CN103366234A - System and method for operation procedure management - Google Patents
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- CN103366234A CN103366234A CN2012100913345A CN201210091334A CN103366234A CN 103366234 A CN103366234 A CN 103366234A CN 2012100913345 A CN2012100913345 A CN 2012100913345A CN 201210091334 A CN201210091334 A CN 201210091334A CN 103366234 A CN103366234 A CN 103366234A
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Abstract
The invention discloses a system and a method for operation procedure management. The system for operation procedure management is used for managing a transmission program of an operation procedure object in an organizational structure, and comprises a metadata database, an input module and an authorization engine. Definitions of path points in an operation procedure module, setting of nodes of the path points, and setting of group data in the operation procedure module are used as a precasting model, thereby enabling a traditional operation procedure to be modified or reassembled flexibly without reorganizing an operation procedure or spending much time to modify path points of the procedure one by one, and achieving an intelligent process automation design of center control, dynamic interception and auxiliary procedure path rapid expansion.
Description
Technical field
The present invention relates to a kind of work flow management system and method, particularly a kind of work flow management system and method for in organizational structure, transmitting for the management operations flow object.
Background technology
With in one, large-size enterprise group, the speed of development of company size, and the fast lifting of flow process complexity, the file sign-off of electronization and transmission system all needs to have accurately and reaction capacity rapidly.
Existing Business Process Management, the flow layout personnel of administrative department and the flow scheme design personnel of technology department can't unite two into one.The daily numerous and jumbled and flow process group string of easily makeing mistakes, when each tissue or demand out of the ordinary propose (cut out such as file show, please purchase, countersign, investigation statistics, even the sign-off etc. of asking for leave), all need reset at individual purpose, authority, event and object, ordering, stipulations and path Logic layout etc., in complicated and a large amount of re-assemblying in the process, not only the related personnel need drop into a large amount of manpowers, its over load often causes work delay, serious mistake, and the heavy losses that cause of the poor efficiency of enterprise operation and excessive risk.
Accordingly, loaded down with trivial details, the mixed and disorderly assembling of the daily flow process of enterprise and the huge risk of manpower intervention need to be enhanced.
Summary of the invention
One object of the present invention is to make the arbitrary node in the organizational structure can not be restricted to fixed route, the node that can dynamically be grasped in the point of path to want to comprise according to set path by system when object transfer.
Another object of the present invention is each node in the work flow framework and relation is made clear and summary, to reach center keyholed back plate, Motion capture, to reach the intelligent process automation that branch extends fast.
For achieving the above object and other purpose, the present invention proposes a kind of work flow management system, be used for the transmission procedure of management operations flow object in organizational structure, this work flow management system comprises: metadata database, be used for storing each node data of this organizational structure and be used for storage and run on these internodal at least one work flow templates, each work flow template has a plurality of paths point, each path point has at least one node, and each work flow template also defines the group's data under each node; Load module is in order to receive this work flow object; And authorizing engine, connect this metadata (meta data) database and this load module, this authorizing engine comprises: the work flow template selection unit is used for producing the main flow path of this work flow object of operation between these path points according to this at least one work flow template; And work flow is expanded the unit, connect this work flow template selection unit, be used for the feedback according to the node of each path point, this node that will feed back accordingly is according to restriction and the node data thereof of this group data under it, expand out secondary flow journey path to the high level direction, moving this work flow object, and be used for after finish in this secondary flow journey path, getting back to this main flow path.
For achieving the above object and other purpose, the present invention proposes again a kind of work flow management method, and for generation of the flow path of work flow object, it comprises following steps: A, select work flow template that should the work flow object; B, according to each this work flow object of path point operation in the main flow path of this work flow template; C, when the path in this main flow path point has the node on a plurality of coordinatioies rank, in the affiliated group of node of feedback at first, according to rank, the position alphabetic data of feedback node, expand out secondary flow journey path to the high level direction; Reach D, move this work flow object according to this secondary flow journey path, and after operation is finished, get back to step B and continue next path point of operation, wherein, a plurality of internodal Cahn-Ingold-Prelog sequence rules during this work flow object operation of this work flow template standard, this work flow template has a plurality of paths point, each path point has at least one node, and each work flow template also defines the group's data under each node.
