CN105741009A

CN105741009A - Dynamic method for collecting, tracking, storing and reporting development event efforts

Info

Publication number: CN105741009A
Application number: CN201610008478.8A
Authority: CN
Inventors: 里法诺夫·尼尔·金
Original assignee: Individual
Current assignee: Individual
Priority date: 2016-01-07
Filing date: 2016-01-07
Publication date: 2016-07-06

Abstract

Provided is a method for tracking element efforts. The element efforts lead to terminal products, at least including art, industrial, and natural products, and the development event efforts are reported by virtual phase time points of specified past, present and future project development phases. A dynamically generated phase time report displays the element project efforts in a real-time phase time matrix, wherein the phase time matrix is associated with the development phase and the phase time points. A development event occurs in a project development phase which may not depend on the number and type of final products. The development event includes project product elements, element efforts, duration of the efforts, and phase time points of the efforts. The element efforts are tracked by phase time project development event instances and beaten by a storyboard being edited, wherein the storyboard beats describe the effort effect phase time macro, micro and nano views of a terminal product storyline. An effortologist key allows a browser to change the storyboard storyline report.

Description

For developing the dynamic approach of collection, tracking, storage and report that event is manually measured

Technical field

nullThe present invention relates to a kind of collection manually measuring (developmenteventefforts) for developing event，Follow the trail of，The dynamic approach (dynamicmethod) of storage and the artificial amount of report，Particularly relate to a kind of for developing the collection that event is manually measured，Follow the trail of，The dynamic approach of storage and the artificial amount of report，Wherein the method phases-time point (pointsinphasetime) according to product development stage，Regardless of whether these manually measure the energy consumed by key element (element)，Wherein this key element includes any or many animals、Vegetable or mineral，No matter and the character of these products，Wherein this dynamic approach is a kind of dynamically dual audit method，It is used for adopting the DIVIVD event data coupling record of the audit instrument elements of audit manually to measure event data，Key element is manually measured event data distribution audit grade，The Audit Report manually measured with forming element，Wherein the method is the computer based database formula method that one operates in the dynamic realtime of a kind of Base search system (infrastructuresearchsystem)，Wherein when this Base search system is asked，Its demarcation CPEI display that project from Formula Input Technology is manually measured the data of situation report data and storage (cojoinsprojecteffortinstancereportdatafromformulainputan dstoreddata) the functional Interaction Design good with formatting (formatted) combines (cojoins)，Wherein these CPEI display are primary by key element、Two grades、Three grades、Automaticmanual amount associates (interferenceassociations) associate phase hyperlink with CPEI with automatically interfering，Reasoning association hyperlink is connected to，Whether no matter these are manually measured is believed by an owner of the project，Manually measure regardless of these is inputted by a key element or automatically generate from the artificial amount event data of other input.

Background technology

In the United States Patent (USP) that the patent No. is 703478, this patent its relate to the phases-time in a non-ability field, and the method for its method and the present invention does not have dependency.

Summary of the invention

The invention provides a kind of for developing the collection that event is manually measured, follow the trail of, the dynamic approach of storage and report.In one embodiment, one stage time-tracking and report program and system are disclosed for as the project flow process running through product development stage, it relates in product development process, key element is manually measured the science of phases-time data and is collected, storage and report, then its data are complied with this system according to phases-time point program by dynamic report by this system.

The invention provides a kind of collection manually measured for the development time, follow the trail of, the dynamic approach of storage and report.In one embodiment, the method is for a dynamic realtime dual audit system and its first and second dual audit test being mated record of the audit instrument real time record by the DVIVD5 star event data of the method, and wherein this monitor shows CPEI coupling and mispairing report and the mispairing Audit data alliance of audit.This DVIVD mates auditing system and 5 sing data record systems ensure that and inputted by this system auditor by Audit Report, and be all verified the CPEI key element with independent authentication and manually measure event data and show, no matter described data whether are manually measured event owner input by a key element or the artificial amount event data that inputted from other key element by this system automatically generates.

Accompanying drawing explanation

Fig. 1 is a key element (element) accompanying drawing, that illustrating the key element according to present pre-ferred embodiments and these key elements artificial amount over an item, wherein this key element manually measures the situation of manually measuring (effortinstances) defined in " phases-time point methods and system thereof ".

Fig. 2 is that a stage time point manually measures event accompanying drawing, according to the above-mentioned preferred embodiment of the invention described above, this accompanying drawing describes in detail and the meaning of the artificial value associated in key element complying with " method of phases-time point and system thereof ", and constructs the core structure block (buildingblocks) of an artificial amount situation and phases-time data virtual matrix.

Fig. 3 is that a stage time point manually measures situation relational structure figure, according to the above-mentioned preferred embodiment of the present invention, this figure defines the associate feature of " phases-time point methods and system thereof ", as above-mentioned with artificial amount situation and the relevant present invention of phases-time data virtual matrix with it.

Fig. 4 A is artificial amount situation and a phases-time datagram, according to the above-mentioned preferred embodiment of the present invention, this figure illustrates this artificial amount situation and phases-time data collection interface, and data search inquiry interface, these data search inquiry interface causes the key element report data being reflected in phases-time matrix report.

Fig. 4 B is artificial amount situation and a phases-time data virtual matrix diagram, according to the above-mentioned preferred embodiment of the present invention, this figure illustrates the artificial amount situation being arranged in core database (coredatabase) and how phases-time data are by this artificial amount situation and phases-time data virtual matrix disposal, and what how phases-time matrix report was generated by phases-time matrix report generation module according to phases-time data rule.

Fig. 4 C is stage time data record and a tracing system figure, and according to the above-mentioned preferred embodiment of the present invention, this figure illustrates phases-time point and is designed for the important stage time data recorded and follow the trail of in this system database.

Fig. 5 is a stage time matrix report flow chart, according to the above-mentioned preferred embodiment of the present invention, this figure defines the data base used in phases-time point methods and system thereof and manually measures data, phases-time matrix module and parts, relevant with the structure found in phases-time matrix report and data as them.

Fig. 6 is a stage time matrix figure, and according to the above-mentioned preferred embodiment of the present invention, this figure illustrates the reporting capabilities of " phases-time point methods and system thereof ", and wherein this phases-time point and system thereof relate to the display of the manually amount possessory artificial amount situation report of situation.

Fig. 7 is Storyboard vibration (beats) diagram in phases-time player, wherein according to the above-mentioned preferred embodiment of the present invention, this diagram illustrates the content of multimedia generative capacity of " phases-time point methods and system thereof ", wherein should " phases-time point methods and system thereof " and Storyboard vibration (beats) the relevant stories plate in phases-time player.

Fig. 8 is a phases-time multiple affair Storyboard logical data flow process figure, according to the above-mentioned preferred embodiment of the present invention, this diagram depicts the systematic parameter generating Storyboard vibration (beats) in (storyboardbeatsin) phases-time for the phases-time point data in core database.

Fig. 9 is an artificial amount event macroscopic view, microcosmic and nanometer (Nano) logical data flow process figure, according to the above-mentioned preferred embodiment of the present invention, this figure describe in detail be used in phases-time matrix report by " phases-time point methods and system thereof " and Storyboard generate in system database and reporting modules.

Figure 10 is a detailed phases-time project/disclosed product macroscopic view, microcosmic and nm logic datagram, according to the above-mentioned preferred embodiment of the present invention, this figure illustrates phases-time macroscopic view, phases-time microcosmic and phases-time nanometer story line what state and is hierarchically correlated with and is generated from disclosed product by this system.

Figure 11 is a stage time term order/open product macroscopic view story line chart, and according to the above-mentioned preferred embodiment of the present invention, this figure describes how phases-time macroscopic view story line is generated from disclosing product by this system in detail.

Figure 12 is a stage time term order/open product microcosmic story line chart, and according to the above-mentioned preferred embodiment of the present invention, this figure describes how phases-time microcosmic story line is generated from disclosing product by this system in detail.

Figure 13 is a stage time term order/open product nanometer story line chart, and according to the above-mentioned preferred embodiment of the present invention, this figure describes how phases-time nanometer story line is generated from disclosing product by this system in detail.

Figure 14 is artificial amount situation PiPT story line event (storylinevent) figure, according to the above-mentioned preferred embodiment of the present invention, this figure illustrates phases-time exploitation event exploitation situation, and story line and key element manually measure between interaction because they are relevant with story line event public data.

Figure 15 illustrates the system and program being mated auditing system and the use of 5 star event data record methods thereof by a DVIVD according to the above-mentioned preferred embodiment of the present invention.

Figure 16 illustrates the data collection and the data examination and approval procedures that are mated auditing system and the use of 5 star event data record methods thereof by this DVIVD according to the above-mentioned preferred embodiment of the present invention.

Figure 17 is a logical data flow process figure, this Figure illustrates the CPEI data processing step in #2 audits according to the above-mentioned preferred embodiment of the present invention.

Figure 18 shows all of data base and the module of being mated the use of record of the audit instrument by this DVIVD event data according to the above-mentioned preferred embodiment of the present invention.

Figure 19 shows the reporting unit mating record of the audit instrument according to this DVIVD event data of the above-mentioned preferred embodiment of the present invention.

Figure 20 is the virtual sign (visualrepresentation) mating record of the audit instrument according to the DVIVD event data of the above-mentioned preferred embodiment of the present invention.

Figure 21 A-21D shows CPEI#1 audit and the #2 Audit data matching test part of mating record of the audit instrument according to this DVIVD event data of the above-mentioned preferred embodiment of the present invention.

Figure 22 shows the Audit Report part of the key element owner and formulation (formulaic) data submission mating record of the audit instrument according to the DVIVD event data of the above-mentioned preferred embodiment of the present invention.

Figure 23 shows the CPEI Data Matching test program and the data matching test reporting unit that mate record of the audit instrument according to this DVIVD event data of the above-mentioned preferred embodiment of the present invention.

Figure 24 illustrates a report example of the primary artificial amount of display one.

Figure 25 A-25D illustrates the two grades of artificial amounts of display according to the above-mentioned preferred embodiment of the present invention and the report example of three grades of artificial amounts.

Figure 26 A-26B illustrates the example of the report that a display automaticmanual amount associates with automated reasoning.

Figure 27 describes and mates auditing system and 5 star event data record methods thereof according to the DVIVD relating to approval automaticmanual amount of the above-mentioned preferred embodiment of the present invention.

Figure 28 describes and mates auditing system and 5 star event data record methods thereof according to the DVIVD relating to two grades of artificial amounts of approval of the above-mentioned preferred embodiment of the present invention.

Figure 29 describes and mates auditing system and 5 star event data record methods thereof according to the DVIVD relating to three grades of artificial amounts of approval of the above-mentioned preferred embodiment of the present invention.

Figure 30 describes and mates auditing system and 5 star event data record methods thereof according to the concrete DVIVD for generating automated reasoning association of the above-mentioned preferred embodiment of the present invention.

Figure 31 manually measures situation (CPEI) mathematical logic flow chart according to an integration project of the above-mentioned preferred embodiment of the present invention.

Figure 32 is formulation (formulaic) the key element schematic diagram according to the above-mentioned preferred embodiment of the present invention.

Figure 33 is the formulation matrix schematic diagram according to the above-mentioned preferred embodiment of the present invention.

Figure 34 is the double; two key element association schematic diagram of formulation according to the above-mentioned preferred embodiment of the present invention.

Figure 35 is the formulation three elements association schematic diagram according to the above-mentioned preferred embodiment of the present invention.

Figure 36 to associate schematic diagram according to a formulation four of the above-mentioned preferred embodiment of the present invention.

Figure 37 is according to the above-mentioned preferred embodiment of the present invention one for the elementary formula CPEI schematic diagram of people.

Figure 38 is according to the above-mentioned preferred embodiment of the present invention one for the elementary formula CPEI schematic diagram in place.

Figure 39 is according to the above-mentioned preferred embodiment of the present invention one for the elementary formula CPEI schematic diagram of project.

Figure 40 is according to the above-mentioned preferred embodiment of the present invention one for the elementary formula CPEI schematic diagram of target.

Figure 41 is according to the above-mentioned preferred embodiment of the present invention one for two grades of people formulation CPEI schematic diagrams.

Figure 42 is according to the above-mentioned preferred embodiment of the present invention one for two grades of place formulation CPEI schematic diagrams.

Figure 43 is according to the above-mentioned preferred embodiment of the present invention one for two grades of project formulation CPEI schematic diagrams.

Figure 44 is according to the above-mentioned preferred embodiment of the present invention one for two grades of target formulation CPEI schematic diagrams.

Figure 45 is according to the above-mentioned preferred embodiment of the present invention one for three grades of people formulation CPEI schematic diagrams.

Figure 46 is according to the above-mentioned preferred embodiment of the present invention one for three grades of place formulation CPEI schematic diagrams.

Figure 47 is according to the above-mentioned preferred embodiment of the present invention one for three grades of project formulation CPEI schematic diagrams.

Figure 48 is according to the above-mentioned preferred embodiment of the present invention one for three grades of target formulation CPEI schematic diagrams.

Figure 49 is the people's automaticmanual amount schematic diagram according to the above-mentioned preferred embodiment of the present invention.

Figure 50 is the place automaticmanual amount schematic diagram according to the above-mentioned preferred embodiment of the present invention.

Figure 51 is the project automaticmanual amount schematic diagram according to the above-mentioned preferred embodiment of the present invention.

Figure 52 is the target automaticmanual amount schematic diagram according to the above-mentioned preferred embodiment of the present invention.

Figure 53 is the automated reasoning schematic diagram according to the above-mentioned preferred embodiment of the present invention.

Figure 54 illustrates the formulation matrix report module according to the above-mentioned preferred embodiment of the present invention.

Figure 55 A-55D illustrates and leads field and adnexa thereof according to the primary CPEI of the above-mentioned preferred embodiment of the present invention.

Figure 56 A-56D illustrates two grades of CPEI of the submission according to the above-mentioned preferred embodiment of the present invention and leads field and adnexa thereof.

