CN105117866A - Progress state data processing method and apparatus - Google Patents

Abstract

The invention discloses a progress state data processing method and apparatus. The method comprises the following steps: receiving at least one secondary task state data; determining a task type of a secondary task and a primary task corresponding to the secondary task; respectively calculating primary task state data of corresponding to the secondary task by utilizing secondary task completion data according to a calculation way corresponding to the task type; determining a root task corresponding to the primary task; calculating state data of the root task corresponding to the primary task by utilizing each primary task state data according to the calculation way; and calculating progress state data by utilizing the root task state data as well as the weight of each root task. In the progress state data processing method, the primary task state data as well as the root task state data can be automatically acquired by only inputting the secondary task state data in the entire process by virtue of level-by-level calculation from bottom to top so as to obtain the progress state of the entire engineering, so that the existing working flow is simplified, and the working complexity is alleviated.

Description

A kind of project progress status data disposal route and device

Technical field

The application relates to technical field of data processing, particularly relates to a kind of project progress status data disposal route and device.

Background technology

Along with greatly developing of national grid informatization, the information age has also been stepped in Electric Power Capital Construction engineering construction.But Electric Power Capital Construction engineering project itself has impassable characteristic, namely scope broad covered area, the construction period is long, service logic is complicated, application and to dispose level many etc., whole process of construction will relate to corporate HQ, company of province, Jian Guan unit (comprising owner project management department), Supervision Project portion and construction project department multistage application main body.The problems referred to above cause the methodology of a lot of project management not so far effectively to be applied in the middle of Electric Power Capital Construction informationization, the process of the progress data of such as engineering construction, still rest on simple establishment, make a report on the stage, and this processing mode, loaded down with trivial details, requiring great effort brings great inconvenience to the control of progress and comparative analysis.

Therefore, a kind of method can carrying out effectively process fast to project progress status data is needed badly.

Summary of the invention

In view of this, this application provides a kind of project progress status data disposal route and device, to realize carrying out fast effectively process to project progress status data.

For achieving the above object, the application provides following technical scheme:

A kind of project progress status data disposal route, be applied to project progress status data disposal system, described project progress comprises at least one root task, described single data comprises at least one one-level task, and each one-level task comprises at least one second task respectively, and the method comprises:

Receive at least one second task status data;

Determine the task type of described second task and the one-level task of correspondence thereof;

According to the account form that described task type is corresponding, utilize described second task to complete data and calculate one-level task status data corresponding to described second task respectively;

Determine the root task that described one-level task is corresponding;

Utilize one-level task status data described in each, according to described account form, calculate the root task status data that described one-level task is corresponding;

Utilize the weight of described task status data and each root task, calculate described progress status data.

Alternatively, described task type comprises: power transformation engineering and line project.

Alternatively, when described task type is power transformation engineering, the described account form corresponding according to described task type, the process utilizing described second task status data to calculate one-level task status data corresponding to described second task respectively comprises:

Determine the second task status data belonging to same one-level task;

Obtain the plan time ratio of each second task respectively, the ratio of the one-level task scheduling duration that described plan time is more corresponding with described second task than the plan time for second task;

The task status data of the plan time of each second task when this second task are utilized to obtain the virtual condition data of each second task;

By described each virtual condition data summation, obtain the status data of described one-level task.

Alternatively, describedly utilize one-level task status data described in each, according to described account form, the process calculating root task status data corresponding to described one-level task comprises:

Determine the one-level task status data belonging to same task;

Obtain the plan time ratio of each one-level task respectively, the ratio of the root task scheduling duration that described plan time is more corresponding with described one-level task than the plan time for one-level task;

The task status data of the plan time of each one-level task when this one-level task are utilized to obtain the virtual condition data of each one-level task;

By described each virtual condition data summation, obtain the status data of described task.

Alternatively, when described task type is line project, the described account form corresponding according to described task type, the process utilizing described second task status data to calculate one-level task status data corresponding to described second task respectively comprises:

Determine the second task status data belonging to same one-level task, under described second task is at least distributed in a root task;

Obtain the plan time ratio of each second task under its root task distributed respectively, described plan time ratio is the ratio of the plan time of the one-level task that the plan time of described second task under a certain task is corresponding with it, and the plan time of one-level task is the plan time sums of its all second tasks comprised respectively under different root task;

The task status data of the plan time of each second task when this second task are utilized to obtain the virtual condition data of each second task;

By described each virtual condition data summation, obtain the status data of described one-level task.

