watch-dog was reached the standard grade in the said tree hierarchy supervisory control system, it issued log-on message to the higher level step by step through the node in the supervisory control system; Each node is compared through passage ID synchronous in the database; If there is the passage ID of the watch-dog of reaching the standard grade in the database; Then said watch-dog of reaching the standard grade continues to issue log-on message to the higher level in this grade login success then, otherwise stops upwards issue; The form of the passage ID of said watch-dog of reaching the standard grade is: equipment one-level service domain name. secondary service domain name. and three grades of service domain names. ...
As another preferred version of the present invention; Said method for supervising also comprises the routing iinformation method for synchronous; The routing iinformation method for synchronous adopts the webservice technology to carry out transfer of data with synchronously; Back Administration Modules at different levels are submitted to the upper level Back Administration Module after accomplishing monitor message statistics at the corresponding levels, and said monitor message comprises group, equipment, passage ID.
Beneficial effect of the present invention is:
1) higher level can check the monitor data of subordinate, and higher level's monitor data can not be checked by subordinate, can not visit mutual monitor data between the peer, and such authority relation meets actual tissue mechanism structure relation, has effectively ensured safety of data;
2) any primary server goes wrong or fault and can not normally moving, and can not exert an influence for the monitoring of at the same level or its subordinate, thereby improve the reliability of supervisory control system;
3) adopt after the communication structure of tree-shaped layering; The monitoring alarm signal can be sent to the monitor client of corresponding level, and need not send all monitor clients to by alert levels; Feasible more targeted to the processing of reporting to the police, also reduced unnecessary management work;
4) adopted the mode of routing iinformation one-way synchronization realize tree-shaped supervisory control system routing iinformation synchronously and the division of level authority, simplified the synchronous method of existing route information bidirectional;
5) simple and practical passage ID coding method makes the structure of tree-shaped supervisory control system of the present invention more be prone to expansion than the structure of existing tree-shaped supervisory control system.
Description of drawings
Fig. 1 is the tree-shaped private network structural representation with N level;
The tree-shaped hierarchical network architecture sketch map with N level of Fig. 2 on the INTERNET basis, forming;
Fig. 3 sets up sequential schematic for the annexation of tree hierarchy supervisory control system of the present invention;
Fig. 4 is the basic framework sketch map of tree hierarchy supervisory control system of the present invention;
Fig. 5 sees the structural representation of one-level service end as for the secondary service end.
Embodiment
The invention provides a kind of tree hierarchy supervisory control system that one-way synchronization is prone to expanded function that has, it comprises: be arranged at a plurality of monitor clients of respectively monitoring the place and being used to supply relevant monitoring management personnel to carry out monitoring management; And each grade service end is through the multistage service end of verifying with corresponding monitor client is connected and the upper level service end is connected with corresponding next stage service end through node verification mechanism that is tree-shaped layering.The present invention can simplify the step of present tree-shaped supervisory control system synchronization of routing information, and makes tree-shaped supervisory control system have better vertically level and horizontal scalability at the same level.
Do further explain below in conjunction with the accompanying drawing specific embodiments of the invention.
Embodiment one
Present embodiment provides a kind of tree hierarchy supervisory control system, shown in Fig. 1 to 3, said tree hierarchy supervisory control system comprise the multistage service end that is tree-shaped layering and, multilevel monitor client and multilevel monitor equipment.Said multistage service end comprises a plurality of service ends that are tree-shaped layering, and the rank of service end that is positioned at different layers is different, is positioned at the rank of the service end of one deck identical; Said multilevel monitor client comprises a plurality of monitor clients that link to each other with other service end of each grade respectively; Said multilevel monitor equipment comprises a plurality of watch-dogs that link to each other with other service end of each grade respectively; Said monitor client is in order to submit the account number checking to the service end of correspondence; Said service end is in order to return monitoring the Resources list to the monitor client through checking, and said monitor client is selected according to said monitoring the Resources list and broadcasting or reception monitoring flow medium.Said a plurality of monitor client is arranged on different monitoring places; Be used to supply the monitoring management personnel to carry out monitoring management; Be generally the displaying end of supervisory control system; If a certain monitor client is correct after the account number empirical tests that the service end of correspondence is submitted to, then said service end is returned available monitoring the Resources list to said monitor client, and said monitor client selects and broadcast or receive the monitoring flow medium according to monitoring the Resources list.
