CN105741030A - Dynamic distribution method for material data packet of stereoscopic film and television conversion project - Google Patents

Abstract

The invention discloses a dynamic distribution method for a material data packet of a stereoscopic film and television conversion project. The dynamic distribution method comprises the steps of establishing a staff data packet queue consisting of staff data packets; decomposing the stereoscopic film and television conversion project into shots and procedures; establishing a material data packet queue consisting of material data packets; respectively extracting idle staff and materials to be distributed from the staff data packet queue and the material data packet queue, and establishing an idle staff data packet table and a to-be-distributed material data packet table; acquiring a most suitable to-be-distributed material data packet which is distributed to an idle staff data packet so as to realize dynamic distribution. A dynamic distribution system for the material data packet of the stereoscopic film and television conversion project comprises a staff data packet information module, a material data packet information module, a management information module and an intelligent distribution module. The dynamic distribution method for the material data packet of the stereoscopic film and television conversion project is good in practicability, the management cost of a project manager is reduced, optimal distribution can be carried out according to the practical situation of production staff and the project requirement, and the requirement of data packet distribution in other fields can also be satisfied.

Description

A kind of material data bag dynamic allocation method of three-dimensional film transformation of ownership project

Technical field

The present invention relates to the technical field of production of film and TV allocation of packets, particularly relate to the material data bag dynamic allocation method of a kind of three-dimensional film transformation of ownership project.

Background technology

Along with developing rapidly of computer software and hardware, computer information technology has change with rapid changepl. never-ending changes and improvements in the application of industry-by-industry.In production of film and TV field, there is Project Management Software outstanding in a large number, such as ftrack, ShotgunSoftware etc., these softwares can accomplish data, packet, the optimum management of statistical information and displaying, but still rely in a large number in allocation of packets and artificial calculate and arrange.

The artificial advantage arranging packet can consider when being in that distribution packet:

● the ability of producer, attitude, state, job requirement；

● the progress of project, day range request；

● the difficulty judgement of camera lens is more accurate；

● the rational management of camera lens production order.

But accomplishing that the pool personnel of above 4 are difficult to recruitment or cultivate, because project is higher to coordinated management Capability Requirement, ordinary person can not give full play to the artificial advantage arranging packet, and manually arranges packet also to have its shortcoming:

● packet arrangement calculating, complex operation, especially under many camera lenses of three-dimensional film making, multipaths, many packets condition, need several thousand packets of distribution easily, necessarily spend substantial amounts of time and efforts；

● distribution degree of freedom is too high, it is easily caused packet arrangement uneven, inequitable, the non-negotiation causing producer is discontented with, because the examination of producer is usually and is determined by workload rather than work difficulty, the imbalance of allocation of packets necessarily causes that working index performance is affected；

● owing to planning as a whole the carelessness of personnel and inconsiderate, in fact it could happen that producer does not have a situation of allocation of packets and the situation of free time.

Summary of the invention

In order to overcome above-mentioned the deficiencies in the prior art, the invention provides the material data bag dynamic allocation method of a kind of three-dimensional film transformation of ownership project.

The technical solution adopted in the present invention is:

One, the material data bag dynamic allocation method of a kind of three-dimensional film transformation of ownership project:

Setting up demographic data's bag queue, demographic data's bag queue is mainly made up of each demographic data bag；

It is camera lens by three-dimensional film transformation of ownership Project decomposition, each camera lens is divided into each Making programme, set up the material data bag queue being made up of each material data bag, the corresponding respective camera lens of material data bag queue, the camera lens that different material data bag queues is corresponding different, the corresponding respective Making programme of material data bag, the Making programme that different material data bags are corresponding different；

Information according to demographic data's bag queue and material data bag queue, therefrom extracts the personnel of free time and material to be allocated respectively, sets up idle demographic data's bag table and material data bag table to be allocated；

From material data bag table to be allocated, obtain optimal material data bag be assigned to demographic data's bag corresponding in idle demographic data's bag table, and then realize dynamically distribution.