In one embodiment, also comprise: the field setup unit, connect this metadata database, be used for setting these rank, internodal position alphabetic datas, this field setup unit comprises: the first field setup unit is used for setting each node at the organizational structure sequence number value of organizational structure; The second field setup unit is used for setting each node in the node ID value of this organizational structure; The 3rd field setup unit is used for according to the front rank information of each node, setting front rank node ID value under this organizational structure; The 4th field setup unit is used for when each node adheres to other node, sets according to the node that depends on and depends on the node ID value; The 5th field setup unit is used for when each these node is inherited other node, according to the sequence number value constituted succession node ID value of the node of inheriting; And the 6th field setup unit, for the title of setting each these node.
Thus, keyholed back plate mechanism by the model of precasting and group data, make static node data have dynamic expansion elasticity, not only have the regroup of high-amplitude and adopting property in flow process, more can reform (merge and acquisition) in merger, enterprise, advise and compile the better effect of performance in the organizational changes such as reaching newly establishment, this also is the effect place of precasting model reusability and flow process application extension.
Description of drawings
Fig. 1 is the functional-block diagram of work flow management system in one embodiment of the invention.
Fig. 2 is the schematic flow sheet of work flow management method in one embodiment of the invention.
Fig. 3 is the represented department's framework relation of node data in the embodiment of the invention.
Fig. 4 is the represented post framework relation of node data in the embodiment of the invention.
Fig. 5 is the flow path synoptic diagram that each field data when comprising the work flow design information of design time in the embodiment of the invention is launched.
Fig. 6 is the flow path synoptic diagram that each field data when comprising entity work flow information in the embodiment of the invention is launched.
Fig. 7 is the principle schematic of the dynamic self-assembly that adopts in the embodiment of the invention.
[critical piece description of reference numerals]
100 work flow management systems
110 load modules
120 authorizing engine
122 work flow template selection unit
124 work flows are expanded the unit
130 metadata databases
132 field setup units
A~D, C1, C2, D1 step
Embodiment
For fully understanding purpose of the present invention, feature and effect, existing by following specific embodiment, and in conjunction with appended accompanying drawing, the present invention is elaborated, illustrate as after:
At first please refer to Fig. 1, be the functional-block diagram of work flow management system in one embodiment of the invention.Be used for the transmission procedure of management operations flow object in organizational structure in the embodiment of the invention, work flow management system 100 comprises: metadata database 130, load module 110 and authorizing engine 120.This organizational structure can be the existing class structure of client, for example: the hierarchical relationship between the hierarchical relationship between interdepartmental hierarchical relationship, position or different company's tissue, can come these organizational structures of framework by tree structure.This load module 110 can be by the input interface in the computer installation (for example: network interface) be connected to receive the work flow object with other computing machine.120 storage mediums that can be in the computer installation of this authorizing engine, storage can be carried out the application program of corresponding function action in it.
Authorizing engine 120 connects this metadata database 130 and this load module 110, and this authorizing engine 120 comprises: work flow template selection unit 122 and work flow are expanded unit 124.
Work flow template selection unit 122 is used for producing the main flow path of this work flow object of operation between these path points according to this at least one work flow template.
Work flow is expanded unit 124 and is connected these work flow template selection unit 122, moving this work flow object, and is used for getting back to this main flow path after finish in secondary flow journey path.