Figure 57 A-57D illustrates three grades of CPEI and its adnexa of neck field of the submission according to the above-mentioned preferred embodiment of the present invention.

Detailed description of the invention

With reference to the accompanying drawing of the present invention, a kind of for developing the collection that event is manually measured, to follow the trail of, the dynamic approach of storage and report is elucidated with.It is understood that can with not shown various forms design, configuration and formation (developed) between each parts.Can also be understood that, the detailed description of the present invention related in accompanying drawing is merely intended to illustrate presently preferred embodiments of the present invention below, and does not lie in the scope of the present invention claimed in restriction claim.

Present pre-ferred embodiments can refer to accompanying drawing and is well understood, and wherein similar part is referred to by similar numeral from start to finish.

According to Fig. 1, 2 and 4A shown in, a preferred embodiment under this invention a kind of phases-time point methods and system be elucidated with, wherein this dynamic approach is used for collecting, follow the trail of, storage and report exploitation event are manually measured, it includes an artificial amount situation 116 (effortinstances116), as shown in Figure 2, these are manually measured situation 116 and are made up of a key element 100 (elements100), as shown in Figure 4 A, these key elements 100 are associated with another (key element 100) by the manually amount 114 of in a project (PR) 106 of a stage time point (PiPT) 112.

These key elements 100 preferably include, but are not limited to, a project (PR) 106, a people (PP) 102, a place (PL) 104, a target (OB) 108, a project 2 (PR2) and a stage time point 112.

This project (PR) 106 needs a key element 100, and other key elements 100 all in this key element 100 have artificial amount 114.The people (PP) 102 of key element 100 has artificial amount 114 in project (PR) 106, and this is manually measured 114 and is referred to as a role 118 in figure 3.The place (PL) 104 of key element 100 has artificial amount 114 in project (PR) 106, and this is manually measured 114 and is referred to as a service 120 in figure 3.The target (OB) 108 of key element 100 has artificial amount 114 in project (PR) 106, and this is manually measured 114 and is referred to as one in figure 3 and utilizes 124 (utilization124).This project 2 (PR2) 110 is another project 106 key element 100, and it has artificial amount 114 in project (PR) 106, and this is manually measured 114 and is referred to as a contribution 122 in figure 3.The phases-time point 112 of virtual element 100 defines this point being positioned at a phases-time, and the artificial amount 114 in this phases-time point one key element 100 occurs in project (106), as shown in Figure 2.

In FIG, the value of artificial amount 114 represents in exploitation one end product process, key element 100 spend in project (PR) 106 and manually measure (or use of energy).Key element 100 is bound to project 106 based on the certain viewing angles of following key element 100 by this value manually measuring 114:

● the people (PP) the 102 artificial value measuring 114=role 118 in project (PR) 106

● the value of place (PL) 104 artificial amount 114=service 120 in project (PR) 106

● the value of project 2 (PR2) 110 artificial amount 114=contribution 122 in project (PR) 106

● the target (OB) 108 artificial amount 114=in project (PR) 106 utilizes the value of 124

Fig. 2 illustrates the importance of the value of the artificial amount 114 in the association of key element 100 according to " phases-time point methods and system thereof ", and establish the core structure block of an artificial amount situation and phases-time data virtual matrix 126 as shown in Figure 4 A, according to present pre-ferred embodiments.

Fig. 1 and Fig. 2 all illustrates " phases-time point methods and system thereof " and includes manually amount situation 116, wherein these artificial amount situations 116 are made up of key element 100, and wherein these key elements are interrelated by the artificial amount 114 in the project (PR) 106 on phases-time point (PiPT) 112.

Fig. 2 builds on this principle, representing that all of key element 100 " when " plays their artificial amount 114 in project (PR) 106 by defining phases-time point 112, wherein each key element 100 mutually has contact by them with associating of project (PR) 106 during shared phases-time point 112.The shared general character of the phases-time point 112 that key element 100 associates with project (PR) 106 is a constraint rule, and wherein this constraint rule allows one manually to measure situation and phases-time data virtual matrix 126.

Fig. 3 defines the linked character of " phases-time point methods and the system thereof " of this preferred embodiment of the present invention, and as it, manually amount situation and phases-time data virtual matrix are relevant with one.

Fig. 2 illustrates " phases-time point methods and the system thereof " of this preferred embodiment of the present invention and includes manually amount situation 116, wherein these artificial amount situations are built by key element 100, wherein these key elements 100 by the artificial amount 114 in the project (PR) 106 on phases-time point 112 one with another be associated.Fig. 3 further established the relatedness of phases-time point 112, and as a virtual five elements 100, it is all key elements 100 1 and another necessary parts of being associated of ground.

Specifically, artificial amount situation and phases-time data virtual matrix 126 indicate following association can be formed between the key element 100 in " phases-time point methods and the system thereof " of present pre-ferred embodiments, wherein the point in 208 stages is developed in the value representative of phases-time point 112 in the development phase as shown in Figure 6, occurs in this this association:

(1) role 118 is that item association role 118=is defined the relating value role 118 of " what this people (PP) 102 done in project (PR) 106 " on phases-time point (PiPT) 112 by a people.

(2) service 120 is that item association service 120=is defined the relating value service 120 of on phases-time point (PiPT) 112 " what this place (PL) 104 done in project (PR) 106 " by place.

(3) 124 are utilized for target, item association to utilize the 124=association defined at phases-time point (PiPT) upper " what this target (OB) 108 done in project (PR) 106 " utilize 124.

Place is associated 130=, at phases-time point (PiPT) 112, this people (PP) 102 is bound to the relating value in this place (PL) 104 by (4) one people.

This people (PP) 102 is bound to the relating value of this target (OB) 108 at phases-time point (PiPT) 112 by target association 132=by (5) one people.

This place (PL) 104 is bound to the relating value of this target (OB) 108 at phases-time point (PiPT) 112 by target association 130=by (6) one places.

The relating value contribution 122 to target association=define on phases-time point (PiPT) 112 " what this project 2 (PR2) 110 done in project (PR) 106 " of (7) one projects 2.

Fig. 4 A illustrates artificial amount 114 data collections and the artificial amount 114 data report abilities of " phases-time point methods and system thereof ".

These key element 100 data, artificial amount situation 116 data and phases-time point 112 data use an artificial amount situation and phases-time data collection interface 140 to be collected, wherein this data collection interface 140 includes DCF data collection form, data validation and checking interface and program, and data report interface and program are to ensure that data are transferred to a core database 148. as shown in Figure 8 from a data storage data base 150 as shown in Figure 9

Such as Fig. 1,2 and 3 are defined, " phases-time point methods and the system thereof " of present pre-ferred embodiments includes manually amount situation 116, this artificial amount event is made up of key element 100, these key elements 100 by they on phases-time point (PiPT) 112 interrelated in the artificial amount 114 of project (PR) 106.According to Fig. 4, this is manually measured situation 116 and is stored in a core database 148 and is processed by this artificial amount event and phases-time data virtual matrix 126.

The value of this phases-time point (PiPT) 112 is even more important in " phases-time point methods and the system thereof " of the good embodiment of the present invention, when occurs with associating because which depict event.It also has ability and defines:

● one in the past project manually measure the artificial amount 114 that 152 these artificial amount situations 116 define in association and project (PR) 106, wherein this project (PR) 106 is issued as open (published) product 304.

● a present project manually measures the artificial amount 114 that 152 these artificial amount situations 116 define in association and project (PR) 106, and wherein this project (PR) 106 is current at a product 214 issuing date with an agreement.

● a Future Project manually measures these artificial amounts 114 that 152 these artificial amount situations 116 define in association and project (PR) 106, and wherein this project (PR) 106 has the issuing date of an agreement but not yet at product 214 (production214).

This artificial amount situation 116 and phases-time point 112 data are generated with response data search inquiry by manually measuring situation and phases-time data matrix 126 from core database 148, wherein these data search inquiry is to inquire that interface 160 performs from a data search, and wherein following dynamically artificial amount situation 116 is reported as the result of data interrogation:

● a people manually measures the situation report 162 report from people (PP) 102 visual angle, and it describes artificial amount situation 116 data in detail, key element 100 associates 130132134 and manually measures 114, and phases-time point 112.

● the situation report 164 report from place (PL) 104 visual angle is manually measured in a place, and it describes artificial amount situation 116 data, key element 100, association 130132134 in detail, manually measures 114, and phases-time point 112.

● a project manually measures the situation report 166 report from project (PR) 106 visual angle, and it describes artificial amount situation 116 data, key element 100, association 130132134 in detail, manually measures 114, and phases-time point 112.

● a project manually measures the situation report 168 report from target (OB) 108 visual angle, and it describes artificial amount situation 116 data, key element 100, association 130132134 in detail, manually measures 114, and phases-time point 112.

Fig. 4 A describes phases-time matrix report 172 in detail and can be entered from the artificial amount situation report 162,164,166,168 being asked.These phases-time matrix reports 172 can show, but is not limited to, as follows:

● a part 1 (section1): one header 174 (header174)

● a part 2: one stage time matrixs 176 (phasetimematrix)

● an arrow 178 (arrow178) of a phases-time X-axis

● a part 3: manually amount event PiPT window 179 (effortinstancePiPTwindow179)

Fig. 4 A describes this artificial amount situation and phases-time data virtual matrix 126 in detail, and it includes artificial amount phases-time Data View (Virtual table) 157, a relation database table 141, and a stage time data rule 161. more than one

Accordingly, in Fig. 4 B, core database 148 includes Key Relationships database table 141, and it includes, but not limited to as follows:

● key element 100 table, including people (PP) 102 table, place (PL) 104 table, project (PR) 106 table, and target (OB) 108 table,

● key element 100 relation database table, key element 100 associated data table

● Effective Numerical table (checks table)

Fig. 4 B also describes core database 148 in detail, it includes manually amount phases-time Data View (Virtual table) 157, it is defined as basic data module (view), and this basic data module (view) is manually measured situation and used to report 172 based on phases-time data rule 161 generation phase time matrix with phases-time data virtual matrix 126.This phases-time matrix report 172 is exported from core database 148 by phases-time matrix report generation module 270.

Fig. 4 B constructs further and includes, but not limited to following phases-time data rule 161:

● for artificial amount 114 and the artificial rule measuring situation 116

● manually measure the rule of 152 for project in the past

● for the rule of present project 154

● for the rule of Future Project 156

Fig. 4 C illustrates the system program for recording and follow the trail of important stage time data 125, and wherein these phases-time data 125 are reported at phases-time data report 360.

According to Fig. 4 C, a stage time data input and renewal system program 342 are used to the master data sheet 344 (maindatatables) in presentation stage time data 125 to core database 148.

As phases-time data event: one creates, update, occurring in system with deleting program 346, a stage time data record and tracing module 350 perform a time labelling 352, and this time labelling 352 coding has the information according to a stage time data record Yu tracking rule 348.

Fig. 4 C has been also well described phases-time data processing module 354 and has inserted phases-time data 125 in data record with trace table (phases-time data) 356, the information processing that wherein these phases-time data 125 have been encoded according to time labelling 352 by phases-time data record and tracing module 354.

These phases-time data reports 360 are then reported by phases-time data report module 358.

Fig. 5 defines the system data parameter of " phases-time point methods and the system thereof " that be applied to present pre-ferred embodiments, because they involve setting up the structure in phases-time matrix report 172 and data.

According to Fig. 4, the storage of this core database 148 has in the past (having announced), and now, and following project manually measures 152, and 154,156, they are manually measured situation and phases-time data virtual matrix 126 processes to respond an inquiry whereby.Fig. 5 is based upon this (buildsontheprinciple) in principle by defining for a phases-time reporting modules 180 of generation phase time point 112 data, and wherein these modules are used to phases-time point 112 data of output phases-time matrix report 172.

This phases-time reporting modules 180 can include, but it is not limited to, a phases-time report header module 182, a stage time matrix maker module 184, one phases-time X-axis (beginning/Close Date) maker module 186, and a phases-time manually measures situation module 188.

Each above-mentioned phases-time reporting modules 180 is used in phases-time matrix report 172 to generate specific attribute:

Phases-time header module 182 generating portion 1: the header 174 in phases-time matrix report 172, including the title of project 106, one in the past/now/following indicator 192, and artificial amount situation 116 and a PiPT manually measure situation indicator 272.

Phases-time matrix generation module 184 generating portion 2: the phases-time matrix 176 in phases-time matrix report 172, it is to have the X-Y scheme display format of three-dimensional properties timeline, and wherein this three-dimensional properties timeline also show an essential information manually measuring the situation owner 194 and the artificial amount 114 in project (PR) 106.

Phases-time X-axis (beginning/Close Date) maker module 186 arrow 178 of generation phase time X-axis in phases-time matrix report 172；Wherein the arrow 178 of phases-time X-axis is a linear stage time marker, and it describes the scope of the interdependent project (PR) 106 of artificial amount situation 116 in detail, from Start Date to the Close Date.

Phases-time manually measures situation module 188-generating portion 3: the artificial amount situation PiPT window 179 in phases-time matrix report 172, wherein part 3: artificial amount situation PiPT window 179 shows artificial amount situation report 162,164,166,168 and link (links), wherein this link indicates which key element 100 in part 2: the project (PR) 106 in phases-time matrix 176 has artificial amount 114.

Fig. 5 also describes phases-time matrix report 172 in detail and is displayed on a stage time chain and connects the Storyboard vibration 196 in interior Storyboard vibration 195 a to phases-time, as it is shown in fig. 7, it is rendered as Storyboard vibration 196. in phases-time player

Fig. 6 illustrates the reporting capabilities of " phases-time point methods and the system thereof " of present pre-ferred embodiments, it measures situation report 162 with artificial the artificial of the amount situation owner 194,164,166,168 is relevant, and it also measures situation report 162 with the artificial of key element 100 being associated with the artificial amount situation owner 194 in whole artificial amount situation 116 process, 164,166,168 is relevant, and all these are manually measured situation report and are all reported at phases-time matrix report 172.