Each described demographic data includes the information of groundwork index, Position Responsibility, the material data bag index of project, the current performance of material data bag of project and current availability, and the described demographic data's bag queue including N number of personnel is S={S_n, n=1 ..., N}, wherein each personnel's packet is expressed as:

$s_n=(o^{s_n},p^{s_n},Z^{s_n},J^{s_n},u^{s_n}),n=1,...,N$

Wherein,It is groundwork index, refers to, according to the material data bag workload needed by the single moon that the making ability of personnel is specified, represent with the frame number of material data bag；Being the Position Responsibility that the Making programme with camera lens is uniquely corresponding, demographic data wraps corresponding respective Position Responsibility, and different demographic data wraps corresponding different Position Responsibilities；It is the material data bag index of project, refers in three-dimensional film transformation of ownership project that the material data bag workload that the needs that personnel specify complete represents with the frame number of material data bag；It is the current performance of material data bag of project, refers in three-dimensional film transformation of ownership project that the material data bag workload that personnel have completed represents with the frame number of material data bag；It is the current state of personnel,Or 1,Represent idle orRepresenting not idle, not idle namely expression is presently processing certain material data bag.

Further, having I camera lens, the set expression of all camera lenses in described three-dimensional film transformation of ownership project is C={C_i, i=1 ..., I}, 1 second of video display video generally comprises 24 rest images, and 1 frame refers to 1 rest image, and the amount of work of three-dimensional film transformation of ownership project has F frame, then F two field picture altogether is equal to the frame number sum of each camera lens:

$F={\mathrm{\Σ}}_{i=1}^I{f}^{c_i}.$

Wherein, i represents the ordinal number of camera lens,Represent each camera lens c_iFrame number.

Owing to material data is surrounded by different difficulty, in order to balance the workload of personnel, need record and balance the material data bag Distribution of difficulty of personnel, the manufacture difficulty of camera lens is divided into K difficulty level, material data bag difficulty is consistent with camera lens difficulty, and the set L of all difficulty levels is expressed as L={l_k, k=1 ..., K, wherein, k represents the ordinal number of difficulty level, and K represents the sum of difficulty level, l_kRepresent kth difficulty；

In three-dimensional film transformation of ownership project, totalframes F is also referred to as the frame number sum of each difficulty:

$F={\mathrm{\Σ}}_{k=1}^K{f}^{l_k}$

Wherein, F represents the totalframes of three-dimensional film transformation of ownership project,Represent difficulty l_kThe frame number comprised；

In A, demographic data's bag, the material data bag index of three-dimensional film transformation of ownership projectPerformance current with material data bagIt is classify according to difficulty difference；

B, three-dimensional film transformation of ownership project material data bag indexAccording to difficulty l_kClassification chart is shown as:

$Z^{s_n}=\left\{z_{s_n}^{l_k}\right\},k=1,...,K$

$z_{s_n}^{l_k}=\frac{o^{s_n}}{{\mathrm{\Σ}}_{t=1}^N{o}^{s_t}}\×f^{l_k}$

Wherein,Represent at difficulty l_kOn material data bag index,Represent that demographic data wraps s_tGroundwork index, t represents one in N number of personnel, × represent multiplication.

C, three-dimensional film transformation of ownership project the current performance of material data bagAccording to difficulty l_kClassification chart is shown as:

$J^{s_n}=\left\{j_{s_n}^{l_k}\right\},k=1,...,K$

Wherein,Represent at difficulty l_kThe number of frames of upper completed material data bag.