When the operation flow object enters the path point that only has single node, work flow is expanded unit 124 according to the feedback of this single node, for example: the sign-off of work flow object passes through, restriction and node data thereof according to this group data under this single node, expand out secondary flow journey path to the high level direction, that is, can be in the work flow template limit the highest level of work flow object required operation in this secondary flow journey path by the restriction of this group data, and each node sequence can take the operation of this secondary flow journey path out of by the node data of this single node the time.
On the other hand, when the operation flow object enters the path point with a plurality of nodes, work flow is expanded unit 124 according to the node that feeds back at first, restriction and node data thereof according to this group data under this node that feeds back at first, as previously mentioned, expand out secondary flow journey path to the high level direction.Therefore, many secondary flow journeys of the setting path of capable of dynamic in the embodiments of the invention, and the node that foundation is fed back is at first dynamically selected secondary flow journey path.Simultaneously, when the node that feedback is arranged produces, the feedback of all the other nodes is with no longer valid, even can be set to and to feed back again, for instance, when a certain supervisor being arranged during sign-off one file, although be positioned at another supervisor with level also have receive this document treat the sign-off notice, this another supervisor can't carry out the sign-off of this file.
Then please refer to Fig. 2, be the schematic flow sheet of work flow management method in one embodiment of the invention.Work flow management method in one embodiment of the invention can run on aforementioned system, and the method includes the steps of:
A, select work flow template that should the work flow object;
B, according to each this work flow object of path point operation in the main flow path of this work flow template;
C, according to the position rank alphabetic data of feedback node, expand out secondary flow journey path to the high level direction, wherein, when the path point has the node on a plurality of coordinatioies rank, carry out the C1 step, when path point does not have the node on a plurality of coordinatioies rank, carry out the C2 step, with the secondary flow journey path of expanding correspondence out of the ordinary; And
D, move this work flow object according to this secondary flow journey path, and carry out step D1, complete to judge whether that All Paths point all moves, when off-duty is complete, get back to step B and continue next path point of operation.
Wherein, a plurality of internodal Cahn-Ingold-Prelog sequence rules during this work flow object operation of this work flow template standard, this work flow template has a plurality of paths point, and each path point has at least one node, and each work flow template also defines the group's data under each node.
Accordingly, the setting of the definition of each path point in the work flow template in the embodiments of the invention, node that each path point has, and the work flow template in the setting of group data be used as a kind of precasting model, so that traditional work flow can be revised neatly and be re-assemblied, and must not reformulate work flow or expend modification process path point one by one of considerable time, reach center keyholed back plate, dynamically intercepting, and the secondary flow journey path intelligent process automation design of expanding fast.
In addition, further among the embodiment, also can comprise: field setup unit 132.This field setup unit 132 connects this metadata database 130, includes: the first to six field setup unit.These field setup units only are a kind of embodiment that implements aforementioned system and method, and other field is set the system and method in the regular also applicable previous embodiment.
The first field setup unit is used for setting each node at the organizational structure sequence number value of organizational structure; The second field setup unit is used for setting each node in the node ID value of this organizational structure; The 3rd field setup unit is used for according to the front rank information of each node, setting front rank node ID value under this organizational structure; The 4th field setup unit is used for when each node adheres to other node, sets according to the node that depends on and depends on the node ID value; The 5th field setup unit is used for when each these node is inherited other node, according to the sequence number value constituted succession node ID value of the node of inheriting; And the 6th field setup unit is used for setting the title of each these node.
The field data framework that embodiments of the invention use can be in data framework arbitrary nodal information change the time, for example: certain is responsible for leaving office, upgrades accordingly nodal information, so that the work flow object that is passed can correctly be moved.
In an embodiment, these node datas can comprise department information, post information, work flow stencil design data, reach work flow template solid data etc.