Phases-time matrix report 172 includes with lower part:

● part 1: header 174

● part 2: phases-time matrix 176

● the arrow 178 of phases-time X-axis

● part 3: artificial amount situation PiPT window 179

According to Fig. 6, part 1: header 174 shows following content:

● the artificial amount situation owner 194 has the title of the project (PR) 106 of artificial amount 114 thereon

● time project stage goes over/and whether be in the past project manually measure 152 to now/following indicator 192---if indicating this project 106 to be issued in the past, still it is that present project manually measures 154 in being currently being deployed, or a future issues and is that Future Project manually measures 156.

● PiPT manually measures a macroscopic view phases-time 202 of the situation indicator 272---instruction artificial amount situation owner 194 and artificial amount situation 116, a microcosmic phases-time 204, or one nanometer of phases-time 206 view.

According to Fig. 6, part 2: phases-time matrix is used to display:

● artificial amount possessory 194 names of situation

● the artificial amount 114 of the artificial amount situation owner 194 in project (PR) 106

● the artificial contract information measuring the situation owner 194

● according to all items (PR) 106 of a linear time base and development phase 208 list.Development phase 208 includes product 212, product 214, later product 216, manufacture before a theory develops (blueprint) 210, distribution and the manufacture of marketing 218, later stage, distributes, and one markets 220.

● a stage box 222 (phaseboxes), its Start Date indicating development phase along a linear time base and Close Date

● one covers artificial amount stage box 224, and it indicates the Start Date that manually amount occurs manually measuring the event owner 194 along a linear time base and Close Date.

● artificial in the development phase 208 of project 106 measure the shaded portions of stage box 224 more or less be the starting and the proportional representation of Close Date of artificial amount 114 of the artificial amount event owner 194, its ratio persistent period relating to suitable phases-time more or less and with the early start date of a stage time clock meter apparatus I 228 and a stage clockwork V 236, if or the stage time clock meter apparatus V I 238 when being issued again, the ins and outs of late finish time.

● stage box 222, artificial amount stage box 224, and the arrow 178 of phases-time X-axis are to interact.By clicking or place a mouse on stage box 222 or artificial amount stage box 224 to control part 3: the content in artificial amount event PiPT window 179.

According to Fig. 6, the arrow of phases-time X-axis 178 is used to display:

● stage box 222 and artificial amount stage box 224 relate to the phases-time clockwork 226 of development phase 208 and one time project stage 300 of instruction being correlated with；

This phases-time clockwork I 228---theory exploitation 210

One stage time clock meter apparatus II 230---early stage makes 212

One stage time clock meter apparatus III 232---makes 214

One stage time clock meter apparatus IV 234---post-production 216

One stage time clock meter apparatus V 235---manufactures/distribution/marketing 218

This phases-time clockwork VI 236---later stage manufactures/distributes/market 220

According to Fig. 6, part 3: artificial amount event PiPT window 179 is used to display:

● there is artificial amount event report 162, all key elements 100 of 164,166,168, the specific development stage 208 in project 106 is related to due to them, wherein when a user clicks part 2: when stage box 222 in phases-time matrix 176 or artificial amount stage box 224, or mobile mouse is to the phases-time clockwork 226,230 in the arrow 178 of phases-time X-axis, 234, time on 235,236, the list of these key elements 100 is displayed on part 3: in artificial amount event PiPT window 179.

● relate to the value in phases-time 200 with the artificial amount 114 of a key element 100 manually measured

● the beginning of artificial amount 200 generation in those shown phases-times and Close Date

● instruction is in part 1: in header 174, and the past related in the arrow 178 of phases-time X-axis, and present and event of manually measuring future reports 162,164,166,168.

● instruction is in part 1: in header 174, relate in the arrow 178 of phases-time X-axis, and the arrow 274 selected from part 2: stage time clock meter apparatus icon, macroscopic view, microcosmic and nano artificial amount event report 162,164,166,168.

● by click or a mobile mouse on the arrow 178 of phases-time X-axis with the sword fingers screen left side selected project in the past manually measure 152 data.

● referring to that screen on the right of selected Future Project manually measure 156 data with arrow by clicking or move a mouse to the arrow 178 of phases-time X-axis, these data may connect to the Storyboard vibration 196. in phases-time player

Fig. 7 illustrates the reporting capabilities of " phases-time point methods and the system thereof " of the Storyboard vibration 196 that this specific embodiment of the present invention relates in phases-time player.

Storyboard vibration 196 in this phases-time player enters from phases-time matrix report 172.It includes following design part and respective attributes:

● a Storyboard Header portion 240---shows the information of project (PR) 106, artificial 114 and the information measured of the artificial amount event owner 194, and macroscopic view phases-time 202, the details of 204 nanometers of phases-times 206 of microcosmic phases-time.

● a Storyboard body portion 242---shows a macroscopic view, and microcosmic, nanometer content of multimedia 246, it can include, but not limited to music, screen, picture, dynamic image etc..

● a Storyboard footnote part 244---shows additional in phases-time player information or in the Storyboard vibration 196 including, but not limited to a search link 248 and manually amount editing key 250 link.

Fig. 8 defines " phases-time point methods and system thereof " system core data base 148 parameter being used in present pre-ferred embodiments and vibrates 196 data with the Storyboard in generation phase time player.

According to Fig. 4, this core database 148 stores manually is measured event and past that phase data virtual matrix 126 processed, now and manually measure 152,154,156 data future.Fig. 8 is based upon this in principle by defining the macroscopic view of those vibrations 196 that are used in generation phase time player Storyboard, microcosmic and nanometer phases-time module.

Accordingly, core database 148 includes at least one macroscopic view, microcosmic, with a nanometer Storyboard module 252, this module 252 includes, but are not limited to, one Storyboard header maker module 254, a Storyboard multimedia main body maker module 256, and a Storyboard footnote maker module 258.

Fig. 8 illustrates the macroscopic view in " phases-time point methods and the system thereof " that be present in present pre-ferred embodiments, microcosmic and nanometer multimedia database 260, wherein this macroscopic view, this macroscopic view, microcosmic and nanometer content of multimedia 246 output are entered Storyboard vibration 196 in phases-time player by Storyboard multimedia main body maker module 256 by microcosmic and nanometer multimedia database 260.This macroscopic view, microcosmic and nanometer content of multimedia 246 can include, but not limited to screen, music, dynamic image, and picture.

These macroscopic views, data placement Storyboard in phases-time player that microcosmic and nanometer Storyboard module 252 are used to will appear from is vibrated in 196.The corresponding Storyboard of each module and report thereof is described below:

● Storyboard header maker module 254---reports the information that project (PR) 106 information and the artificial amount event owner 194 manually measure in 114 and phases-time player in the Storyboard Header portion 240 of Storyboard vibration 196.

● the macroscopic view in the Storyboard main part 242 of Storyboard vibration 196, microcosmic and nanometer content of multimedia 246 in Storyboard multimedia main body maker module 256---time report stage player.

● Storyboard footnote maker module 258---reports the phases-time information added or in the Storyboard vibration 196 including, but not limited to search link 248 with manually measure in editing key 250 link.

Fig. 9 specifically illustrates all of system database parameter and is reported that in 172 and phases-time player, Storyboard vibrates the reporting modules of 196 data by " phases-time point methods and the system thereof " of present pre-ferred embodiments for generation phase time matrix.

According to Fig. 9, " phases-time point methods and the system thereof " of present pre-ferred embodiments includes, but not limited to data storage data base 150, core database 148, and macroscopic view, microcosmic, nanometer multimedia database 260.

Multimedia display is to preserve data base 150 with formatted program 268 from data by editor to be transferred to macroscopic view, microcosmic, nanometer multimedia database 260, wherein these editors and formatted program 268 are by that format for Storyboard vibration 196 creation in phases-time player and organized macroscopic view, microcosmic, nanometer content of multimedia 246.

Artificial amount situation 116 and phases-time point 112 data are exported from core database 148 by phases-time matrix report generation module 270, and are displayed in phases-time matrix report 172 and artificial amount event report 162,164,166,168.

Finally, it is report 162,164,166 from phases-time matrix report 172 and artificial amount event that this diagram specifically illustrates Storyboard vibration 196 in phases-time player, 168 enter, wherein microcosmic, macroscopic view and nanometer phases-time 202,204,206 and phases-time player in Storyboard vibrate 196 data and pass through microcosmic, macroscopic view and nanometer Storyboard module 252, are extracted in nanometer multimedia database 260 from core database 148 and macroscopic view, microcosmic by dynamic.

Figure 10 describes a phases-time macroscopic view story line view 312 in detail, a phases-time microcosmic story line view 316, and how a phases-time nanometer story line view 320 has been announced product 304 from one and be generated.

According to Fig. 1-4, there is project (PR) 106, the key element 100 of all of which plays the artificial amount 114 in its artificial amount situation 116.This theory is expanded in Fig. 10, by describing in detail in the artificial amount situation 116 relating to phases-time point 112, and addition item (PR) 106 attribute used in the generation of time project stage 300 data and report.

Project (PR) 106 has corresponding time project stage 300, and this phases-time 300 can be broken down into six development phases 208, and wherein the development phase 208 specifically illustrates project (PR) 106 and carries out the cycle.Specifically, according to its product type, these development phases are the specified portions that project (PR) 106 carries out the cycle:

1) theory exploitation (blueprint) 210

2) early stage makes 212

3) 214 are made

4) post-production 216

5)/distribution/marketing 218 is manufactured

6) later stage manufactures/distribution/marketing 218

These artificial amount situations 116 are worth by phases-time point 112 and relevant to time project stage 300, and wherein phases-time point 112 value specifically illustrates key element 100 " when " and plays its artificial amount 114 in project (PR) 106.It addition, project (PR) 106 is being announced product 304 by formal announcement or release to will become behind public place.Specifically, this occurs when project (PR) 106 is awarded a publication date 302, and the project (PR) 106 on this date comes forth and becomes and announces product 304 and a phases-time just before giving birth (parturient) event 303.

Figure 10 also specifically illustrates product story line data 306 and is converted to a phases-time macroscopic view 324 in combination by a story line editing machine 307 and artificial amount scholar 309 (effortologist309) during coming from a macroscopic view of time project stage 300, microcosmic and nanometer edit routine 308, one phases-time microcosmic 326, with phases-time nanometer 328 data, manually measuring scholar, wherein time project stage 300 is provided by artificial amount situation 116 and the corresponding phases-time point 112 of project (PR) 106.

Macroscopic view, microcosmic and nanometer edit routine 308 are used to produce macroscopic view phases-time 202, microcosmic phases-time 204, nanometer phases-time 206, phases-time data 125, with phases-time macroscopic view, microcosmic, and nanometer story line view 312,316,320, these views can include, but not limited to as follows:

Phases-time macroscopic view 324---is a landscape view (landscapeview) of the artificial amount 114 of the artificial amount event owner 194 in the project (PR) 106 on phases-time point 112.

Phases-time microcosmic 326---is a portrait view (portraitview) of the artificial amount 114 of the artificial amount event owner 194 in the project (PR) 106 on phases-time point 112.

Phases-time nanometer 326---is a close-up illustration of the artificial amount 114 of the artificial amount event owner 194 in the project (PR) 106 on phases-time point 112.

Figure 11 illustrates phases-time macroscopic view story line view 312 and how to be generated from announcing product 304.

According to Figure 10 and 11, project (PR) 106 exists, in artificial amount situation 116, all key elements 100 in project (PR) 106 play artificial amount 114 therein, and addition item (PR) 106 attribute therefore used in artificial amount situation 116 relates to phases-time point 112 and the generation of time project stage 300 data and report.Therefore, project (PR) 106 has respective item phases-time 300, and this phases-time 300 can be broken down into six development phases 208, and what wherein these development phases 208 described project (PR) 106 in detail carries out the cycle.

It is relevant to time project stage 300 by phases-time point 112 value that Figure 10 and 11 further illustrate artificial amount situation 116, and these phases-time point 112 values describe in project (PR) 106 key element 100 " when " in detail and play it and artificial measure 114.It addition, project (PR) 106 is being announced product 304 by formal announcement or release to will become behind public place.Specifically, this occurs when project (PR) 106 is awarded a publication date 302, and the project (PR) 106 on this date comes forth and becomes and announces product 304.

Figure 11 is in combination converted into phases-time macroscopic view 324 data by a story line editing machine 307 and an artificial amount scholar 309 by product story line data 306 are described in detail during coming from a macroscopic view of time project stage 300, microcosmic and nanometer edit routine 308, in this conceptive expansion.This macroscopic view, microcosmic and nanometer edit routine 308 are used to phases-time macroscopic view 324 data, these data are displayed in phases-time macroscopic view story line view 312 reports, wherein a phases-time macroscopic view story line view generation module 310 is used to create this phases-time macroscopic view story line view 312 and reports.

Phases-time macroscopic view story line view 312 is the landscape view having announced product 304, wherein the purpose of this landscape view is in that to provide the general survey of a story line product, the artificial amount 114 manually measuring the event owner 194 is associated by the vibration 332 in its phases-time with suitable phases-time macroscopic view 324 landscape view attributes, it high line (hi-line) phases-time microcosmic 326 viewdata including manually measuring a phases-time exploitation event 334 of the event owner 194.

These phases-times exploitation event 334 betides the artificial amount event owner 194, people 102, place 104, project 106, with target 108, when the project (PR) 106 of the phases-time point 112 related in the development phase 208 announcing product 304 performing combine artificial amount 114.

Figure 12 illustrates phases-time microcosmic story line view 316 and how to be generated from announcing product 304.

According to Figure 10, shown in 11 and 12, project (PR) 106 exists, in artificial amount situation 116, all key elements 100 in project (PR) 106 play artificial amount 114 therein, and addition item (PR) 106 attribute therefore used in artificial amount situation 116 relates to phases-time point 112 and the generation of time project stage 300 data and report.Therefore, project (PR) 106 has corresponding time project stage 300, and this phases-time 300 can be broken down into six development phases 208, and what wherein these development phases 208 described project (PR) 106 in detail carries out the cycle.