As shown in Figure 4, service ends at different levels include database, Back Administration Module and monitoring service module; Wherein, said database is used for storage monitoring relevant information, and said monitoring relevant information comprises monitor data, monitor client data, monitor state and monitoring daily record etc.Comprise a plurality of databases in the said tree-shaped layering supervisory control system.Said Back Administration Module is used for the establishment inlet of management and monitoring relevant information, generally offers the monitoring management organizer and uses, and as adding watch-dog, adds attended operations such as monitor client and monitor client information management.Said tree-shaped layering supervisory control system comprises a plurality of Back Administration Modules, and each Back Administration Module links to each other with database at the corresponding levels.Said tree-shaped layering supervisory control system comprises a plurality of monitoring service module; Said monitoring service module (MTS) is the core of tree hierarchy supervisory control system, is used for monitor data is carried out logical process and said monitor data gone to service ends at different levels and the monitor client at the same level that is connected with service end at the corresponding levels.
The communication network that tree hierarchy supervisory control system of the present invention adopts is an IP network; It can set up and form a relatively independent private network; Also can be the tree-shaped hierarchical network that on the INTERNET basis, forms; Wherein, Fig. 1 is the tree-shaped private network structure with N level, the tree-shaped hierarchical network architecture with N level of Fig. 2 on the INTERNET basis, forming.
Embodiment two
Present embodiment provides a kind of method for supervising of tree hierarchy supervisory control system, and this method comprises routing iinformation method for synchronous and monitoring method for organizing.
[routing iinformation method for synchronous]
The routing iinformation method for synchronous adopts web service technology to carry out transfer of data with synchronously, and Back Administration Modules at different levels are submitted to the upper level Back Administration Module after accomplishing monitor message statistics at the corresponding levels, and said monitor message comprises group, equipment, passage ID.The secondary Back Administration Module is submitted to one-level back-stage management mould after accomplishing secondary monitor message statistics; Submit to the secondary Back Administration Module after three grades of Back Administration Modules are accomplished three grades of monitor message statistics, the secondary Back Administration Module is submitted to the one-level Back Administration Module again.Wherein, Web service is a new platform of setting up the distributed application program of interoperable, and Web service platform is a cover standard, and it has defined application program and how on Web, to have realized interoperability.If more multistage Back Administration Module is arranged then as above-mentioned mode analogize, routing iinformation is synchronized to the upper strata step by step from lower floor, wherein each passage ID is unique in whole monitoring system, passage ID coded format is following:
Passage ID=equipment one-level service domain name. secondary service domain name. three grades of service domain names.
So unidirectional routing iinformation is synchronous, make the higher level can visit all passages of subordinate, and subordinate can't visit higher level's passage, can not visit each other between the peer, makes whole monitoring system form the structure of a downtree shape.The coding method of this in addition passage ID makes tree-shaped supervisory control system be very easy to realize the expansion of both direction in length and breadth.
[monitoring method for organizing]
At Fig. 1 to the network configuration shown in Figure 2; The annexation of the position of any node and other nodes is represented their role and the relation in the middle of the actual monitored system in each structure; Tree-shaped hierarchical network architecture itself is a communication architecture that the network route is stable, more meets large-scale supervisory control system tissue characteristic.The communication of supervisory control system of the present invention is based on TCP/IP protocol suite; In above-mentioned tree-shaped hierarchical network architecture; All nodes can connect with the higher level through higher level's in the local profile IP address and port; And pass through to bind port at the corresponding levels, intercept the connection request of handling subordinate, the order of whole tree connection foundation is as shown in Figure 3.At first, label is that 2. monitor client connects for 1. one-level service end and label for 2. secondary service end and label; Then, label is that 3. monitor client connects for 2. secondary service end and label for 3. three grades of service ends and label; At last, label is that 4. monitor client connects for 3. three grades of service ends and label.