Alternatively, the described weight utilizing described task status data and each root task, the process calculating described progress status data comprises:

By multiplied by weight corresponding with it respectively for each root task status data described, and multiple multiplied result is added, obtains described progress status data.

Alternatively, described method also comprises:

Generate the progress chart corresponding with described progress status data.

Alternatively, described progress chart is Gantt chart.

Present invention also provides a kind of engineering progress data treating apparatus, be applied to engineering progress data disposal system, described project progress comprises at least one root task, described single data comprises at least one one-level task, and each one-level task comprises at least one second task respectively, and this device comprises:

Second task status data receiving element, for receiving at least one second task status data;

Determining unit, for the one-level task of the task type and correspondence thereof of determining described second task;

One-level task status data capture unit, for according to account form corresponding to described task type, utilizes described second task to complete data and calculates one-level task status data corresponding to described second task respectively;

Root task determining unit, for determining the root task that described one-level task is corresponding;

Root task status data determination unit, for utilizing one-level task status data described in each, according to described account form, calculates the root task status data that described one-level task is corresponding;

Progress status data capture unit, for utilizing the weight of described task status data and each root task, calculates described progress status data.

Known via above-mentioned technical scheme, compared with prior art, in project progress status data disposal route disclosed in the present application, first the account form corresponding with task type is utilized to calculate one-level task status data corresponding to second task, and then the status data of root task corresponding to the first order calculation task that uses the same method, the progress status data of whole engineering are finally obtained in conjunction with the different weights that different root task is corresponding, only need input second task status data in whole process namely can according to mode from bottom to top, step-by-step calculation, automatic acquisition one-level task status data and root task status data and then obtain the progress data of whole engineering, obtain the progress status of engineering fast and accurately, simplify existing workflow, reduce work complexity.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present application or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only the embodiment of the application, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to the accompanying drawing provided.

The process flow diagram of Fig. 1 a kind of project progress status data disposal route disclosed in the embodiment of the present application;

The process flow diagram of Fig. 2 another project progress status data disposal route disclosed in the embodiment of the present application;

The process flow diagram of Fig. 3 another project progress status data disposal route disclosed in the embodiment of the present application;

The process flow diagram of Fig. 4 another project progress status data disposal route disclosed in the embodiment of the present application;

The process flow diagram of Fig. 5 another project progress status data disposal route disclosed in the embodiment of the present application;

The structural representation of Fig. 6 a kind of project progress status data treating apparatus disclosed in the embodiment of the present application.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present application, be clearly and completely described the technical scheme in the embodiment of the present application, obviously, described embodiment is only some embodiments of the present application, instead of whole embodiments.Based on the embodiment in the application, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the application's protection.

Project progress status data disposal route disclosed in the embodiment of the present application, is applied to project progress status data disposal system.Because infrastructure project construction relates to multilayer Construction and management main body, so schedule establishment adopts layering task form of presentation, the schedule of complete set needs Jian Guan unit, management and construction three project management departments to work out from top to bottom.Jian Guan unit is for project or single construction establishment milestone plan, that is, root task, and Supervision Project portion is for unit project establishment one-level task, and construction project department works out second task for partitioned project, and three represents its relationship between superior and subordinate with tree structure form.The task of one-level task starts all can not to exceed the corresponding task of root task with task completion time and starts and task completion time, equally, second task is also be limited to one-level task, and the establishment of two grade network plan just can must be carried out after primary network station planning completes.Described project progress comprises at least one root task, described single data comprises at least one one-level task, and each one-level task comprises at least one second task respectively.As shown in Figure 1, wherein root task is R, and it comprises multiple one-level task, M, N and P, has second task again under each one-level task, corresponding A, B, C and D under M, corresponding G and H under corresponding E and F, P under N.