Figure 10,11 and 12 to further define artificial amount situation 116 relevant to time project stage 300 by phases-time point 112 value, and these phases-time point 112 values describe in project (PR) 106 key element 100 " when " in detail and play it and artificial measure 114.It addition, project (PR) 106 is being announced product 304 by formal announcement or release to will become behind public place.This generation is awarded a publication date 302 in project (PR) 106, for instance project (PR) 106 comes forth and becomes and announces product 304, when.

Figure 12 is in combination converted into phases-time macroscopic view 326 data by a story line editing machine 307 and an artificial amount scholar 309 by product story line data 306 are described in detail during coming from a macroscopic view of time project stage 300, microcosmic and nanometer edit routine 308, in this conceptive expansion.This macroscopic view, microcosmic and nanometer edit routine 308 are used to phases-time microcosmic 326 data, these data are displayed in phases-time microcosmic story line view 316 reports, wherein a phases-time microcosmic story line view generation module 314 is used to create this phases-time microcosmic story line view 316 and reports.

Phases-time microcosmic story line view 316 is the portrait view having announced product 304, wherein the purpose of this portrait view is in that to provide the general survey of a story line product, the artificial amount 114 manually measuring the event owner 194 is associated by the vibration 332 in its phases-time with suitable phases-time microcosmic 326 portrait view attribute, it high line (hi-line) phases-time nanometer 328 viewdata including manually measuring the phases-time exploitation event 334 of the event owner 194.

Figure 13 illustrates phases-time nanometer story line view 320 and how to be generated from announcing product 304.

According to Figure 10-13, project (PR) 106 exists, in artificial amount situation 116, all key elements 100 in project (PR) 106 play artificial amount 114 therein, and addition item (PR) 106 attribute therefore used in artificial amount situation 116 relates to phases-time point 112 and the generation of time project stage 300 data and report.Therefore, project (PR) 106 has corresponding time project stage 300, and this phases-time 300 can be broken down into six development phases 208, and what wherein these development phases 208 described project (PR) 106 in detail carries out the cycle.

It is relevant to time project stage 300 by phases-time point 112 value that Figure 10-13 further illustrates artificial amount situation 116, and these phases-time point 112 values describe in project (PR) 106 key element 100 " when " in detail and play it and artificial measure 114.It addition, project (PR) 106 is being announced product 304 by formal announcement or release to will become behind public place.This occurs when project (PR) 106 is awarded a publication date 302, and on this date 302, project (PR) 106 comes forth and becomes and announces product 304.

Figure 13 is in combination converted into phases-time macroscopic view 328 data by a story line editing machine 307 and an artificial amount scholar 309 by product story line data 306 are described in detail during coming from a macroscopic view of time project stage 300, microcosmic and nanometer edit routine 308, in this conceptive expansion.This macroscopic view, microcosmic and nanometer edit routine 308 are used to phases-time nanometer 328 data, these data are displayed in phases-time nanometer story line view 320 reports, wherein a phases-time nanometer story line view generation module 318 is used to create this phases-time nanometer story line view 320 and reports.

Phases-time nanometer story line view 320 is the close-up illustration having announced product 304, wherein the purpose of this close-up illustration is in that to provide a story line 336 product blueprint, the artificial amount 114 manually measuring the event owner 194 is associated by the vibration 332 in its phases-time with suitable phases-time microcosmic 326 portrait view attribute, it high line (hi-line) phases-time nanometer 328 viewdata including manually measuring the phases-time exploitation event 334 of the event owner 194.

According to Fig. 1,2,3,4A, shown in 10,11,12 and 13, " phases-time point methods and the system thereof " of present pre-ferred embodiments includes the artificial amount situation 116 being made up of key element 100, and these key elements 100 are by interrelated on its manually amount 114 projects (PR) 106 in phases-time point (PiPT) 112.Figure 14 launches in this theory, is shown in phases-time macroscopic view, microcosmic and the story line 336 of the phases-time point 112 in nanometer story line view 312,316,320 by the interphase interaction and impact illustrating artificial amount event.

According to Figure 14, one attribute of the story line 336 artificial amount 114 for being played by any key element 100, it describes the creative decision in the production process of project (PR) 106 in detail, and this project (PR) 106 is developed event 334 by phases-time and defined.Phases-time exploitation event 334 is defined as and betides key element 100, people (PP) 102, place (PL) 104, target (OB) 108, when the project (PR) 106 of the phases-time point 112 within the development phase 208 relating to industrial products performing combine artificial amount 114.

Project (PR) 106 is being announced product 304 by formal announcement or release to will become behind public place.This occurs when project (PR) 106 is awarded a publication date 302, and on this date 302, project (PR) 106 comes forth and becomes and announces product 304.

Additionally, story line event date of publication 338 is converted to phases-time macroscopic view 324 by a story line editing machine 307 and a phases-time point 112 that manually amount scholar 309 develops event 334 from phases-time during coming from a macroscopic view of time project stage 300, microcosmic and nanometer edit routine 308, phases-time microcosmic 326, and phases-time nanometer 328 data.Wherein time project stage 300 is provided by artificial amount situation 116 and the corresponding phases-time point 112 of project (PR) 106.

Figure 14 describes dotted line in detail, and these dotted lines are developed in event 334 at phases-time and phases-time macroscopic view, microcosmic, and nanometer story line view 312,316,320 bound with product story line 336.Send the realization terminating at artificial amount 114 from story line 336 and reflect story line 336 how influent factor 100, artificial amount 114 and product 214.Send, from manually amount 100, the chain-dotted line terminating at story line 336 indicate key element 100 and manually measure how 114 can affect story line 336 by story informant's work amount and story line fx (storylinefx) 340 in turn.

Phases-time exploitation event 334 affects an attribute of the artificial amount 114 of the key element 100 that ability is the plot core (heart) entering release product 304 of story line 336, no matter whether key element 100 is at photographic head, mike, etc. above or below.

With reference to the Figure 15 in accompanying drawing, the system of the present invention and one " DVIVD mates auditing system and 5 star event data record methods thereof " of process is utilized to be elucidated with, wherein said system and method includes a data collection program 332 ', one Data Audit program 334 ', one certified data verification program (automatically) 116 ', a Data Audit rank measures program 336 ', a batch quasi-ordering 346 ', one Data Matching audit testing program 338 ', and a data report program 340 '.

This system and method includes this data collection program 332 ', in this procedure, one CPEI data 156 ' are collected from an industrial data source 100 ', and by a key element manually measure event data input (form Form2) 102 ' be input to one industrial data storage data base 104 '.This industrial data storage data base 104 is that a data base is for storing the not processed CPEI data 156 ' in a CPEI data storage table 166 ', for storing the CPEI CPEI exhibition 124 ' puting on display in data storage table 168 ', and it is used for storing General System data.

Figure 15 establishes batch quasi-ordering 346 ', and in this program, the automanual approval CPEI data 156 ' based on an audit regulation 342 ' are preserved data base 104 ' from industrial data and are transferred to an industry core database 106 '.Data Audit program 334 ' and data approval procedure 346 ' are all designed to pass through to provide for confirming (validating) and the instrument of checking (verifying) wherein data, program, and rule and ensure that data are complete in system and method.

Industry core database 106 ' is also defined as the Relational database storing formatting CPEI data 156 ' and General System data by Figure 15.

Figure 15 also describes this system and method in detail and includes based on hierarchy rules 130 ', 132 ', 134 ', 136 ', 138 ', the Data Audit grade of the CPEI data 156 ' of 140 ' measures program 336 ', with the auditing procedure 141 ', 142 ', 144 ' in the Fig. 3 based on Data Audit program 334 ' result, 146 ', 148 '.Additionally, the change of Data Audit ranking program 336 ' is maintained by DVIVD5 star auditor's working plate screen interface (form 3) 118 ' as shown in figure 15 by a system auditor (manually measuring scholar) 348 '.

Accordingly, Fig. 1 describes data report program 340 ' in detail, and wherein CPEI data 156 ' are displayed in a CPEI report 110 ' (combination project manually measures event report).This program is promoted by a CPEI report generation module 112 '.

Finally, Figure 15 describes Data Matching test program 338 in detail and is mated the promotion of record of the audit instrument 114 ' by a DVIVD event data, and wherein DVIVD event data coupling record of the audit instrument 114 ' is the interactive tool used in promoting Data Audit program by system auditor 348 '.

Figure 16, according to present pre-ferred embodiments, illustrates the data collection and data approval procedure that are utilized by " DVIVD mates auditing system and 5 star event data record methods thereof ".

This system includes data collection program 332 ', and CPEI data 156 ' and industrial data source 100 ' are input into industrial data storage data base by data entry modality 2 in this procedure.

There is provided the CPEI data 156 ' that industrial data source 100 ' is used to confirm by CPEI the first Data Audit program 128 ' now and checking is submitted to of CPEI data 156 ' thus it can be moved into a 1# rank: recognizer (automatically) 126 '.This industrial data source 100 ' can include, but not limited to network address, resume storehouse, online resume, print media, third party database, and private resource.

Data collection program 332 ' period, key element manually measure event data input (form 2) 102 ' be used to format not processed data become be transferred to the most at last industry core database 106 ' available CPEI data 156 '.Industrial data source 100 ' will by using be stored in industrial data storage data base 104 ' one CPEI exhibition 124 ' preservation thus as confirm and verify CPEI data 156 ' means.

Figure 16 further established batch quasi-ordering 346 ', and CPEI data 156 ' are set to approved formatting CPEI data 122 ' or the formatting CPEI data 120 ' being not approved in this procedure.These CPEI data 156 ' must go through before it is transferred to industry core database 106 ' from industrial data storage data base 104 '.The unique semi-automatic program of batch quasi-ordering 346 ', checks CPEI data 156 ' by this programming system auditor 348 ' according to the audit regulation 342 ' set up.Batch quasi-ordering 346 ' is promoted by audit #1 approval (form 2A) 108.

Figure 17 illustrates the DVIVD of present pre-ferred embodiments and mates the multiple programs relating to the management by DVIVD5 star auditor's working plate screen interface (form 3) 118 ' the Data Audit ranking program 336 ' occurred in auditing system and 5 star event data record methods thereof.

According to Figure 17, the DVIVD coupling auditing system of present pre-ferred embodiments and 5 star event data record methods thereof include the Data Audit ranking program 336 ' promoted by system auditor 348 ' by DVIVD5 star auditor's working plate screen interface 118 '.Data Audit ranking program 336 is used to:

● use CPEI to show 124 ' and hierarchy rules auditing procedure 141 ', 142 ', 144 ', 146 ', 148 ', confirming and while checking, checking the audit grade 132 ', 134 ', 136 ', 138 ', 140 ' of CPEI report 110 '；

● checking by a CPEI owner 352 ', the owner of CPEI report 110, the change of rank made is asked；

● check the new CPEI exhibition 124 supporting audit grade 132 ', 134 ', 136 ', 138 ', 140 ' to upgrade；

● according to hierarchy rules auditing procedure 141 ', 142 ', 144 ', 146 ', 148 ' approval or refusal audit grade 132 ', 134 ', 136 ', 138 ', 140 '

Figure 17 defines Data Audit ranking program 336 and includes a system, reports that 110 ' is elevated by the CPEI of this system audit grade 132 ', 134 ', 136 ', 138 ', 140 ', because achieving more key element 300 '.

Figure 17 specifically illustrates when grade #1 rule 141 ' of auditing is satisfied, and this system and method thereof assign audit grade #1 ranking 132 ' to report 110 ' to CPEI.

Figure 17 specifically illustrates when grade #2 rule 2 auditing procedures 142 ' are satisfied, and this system and method thereof assign audit grade #2 ranking 134 ' to report 110 ' to CPEI.

Figure 17 specifically illustrates when grade #3 rule 3 auditing procedures 144 ' are satisfied, and this system and method thereof assign audit grade #3 ranking 136 ' to report 110 ' to CPEI.

Figure 17 specifically illustrates when grade #4 rule 4 auditing procedures 146 ' are satisfied, and this system and method thereof assign audit grade #4 ranking 138 ' to report 110 ' to CPEI.

Figure 17 also further illustrate details for, and when grade #5 rule 5 auditing procedures 148 ' are satisfied, this system and method thereof assign the highest audit grade #5 ranking 140 ', and the artificial amount 360 ' of a system audit certification reports 110 ' to CPEI.

Figure 18 shows and mates, in DVIVD event data, all data bases and module that use in record of the audit 114 ', owing to they relate to mating the multiple Data Audit program 334 ' that a part for auditing system and 5 star event recording methods thereof occurs as the DVIVD of present pre-ferred embodiments.

According to Figure 18, due to CPEI data 156 ' traverse industrial database, industrial data storage data base 104 ' and industry core database 106 ', it runs into a series of Data Audit program 334 ', the DVIVD event data that adds up to of these auditing procedures 334 ' mates record of the audit 114 ', and Data Matching auditing procedure 338 ' and data report program 340 ' provide the foundation.

Figure 18 describes Data Audit program 334 ' in detail and provides a checking and confirmation program, in these programs, when its first time enters this system to industrial data storage data base 104 ', it is recorded CPEI data 156 ', it is recorded when CPEI data 156 ' are transferred to industry core database 106, when CPEI audit ranking 132 ', 134 ', 136 ', 138 ', 140 ' are recorded when changing, and when CPEI data 156 ' are recorded during from industry core database 106 ' dynamic report.

Figure 18 also describes this system in detail and includes, but not limited to following Audit Module:

● a CPEI5 star event data record module 160 ': generates the module of first sentence meter record data 152 '

● a CPEI generation module 184 ': can generate and some modules of virtual display CPEI data 156 '

● a CPEI Data Matching test module 162 ': the data preserving data base 104 ' and the report from industry core database 106 ' from industrial data can be compared, and mate some modules of display coupling or mispairing result in record of the audit 114 ' in DVIVD event data.