Further, each camera lens is divided into M Making programme, described three-dimensional film transformation of ownership project there is I camera lens, therefore three-dimensional film transformation of ownership project has X material data bag, X=I × M, each described material data bag includes affiliated camera lens, Making programme, difficulty, frame number, producer, whether automatically distributes the information of state, current allocation status, each material data bag t_xIt is expressed as:

$t_x=(c^{t_x},p^{t_x},l^{t_x},f^{t_x},s^{t_x},e^{t_x},u^{t_x}),x=1,...,X.$

Wherein, x represents the ordinal number of material data bag,For material data bag t_xAffiliated camera lens,For material data bag t_xCorresponding flow process,For material data bag t_xManufacture difficulty,For material data bag t_xNeed the frame number made,For processing material data bag t_xDemographic data bag,Represent material data bag t_xThe need of automatically distributing state, including 2 states:Represent and automatically do not distribute,Expression to distribute automatically,For material data bag t_xCurrent allocation status, including 2 states:Represent to be allocated,Represent and distribute.

Thus under each camera lens, the set P of all Making programme is expressed as:

P={P_m, m=1 ..., M

Wherein, p_mRepresenting m-th Making programme, the Position Responsibility correspondence of demographic data's bag is unique Making programme wherein, and the n-th demographic data wraps s_nPosition ResponsibilityExpression personnel can only process Position ResponsibilityCorresponding Making programme p_mUnder material data bag.

According to described idle demographic data's bag table and material data bag table to be allocated, set up the corresponding relation of demographic data bag queue Y and material data bag queue Q in the following ways, the distribution of optimal material data bag is joined in demographic data's bag corresponding in idle demographic data's bag table；

Step301: to each the flow process p in flow process set P_m；Traversal search flow process p_mCorresponding demographic data's bag queueObtain idle demographic data's bag tableIt is expressed as:

Step302: to idle demographic data's bag tableIn each personnel packet s_n, traversal search flow process p_mCorresponding material data bag queueObtain material data bag table to be allocatedIt is expressed as:

Wherein, x represents the ordinal number of material data bag, t_xRepresent x-th material data bag, ifNamely data to be distributed bag table is empty, is absent from material data bag to be allocated, returns to Step301 and continues traversal P；Otherwise there is material data bag to be allocated, continue executing with Step303；

Step303: for each personnel packet s_n, according to the difficulty of material data bag, frame number, and the project material data bag index of demographic data's bag and the current performance of material data bag, by material data bag table to be allocatedIn most suitable material data bag t_x′Distribute to demographic data and wrap s_n。

The Step303 of described smart allocation module includes herein below:

Step3031: computing staff packet s_nThe material data bag difficulty l that in lower project material data index, completion rate is minimum_k′:

$l_{k^{\′}}=\underset{l_k\∈L}{min}\frac{j_{s_n}^{l_k}}{Z_{s_n}^{l_k}}$

Wherein,Represent that demographic data wraps s_nLower difficulty l_kThe project current performance of material data bag,Represent that demographic data wraps s_nLower difficulty l_kProject data bag index；

Step3032: to material data bag table to be allocatedIn each material data bag t_x, calculate material data bag frame numberS is wrapped with demographic data_nLower material data bag difficulty l_k′The corresponding difference between project material data bag index surplusDifference between index surplus difference table aspect order material package index and the current performance of project material package:

${\mathrm{\δ}}^{t_x}=|f^{t}x-(z_{s_n}^{l_k\′}-j_{s_n}^{l_k\′})|$

Represent material data bag t_xFrame number,Represent difficulty l_k′On project material package index,Represent l_k′On the current performance of project material package；

Step3033: select differenceIt is worth minimum material data bag t_x′Distribution is sent to demographic data and wraps s_n, t_x′It is expressed as:

$t_{x^{\′}}=\underset{t_x\∈T^{pm}}{min}{\mathrm{\δ}}^{t_x}$

Step3034: update material data bag t_x′S is wrapped with demographic data_nInformation, t is set_x′Producer be s_n, namelyState is for distribute, namelyS is set simultaneously_nState be busy, namely $u^{s_n}=1.$

As described material data bag t_xAfter process completes, by corresponding demographic data's bagState be set to the free time and be updated,It is further continued for distribution material data bag.