Said monitoring method for organizing may further comprise the steps:
(1) each next stage service end requires to submit to nodal information to the corresponding upper level service end in each comfortable said tree hierarchy supervisory control system to verify according to the monitoring level, and connects with said corresponding upper level service end through the back in checking; Each nodal information comprises the node identity of node identity, node type, the network address and corresponding even higher level of node.
(2) each monitor client submits to respective account information to the corresponding service end in each comfortable said tree hierarchy supervisory control system to verify, and connects through the service end of back with said respective stages in checking; Wherein, service ends at different levels and each monitor client form by ICP/IP protocol and connect.
(3) when certain watch-dog was reached the standard grade in the supervisory control system, it issued log-on message to the higher level step by step through node.Each node is compared through passage ID synchronous in the database, if having this ID in the database then login successfully in this level, continues then to issue log-on message to the higher level, issues otherwise stop to make progress.As: three grades of service ends of three grades of watch-dog logins; Synchronous passage ID in three grades of service end comparison databases; Suppose to have found this passage ID (such as: these three grades services of so-and-so equipment domain name); Then this watch-dog is logined successfully at three grades, and these three grades of service ends are issued the log-on message of this watch-dog to higher level's (being the secondary service end), synchronous passage ID in the secondary service end comparison database; Suppose to have found this passage ID (as: this secondary service domain name of so-and-so equipment. these three grades service domain names), then this watch-dog is logined successfully at secondary; Sign in to the one-level service end by that analogy step by step, said monitor client just can obtain all corresponding levels and login the channel list of the equipment of success below the corresponding levels.At the corresponding levels and above monitor client just obtains authority is visited this equipment through the video channel of setting up step by step monitoring content.
The present invention has the following advantage that has:
1) higher level can check the monitor data of subordinate, and higher level's monitor data can not be checked by subordinate, can not visit mutual monitor data between the peer, and such authority relation meets actual tissue mechanism structure relation, has effectively ensured safety of data;
2) any primary server goes wrong or fault and can not normally moving, and can not exert an influence for the monitoring of at the same level or its subordinate, thereby improve the reliability of supervisory control system;
3) adopt after the communication structure of tree-shaped layering; The monitoring alarm signal can be sent to the monitor client of corresponding level, and need not send all monitor clients to by alert levels; Feasible more targeted to the processing of reporting to the police, also reduced unnecessary management work;
4) adopted the mode of routing iinformation one-way synchronization realize tree-shaped supervisory control system routing iinformation synchronously and the division of level authority, simplified the synchronous method of existing route information bidirectional;
5) simple and practical passage ID coding method makes the structure of tree-shaped supervisory control system of the present invention more be prone to expansion than the structure of existing tree-shaped supervisory control system.
Embodiment three
In the large-scale monitoring of group is used, form 3 layers of monitoring usually, when nsg layer; Provincial organization has the database of oneself; It submits at the corresponding levels and other monitor message of level below the corresponding levels to upper level, and nsg layer can be checked the monitor data of all subordinates through corresponding monitor client thus; Provincial also can be with service system at the corresponding levels as the one-level service end, prefecture-level mechanism is as the secondary service end under the corresponding levels; The in like manner provincial monitor data that also can check its all subordinates then can not be checked the other side's monitor data between the provincial or city-level of same level, sees also Fig. 5 (Fig. 5 representes the provincial situation of seeing the one-level service end as).Corresponding monitoring tissue is accomplished by Back Administration Module, carries out transfer of data with synchronously through the webservice technology between the Back Administration Module, and Back Administration Modules at different levels are in order to accomplish monitor message statistics at the corresponding levels, and monitor message comprises tissue, equipment, passage.The secondary Back Administration Module is submitted to one-level back-stage management mould after accomplishing; Submit to the secondary Back Administration Module after three grades of Back Administration Modules are accomplished, the secondary Back Administration Module is submitted to the one-level Back Administration Module again.If more multistage Back Administration Module is arranged, so analogize, can check the monitor data of its all subordinates with regard to this higher level's monitor client, and subordinate's monitor client can not be checked higher level's monitor data, also checking monitoring data each other between the peer.