When these node datas comprised department information, this first field setup unit was used for same organizational structure being appointed as same category and setting identical classification sequence number value; This second field setup unit is used for this node ID value is appointed as department's sequence number value; It is this front rank node ID value that the 3rd field setup unit is used for will this front rank information being appointed as the higher level department of this department and setting department's sequence number value that this higher level department has; The 4th field setup unit is used for setting this according to department's sequence number value that this higher level department has and depends on the node ID value; Reach the 5th field setup unit and be used for when this department information is imported by external system, the sequence number value of designated external system is this inherit nodes sequence number value; And the 6th field setup unit is department name for the nodename of setting this department information.
For instance, when these node datas comprise department information, can record the relevance between department and the department.Namely corresponding each the field setup unit of each field data, as shown in table 1 below.Table 1 shows the relevance between department and the department.
Table 1
| Field one | Field two | Field three | Field four | Field five | Field six |
| 1 | 1 | o1 | The chairman of the |
||
| 1 | 2 | 1 | 1 | o2 | The general manager's |
| 1 | 3 | 2 | 2 | o3 | The A of |
| 1 | 4 | 2 | 2 | o4 | The B of department |
Please be simultaneously in conjunction with the represented department's framework graph of a relation of the node data of Fig. 3, when these node datas comprised post information, this first field setup unit was used for same organizational structure is appointed as same category and is set the same category sequence number value; This second field setup unit is used for this node ID value is appointed as the post sequence number value; The 3rd field setup unit is used for will this front rank information being appointed as this post directly under supervisor's post and setting this being this front rank node ID value directly under post sequence number value that supervisor's post has, and the 3rd field setup unit is not also specified this front rank node ID value when this post is responsible for post for high-order; The 4th field setup unit depends on node ID for department's sequence number value of setting the affiliated function of this post according to this department information for this; Reach the 5th field setup unit and be used for when this post information is imported by external system, the sequence number value of designated external system is this inherit nodes sequence number value; And the nodename that the 6th field setup unit be used for to be set this post information is job title.
For instance, when these node datas comprise post information, can record the relevance between position and the position.Namely corresponding each the field setup unit of each field data, as shown in table 2 below.Table 2 shows the relevance between position and the position.
Table 2
| Field one | Field two | Field three | Field four | Field five | Field six |
| 1 | 1 | o1 | The chairman of the board chamber |
| 1 | 2 | 1 | 1 | o2 | The general manager's |
|
| 1 | 3 | 2 | 2 | o3 | The A of |
|
| 1 | 4 | 2 | 2 | o4 | The B of |
|
| 1 | 5 | 1 | p1 | The chairman of the |
||
| 1 | 13 | 5 | 1 | p2 | Chairman of the |
|
| 1 | 6 | 5 | 2 | p3 | The general manager (GM) | |
| 1 | 7 | 6 | 3 | | Manager A | |
| 1 | 8 | 7 | 3 | p5 | Employee A1 | |
| 1 | 9 | 7 | 3 | | Employee A2 | |
| 1 | 10 | 6 | 4 | | Manager B | |
| 1 | 11 | 10 | 4 | p8 | Employee B1 | |
| 1 | 12 | 10 | 4 | p9 | Employee B2 |
Please be simultaneously in conjunction with the represented post framework graph of a relation of the node data of Fig. 4, when these node datas comprised the work flow design information, this first field setup unit was used for same path flow process is appointed as the same group data and is set the same group sequence number value; The second field setup unit is used for setting each node in the node ID value of this organizational structure; The 3rd field setup unit is used for according to the front rank information of each node, setting front rank node ID value under this organizational structure; The 4th field setup unit is used for when these work flow stencil design data are secondary flow journey path, this depends on the node ID value according to the main flow path setting that depends on, and the 4th field setup unit also is used for not setting this when these work flow stencil design data are the main flow path and depends on the node ID value; The 5th field setup unit is used for when this work flow stencil design data inheritance department information or post information, and setting this inherit nodes sequence number value is department's sequence number value or post sequence number value; And the 6th field setup unit is used for setting the title of each these node.
For instance, when these node datas comprise the work flow design information of design time (InfoPath-Design), namely corresponding each the field setup unit of each field data, as shown in table 3 below.Each field data when table 3 shows the work flow design information that comprises design time.