In described demographic data's package informatin module, s is wrapped for new demographic data_nAdd, process in the following ways:

Step101: the demographic data new for this wraps s_nDistribution computer workstation, and this demographic data's package informatin be recorded information storage unit；

Step102: demographic data's bag is allocated queue, this demographic data wraps the Position Responsibility of settingFor benchmark, new personnel's packet is included into satisfactory demographic data's bag queue；

Step103: find with new producer s from existing demographic data bag queue Y_nThe queue of identical Position ResponsibilityIf finding, then carry out Step104；If not finding, then the demographic data's bag queue under this Position Responsibility newly-built

Step104: by new producer s_nJoin demographic data's bag queueAnd by this demographic data's bag queueJoin in former owner person's data packet queue, and transmission is sent to management information module.

In described material data package informatin module, for new material data bag t_xAdd, process in the following ways:

Step201: distribute an information storage unit for this material data bag, and record material data package informatin；

Step202: material data bag is allocated queue, by the camera lens of this material data bagFor benchmark, new material data bag is included into satisfactory material data bag queue；

Step203: find the queue with the new identical flow process of material data bag from existing material data bag queue QIf finding, then carry out Step204, if not finding, then this flow process newly-builtUnder material data bag queue

Step204: by new material data bag t_xJoin material data bag queueAnd by this material data bag queueJoin in former all material data bag queues, and transmission is sent to management information module.

Two, the material data bag dynamic allocation system of a kind of three-dimensional film transformation of ownership project:

In the three-dimensional film transformation of ownership project comprising many camera lenses, many Making programme, many producers, the making material data bag that need to automatically distribute can be assigned to everyone intelligently to make, system comprises demographic data's package informatin module, material data package informatin module, management information module, smart allocation module.Wherein,

Including demographic data's package informatin module, setting up and record keeping personnel's data packet queue, queue comprises the information of all producers；

Including material data package informatin module, for ultimate unit with camera lens and flow process three-dimensional film transformation of ownership Project decomposition for each material data bag and is formed material data bag queue is recorded, the corresponding respective camera lens of material data bag and flow process；

Including management information module, obtain the demographic data's bag queue in demographic data's package informatin module and the material data bag queue in material data package informatin module, extract idle demographic data's package informatin and material data bag to be allocated, set up idle demographic data's bag table and material data bag table to be allocated；

Including smart allocation module, set up the corresponding relation of demographic data bag queue Y and material data bag queue Q, obtain the material data bag table to be allocated in management information module, therefrom extract the distribution of optimal material data bag to send and join in demographic data's bag that idle demographic data's bag table is corresponding, and then realize dynamically distribution.

Management information module is fed back to after the distribution of material data bag is sent by smart allocation module, the packet state of the idle personnel state of demographic data's bag table, material data bag table to be allocated is carried out real-time update according to the information of smart allocation module feedback by described management information module

Described management information module includes herein below: extract the information of demographic data's package informatin module, material data package informatin module, set up idle demographic data's bag table, material data bag table to be allocated, according to the information of smart allocation module feedback, the packet state of the idle personnel state of demographic data's bag table, material data bag table to be allocated is updated simultaneously.

Described management module hollow idler person's packet table describes as follows: in idle demographic data's bag table record demographic data's bag queue, state is idle personnel, when the state of new personnel or personnel of adding in personal information list changes, new demographic data bag queue Y is fed back to idle demographic data's bag table of management information module by personal information module, and management information module then calls smart allocation module and wraps distribution material data bag for idle demographic data.

The technical field that the present invention distributes suitable in the material data bag of three-dimensional film transformation of ownership project.The three-dimensional film transformation of ownership refers to, by post-production technology, common for the 2D video display transformation of ownership is become 3D three-dimensional film.For single three-dimensional film transformation of ownership project, for needing automatically to distribute camera lens and the flow data of material data bag, the making material data bag of camera lens flow process can be distributed to producer according to the present invention, and the making and progress according to project adjusts the method for salary distribution intelligently, it is achieved reasonable distribution under changeable environment.