Disclosed in the embodiment of the present application, project progress status data disposal route as shown in Figure 2, comprising:

Step S201: receive at least one second task status data;

Such as receive the status data of A, B, C, D, E and F.Status data in the present embodiment can be the number percent by the end of each task performance level current, such as, be respectively 20%, 30%, 30%, 40%, 50% and 50%.Status data is mostly made a report on from general progress and is made a report on power transmission progress, by artificially inputting or the acquisition of fixing interface.

Step S202: determine the task type of described second task and the one-level task of correspondence thereof;

Determine the corresponding one-level task M of A, B, C and D, and the corresponding one-level task N of E and F.

Step S203: according to the account form that described task type is corresponding, utilizes described second task to complete data and calculates one-level task status data corresponding to described second task respectively;

Task type comprises: power transformation engineering and line project.The account form different according to different type set, under having taken into full account various types of task, the relation between task at different levels, makes this account form can meet the demand of different task, ensures the accurate and objective of result.

Step S204: determine the root task that described one-level task is corresponding;

The all corresponding root task R of one-level tasks all in the present embodiment.

Step S205: utilize one-level task status data described in each, according to described account form, calculates the root task status data that described one-level task is corresponding;

Computation process is herein identical with step 203.

Step S206: the weight utilizing described task status data and each root task, calculates described progress status data.

Its computing formula is: project progress=(each Task Progress * weight) sum.

Compared with prior art, in project progress status data disposal route disclosed in the present application, first the account form corresponding with task type is utilized to calculate one-level task status data corresponding to second task, and then the status data of root task corresponding to the first order calculation task that uses the same method, the progress status data of whole engineering are finally obtained in conjunction with the different weights that different root task is corresponding, only need input second task status data in whole process namely can according to mode from bottom to top, step-by-step calculation, automatic acquisition one-level task status data and root task status data and then obtain the progress data of whole engineering, obtain the progress status of engineering fast and accurately, simplify existing workflow, reduce work complexity.

In another embodiment disclosed in the embodiment of the present application, when described task type is power transformation engineering, the described account form corresponding according to described task type, utilize described second task status data to calculate the process of one-level task status data corresponding to described second task respectively as shown in Figure 3, comprising:

Step S301: determine the second task status data belonging to same one-level task;

Step S302: the plan time ratio obtaining each second task respectively;

The ratio of the one-level task scheduling duration that described plan time is more corresponding with described second task than the plan time for second task.

For one-level task M in the present embodiment, because M comprises A, B, C and D tetra-second tasks, then its plan time is the plan time sum of these four tasks.Then being formulated this step is:

Step S303: utilize the task status data of the plan time of each second task when this second task to obtain the virtual condition data of each second task;

Step S304, by the summation of described each virtual condition data, obtain the status data of described one-level task.

For M in the present embodiment, the status data of other one-level tasks is obtain in the manner described above equally.

In like manner, when obtaining the progress status data of root task, it is equally also with reference to above-mentioned thinking, and detailed process as shown in Figure 4, comprising:

Step S401: determine the one-level task status data belonging to same task;

Step S402: the plan time ratio obtaining each one-level task respectively, the ratio of the root task scheduling duration that described plan time is more corresponding with described one-level task than the plan time for one-level task;

Step S403: utilize the task status data of the plan time of each one-level task when this one-level task to obtain the virtual condition data of each one-level task;

Step S404: by described each virtual condition data summation, obtain the status data of described task.

Further, utilize the weight of described task status data and each root task, the process calculating described progress status data comprises:

By multiplied by weight corresponding with it respectively for each root task status data described, and multiple multiplied result is added, obtains described progress status data.

Power transformation engineering root task weight is divided into two kinds according to different item typess:

The milestone weight of (conventional/small-sized) transformer station/current conversion station/switchyard engineering: civil engineering/civil engineering accounts for 40%, electrical engineering/installations accounts for 40%, debug and account for 20%.

The milestone weight of (conventional/small-sized) interval/station communication/communication facilities/optical cable telecommunication line: engineering early-stage preparations account for 20%, engineering construction implements to account for 50%, completion of works is checked and accepted and accounted for 30%.

Herein just for a specific example, specifically its proportion is how much can set according to different engineerings.

Above-described embodiment is the detailed description carried out scheme for power transformation engineering task, the angle from line project task is described below.