Table 3
| Field one | Field two | Field three | Field four | Field five | Field six |
| 3 | 31 | Anyone | |||
| 3 | 32 | 31 | Sign-off node A | ||
| 3 | 33 | 32 | Sub-sign-off order A | ||
| 3 | 34 | 33 | 33 | Sign-off node A.A | |
| 3 | 35 | 34 | 33 | Sub-sign-off order B | |
| 3 | 36 | 35 | 35 | Sign-off Node B .A | |
| 3 | 37 | 36 | 35 | Sign-off Node B .B | |
| 3 | 38 | 35 | 33 | Sign-off node A.B | |
| 3 | 39 | 33 | The sign-off Node B | ||
| 3 | 40 | 39 | 8 | Employee A1 | |
| 3 | 41 | 40 | 7 | Manager A | |
| 3 | 42 | 41 | Sign-off node C |
Please be simultaneously in conjunction with Fig. 5 comprise the work flow design information of design time the time the flow path synoptic diagram that launches of each field data, when these node datas comprised entity work flow information, this first field setup unit was used for same path flow process is appointed as same group and is set the same group sequence number value; This second field setup unit is used for this node ID value is appointed as department's sequence number value; It is this front rank node ID value that the 3rd field setup unit is used for will this front rank information being appointed as the higher level department of this department and setting department's sequence number value that this higher level department has; The 4th field setup unit is used for when this work flow template solid data is secondary flow journey path, this depends on the node ID value according to the main flow path setting that depends on, and the 4th field setup unit also is used for not setting this when this work flow template solid data is the main flow path and depends on the node ID value; It is that setting this inherit nodes sequence number value is the node ID value of department's sequence number value, post sequence number value or work flow stencil design data when inheriting department information, post information or work flow stencil design data that the 5th field setup unit is used at this work flow template solid data; And the 6th field setup unit is department name for the nodename of setting this department information.
Please be simultaneously in conjunction with Fig. 6 comprise entity work flow information the time the flow path synoptic diagram that launches of each field data, when these node datas comprise entity work flow information (Info Path-RunTime), namely corresponding each the field setup unit of each field data, as shown in table 4 below.Table 4 shows each field data when comprising entity work flow information.
Table 4
Accordingly, when aforementioned via each field setup unit each node is set these node datas after, the step during its actual implements is as follows:
A, seek work flow design information that should the work flow object.That is, look for the applicable path of information flow of this work flow object.
B, this work flow design information is copied as entity work flow information.That is, with the work flow design information that inquires, be copied into entity work flow information, field one will be according to the given new group data of novel entities work flow information and node ID with field two in the reproduction process, and the field two of work flow design information is copied to entity work flow information field five in addition.
C, according to store in the 5th field setup unit with this work flow design information in the relevance of each node, and in this work flow design information, the relevance of this second and the 3rd field setup unit, the relevance of this second and the 4th field setup unit is adjusted in this entity work flow information the front rank node ID value in the 3rd and the 4th field setup unit and is depended on the node ID value.That is, according to the relevance of each node in field five and the work flow design information, in the work flow design information, field two and field three, the relevance of field two and field four, the value of adjustment entity work flow information field three, field four is rebuild complete entity work flow information.
D, by playing this entity work flow information of spot scan, repeating step B and step C when inheriting.That is, begin to scan entity work flow information by starting point, if when inheriting (Inhered), should repeat above step B and C according to the field A of this node~D, the entity work flow information that produces is the sub-bang path (Sub processes) of former entity work flow information, that is, the field four of embedded main bang path (as root Processes) will be had in the entity work flow information, be denoted as the value of the field two of inherit nodes, and with the node field three of entity work flow information starting point, be denoted as the value of the field two of inherit nodes.