● a CPEI puts on display display module 164 ': display is used to confirm/verify a module of those CPEI exhibition 124 of CPEI report 110.

Figure 15 and 19 specifically illustrate how industrial data storage data base 104 ' is used to storage CPEI data 156 ', and it includes CPEI exhibition 124 '.These CPEI exhibition 124 ' can be entered and mate in record of the audit 114 ' in DVIVD event data and show as the means of checking CPEI data 156 ' and CPEI report 110 '.

Figure 18 launches on this basis, and by illustrating the critical piece that CPEI Data Matching test module 162 ' is two the key data auditing procedures 334 ' performing this system and method, key data auditing procedure 334 ' includes, but not limited to as follows:

One CPEI the first Data Audit program 128 ': semi-automatic program, is recorded owing to entering industrial data storage data base 104 ' by these program CPEI data 156 '.

One CPEI the second Data Audit program 150 ': full auto-programs, by these program CPEI data 156 ' owing to being recorded from industry core database 106 ' report, thus can being audited based on CPEI data 156 ' owing to it is input into industrial data storage data base 106 '.

The result of CPEI data test module 162 ' is displayed in the DVIVD event data coupling record of the audit 114 ' in a CPEI Data Matching test component 176 ', as shown in figure 19.

Figure 18 has been also well described how CPEI data 156 ' pass through CPEI generation module 184 ' from how industry core database 106 ' by performance and is used to a series of dynamic report.By mating in DVIVD event data, these CPEI generation modules 184 ' generate in record of the audit 114 ' and show that CPEI data 156 ' are used to Data Audit program 334 '.

Figure 19 shows a DVIVD event data coupling record of the audit reporting unit 188 ', owing to these parts relate to mating auditing system and 5 star event recording methods thereof according to the DVIVD of present pre-ferred embodiments.These reporting unit/modules include, but not limited to as follows:

● parts of header parts 174 ': a DVIVD event data coupling record of the audit 114 ', it is shown that be reported in the CPEI owner 352 ' Back ground Information of the CPEI tables of data 170 ' being positioned at industry core database 106 '.

● a CPEI Data Matching test component 176 ': parts of display CPEI the first Data Audit program 128 ' and CPEI the second Data Audit program 150 ' test result.These test results show the CPEI data 156 ' being reported in industry core database 106 ' and mate or mispairing with between the CPEI data being input into industrial data storage data base 104 '.

● a CPEI manually measures line data component 178 ': parts of the virtual CPEI report 110 showing the CPEI owner 352.The dynamic CPEI tables of data 170 in industry core database 106 of described CPEI report 110 is generated.

● one 5 star event data record parts 108 ': show audit ranking 132 ', 134 ', 136 ', 138 ', one parts of 140 ', describe in detail: 1) audit ranking 132 ', 134 ', 136 ', 138 ', 140 ', CPEI report 110 ' thereon is currently assessed, and one to five-star；With 2) audit date of realizing of ranking 132 ', 134 ', 136 ', 138 ', 140 '.Audit ranking 132 ', 134 ', 136 ', 138 ', 140 ' data are by a dynamic event data record table 172 ' report from industry core database 106 '.

● one manually measures situation field, field (field) event data instrument 182 ': show that the state of all key elements 300 ' and CPEI report parts of CPEI data fields 362 ' in 110 '.These status datas are to obtain from the event data record table 172 ' of industry core database 106 '.

● CPEI exhibition 124: show parts of all CPEI exhibition 124 ' being used to confirm and verify CPEI report 110 '.These CPEI exhibition 124 ' is stored in industrial data storage data base 104 '.

Figure 20 mates a virtual representations of the DVIVD event data coupling record of the audit 114 ' of auditing system and 5 star event data record methods thereof according to the DVIVD of present pre-ferred embodiments.

Figure 20 shows the multiple report section in DVIVD event data coupling record of the audit 114 ', it can include, which it is not limited to, one Header portion 190 ', one 5 star event data record parts 192 ', one CPEI audits #1 and audit #2 Data Matching part of detecting 194 ' and a key element owner and CPEI data fields Audit Report part 196 '.

Figure 20 shows that Header portion 190 ' is used to the report CPEI owner 352 ' general data, together with general CPEI information.This can include, but not limited to the name of the CPEI owner 352, No. ID of the CPEI owner 352 core database 106, and CPEI and report No. ID of 110.

The function of 5 star event data record parts 192 ' is the audit ranking 132 ', 134 ', 136 ', 138 ', the 140 ' date with its realization of the CPEI report 110 ' that report is reported.Audit ranking 132 ', 134 ', 136 ', 138 ', 140 ' is described as a star icon 230 ', 232 ', 234 ', 236 ', 238 ' or core selects mark icon 240 '.The date being implemented of audit ranking 132 ', 134 ', 136 ', 138 ', 140 ' passes through to select in a field of mark icon 240 ' at contiguous corresponding star icon 230 ', 232 ', 234 ', 236 ', 238 ' or core to show that MM/DD/YYYY is described.

5 star event data record parts 192 ' in Figure 20 show an example of the DVIVD event data coupling record of the audit 114 ' for the primary CPEI356 ' being in audit grade #1.But, this DVIVD event data coupling record of the audit 114 ' is designed in primary CPEI356 ', and one or two grades of artificial amounts 226 ', one or three grades of artificial amounts 228 ', an automaticmanual amount 242 ', and at various audit rankings 132 ', 134 ', an automated reasoning association 244 ' when 136 ', 138 ', 140 '.Therefore, it should be noted that Header portion 190 ' and 5 star event data record parts 192 ' all by based on CPEI type and current audit ranking 132 ', 134 ', 136 ', 138 ', 140 ' by differentiated report.

Figure 21 shows CPEI audit #1 and the audit #2 Data Matching part of detecting 194 ' of the DVIVD event data coupling record of the audit 114 ' of the DVIVD coupling auditing system according to present pre-ferred embodiments and 5 star event data record methods thereof.

According to Figure 21, this CPEI audit #1 and audit #2 Data Matching part of detecting 194 ' are used to display and the Data Matching audit testing program 338 ' result between CPEI the first Data Audit program 128 ' and CPEI the second Data Audit program 150 ' occur.This is by as shown in Figure 23 one audit lamp indicator 198 ' instruction in a Data Matching test report 214 ', and it is according to these results following detailed description:

A. a green light indicator 202 ' represents that CPEI report 110 ' has already been through Data Matching audit testing program 338 '

B. a red light indicator 204 ' represents that CPEI report 110 ' not over Data Matching audit testing program 338 ' and reports a mispairing.

C. an amber light indicator 206 ' represents that CPEI report 110 ' is not yet confirmed by the CPEI owner 352 ' or checking.

D. a white lamp indicator 208 ' represents that Data Audit program 334 ' has not carried out on CPEI report 110 '.

According to Figure 21, a coupling/mispairing upset window 200 ' will occur when the audit lamp indicator 198 ' that a reviewer upset or mouse are positioned at CPEI audit #1 and audit #2 Data Matching part of detecting 194 ' is upper.This coupling/mispairing upset window 200 ' is used to describe in detail and collects Audit Report about CPEI110 ' the one of state of auditing.

Figure 21 shows that CPEI audits #1 and two examples of #2 Data Matching part of detecting 194 ' of auditing.Figure 21 A shows a coupling, a green light indicator 202 ' indicate, and Figure 21 shows a mispairing, a red light indicator 204 ' indicate.This CPEI audits #1 will based on the state of arbitrary CPEI being provided report 110 ' by differentiated report with audit #2 Data Matching part of detecting 194 '.

Figure 22 shows the key element owner and the CPEI data fields Audit Report part 196 ' of the DVIVD event data coupling record of the audit 114 ' of the DVIVD coupling auditing system according to present pre-ferred embodiments and 5 star event data record methods thereof.

According to Figure 22, the key element owner and CPEI data fields Audit Report part 196 ' are used to:

● by a pair of block diagram table, a key element indicator 362 ' indicates which key element 300 ' is an artificial amount 354 ' of report belong to；

● this key element indicator 362 ' further indicates time limit or not yet realize a factor data field 364 '.

● occur in primary CPEI356 ', two grades of artificial amounts 226 ', three grades of artificial amounts 228 ', automaticmanual amount 242 ', associate the CPEI data fields 362 ' in 244 ' with automated reasoning.

● those CPEI data fields 362 ' being identified or having verified

● those CPEI data fields 362 ' being not yet identified or verifying；With

● the link to the CPEI exhibition 124 ' used in those confirmations at CPEI data fields 362 ' and checking.

According to Figure 22, the CPEI data fields icon 210 ' for CPEI data fields 362 ' being currently implemented is highlighted.Figure 22 specifically illustrate a key element icon 212 ' corresponding key element 300 ' have that system auditor 348 ' ratifies with a project 306 ' when associating highlighted, wherein this project 306 ' is the main body of CPEI report 110 '.

Figure 22 illustrates the CPEI data fields 362 ' being shown in key element owner's indicator and CPEI data fields Audit Report part 196 ' and can comprise a VIV icon 366 ' and be used for indicating corresponding CPEI data fields 362 ' to be puted on display 124 ' confirmation and individual authentications by an approved CPEI.

Figure 22 illustrates the primary CPEI356 ' with audit grade #3 evaluation 136 '.But, DVIVD event data coupling record of the audit 114 is designed in primary CPEI356 ' and two grades of artificial amounts 226 ', three grades of artificial amounts 228 ', automaticmanual amount 242 ', associates 244 ' and is in multiple audit ranking 132 ', 134 ' with automated reasoning, 136 ', 138 ', 140 '.

Figure 23 is a high line chart, and it specifically illustrates for providing the CPEI being directed to use with audit lamp indicator 198 ' #1 and the CPEI that audits to audit the parameter of Data Matching audit testing program 338 ' of DVIVD event data coupling record of the audit 114 ' of #2 Data Matching part of detecting 194 ' and program.

According to Figure 23, the test module 162 ' contrast of CPEI Data Matching comes from the CPEI data 156 ' of industrial data storage data base 104 ' and industry core database 106 '.This information is used by CPEI the first Data Audit program 128 ' and CPEI the second Data Audit program 150 ', therefore CPEI Data Matching test module 162 ' employ those be stored in industrial data storage data base 104 ' as described in contrast the CPEI exhibition 124 ' of means.

This CPEI Data Matching test module 162 ' be used to generate by include CPEI exhibition think reference a CPEI Data Matching test report 368 '.CPEI Data Matching test report 368 ' includes the audit lamp indicator 198 ' in the DVIVD event data coupling record of the audit 114 ' of CPEI audit #1 and CPEI audit #2 Data Matching part of detecting 194 '.It addition, the detail of CPEI Data Matching test report 368 ' is displayed in the coupling/mispairing information flip window 200 ' occurred when a reviewer overturns this coupling/mispairing lamp indicator 198 '.

Figure 24 illustrates an example of the primary CPEI356 ' with corresponding audit rank evaluation 132 ', 134 ', 136 ', 138 ', 140 '.Figure 24 is an extension of Figure 17, and wherein Figure 24 is according to showing many primary CPEI356 ' as follows virtually:

● a rank #2 primary CPEI218 ': when rank #2 rule 2 auditing procedures 142 ' be satisfied and by Figure 17 in define system auditor 348 ' approval time, primary CPEI356 ' will be reported together with 2 star icons 232 '.

● a rank #3 primary CPEI220 ': when rank #3 rule 3 auditing procedures 144 ' be satisfied and by Figure 17 in define system auditor 348 ' approval time, primary CPEI356 ' will be reported together with 3 star icons 234 '.

● a rank #4 primary CPEI222 ': when rank #4 rule 4 auditing procedures 146 ' be satisfied and by Figure 17 in define system auditor 348 ' approval time, primary CPEI356 ' will be reported together with 4 star icons 236 '.

● a rank #5 primary CPEI222 ': when rank #5 rule 5 auditing procedures 148 ' be satisfied and by Figure 17 in define system auditor 348 ' approval time, primary CPEI356 ' will be reported together with 5 star chart marks 238 '.

Figure 25 illustrates the example reported showing that two grades of artificial amounts 226 ' and three grades of artificial amounts 228 ' show.Figure 25 is the extension of Figure 28 and 29, and wherein Figure 25 shows two grades of artificial amounts 226 ' of the Data Audit program 334 ' result for defining in Figure 28 and 29 and three grades of artificial amounts 228 ' virtually:

● the display of two grades of artificial amounts 226 ': when key element 300 ' have go through to associate with the one of a primary key element 370 ' time, two grades of artificial amounts 226 ' will be selected with core and be reported together with mark icon 240 ', wherein this association supports that primary key element 370 ' realizes its primary CPEI356 ', as shown in Figure 28 and respective description.

● the display of three grades of artificial amounts 228 ': when key element 300 ' have go through to associate with the one of a two-stage elements 372 ' time, three grades of artificial amounts 228 ' will be selected with core and be reported together with mark icon 240 ', wherein this association assists two-stage elements 372 ' to realize its two grades of artificial amounts 226 ', as shown in Figure 29 and respective description.

Figure 26 illustrates display automaticmanual amount 242 ' and associates the example of the 244 ' reports shown with automated reasoning.Figure 26 is the extension of Figure 27 and 30, and wherein Figure 26 shows that the automaticmanual amount 242 ' of the Data Audit program 334 ' result for defining in Figure 27 and 30 associates 244 ' with automated reasoning virtually:

● automaticmanual amount 242 ', by according to the automaticmanual gauge defined in Figure 27 then 250 ', opens star icon 246 ' with one, and a profile of the star not being filled is reported together.

● automated reasoning association 244 ' then 376 ' will be reported according to the artificial gauge of automated reasoning defined in Figure 30.

Figure 27 illustrates the DVIVD ratified about automaticmanual amount 242 ' and mates auditing system and 5 star event data record methods thereof.