When task is line project task, because line project needs to be divided into multiple bid section, certain one-level task may be present in different root tasks simultaneously, in like manner, certain second task also may be present in different one-level tasks simultaneously, and therefore it can not according to the processing mode in above-described embodiment.But the method for applicable current engineering type feature will be adopted.

Then, utilize described second task status data to calculate the process of one-level task status data corresponding to described second task respectively as shown in Figure 5, comprising:

Step S501: determine the second task status data belonging to same one-level task, under described second task is at least distributed in a root task;

A such as a certain circuit point engineering is divided into B1, B2, B3 tri-bid sections, i.e. three root tasks, one-level task M is included under B1 bid section, M includes second task A, B2 bid section includes one-level task M equally, M includes second task A and B, and B3 bid section comprises one-level task M equally, and M comprises second task B, C.

Step S502: obtain the plan time ratio of each second task under its root task distributed respectively.

Described plan time ratio is the ratio of the plan time of the one-level task that the plan time of described second task under a certain task is corresponding with it, and the plan time of one-level task is the plan time sums of its all second tasks comprised respectively under different root task.

Then the plan time of this one-level task M is the plan time of the second task C of the plan time+B3 bid section of the second task B of the plan time+B3 bid section of the second task B of the plan time+B2 bid section of the second task A of the plan time+B2 bid section of the second task A of S=B1 bid section.

Then the plan time ratio of A in B1 bid section is the plan time ratio of A in B2 bid section is the plan time ratio of B in B2 bid section is the plan time ratio of B in B3 bid section is the plan time ratio of C in B3 bid section is

Step S503: utilize the task status data of the plan time of each second task when this second task to obtain the virtual condition data of each second task;

Two parameter correspondences are multiplied.

Step S504: by described each virtual condition data summation, obtain the status data of described one-level task.

In like manner, the like, other one-level task items all can calculate according to above computing formula automatically.In like manner, the actual Percent Complete of root task according to the dirty actual Percent Complete of one-level excrement, can calculate in the manner described above.After the actual Percent Complete of each root task of line project calculates, the whole performance of this line project also just can draw according to the weight of each milestone naturally, and its computing formula is: project progress=(each Rigen's Task Progress * weight) sum.Line project root task weight is divided into five kinds according to different item typess, and the weight of its content and correspondence thereof is exemplified below:

The milestone weight of (routine) KV Electric Transmissions: basis is built and accounted for 35%, tower erection accounts for 35%, Poling Construction accounts for 30%;

(small-sized) power transmission sequence/(conventional and small-sized) circuit cuts the milestone weight changing engineering: engineering early-stage preparations account for 10%, foundation works accounts for 28%, tower erection accounts for 28%, Poling Construction accounts for 24%, defect elimination and final acceptance of construction account for 10%;

The milestone weight changing engineering cut by (conventional/small-sized) cable line/cable: engineering early-stage preparations account for 10%, cable passage accounts for 30%, electrical install accounts for 30%, cable testing and debugging account for 10%, defect elimination and final acceptance of construction account for 20%;

The milestone weight of (conventional history) cable line engineering: cable passage accounts for 50%, cable laying accounts for 40%, cable debugging accounts for 10%;

Project progress=((basic Percent Complete * 40%+ group tower Percent Complete * 30%+ stringing Percent Complete * 30%) * circuit total lever factor+(passage Percent Complete * 60%+ installation number percent * 30%+ tests Percent Complete * 10%) * cable total lever factor)/single construction duration of (conventional/small-sized) joint line.

Herein just for a specific example, specifically its proportion is how much can set according to different engineerings.

Further, in project progress status data disposal route disclosed in each embodiment above-mentioned, all can comprise:

Generate the progress chart corresponding with described progress status data.

By this step, convert data to the form of chart, can intuitively show current progress.Progress chart in the application can be Gantt chart, also known as gunter drawing, also can be other graphic models.

With gunter drawing respectively with the target advance of different color shows engineerings and actual schedule.

Gunter drawing shows the implementation method of target advance: using planned start time as the start time point of gunter drawing, using planned end time as the end time of gunter drawing point, then starting point and terminal horizontal line are coupled together the projected conditions defining infrastructure project.