E, when being set as this embedded main bang path in this succession indication of settable unit, set all values of sub-bang path, and the deletion inherit nodes.That is, when if inherit nodes field D value is this embedded main bang path (as root Processes), the field four of sub-bang path first all nodes of rank of then step D being finished, sign is with the field four of inherit nodes, the node field three of sub-bang path starting point, sign is with the field three of inherit nodes, and next node field three signs of inherit nodes are with the field two of sub-bang path terminal point, deletion inherit nodes after finishing.
F, carry out the transmission of this work flow object.That is, carry out the information transmission, whether when being passed to inherit nodes, it is identical when carrying out step D to compare its operation rule, if different, the sub-bang path of delete step D institute output then, and re-start step D.
Then please refer to Fig. 7, be the principle schematic of the dynamic self-assembly that adopts in the embodiment of the invention.The part path point in the main flow path under a certain work flow template of " A → BX3 → C " representative in Fig. 7 left side, wherein " BX3 " representative has the path point of a plurality of nodes.Fig. 3 right side is the expansion of " BX3 " path point, the node that can learn the identical bits rank that " BX3 " path point has has " B13 ", " B23 ", reaches " B33 ", that is, this three node all can carry out the sign-off action, in case a node sign-off passes through, other node just can't carry out the action of sign-off again.For instance, node " B23 " sign-off passes through, at this moment, work flow is expanded unit 124 and is expanded out the restriction that meets this group data under " B23 " node and the secondary flow journey path of node data standard thereof according to " B23 " node of feedback, for instance: " B23 → B22 → B21 ", behind " B21 " node sign-off, namely get back to the main flow path and continue next path point " C ".
In sum, the tree structure in " the secondary flow journey path of main flow path and branch " in the flow process is leading by flow engine, by taking with the data of metadata database and work flow template database, under motor-driven assembling, represent as integral body, reduce the great effect of accuracy raising etc. and reach artificial saving, fault rate.
The present invention discloses with preferred embodiment hereinbefore, yet those skilled in the art will appreciate that this embodiment only is used for describing the present invention, does not limit the scope of the invention and should not be read as.It should be noted, such as with variation and the displacement of this embodiment equivalence, all should be made as and be covered by in the category of the present invention.Therefore, protection scope of the present invention when with claims the person of being defined be as the criterion.
Claims (8)
1. a work flow management system is characterized in that, is used for the transmission procedure of management operations flow object in organizational structure, and this work flow management system comprises:
Metadata database, be used for storing each node data of this organizational structure and be used for storage and run on these internodal at least one work flow templates, each work flow template has a plurality of paths point, each path point has at least one node, and each work flow template also defines the group's data under each node;
Load module is in order to receive this work flow object; And
Authorizing engine connects this metadata database and this load module, and this authorizing engine comprises:
The work flow template selection unit is used for producing the main flow path of this work flow object of operation between these path points according to this at least one work flow template; And
Work flow is expanded the unit, connect this work flow template selection unit, be used for the feedback according to the node of each path point, this node that will feed back accordingly is according to restriction and the node data thereof of this group data under it, expand out secondary flow journey path to the high level direction, moving this work flow object, and be used for after finish in this secondary flow journey path, getting back to this main flow path.
2. work flow management system as claimed in claim 1 is characterized in that, also comprises:
The field setup unit connects this metadata database, is used for setting these rank, internodal position alphabetic datas, and this field setup unit comprises:
The first field setup unit is used for setting each node in the organizational structure sequence number value of organizational structure;
The second field setup unit is used for setting each node in the node ID value of this organizational structure;
The 3rd field setup unit is used for according to the front rank information of each node, setting front rank node ID value under this organizational structure;
The 4th field setup unit is used for when each node adheres to other node, sets according to the node that depends on and depends on the node ID value;
The 5th field setup unit is used for when each node is inherited other node, according to the sequence number value constituted succession node ID value of the node of inheriting; And
The 6th field setup unit is for the title of setting each node.