Compared with prior art, the invention has the beneficial effects as follows:

● take into full account the ability of producer, job requirement；

● take into full account the difficulty of material data bag；

● whole process is automatically performed, it is not necessary to manual intervention, and pool personnel have only to the essential information of cuit, and remaining work transfers to system to be automatically performed；The requirement planning as a whole personnel is relatively low, and saved time and efforts；

● the distribution of material data bag is efficient much sooner, and producer one is available free, and system can be distributed suitable making material data bag at once and be worked on.

Comprehensive, the present invention has good practicality, not only reduces the management cost of project manager, also can be optimized distribution according to the practical situation of producer and project demand, and this invention also can meet the demand of other field allocation of packets.

Accompanying drawing explanation

Fig. 1 is the frame diagram of the present invention；

Fig. 2 is the material data bag allocation flow figure of the present invention.

Detailed description of the invention

Below in conjunction with drawings and the specific embodiments, the present invention is described in further detail.

As in figure 2 it is shown, embodiments of the invention and implementation process thereof are as follows:

1) the three-dimensional film transformation of ownership Project decomposition by the target MOVIE " XX film " in embodiment is camera lens, and having I=10 camera lens, the set expression of all camera lenses in project is C={c_i, i=1 ..., 10}, the amount of work of three-dimensional film transformation of ownership project has F=570 frame, and namely F two field picture altogether is equal to the frame number sum of each camera lens:

And the difficulty of camera lens is divided into K=2 difficulty level, material data bag difficulty is consistent with affiliated camera lens difficulty, and the set L of all difficulty levels is expressed as L={l_k, k=1 ..., K.

Embodiment " XX film " changes shown in following content in the operating data of system and state.As it was previously stated, project has 10 camera lenses, being divided into two kinds of difficulty levels: L1, L2, the shot information that this project is concrete is as follows:

This project has 570 frames, and wherein difficulty level is the frame number of L1 is 300 frames, and difficulty level is the frame number of L2 is 270 frames.

2) setting up demographic data's bag queue, demographic data's bag queue is mainly made up of each demographic data bag；

Each described demographic data includes the information of groundwork index, Position Responsibility, the material data bag index of project, the current performance of material data bag of project and current availability, embodiment project includes N=4 personnel, and described demographic data's bag queue is S={s_n, n=1 ..., 4}, wherein each personnel's packet is expressed as:

$s_n=(o^{s_n},p^{s_n},Z^{s_n},J^{s_n},u^{s_n}),n=1,...,4$

Wherein on the one hand, in demographic data's bag, the material data bag index of projectAccording to different difficulty l_kClassification chart is shown as:

$Z^{s_n}=\left\{z_{s_n}^{l_k}\right\},k=1,2$

Wherein on the other hand, in demographic data's bag, the current performance of material data bag of projectAccording to different difficulty l_kClassification chart is shown as:

$J^{s_n}=\left\{j_{s_n}^{l_k}\right\},k=1,2$

Embodiment is that after project assigns corresponding producer, demographic data's package informatin is as follows:

Wherein Position Responsibility corresponds to project flow process.

3) the material data bag queue that foundation is mainly made up of each material data bag, the corresponding respective camera lens of material data bag queue and flow process, the flow process of different material data bag queue correspondence difference camera lenses；

Owing to each camera lens has M=2 Making programme, three-dimensional film transformation of ownership project has X=20 material data bag, X=I × M=10 × 2=20, each described material data bag includes affiliated camera lens, Making programme, difficulty, frame number, producer, whether automatically distributes the information of state, current allocation status, and its material data package informatin is as follows:

Thus under each camera lens, the set P of all Making programme is expressed as:

P={p_m, m=1,2

4) information according to demographic data's bag queue and material data bag queue, therefrom extracts current availability respectivelyDemographic data bag and current allocation statusMaterial data bag, set up idle demographic data's bag table and material data bag table to be allocated.