Figure 27 describes how this system and method confirms and verify automaticmanual amount 242 ' data in detail.These automaticmanual amounts 242 ' are in accordance with following automaticmanual gauge then 250 ':

● when a result of a cross-correlation 378 ' enters this system by key element 300 ' rather than the owner, automaticmanual amount 242 ' is automatically generated.This includes the report (Reporting) of automaticmanual amount 242 ' when project 306 ' enters the key element 300 ' worked thereon.

● automaticmanual amount 242 ' has to pass through an automaticmanual amount, manual or automatic, auditing procedure 248 ', although these automaticmanual amounts 242 ' are not yet through belonging to the key data auditing procedure 334 ' of primary CPEI356 '.

● automaticmanual amount 242 ' is reported together with opening star icon 246 ', its quantity depends on according to level rule auditing procedure 141 ', 142 ', 144 ', 146 ', 148 ' and be associated to and be shown in the quantity of key element 300 ' in automaticmanual amount 242 '.

● automaticmanual amount 242 ' can be generated by cross-correlation by system and method thereof.Such as, if a people 302 ' key element 300 ' inputs them in the upper target 308 ' key element used of project 306 ', this automaticmanual amount 242 ' of automatic reception is reported that it is used by people 302 ' in project 306 ' by this target 308 ' key element 300 '.

● when the project 306 ' for CPEI domain name weight (domainauthority) 309 ' have submitted a key element in project 306 ' with artificial amount 354 ', automaticmanual amount 242 ' can be reported together with the minimum of two key elements 300 '.

● when being implemented (fullfill) along with more factor data field 364 ' in automaticmanual amount 242 ', the quantity opening star icon 246 ' will increase.In other words, open star icon 246 ' will gather until all of factor data field 364 ' is implemented.

● automaticmanual amount 242 ' can not become primary CPEI356 ' until the CPEI owner 352 ' becomes an intrasystem participant and agrees to that this is manually before amount 354 '.Based on common recognition, automaticmanual amount 242 ' then will be limited by the Data Audit program 334 ' about primary CPEI356 '.

Figure 27 also describes those in detail for the confirmation of the automaticmanual amount 242 ' that then 250 ' define by automaticmanual gauge and proving program.Confirm and proving program include:

● system auditor 348 ' can pass through the audit #2 automaticmanual amount working plate screen interface 249 ' approval of DVIVD5 star or a refusal automaticmanual amount 242 '.This program have employed CPEI exhibition 124 ' and establish automaticmanual gauge then 250 as ratify means.CPEI exhibition 124 ' be stored in industrial data storage data base 104 ' and can by the owner of automaticmanual amount 242 ' or relate to automaticmanual amount other key elements 300 ' submit to.

If ● automaticmanual gauge, 250 ', star rule 252 ' is opened with one, 254 ', 256 ' are satisfied, automaticmanual amount 242 ' will as one go through automaticmanual amount 259 ' with corresponding open star icon 246 ' be stored in together industry core database 106 '.During this program, automaticmanual amount 242 ' can be considered primary CPEI356 ' or simply stay industry core database 106 ' as the automaticmanual amount 259 ' that goes through.

● if automaticmanual gauge, 250 ' are not satisfied, and automaticmanual amount 242 ' will be not approved for automaticmanual amount 260 ' as one and be stored in industry core database 106 ', and in this core database 106 ', it will remain in not state-event.

Figure 28 describes this DVIVD coupling auditing system in detail and how 5 star event data record methods confirm and verify two grades of artificial amounts 226 '.When such as next two grades of artificial gauge then 268 ' be satisfied time, these two grades of artificial amounts 226 ' are granted two-stage elements 372 ':

● when key element 300 ', it is also known as two-stage elements 372 ', when project 306 ' has the approved association with primary key element 370 ', two grades of artificial amounts 226 ' in project 306 ' can be based upon this system, and wherein two-stage elements 372 ' supports that primary key element 370 ' realizes its primary CPEI356 '.

● when being ratified by the owner of project 306 ', two grades of artificial amounts 226 ' will display one or two star icons 241 '；Ratifying without by the owner of project 306 ', display core is selected mark icon 240 ' by two grades of artificial amounts 226 '.

● when primary key element 370 ' is disapproved, two grades of artificial amounts 226 ' will not be shown.

Figure 28 also describes confirmation and the checking auditing procedure of two grades of artificial amounts 226 ' for being defined by this system and method thereof in detail, comprising:

● system auditor 348 ' can pass through the artificial amount working plate screen interface 267 ' approval of DVIVD5 star audit #2 bis-grades or two grades of artificial amounts 226 ' of refusal.This is a part for one or two grades of artificial amount auditing procedures 282, and these two grades artificial amount auditing procedures 282 have employed CPEI exhibition 124 ' and establish two grades of artificial gauges then 268 ' as the means ratified.CPEI exhibition 124 ' be stored in industrial data storage data base 104 ' and can by the owner of two grades of artificial amounts 226 ' or relate to two grades of artificial amounts 226 ' other key elements 300 ' submit to.

● two grades of artificial gauges then 268 ' include, but not limited to a general DVIVD rule 270 ', and a DVIVD audits hierarchy rules 272 ' and owner of the project's credit rule 274 ' (projectownercreditedrules).

● if two grades of artificial amounts 226 ' meet is wanted sum rule by what general DVIVD rule 270 ' defined, and these two grades artificial amounts 226 ' will be moved to DVIVD audit hierarchy rules 272 ' program.But, if general DVIVD rule 270 ' is not satisfied, be not approved for as one two grades of artificial amounts 276 ' are stored in industry core database 106 ' by two grades of artificial amounts 226 ', and in this industry core database 106 ', it keeps not state-event.

● if DVIVD audit hierarchy rules 272 ' is satisfied, and these two grades artificial amounts 226 ' will be moved to owner of the project's credit rule 274 ' program.But, if DVIVD audits, hierarchy rules 272 ' is not satisfied, and be not approved for as one two grades of artificial amounts 276 ' are stored in industry core database 106 ' by two grades of artificial amounts 226 ', and in this industry core database 106 ', it keeps not state-event.

● if owner of the project's credit rule 274 ' is satisfied, two grades ratified as star labelling artificial amounts 280 ' are stored in industry core database 106 ' by two grades of artificial amounts 226 ', and wherein two grades of artificial amounts 226 ' will be shown together with two star icons 241 '.

● if owner of the project's credit rule 274 ' is not satisfied, the two grades of credits 278 ' ratified as star labelling are stored in industry core database 106 ' by two grades of artificial amounts 226 ', wherein two grades of artificial amounts 226 ' will be selected with core and be shown together with mark icon 240 ', this represents, although going through but it not yet passes owner of the project's credit rule 274 '.

Figure 29 describes this DVIVD coupling auditing system in detail and how 5 star event data record methods confirm and verify three grades of artificial amounts 228 '.When such as next three grades of artificial gauge then 284 ' be satisfied time, these two grades of artificial amounts 228 ' are granted three grades of key elements 372 ':

● when key element 300 ', it is also known as three grades of key elements 374 ', with when the having an approved association of two-stage elements 372 ' with two grades of artificial amounts 226 ', three grades of artificial amounts 228 ' can be established, and wherein this approved association assists two-stage elements 372 ' to realize its two grades of artificial amounts 226 '.

● three grades of artificial amounts 228 ' must be ratified by the two-stage elements 372 ' of the main body as the two grades of artificial amounts 226 ' assisted by three grades of artificial amounts 228 '.When being ratified by this two-stage elements 372 ', display core is selected mark icon 240 ' by three grades of artificial amounts 228 '.

Figure 29 also describes confirmation and the checking auditing procedure of the three grades of artificial amounts 228 ' defined for this system and method thereof in detail, and this confirmation and proving program include:

● system auditor 348 ' can pass through three grades of artificial amount working plate screen interfaces 283 ' approvals of a DVIVD5 star audit or two grades of artificial amounts 226 ' of refusal.This is a part for one or three grades of artificial amount auditing procedures 286 ', and these three grades artificial amount auditing procedures 286 ' have employed CPEI exhibition 124 ' and establish three grades of artificial gauges then 284 ' as the means ratified.CPEI exhibition 124 ' be stored in industrial data storage data base 104 ' and can by the owner of three grades of artificial amounts 228 ' or relate to three grades of artificial amounts 228 ' other key elements 300 ' submit to.

● three grades of artificial gauges then 284 ' include, but not limited to a general DVIVD rule 270 ', and DVIVD audits hierarchy rules 272 ' and owner of the project's credit rule 274 ' (projectownercreditedrules).

● if three grades of artificial amounts 228 ' meet is wanted sum rule by what general DVIVD rule 270 ' defined, and these three grades artificial amounts 228 ' will be moved to DVIVD audit hierarchy rules 272 ' program.But, if general DVIVD rule 270 ' is not satisfied, be not approved for as one three grades of artificial amounts 290 ' are stored in industry core database 106 ' by three grades of artificial amounts 228 ', and in this industry core database 106 ', it keeps not state-event.

● if DVIVD audit hierarchy rules 272 ' is satisfied, and these three grades artificial amounts 228 ' will be moved to owner of the project's credit rule 274 ' program.But, if DVIVD audits, hierarchy rules 272 ' is not satisfied, and be not approved for as one three grades of artificial amounts 290 ' are stored in industry core database 106 ' by three grades of artificial amounts 228 ', and in this industry core database 106 ', it keeps not state-event.

● if owner of the project's credit rule 274 ' is satisfied, three grades ratified as star labelling artificial amounts 294 ' are stored in industry core database 106 ' by three grades of artificial amounts 228 ', and wherein three grades of artificial amounts 228 ' will be reported to indicate its sanctions status together with three-star icon 243 '.

● if owner of the project's credit rule 274 ' is not satisfied, three grades ratified as star labelling artificial amounts 292 ' are stored in industry core database 106 ' by three grades of artificial amounts 228 ', this represents, although going through but it not yet passes owner of the project's credit rule 274 '.

Figure 30 describes the concrete DVIVD coupling auditing system and the 5 star event data record methods thereof that associate 224 ' about automated reasoning.Automated reasoning correlation rule 376 ' includes, but not limited to as follows:

1, when two key elements 100 ' in system enter a regular stages time point 310 ' one common (common) project 306 ' on there is a manually amount event 296 ' of artificial amount 354 ' time, automated reasoning association 244 ' is automatically generated by this system.

2, these automated reasonings association 244 ' is not stored in the form in industry core database 106 '；They are dynamically generated based on automated reasoning correlation rule 376 ' by system.

3, these automated reasonings association 244 ' is taken as not authenticated association.

4, only independent key element 300 ', project 306 ', can be attributed to, with phases-time point 310 ', the data fields that those automated reasonings associate in 244 '.

5, this system by adopt one automated to respond to technology with contact (contact) automated reasoning association 244 ' in key element 300 ' thus confirm and checking reasoning 298 ' data time seek cooperate.

If when 6 automated reasoning associations 244 ' are confirmed by the key element 300 ' in automated reasoning association 244 ' (confirmed), key element 300 ' may call for it and is converted into primary CPEI356 ' in using the CPEI exhibition 124 ' the various Data Audit program 334 ' processes with checking and confirmation data.

If 7 automated reasoning associations 244 ' are verified in Data Audit program 334 ' process, approved association will enter industry core database 106 '.

With reference to Figure 31-57, the dynamic approach of the present invention is the method based on Computer Database formula of a dynamic realtime of operation in a Base search system, when this Base search system is asked, project from Formula Input Technology is manually measured the data of incident report data and storage be combined into the CPEI that formulation function interacts and show, key element is primary, two grades, three grades, automaticmanual amount associates hyperlink with relating to the CPEI automated reasoning associated, whether trusted by an owner of the project no matter these are manually measured, no matter also these artificial artificial amount event datas whether being inputted by a key element or being transfused to from other of measuring generate.

Figure 31 illustrates a general survey of system data flow, relevant with " formulation integration project manually measures affair displaying method and search system program thereof " according to present pre-ferred embodiments due to it.It includes an industry core database 100 ", this industry core database 100 " include a base table 314 ", data check module 104 ", CPEI data check (Virtual table) 106 ", and a virtual formulation data matrix module 320 ".

By a CPEI data generation module 108 "; CPEI data 322 " by from industry core database 100 " and a virtual formulation data matrix 102 of a part " in generate, build a vertical CPEI report rule 324 jointly with responder "; each publicity formal language semantic basis; formal grammar, and CPEI report display rule 550 " CPEI request of data (inquiry) module 110 " ask.

It addition, a formulation CPEI report 100 ", 190 ", 192 "; 194 ", 196 ", 198 " and, 200 "; 202 ", 204 ", 206 " and, 208 "; 210 ", 246 ", 252 " and, 258 "; 264 ", 270 ", 272 ", 274 ", or 276 " by a CPEI reporting system (module) 114 " reported, with response by CPEI request of data (inquiry) module 110 " the inquiry request 328 that generates ".CPEI request of data (inquiry) module 110 " ask by a CPEI data search engine (module) 112 " drive.

Figure 32 illustrates a key element 101 of " formulate the project that artificial amount event combines and manually measure display method for reporting and system thereof " of relating to present pre-ferred embodiments " and one manually measure event 186 " association ability.

According to Figure 32, one " project formulating the combination of artificial amount event manually measures display method for reporting and system thereof " includes key element 101 " and as an element relationship and attribute data 105 " (170 "; 172 ", 174 "; 176 ", 178 ", 180 ", 182 ") also having a stage time point 128 " value enters the data of this system and method thereof.Described key element 101 " data according to one who for Whom done what formula 103 " be entered, storage, and report, as shown in Figure 37,38,39,40.

Key element 101 " people (PP) 116 can be included, but not limited to ", a place (PL) 118 ", a project (PR) 120 ", a target (OB) 124 " and, a stage time point (PiPT) 128 ".