Gunter drawing shows the implementation method of actual progress: be described for second task, if the actual Percent Complete of second task reaches 100%, illustrate that this task items completes, then the start time point of gunter drawing directly gets actual beginning and the physical end time of task; If the actual Percent Complete of the task items of two grade network plan does not reach 100%, then illustrate that this task items does not complete, need to calculate the actual end time completing lines on gunter drawing according to plan time, actual Percent Complete (calculating in the above-described embodiments), actual start time.

Actual on-stream time as certain second task is 2009-9-25 day, completes the number of days also needed to be to complete whole secondary plan 2009-10-10 day 30% so whole second task about needs 38 days, so can predict that time that whole second task completes is greatly about 2009-11-17 day according to current schedules, toward pusher 38 days on the basis of 2009-10-10.Projected completion time gets the Projected completion time in planning, and actual finish time may need to estimate.

The application also discloses a kind of engineering progress data treating apparatus, be applied to engineering progress data disposal system, described project progress comprises at least one root task, described single data comprises at least one one-level task, each one-level task comprises at least one second task respectively, as shown in Figure 6, this device comprises its structure:

Second task status data receiving element 601, for receiving at least one second task status data;

Determining unit 602, for the one-level task of the task type and correspondence thereof of determining described second task;

One-level task status data capture unit 603, for according to account form corresponding to described task type, utilizes described second task to complete data and calculates one-level task status data corresponding to described second task respectively;

Root task determining unit 604, for determining the root task that described one-level task is corresponding;

Root task status data determination unit 605, for utilizing one-level task status data described in each, according to described account form, calculates the root task status data that described one-level task is corresponding;

Progress status data capture unit 606, for utilizing the weight of described task status data and each root task, calculates described progress status data.

The course of work of a kind of engineering progress data treating apparatus disclosed in the embodiment of the present application can reference diagram 1-5 illustrated embodiment, does not repeat them here.

Project progress status data treating apparatus disclosed in the present application, first the account form corresponding with task type is utilized to calculate one-level task status data corresponding to second task, and then the status data of root task corresponding to the first order calculation task that uses the same method, the progress status data of whole engineering are finally obtained in conjunction with the different weights that different root task is corresponding, only need input second task status data in whole process namely can according to mode from bottom to top, step-by-step calculation, automatic acquisition one-level task status data and root task status data and then obtain the progress data of whole engineering, obtain the progress status of engineering fast and accurately, simplify existing workflow, reduce work complexity.

For aforesaid each embodiment of the method, in order to simple description, therefore it is all expressed as a series of combination of actions, but those skilled in the art should know, the application is not by the restriction of described sequence of movement, because according to the application, some step can adopt other orders or carry out simultaneously.Secondly, those skilled in the art also should know, the embodiment described in instructions all belongs to preferred embodiment, and involved action and module might not be that the application is necessary.

In this instructions, each embodiment adopts the mode of going forward one by one to describe, and what each embodiment stressed is the difference with other embodiments, between each embodiment identical similar portion mutually see.For device disclosed in embodiment, because it corresponds to the method disclosed in Example, so description is fairly simple, relevant part illustrates see method part.

It should be noted that, in this article, the such as relational terms of first and second grades and so on is only used for an entity or operation to separate with another entity or operational zone, and not necessarily requires or imply the relation that there is any this reality between these entities or operation or sequentially.And, term " comprises ", " comprising " or its any other variant are intended to contain comprising of nonexcludability, thus make to comprise the process of a series of key element, method, article or equipment and not only comprise those key elements, but also comprise other key elements clearly do not listed, or also comprise by the intrinsic key element of this process, method, article or equipment.When not more restrictions, the key element limited by statement " comprising ... ", and be not precluded within process, method, article or the equipment comprising described key element and also there is other identical element.

For convenience of description, various unit is divided into describe respectively with function when describing above device.Certainly, the function of each unit can be realized in same or multiple software and/or hardware when implementing the application.

As seen through the above description of the embodiments, those skilled in the art can be well understood to the mode that the application can add required general hardware platform by software and realizes.Based on such understanding, the technical scheme of the application can embody with the form of software product the part that prior art contributes in essence in other words, this computer software product can be stored in storage medium, as ROM/RAM, magnetic disc, CD etc., comprising some instructions in order to make a computer equipment (can be personal computer, server, or the network equipment etc.) perform the method described in some part of each embodiment of the application or embodiment.