At the beginning due to also unallocated producer, idle demographic data's bag table includes all of producer.And at the beginning owing to but without starting to distribute material data bag, material data bag table to be allocated includes all of material data bag.

5) then according to described idle demographic data's bag table and material data bag table to be allocated, set up the corresponding relation of demographic data bag queue Y and material data bag queue Q, the distribution of optimal material data bag is joined in demographic data's bag corresponding in idle demographic data's bag table；

Step301: to each the flow process p in the set P of flow process_m；Traversal search flow process p_mCorresponding demographic data's bag queueObtain idle demographic data's bag table

Step302: to idle demographic data's bag tableIn each personnel packet s_n, traversal search flow process p_mCorresponding material data bag queueObtain material data bag table to be allocated

Step303: for each personnel packet s_n, according to the difficulty of material data bag, frame number, and the project material data bag index of demographic data's bag and the current performance of material data bag, by material data bag table to be allocatedIn most suitable material data bag t_x′Distribute to demographic data and wrap s_n；

Step3031: computing staff packet s_nThe material data bag difficulty l that in the material data bag index of lower project, completion rate is minimum_k′；

Step3032: to material data bag table to be allocatedIn each material data bag t_x, calculate material data bag frame numberS is wrapped with demographic data_nLower material data bag difficulty l_k′Project material data bag index surplus between difference

Step3033: select differenceIt is worth minimum material data bag t_x′Distribution is sent to demographic data and wraps s_n；

Step3034: update material data bag t_x′S is wrapped with demographic data_nInformation, t is set_x′Producer be s_n, namelyState is for distribute, namelyS is set simultaneously_nState be busy: namely

Step304: return to Step301 and continue traversal P.

Finally, as material data bag t_xAfter process completes, by corresponding producerState be set to the free time and be updated,

Thus the first time smart allocation situation of embodiment is as follows, is corresponding material data bag in distribution frame number bracket below:

Being further continued for repeating said process, distribute material data bag, the second time smart allocation situation of embodiment is as follows:

The third time smart allocation situation of embodiment is as follows:

4th smart allocation situation of embodiment is as follows:

5th smart allocation situation of embodiment is as follows:

6th smart allocation situation of embodiment is as follows:

After 6th time smart allocation terminates, project completes, and now demographic data's bag situation is as follows:

And the final distribution condition of material data bag is as follows, in producer's string bracket, numeral represents to be assigned to producer in which sub-distribution:

Visible, final smart allocation is basically identical with the working index of demographic data's bag to the material data bag frame number of each producer, and difficulty is more balanced, and the present invention embodies the operational efficiency of smart allocation, solve the technical problem of operational data distribution, its obvious technical effects.

Claims (10)

1. the material data bag dynamic allocation method of a three-dimensional film transformation of ownership project, it is characterised in that:

Setting up demographic data's bag queue, demographic data's bag queue is mainly made up of each demographic data bag；

Being camera lens by three-dimensional film transformation of ownership Project decomposition, each camera lens is divided into each Making programme, sets up the material data bag queue being made up of each material data bag；

Information according to demographic data's bag queue and material data bag queue, therefrom extracts the personnel of free time and material to be allocated respectively, sets up idle demographic data's bag table and material data bag table to be allocated；

From material data bag table to be allocated, obtain optimal material data bag be assigned to demographic data's bag corresponding in idle demographic data's bag table, and then realize dynamically distribution.