Description of the invention and application are illustrative, are not to want with scope restriction of the present invention in the above-described embodiments.Here the distortion of the embodiment that is disclosed and change are possible, and the replacement of embodiment is known with the various parts of equivalence for those those of ordinary skill in the art.Those skilled in the art are noted that under the situation that does not break away from spirit of the present invention or substantive characteristics, and the present invention can be with other forms, structure, layout, ratio, and realize with other elements, material and parts.
Claims (7)
1. a tree hierarchy supervisory control system is characterized in that: comprise multistage service end, multilevel monitor client and multilevel monitor equipment; Said multistage service end comprises a plurality of service ends that are tree-shaped layering, and the rank of service end that is positioned at different layers is different, is positioned at the rank of the service end of one deck identical; Said multilevel monitor client comprises a plurality of monitor clients that link to each other with other service end of each grade respectively; Said multilevel monitor equipment comprises a plurality of watch-dogs that link to each other with other service end of each grade respectively; Said monitor client is in order to submit the account number checking to the service end of correspondence; Said service end is in order to return monitoring the Resources list to the monitor client through checking, and said monitor client is selected according to said monitoring the Resources list and broadcasting or reception monitoring flow medium.
2. tree hierarchy supervisory control system according to claim 1 is characterized in that: said each other service end of level includes database, Back Administration Module and monitoring service module; Said database is used for storage monitoring relevant information, and said monitoring relevant information comprises monitor data, monitor client data, monitor state and monitoring daily record; Said Back Administration Module links to each other with database in the same service end, in order to the establishment inlet of management and monitoring relevant information; Said monitoring service module links to each other with database in the same service end; In order to the monitor data in the database being carried out logical process and with going to each service end that is connected with service end at the corresponding levels in the said monitor data, and then be transferred to the monitor client that links to each other with said each service end.
3. the method for supervising of a tree hierarchy supervisory control system is characterized in that, may further comprise the steps:
Step 1; Each next stage service end requires that according to the monitoring level nodal information in each comfortable said tree hierarchy supervisory control system is committed to corresponding upper level service end and verifies, and connects with said corresponding upper level service end through the back in checking;
Step 2, each monitor client are verified the service end that the account information in each comfortable said tree hierarchy supervisory control system is committed to respective stages, and are connected through the service end of back with said respective stages in checking.
4. the method for supervising of tree hierarchy supervisory control system according to claim 3 is characterized in that: said nodal information comprises the node identity of node identity, node type, the network address and corresponding even higher level of node.
5. the method for supervising of tree hierarchy supervisory control system according to claim 3 is characterized in that: each service end and each monitor client all form by ICP/IP protocol and connect.
6. the method for supervising of tree hierarchy supervisory control system according to claim 3; It is characterized in that: said method for supervising also comprises step 3; When certain watch-dog was reached the standard grade in the said tree hierarchy supervisory control system, it issued log-on message to the higher level step by step through the node in the supervisory control system; Each node is compared through passage ID synchronous in the database; If there is the passage ID of the watch-dog of reaching the standard grade in the database; Then said watch-dog of reaching the standard grade continues to issue log-on message to the higher level in this grade login success then, otherwise stops upwards issue; The form of the passage ID of said watch-dog of reaching the standard grade is: equipment one-level service domain name. secondary service domain name. and three grades of service domain names. ...