To the above-mentioned explanation of the disclosed embodiments, professional and technical personnel in the field are realized or uses the application.To be apparent for those skilled in the art to the multiple amendment of these embodiments, General Principle as defined herein when not departing from the spirit or scope of the application, can realize in other embodiments.Therefore, the application can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (9)

1. a project progress status data disposal route, it is characterized in that, be applied to project progress status data disposal system, described project progress comprises at least one root task, described single data comprises at least one one-level task, each one-level task comprises at least one second task respectively, and the method comprises:

Receive at least one second task status data;

Determine the task type of described second task and the one-level task of correspondence thereof;

According to the account form that described task type is corresponding, utilize described second task to complete data and calculate one-level task status data corresponding to described second task respectively;

Determine the root task that described one-level task is corresponding;

Utilize one-level task status data described in each, according to described account form, calculate the root task status data that described one-level task is corresponding;

Utilize the weight of described task status data and each root task, calculate described progress status data.

2. method according to claim 1, is characterized in that, described task type comprises: power transformation engineering and line project.

3. method according to claim 2, it is characterized in that, when described task type is power transformation engineering, the described account form corresponding according to described task type, the process utilizing described second task status data to calculate one-level task status data corresponding to described second task respectively comprises:

Determine the second task status data belonging to same one-level task;

Obtain the plan time ratio of each second task respectively, the ratio of the one-level task scheduling duration that described plan time is more corresponding with described second task than the plan time for second task;

The task status data of the plan time of each second task when this second task are utilized to obtain the virtual condition data of each second task;

By described each virtual condition data summation, obtain the status data of described one-level task.

4. method according to claim 3, is characterized in that, describedly utilizes one-level task status data described in each, and according to described account form, the process calculating root task status data corresponding to described one-level task comprises:

Determine the one-level task status data belonging to same task;

Obtain the plan time ratio of each one-level task respectively, the ratio of the root task scheduling duration that described plan time is more corresponding with described one-level task than the plan time for one-level task;

The task status data of the plan time of each one-level task when this one-level task are utilized to obtain the virtual condition data of each one-level task;

By described each virtual condition data summation, obtain the status data of described task.

5. method according to claim 2, it is characterized in that, when described task type is line project, the described account form corresponding according to described task type, the process utilizing described second task status data to calculate one-level task status data corresponding to described second task respectively comprises:

Determine the second task status data belonging to same one-level task, under described second task is at least distributed in a root task;

Obtain the plan time ratio of each second task under its root task distributed respectively, described plan time ratio is the ratio of the plan time of the one-level task that the plan time of described second task under a certain task is corresponding with it, and the plan time of one-level task is the plan time sums of its all second tasks comprised respectively under different root task;

The task status data of the plan time of each second task when this second task are utilized to obtain the virtual condition data of each second task;

By described each virtual condition data summation, obtain the status data of described one-level task.

6. the method according to claim 4 or 5, is characterized in that, the described weight utilizing described task status data and each root task, and the process calculating described progress status data comprises:

By multiplied by weight corresponding with it respectively for each root task status data described, and multiple multiplied result is added, obtains described progress status data.

7. method according to claim 6, is characterized in that, also comprises:

Generate the progress chart corresponding with described progress status data.

8. method according to claim 7, is characterized in that, described progress chart is Gantt chart.

9. an engineering progress data treating apparatus, it is characterized in that, be applied to engineering progress data disposal system, described project progress comprises at least one root task, described single data comprises at least one one-level task, each one-level task comprises at least one second task respectively, and this device comprises:

Second task status data receiving element, for receiving at least one second task status data;

Determining unit, for the one-level task of the task type and correspondence thereof of determining described second task;

One-level task status data capture unit, for according to account form corresponding to described task type, utilizes described second task to complete data and calculates one-level task status data corresponding to described second task respectively;

Root task determining unit, for determining the root task that described one-level task is corresponding;

Root task status data determination unit, for utilizing one-level task status data described in each, according to described account form, calculates the root task status data that described one-level task is corresponding;

Progress status data capture unit, for utilizing the weight of described task status data and each root task, calculates described progress status data.