2. the material data bag dynamic allocation method of a kind of three-dimensional film transformation of ownership project according to claim 1, it is characterized in that: each described demographic data includes the information of groundwork index, Position Responsibility, the material data bag index of project, the current performance of material data bag of project and current availability, and the described demographic data's bag queue including N number of personnel is S={s_n, n=1 ..., N}, wherein each personnel's packet is expressed as:

Wherein,It is groundwork index, refers to, according to the material data bag workload needed by the single moon that the making ability of personnel is specified, represent with the frame number of material data bag；Being the Position Responsibility that the Making programme with camera lens is uniquely corresponding, demographic data wraps corresponding respective Position Responsibility, and different demographic data wraps corresponding different Position Responsibilities；It is the material data bag index of project, refers in three-dimensional film transformation of ownership project that the material data bag workload that the needs that personnel specify complete represents with the frame number of material data bag；It is the current performance of material data bag of project, refers in three-dimensional film transformation of ownership project that the material data bag workload that personnel have completed represents with the frame number of material data bag；It is the current state of personnel,Or 1,Represent idle orRepresenting not idle, not idle namely expression is presently processing certain material data bag.

3. the material data bag dynamic allocation method of a kind of three-dimensional film transformation of ownership project according to claim 1, it is characterised in that: having I camera lens, the set expression of all camera lenses in described three-dimensional film transformation of ownership project is C={c_i, i=1 ..., I}, the amount of work of three-dimensional film transformation of ownership project has F frame, then F two field picture altogether is equal to the frame number sum of each camera lens:

Wherein, i represents the ordinal number of camera lens,Represent each camera lens c_iFrame number.

4. the material data bag dynamic allocation method of a kind of three-dimensional film transformation of ownership project according to claim 1, it is characterized in that: the manufacture difficulty of camera lens is divided into K difficulty level, material data bag difficulty is consistent with affiliated camera lens difficulty, and the set L of all difficulty levels is expressed as L={l_k, k=1 ..., K, wherein, k represents the ordinal number of difficulty level, and K represents the sum of difficulty level, l_kRepresent kth difficulty；

In three-dimensional film transformation of ownership project, totalframes F is also referred to as the frame number sum of each difficulty:

Wherein, F represents the totalframes of three-dimensional film transformation of ownership project,Represent difficulty l_kThe frame number comprised；

In A, demographic data's bag, the material data bag index of three-dimensional film transformation of ownership projectPerformance current with material data bagIt is classify according to difficulty difference；

B, three-dimensional film transformation of ownership project material data bag indexAccording to difficulty l_kClassification chart is shown as:

Wherein,Represent at difficulty l_kOn material data bag index,Represent that demographic data wraps s_tGroundwork index, t represents one in N number of personnel；

C, three-dimensional film transformation of ownership project the current performance of material data bagAccording to difficulty l_kClassification chart is shown as:

Wherein,Represent at difficulty l_kThe number of frames of upper completed material data bag.

5. the material data bag dynamic allocation method of a kind of three-dimensional film transformation of ownership project according to claim 1, it is characterized in that: each camera lens is divided into M Making programme, described three-dimensional film transformation of ownership project there is I camera lens, therefore three-dimensional film transformation of ownership project has X material data bag, X=I × M, each described material data bag includes affiliated camera lens, Making programme, difficulty, frame number, producer, whether automatically distributes the information of state, current allocation status, each material data bag t_xIt is expressed as:

Wherein, x represents the ordinal number of material data bag,For material data bag t_xAffiliated camera lens,For material data bag t_xCorresponding flow process,For material data bag t_xManufacture difficulty,For material data bag t_xNeed the frame number made,For processing material data bag t_xDemographic data bag,Represent material data bag t_xThe need of automatically distributing state；For material data bag t_xCurrent allocation status；

Thus under each camera lens, the set P of all Making programme is expressed as:

P={p_m, m=1 ..., M

Wherein, p_mRepresenting m-th Making programme, the Position Responsibility correspondence of demographic data's bag is unique Making programme wherein, and the n-th demographic data wraps s_nPosition ResponsibilityExpression personnel can only process Position ResponsibilityCorresponding Making programme p_mUnder material data bag.