Element relationship and attribute data 105 " (170 ", 172 ", 174 ", 176 ", 178 ", 180 "; 182 ", 184 ") include resume (profile) or biographic information (biographicalinformation); such as physical characteristic, educational information, could and skill data; bonus data, relation information, item types; publication date, phases-time point 128 " start and the date of expiry, and specific factor 101 " other attribute.

Figure 32 also illustrates key element 101 " between association use one formula association data value 115 " be formed in system.According to system convention, key element 101 " by being defined as key element 101 " in project 120 " and on artificial amount 153 " the data value of specific formulation association and project (PR) 120 " be associated.Artificial amount 153 " illustrate in the carrying out an of end product by key element 101 " spend in project (PR) 120 " and on one play (or use of energy).They include:

● project (PR) 120 " upper people (PP) 116 " manually measure 153 "=role 154 "

● project (PR) 120 " upper place (PL) 118 " manually measure 153 "=service 156 "

● project (PR) 120 " the next item up order 2 (PR2) 122 " manually measure 153 "=project is to project 2PR-PR (contribution) 158 "

● project (PR) 120 " upper target (OB) 124 " manually measure 153 "=application 160 "

Figure 33 illustrates the association performance of " project formulating the combination of artificial amount event manually measures display method for reporting and system thereof ", and it relates in report formulation CPEI report 188 ", 190 ", 192 "; 194 ", 196 ", 198 " and, 200 "; 202 ", 204 ", 206 " and, 208 "; 210 ", 246 ", 252 ", 258 ", 264 ", 270 "; 272 ", 274 ", 276 " and the middle virtual formulation data matrix 102 used ".

Figure 33 establishes and includes manually amount event 186 " this system and method further include at phases-time point (PiPT) 128 " time project (PR) 120 " upper key element 101 " by its artificial amount 153 " interrelated.Figure 33 further illustrates phases-time point 128 ", with a virtual five elements 101 ", and with key element 101 " between interrelated in a necessary parts.

Figure 33 also illustrates following association can in key element 101 " between constitute, wherein phases-time point 128 " value be used to represent association occur time during:

● people is to item association (role) 154 "=formula association data value 115 " define to phases-time point (PiPT) 128 " go up " people (PP) 116 " in project (PR) 120 " and on what has done ".

● place is to item association (service) 160 "=formula association data value 115 " define to phases-time point (PiPT) 128 " go up " place (PL) 118 " in project (PR) 120 " and on what has done ".

● target is to item association (application) 160 "=formula association data value 115 " 0 define to phases-time point (PiPT) 128 " go up " target (OB) 124 " in project (PR) 120 " and on what has done ".

● people to place associate (PP-PLASSOC) 138 "=formula association data value 115 " at phases-time point (PiPT) 128 given " and on by people (PP) 116 " be bound to place (PL) 118 "

● people is to target association (PP-PLASSOC) 142 "=formula association data value 115 " at phases-time point (PiPT) 128 given " and on by people (PP) 116 " be bound to target (OB) 124 "

● place is to target association (PP-OBASSOC) 148 "=formula association data value 115 " at phases-time point (PiPT) 128 given " and on by place (PL) 118 " be bound to target (OB) 124 ".

● project 2 is associated (contribution) 158 by project "=formula association data value 115 " define to phases-time point (PiPT) 128 " go up " project 2 (PR2) 122 " in project (PR) 120 " and on what has done.

Figure 34 is a schematic diagram, illustrate be stored according to present pre-ferred embodiments " formulate artificial amount event combine project manually measure display method for reporting and system " virtual formulation data matrix 102 " in two key elements 101 " association.

As illustrated in Figure 34, this system and method includes two key elements 101 " relational structure.This two key element 101 " relational structure used to create in artificial amount event 186 by this system " in the more complicated association that uses:

● Human To Human associates (PP-PPASSOC) 136 "---betide two people 116 " key element 101 " by with the input of interrelated form and by when storage.This association is stored in corresponding base table 314 " in.

● place is associated (PL-PLASSOC) 144 by place "---betide two places 118 " key element 101 " by with the input of interrelated form and by when storage.This association is stored in corresponding base table 314 " in.

● project is to item association (contribution) 158 "---betide two projects 120 " key element 101 " by with the input of interrelated form and by when storage.This association is stored in corresponding base table 314 " in.

● target is to target association (OB-OBASSOC) 150 "---betide two targets 124 " key element 101 " by with the input of interrelated form and by when storage.This association is stored in corresponding base table 314 " in.

● place is associated (PP-PLASSOC) 138 by people "---betide people 116 " key element 101 " and place 118 " key element 101 " by with the input of interrelated form and by when storage.This association is stored in corresponding base table 314 " in.

● people is to target association (PP-OBASSOC) 142 "---betide people 116 " key element 101 " and target 124 " key element 101 " by with the input of interrelated form and by when storage.This association is stored in corresponding base table 314 " in.

● people is to item association (role) 154 "---betide people 116 " key element 101 " and project 120 " key element 101 " by with the input of interrelated form and by when storage.This association is stored in corresponding base table 314 " in.

● place is to target association (PL-OBASSOC) 148 "---betide place 118 " key element 101 " and target 124 " key element 101 " by with the input of interrelated form and by when storage.This association is stored in corresponding base table 314 " in.

● place is to item association (service) 156 "---betide place 118 " key element 101 " and project 120 " key element 101 " by with the input of interrelated form and by when storage.This association is stored in corresponding base table 314 " in.

Figure 35 is a schematic diagram, illustrate be stored according to present pre-ferred embodiments " formulate artificial amount event combine project manually measure display method for reporting and system " virtual formulation data matrix 102 " in three elements 101 " association.

According to Figure 35, this system and method includes below in conjunction with two key elements 101 " three elements 101 of relational structure " relational structure.These three elements 101 " relational structure used to create at virtual formulation data matrix 102 by this system " in artificial amount event 186 " in the more complicated association that uses:

● a people to place to target association (PP-PL-OBASSOC) 152 "---betide PP-OB association 142 " associate 148 with PL-OB " and combine when.This PP-PL-OB association 152 " include share target 124 " key element 101 ", wherein target 124 " key element 101 " by place 118 " key element 101 " on people 116 " key element 101 " " use ".

● a people to project to target association (PP-PR-OBASSOC) 162 "---betide PP-PR associate (role) 154 " associate (application) 160 with PR-OB " and combine when.This PP-PR-OB association 162 " include share project 120 " key element 101 ", wherein target 124 " key element 101 " by project 120 " key element 101 " on people 116 " key element 101 " " use ".

● a place to project to target association (PL-PR-OBASSOC) 164 "---betide PL-PR associate (service) 156 " associate (application) 160 with PR-OB " and combine when.This PL-PR-OB association 164 " include share project 120 " key element 101 ", wherein target 124 " key element 101 " by project " key element 101 " on place 118 " key element 101 " " use ".

● a people to project to place associate (PP-PR-PLASSOC) 166 "---betide PP-PR associate (role) 154 " associate (service) 156 with PL-PR " and combine when.This PP-PR-PL association 166 " include sharing project 120 " key element 101 ", wherein said people 116 " key element 101 " in place 118 " key element 101 " on project 120 " key element 101 " upper perform artificial amount 153 ".

Figure 35 also illustrates three elements 101 " relational structure is by being stored in virtual formulation data matrix 102 " in the data value 115 of formulation association " key element 101 bound " form.

Figure 36 illustrate be stored according to present pre-ferred embodiments " formulate artificial amount event combine project manually measure display method for reporting and system " virtual formulation data matrix 102 " in four key elements 101 " association.

According to Figure 36, this system and method includes below in conjunction with three elements 101 " four key elements 101 of relational structure " relational structure.When with phases-time point (PiPT) 128 " value binding time, this four key element 101 " relational structure becomes virtual formulation data matrix 102 " in artificial amount event 186 ":

● a people to place to project to place associate (PP-PL-PR-OBASSOC) 168 "---betide PP-PR-OB association 162 " associate 152 with PP-PL-OB " and combine when; wherein this new association is based on shared project 120 " key element 101 ", people 116 " key element 101 " employ in project 120 " key element 101 " on place 118 " key element 101 " and on target 124 " key element 101 ".In four key elements 101 " all key elements 101 of using in relational structure " be stored in virtual formulation data matrix 102 " and in the data value 115 of formula association " bind together.

Figure 37 is a schematic diagram, illustrate artificial amount event 186 " how be from by phases-time point (PiPT) 128 " four key elements 101 that bind together " and relational structure combination created; wherein artificial amount event 186 " be used to from the CPEI report rule 324 set up " generate primary human CPEI188 " report, these primary human CPEI188 " report includes formulation primary data field 330 ".

Specifically, Figure 37 sets up based on Fig. 4-6, by defining people CPEI188 " how report be from including as follows by phases-time point (PiPT) 128 " key element 101 that binds together " the artificial amount event 186 that associates " be generated:

● people associates:

Human To Human (PP-PP) 136 "

People is to place (PP-PL) 138 "

People is to target (PP-OB) 142 "

People is to project (role) 154 "

● place associates:

Place is to place (PL-PL) 144 "

Place is to target (PL-OB) 148 "

Place is to project (service) 156 "

● target association:

Target is to target (OB-OB) 150 "

Target is to project (application) 160 "

According to Figure 37, artificial amount event 186 " can people 116 " key element 101 " (owner) at phases-time point (PiPT) 128 given " on project 120 " on there is artificial amount 153 " time from the angle 332 of a people " be generated.Artificial amount 153 " for people to item association PP-PR (role) 154 ", that illustrate carrying out in process by people 116 at a product " spend in project 120 " on one play (or energy use).

Figure 37 has also set up artificial amount event 186 "; it includes the data set of association of uncorrelated key element 101 data, and uncorrelated key element 101 data are by phases-time point (PiPT) 128 given " on general item 120 " on artificial amount 153 " bind together.

According to Figure 37, primary human CPEI188 " report comes from and is reported according to for people 116 " the CPEI report rule 324 set up " and virtual formulation data matrix 102 " in described artificial amount event 186 ".For people 116 " CPEI report rule 324 " establish primary place CPEI190 " report will report:

● whose (WHO) 410 "---people 116 " (owner)

● it is any (WHAT) 412 "---(role) 154 "

● for whom (WHOM) 413 "---project 120 " owner

● where (WHERE) 416 "---place 118 "

● why (WHY) 414 "---project 120 "

● with how (HOW) 418 "---target 124 "

● about when (WHEN) 420 "---phases-time point (PiPT) 128 "

It is recognized that artificial amount event 186 " be dynamic from setting up primary human CPEI188 every time " report the system of a data fields and reported.For inserting the data of (populate) CPEI from key element 101 " association and element relationship and attribute data 105 " acquisition, element relationship and attribute data 105 " relation data 170 of a people can be included ", the relation data 172 in one place "; the relation data 174 of a project ", the relation data 176 of one target ", the attribute data 178 of a people ", the attribute data 180 in a place "; the attribute data 182 of a project ", the attribute data 184 of a target ".

Figure 38 is a schematic diagram, illustrate artificial amount event 186 " be how to create by phases-time point (PiPT) 128 " four key elements 101 that bind together " relational structure; wherein artificial amount event 186 " be used to from the CPEI report rule 324 set up " generate a primary place CPEI190 " report, these primary place CPEI190 " report includes formulation primary data field 330 ".

Specifically, Figure 38 sets up based on Fig. 4-6, by defining place CPEI190 " how display be from as follows by phases-time point (PiPT) 128 " key element 101 that binds together " the artificial amount event 186 of association composition " be generated:

● people associates:

Human To Human (PP-PP) 136 "

People is to place (PP-PL) 138 "

People is to target (PP-OB) 142 "

People is to project (role) 154 "

● place associates:

Place is to place (PL-PL) 144 "

Place is to target (PL-OB) 148 "

Place is to project (service) 156 "

● target association:

Target is to target (OB-OB) 150 "

Target is to project (application) 160 "

According to Figure 38, artificial amount event 186 " can in place 118 " key element 101 " (owner) at phases-time point (PiPT) 128 given " on project 120 " on there is artificial amount 153 " time from the angle 334 in a place " be generated.Artificial amount 153 " for service 156 ", that illustrate carrying out in process by place 118 at a product " spend in project 120 " on one play (or energy use).

Figure 38 has also set up artificial amount event 186 "; it includes the data set of association of uncorrelated key element 101 data, and uncorrelated key element 101 data are by phases-time point (PiPT) 128 given " on general item 120 " on artificial amount 153 " bind together.

According to Figure 38, the primary CPEI190 in a place " report comes from and is reported according to for place 118 " the CPEI report rule 324 set up " and virtual formulation data matrix 102 " in described artificial amount event 186 ".For place 118 " CPEI report rule 324 " establish primary place CPEI190 " report will report:

● where (WHERE) 416 "---place 118 " (owner)

Be what (WHAT) 412 "---place 118 " the owner manually measure 153 " (service) 156 "

● whose (WHO) 410 "---people 116 "

● it is what * (WHAT) 428 "---people 118 " manually measure 153 " (role) 154 "

● for whom (WHOM) 413 "---project 120 " owner

● a where * (WHERE) 424 "---place 2132 "

● why (WHY) 414 "---project 120 "

● (HOW) 418 with how "---target 124 "

● (WHEN) 420 about when "---phases-time point (PiPT) 128 "

It is recognized that artificial amount event 186 " be dynamic from setting up primary place CPEI190 every time " report the system of a data fields and reported.It is from key element 101 for inserting the data of (populate) CPEI " associate and element relationship and attribute data 105 " (170 ", 172 ", 174 " and, 176 ", 178 " and, 180 ", 182 " and, 184 ") middle acquisition.

Figure 39 is a schematic diagram, illustrate artificial amount event 186 " be how from phases-time point (PiPT) 128 " four key elements 101 that bind together " relational structure is created; wherein artificial amount event 186 " be used to from the CPEI report rule 324 set up " generate a primary project CPEI192 " report, these primary project CPEI192 " report includes formulation primary data field 330 ".