3. work flow management system as claimed in claim 2 is characterized in that, these node datas comprise department information, wherein,
This first field setup unit is used for same organizational structure being appointed as same category and setting identical classification sequence number value;
This second field setup unit is used for this node ID value is appointed as department's sequence number value;
It is this front rank node ID value that the 3rd field setup unit is used for will this front rank information being appointed as the higher level department of this department and setting department's sequence number value that this higher level department has;
The 4th field setup unit is used for setting this according to department's sequence number value that this higher level department has and depends on the node ID value; And
The 5th field setup unit is used for when this department information is imported by external system, and the sequence number value of designated external system is this inherit nodes sequence number value; And
The nodename that the 6th field setup unit is used for this department information of setting is department name.
4. work flow management system as claimed in claim 3 is characterized in that, these node datas comprise post information, wherein,
This first field setup unit is used for same organizational structure is appointed as same category and is set the same category sequence number value;
This second field setup unit is used for this node ID value is appointed as the post sequence number value;
The 3rd field setup unit is used for will this front rank information being appointed as this post directly under supervisor's post and setting this being this front rank node ID value directly under post sequence number value that supervisor's post has, and the 3rd field setup unit is also for do not specify this front rank node ID value when this post is responsible for post for high-order;
The 4th field setup unit depends on the node ID value for department's sequence number value of setting the affiliated function of this post according to this department information for this; And
The 5th field setup unit is used for when this post information is imported by external system, and the sequence number value of designated external system is this inherit nodes sequence number value; And
The nodename that the 6th field setup unit is used for this post information of setting is job title.
5. work flow management system as claimed in claim 4 is characterized in that, these node datas comprise work flow stencil design data, wherein,
This first field setup unit is used for same path flow process is appointed as the same group data and is set the same group sequence number value;
The 4th field setup unit is used for when these work flow stencil design data are secondary flow journey path, this depends on the node ID value according to the main flow path setting that depends on, and the 4th field setup unit also is used for not setting this when these work flow stencil design data are the main flow path and depends on the node ID value; And
The 5th field setup unit is used for when this work flow stencil design data inheritance department information or post information, and setting this inherit nodes sequence number value is department's sequence number value or post sequence number value.
6. work flow management system as claimed in claim 5 is characterized in that, these node datas comprise work flow template solid data, wherein,
This first field setup unit is used for same path flow process is appointed as same group and is set the same group sequence number value;
The 4th field setup unit is used for when this work flow template solid data is secondary flow journey path, this depends on the node ID value according to the main flow path setting that depends on, and the 4th field setup unit also is used for not setting this when this work flow template solid data is the main flow path and depends on the node ID value; And
The 5th field setup unit is used for when this work flow template solid data is inherited department information, post information or work flow stencil design data, and setting this inherit nodes sequence number value is the node ID value of department's sequence number value, post sequence number value or work flow stencil design data.
7. a work flow management method is characterized in that, for generation of the flow path of work flow object, it comprises following steps:
A, select work flow template that should the work flow object;
B, according to each this work flow object of path point operation in the main flow path of this work flow template;
C, when the path in this main flow path point has the node on a plurality of coordinatioies rank, in the affiliated group of node of feedback at first, according to rank, the position alphabetic data of feedback node, expand out secondary flow journey path to the high level direction; And
D, move this work flow object according to this secondary flow journey path, and after operation is finished, get back to step B and continue next path point of operation,
Wherein, a plurality of internodal Cahn-Ingold-Prelog sequence rules during this work flow object operation of this work flow template standard, this work flow template has a plurality of paths point, and each path point has at least one node, and each work flow template also defines the group's data under each node.
8. work flow management method as claimed in claim 7 is characterized in that, in step C, when the path in this main flow path point has the odd number node, under this node of feedback, in the group, according to rank, the position alphabetic data of feedback node, expand out this secondary flow journey path to the high level direction.
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