6. the material data bag dynamic allocation method of a kind of three-dimensional film transformation of ownership project according to claim 1, it is characterized in that: according to described idle demographic data's bag table and material data bag table to be allocated, set up the corresponding relation of demographic data bag queue Y and material data bag queue Q in the following ways, the distribution of optimal material data bag is joined in demographic data's bag corresponding in idle demographic data's bag table；

Step301: to each the flow process p in Making programme set P_m；Traversal search Making programme p_mCorresponding demographic data's bag queueObtain idle demographic data's bag tableIt is expressed as:

Step302: to idle demographic data's bag tableIn each personnel packet s_n, traversal search Making programme p_mCorresponding material data bag queueObtain material data bag table to be allocatedIt is expressed as:

Wherein, x represents the ordinal number of material data bag, t_xRepresent x-th material data bag, ifNamely data to be distributed bag table is empty, is absent from material data bag to be allocated, returns to Step301 and continues traversal P；Otherwise there is material data bag to be allocated, continue executing with Step303；

Step303: for each personnel packet s_n, according to the difficulty of material data bag, frame number, demographic data bag project material data bag index and the current performance of material data bag, by material data bag table to be allocatedIn most suitable material data bag t_x′Distribute to demographic data and wrap s_n。

7. the material data bag dynamic allocation method of a kind of three-dimensional film transformation of ownership project according to claim 6, it is characterised in that: the Step303 of described smart allocation module includes herein below:

Step3031: computing staff packet s_nThe material data bag difficulty l that in lower project material data index, completion rate is minimum_k′:

Wherein,Represent that demographic data wraps s_nLower difficulty l_kThe project current performance of material data bag,Represent that demographic data wraps s_nLower difficulty l_kProject data bag index；

Step3032: to material data bag table to be allocatedIn each material data bag t_x, calculate material data bag frame numberS is wrapped with demographic data_nLower material data bag difficulty l_k′The corresponding difference between project material data bag index surplus

Wherein,Represent material data bag t_xFrame number,Represent difficulty l_k′On project material package index,Represent l_k′On the current performance of project material package；

Step3033: select differenceIt is worth minimum material data bag t_x′Distribution is sent to demographic data and wraps s_n, t_x′It is expressed as:

Step3034: update material data bag t_x′S is wrapped with demographic data_nInformation, t is set_x′Producer be s_n, namelyState is for distribute, namelyS is set simultaneously_nState be busy, namely

8. the material data bag dynamic allocation method of a kind of three-dimensional film transformation of ownership project according to claim 7, it is characterised in that:

As described material data bag t_xAfter process completes, by corresponding demographic data's bagState be set to the free time and be updated,It is further continued for distribution material data bag.

9. for implementing the material data bag dynamic allocation system of a kind of three-dimensional film transformation of ownership project of the arbitrary described method of claim 1-8, it is characterised in that:

Including demographic data's package informatin module, setting up and record keeping personnel's data packet queue, queue comprises the information of all producers；

Including material data package informatin module, for ultimate unit with camera lens and flow process three-dimensional film transformation of ownership Project decomposition for each material data bag and is formed material data bag queue is recorded, the corresponding respective camera lens of material data bag and flow process；

Including management information module, obtain the demographic data's bag queue in demographic data's package informatin module and the material data bag queue in material data package informatin module, extract idle demographic data's package informatin and material data bag to be allocated, set up idle demographic data's bag table and material data bag table to be allocated；

Including smart allocation module, set up the corresponding relation of demographic data bag queue Y and material data bag queue Q, obtain the material data bag table to be allocated in management information module, therefrom extract the distribution of optimal material data bag to send and join in demographic data's bag that idle demographic data's bag table is corresponding, and then realize dynamically distribution.

10. the material data bag dynamic allocation system of a kind of three-dimensional film transformation of ownership project according to claim 9, it is characterized in that: feed back to management information module after the distribution of material data bag is sent by smart allocation module, the packet state of the idle personnel state of demographic data's bag table, material data bag table to be allocated is carried out real-time update according to the information of smart allocation module feedback by described management information module.