7. the method for supervising of tree hierarchy supervisory control system according to claim 3; It is characterized in that: said method for supervising also comprises the routing iinformation method for synchronous; The routing iinformation method for synchronous adopts the webservice technology to carry out transfer of data with synchronously; Back Administration Modules at different levels are submitted to the upper level Back Administration Module after accomplishing monitor message statistics at the corresponding levels, and said monitor message comprises group, equipment, passage ID.
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Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
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Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20070027801A1 (en) * | 2005-07-26 | 2007-02-01 | International Business Machines Corporation | Multi-level transaction flow monitoring |
CN1964308A (en) * | 2006-12-01 | 2007-05-16 | 上海华平计算机技术有限公司 | Tree layering structure conference system and conference organization method |
CN101583021A (en) * | 2009-05-21 | 2009-11-18 | 上海华平信息技术股份有限公司 | Monitoring device used in video conferencing monitoring system |
CN101621539A (en) * | 2009-08-06 | 2010-01-06 | 浙江理工大学 | Method for constructing P2P network for vertical virtual group |
CN201387555Y (en) * | 2009-03-31 | 2010-01-20 | 张志强 | Comprehensive remote control monitoring system |
-
2011
- 2011-02-25 CN CN2011100450599A patent/CN102651699A/en active Pending
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US20070027801A1 (en) * | 2005-07-26 | 2007-02-01 | International Business Machines Corporation | Multi-level transaction flow monitoring |
CN1964308A (en) * | 2006-12-01 | 2007-05-16 | 上海华平计算机技术有限公司 | Tree layering structure conference system and conference organization method |
CN201387555Y (en) * | 2009-03-31 | 2010-01-20 | 张志强 | Comprehensive remote control monitoring system |
CN101583021A (en) * | 2009-05-21 | 2009-11-18 | 上海华平信息技术股份有限公司 | Monitoring device used in video conferencing monitoring system |
CN101621539A (en) * | 2009-08-06 | 2010-01-06 | 浙江理工大学 | Method for constructing P2P network for vertical virtual group |
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CN109246097A (en) * | 2018-08-30 | 2019-01-18 | 郑州信大壹密科技有限公司 | Multi-stage platform monitoring system based on domestic safety control platform |
CN110096546A (en) * | 2019-03-18 | 2019-08-06 | 视联动力信息技术股份有限公司 | Distributed cascade data processing method and processing device |
CN110286657A (en) * | 2019-06-03 | 2019-09-27 | 北京国电智深控制技术有限公司 | A kind of monitoring system |
CN110362628A (en) * | 2019-06-20 | 2019-10-22 | 视联动力信息技术股份有限公司 | A kind of synchronous method and device cascading file |
CN111209162A (en) * | 2020-01-03 | 2020-05-29 | 北京同有飞骥科技股份有限公司 | System monitoring method and device for layered modeling |
CN111209162B (en) * | 2020-01-03 | 2023-07-04 | 北京同有飞骥科技股份有限公司 | Hierarchical modeling system monitoring method and device |
CN111475482A (en) * | 2020-04-03 | 2020-07-31 | 北京东方金信科技有限公司 | HDFS (Hadoop distributed File System) data display method and device |
CN111475482B (en) * | 2020-04-03 | 2023-09-05 | 北京东方金信科技股份有限公司 | HDFS data display method and device |
CN112153332A (en) * | 2020-09-09 | 2020-12-29 | 南京邮电大学 | Distributed video monitoring system |
WO2022205650A1 (en) * | 2021-04-01 | 2022-10-06 | 广州市保伦电子有限公司 | Distributed audio and video task management and distribution system, and implementation method |
CN113708967A (en) * | 2021-08-26 | 2021-11-26 | 中化信息技术有限公司 | System monitoring disaster tolerance early warning device and early warning method |
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