Specifically, Figure 39 sets up based on Fig. 4-6, by defining project CPEI192 " how display be from by as follows by phases-time point (PiPT) 128 " key element 101 that binds together " event 186 of manually measuring that form of association " be generated:

● people associates:

Human To Human (PP-PP) 136 "

People is to place (PP-PL) 138 "

People is to target (PP-OB) 142 "

People is to project (role) 154 "

● place associates:

Place is to place (PL-PL) 144 "

Place is to target (PL-OB) 148 "

Place is to project (service) 156 "

● target association:

Target is to target (OB-OB) 150 "

Target is to project (application) 160 "

According to Figure 39, artificial amount event 186 " can in project 120 " key element 101 " (owner) at phases-time point (PiPT) 128 given " on another project 122 " on there is artificial amount 153 " time from the angle 336 of a project " be generated.Artificial amount 153 " for contribution 158 ", that illustrate carrying out in process by project 120 at a product " spend in another project 122 " on one play (or energy use).

Figure 39 has also set up artificial amount event 186 "; it includes the data set of association of uncorrelated key element 101 data, and uncorrelated key element 101 data are by phases-time point (PiPT) 128 given " on general item 120 " on artificial amount 153 " bind together.

According to Figure 39, a primary project CPEI192 " report comes from and is reported according to for project 120 " the CPEI report rule 324 set up " and virtual formulation data matrix 102 " in described artificial amount event 186 ".For project 120 " CPEI report rule 324 " the primary project CPEI192 that sets up " report will report:

● why (WHY) 414 "---project 120 " (owner)

Be what (WHAT) 412 "---project 120 " the owner manually measure 153 " (contribution) 158 "

● whose (WHO) 410 "---people 116 "

● it is what * (WHAT) 428 "---people 116 " manually measure 153 " (role) 154 "

● for whom (WHOM) 413 "---project 2122 " owner

● where (WHERE) 416 "---place 118 "

● why * (WHY) 422 "---project 2122 "

● (HOW) 418 with how "---target 124 "

● (WHEN) 420 about when "---phases-time point (PiPT) 128 "

It is recognized that artificial amount event 186 " be dynamic from setting up primary project CPEI192 every time " report the system of a data fields and reported.It is from key element 101 for inserting the data of (populate) CPEI " associate and element relationship and attribute data 105 " (170 ", 172 ", 174 " and, 176 ", 178 " and, 180 ", 182 " and, 184 ") middle acquisition.

Figure 40 is a schematic diagram, illustrate artificial amount event 186 " be how from phases-time point (PiPT) 128 " four key elements 101 that bind together " relational structure is created; wherein artificial amount event 186 " be used to from the CPEI report rule 324 set up " generate a Primary objectives CPEI194 " report, these Primary objectives CPEI194 " report includes formulation primary data field 330 ".

Specifically, Figure 40 sets up based on Fig. 4-6, by defining target CPEI194 " how display be from by as follows by phases-time point (PiPT) 128 " key element 101 that binds together " event 186 of manually measuring that form of association " be generated:

● people associates:

Human To Human (PP-PP) 136 "

People is to place (PP-PL) 138 "

People is to target (PP-OB) 142 "

People is to project (role) 154 "

● place associates:

Place is to place (PL-PL) 144 "

Place is to target (PL-OB) 148 "

Place is to project (service) 156 "

● target association:

Target is to target (OB-OB) 150 "

Target is to project (application) 160 "

According to Figure 40, artificial amount event 186 " can in target 124 " key element 101 " (owner) at phases-time point (PiPT) 128 given " on project 120 " on there is artificial amount 153 " time from the angle 338 of a target " be generated.Artificial amount 153 " for application 160 ", that illustrate carrying out in process by target 124 at a product " spend in project 120 " on one play (or energy use).

Figure 40 has also set up artificial amount event 186 "; it includes the data set of association of uncorrelated key element 101 data, and uncorrelated key element 101 data are by phases-time point (PiPT) 128 given " on general item 120 " on artificial amount 153 " bind together.

According to Figure 40, a Primary objectives CPEI194 " report comes from and is reported according to for target 124 " the CPEI report rule 324 set up " and virtual formulation data matrix 102 " in described artificial amount event 186 ".For target 124 " CPEI report rule 324 " the Primary objectives CPEI194 that sets up " report will report:

● how (HOW) 418 "---target 124 " (owner)

It is any (WHAT) 412 "---target 124 " possessory artificial amount 153 " (application) 160 "

● whose (WHO) 410 "---people 116 "

● for whom (WHOM) 413 "---project 120 " owner

● where (WHERE) 416 "---place 118 "

● why (WHY) 414 "---project 120 "

● the * (HOW) 426 with how "---target 2134 "

● (WHEN) 420 about when "---phases-time point (PiPT) 128 "

It is recognized that artificial amount event 186 " be dynamic from setting up Primary objectives CPEI194 every time " report the system of a data fields and reported.It is from key element 101 for inserting the data of (populate) CPEI " associate and element relationship and attribute data 105 " (170 ", 172 ", 174 " and, 176 ", 178 " and, 180 ", 182 " and, 184 ") middle acquisition.

Figure 41 is a schematic diagram, that illustrate one or two grades of people CPEI196 " report it how is by being suitable for the association 228 of people for the one of two grades of artificial amounts " be generated, this is used for the one of two grades of artificial amounts and is suitable for the association 228 of people " there is primary human 116 " key element 101 ", this primary human 116 " key element 101 " there is primary human CPEI188 ".

Figure 41 sets up based on Figure 37, by defining two grades of owners 212 of a people " it is associated to primary human 116 by a person-to-person association (PP-PPASSOC) ", wherein this person-to-person association (PP-PPASSOC) is stored in virtual formulation data matrix 102 ".

Two grades of owners 212 a people " have relate to primary human 116 " for two grades of artificial amounts one be suitable for people association 228 " time; two grades of owners 212 of this people " key element 101 " two grade people CPEI196s can be awarded ", wherein primary human 116 " primary human CPEI188 has been awarded ", two grades of owners 212 of people " for two grades of artificial amounts one be suitable for people association 228 " contribute to primary human 116 " realize its primary human CPEI188 ".

According to Figure 41, the above-mentioned association 228 being suitable for people for the one of two grades of artificial amounts " be one through two grades of artificial amounts 229 of careful consideration ", wherein said two grades of artificial amounts 229 " for being stored in base table 314 " in the data value 115 of formula association ".

According to Figure 41, two grades of people CPEI196 " report comes from and is reported in two grades of owners 212 of people " key element 101 " and with primary human 116 " key element 101 " and between one associate, wherein store primary human CPEI188 " artificial amount event 186 " with by the two of people grades of owners 212 " be bound to primary human 116 " and the association 228 of the applicable people being used for two grades of artificial amounts " together be updated.

Figure 41 also illustrates, two grades of people CPEI196 " report be reported in virtual formulation data matrix 102 ", this virtual formulation data matrix 102 " be according to for two grades of people CPEI196 " CPEI report rule 324 ", these two grades of people CPEI196 " report include:

● one who 430 " (second)---two grades of owners 212 of people "

● done one what 432 " (second)---be suitable for the association 228 of people " (two grades of artificial amounts 229 ")

● one when 434 " (second)---for two grades of artificial amounts 229 " phases-time point (PiPT) 128 "

Support (insupportof)

● who is 410 years old "---primary human 116 " (two grades of people CPEI188 " the owner)

● done what 412 "---manually measure 153 " (role) 154 "

● for whom 413 "---primary project 120 " owner

● where 416 "---primary place 118 "

● why 414 "---primary project 120 "

● and how 418 "---Primary objectives 124 "

● about when 420 "---phases-time point (PiPT) 128 "

Figure 41 also informs this system and method includes following rule, and these rules are for ratifying at two grades of people CPEI196 " the middle association 228 being suitable for people for the one of two grades of artificial amounts used ":

● in order to create two grades of people CPEI196 ", primary human CPEI188 " must pre-exist

● primary human 116 " key element 101 " ratify need of itself and the two of people grades of owners 212 " and between for two grades of artificial amounts one be suitable for people associate 228 "

● two grades of artificial amounts 229 " can receive primary human 116 at it " key element 101 " and for two grades of artificial amounts one be suitable for people association 228 " when be established

● for primary human CPEI188 " project 120 of main body " the owner can disapprove two grades of artificial amounts 229 ".

● two grades of owners 212 of people " must provide for some type of evidence (such as a file or data) with confirm they to primary human 116 " key element 101 " and for two grades of artificial amounts one be suitable for people association 228 "

Figure 42 is a schematic diagram, that illustrate one or two grades of place CPEI198 " report be how by one for the association 230 in the applicable place of two grades of artificial amounts " be generated, this is used for the association 230 in applicable place of two grades of artificial amounts " there is primary human 116 " key element 101 ", this primary human 116 " key element 101 " there is primary human CPEI188 ".

Figure 42 sets up based on Figure 38, define two grades of owners 214 in a place " by the people association (PP-PLASSOC) 138 to place " it is associated to primary human 116 " key element, wherein this people association (PP-PLASSOC) 138 to place " it is stored in virtual formulation data matrix 102 ".

Two grades of owners 214 in a place " have primary human 116 " the association 230 in applicable place for two grades of artificial amounts " time; two grades of owners 214 in this place " key element 101 " two grade place CPEI198s can be awarded ", wherein primary human 116 " primary human CPEI188 has been awarded ", two grades of owners 214 in place " the association 230 in applicable place for two grades of artificial amounts " contribute to primary human 116 " realize its primary human CPEI188 ".

According to Figure 42, the association 230 in the above-mentioned applicable place for two grades of artificial amounts " for two grades of artificial amounts 229 through careful consideration ", wherein said two grades of artificial amounts 229 " for being stored in base table 314 " in the data value 115 of formula association ".

According to Figure 42, two grades of place CPEI198 " report comes from and is reported in two grades of owners 214 in place " key element 101 " and with primary human 116 " key element 101 " and between one associate, wherein store primary human CPEI188 " artificial amount event 186 " with by the two of place grades of owners 214 " be bound to primary human 116 " and the association 230 in the applicable place being used for two grades of artificial amounts " together be updated.

Figure 42 also illustrates, two grades of place CPEI198 " report be reported in virtual formulation data matrix 102 ", this virtual formulation data matrix 102 " be according to for two grades of place CPEI198 " CPEI report rule 324 ", these two grades of place CPEI198 " report include:

● one where 436 " (second)---two grades of owners 214 in place "

● done one what 432 " (second)---be suitable for the association 230 in place " (two grades of artificial amounts 229 ")

● when 434 " (second)---for two grades of artificial amounts 229 " phases-time point (PiPT) 128 "

Support (insupportof)

● done what 412 "---manually measure 153 " (role) 154 "

● for whom 413 "---primary project 120 " owner

● where 416 "---primary place 118 "

● why 414 "---primary project 120 "

● and how 418 "---Primary objectives 124 "

● about when 420 "---phases-time point (PiPT) 128 "

Also can learn that according to Figure 42 this system and method thereof include following rule, these rules for approval at two grades of place CPEI198 " in the association 230 in applicable place for two grades of artificial amounts that uses ":

● in order to create two grades of place CPEI198 ", primary human CPEI188 " must pre-exist

● primary human 116 " key element 101 " ratify need of itself and the two of place grades of owners 214 " and between for two grades of artificial amounts applicable place associate 230 "

● two grades of artificial amounts 229 " can receive primary human 116 at it " key element 101 " and the association 230 in applicable place for two grades of artificial amounts " when be established

● two grades of owners 214 in place " must provide for some type of evidence (such as a file or data) with confirm they to primary human 116 " key element 101 " and the association 230 in applicable place for two grades of artificial amounts "

Figure 43 is a schematic diagram, that illustrate a secondary items CPEI200 " report be how by one for the association 232 of the applicable project of two grades of artificial amounts " be generated, this is used for the association 232 of applicable project of two grades of artificial amounts " there is primary project 120 " key element 101 ", this primary project 120 " key element 101 " there is primary project CPEI192 ".

Figure 43 sets up based on Figure 39, define two grades of owners 216 of a project " associate (contribution) 158 by a project and project " be associated to primary project 120 " key element, wherein this project and project associate (contribution) 158 " be stored in virtual formulation data matrix 102 ".

Two grades of owners 216 in a project " have primary project 120 " the association 232 of the applicable project for two grades of artificial amounts " time; two grades of owners 216 of this project " key element 101 " a secondary items CPEI200 can be awarded ", wherein primary project 120 " primary project CPEI192 has been awarded ", two grades of owners 216 of project " the association 232 of the applicable project for two grades of artificial amounts " contribute to primary project 120 " realize its primary project CPEI192 ".

According to Figure 43, the association 232 of the above-mentioned applicable project for two grades of artificial amounts " for two grades of artificial amounts 229 through careful consideration ", wherein said two grades of artificial amounts 229 " for being stored in base table 314 " in the data value 115 of formula association ".

According to Figure 43, secondary items CPEI200 " report comes from and is reported in two grades of owners 216 of project " key element 101 " and with primary project 120 " key element 101 " and between one associate, wherein store primary project CPEI192 " artificial amount event 186 " with by two grades of owners 216 of project " be bound to primary project 120 " and the association 232 of the applicable project being used for two grades of artificial amounts " together be updated.

Figure 43 also illustrates, secondary items CPEI200 " report be reported in virtual formulation data matrix 102 ", this virtual formulation data matrix 102 " be according to for secondary items CPEI200 " CPEI report rule 324 ", this secondary items CPEI200 " report include:

● one why in 438 " (second)---two grades of owners 216 of project "

● done what 432 " (second)---be suitable for the association 232 of project " (two grades of artificial amounts 229 ")

Support (insupportof)

● done what 412 "---manually measure 153 " (role) 154 "

● for whom 413 "---primary project 120 " owner

● where 416 "---primary place 118 "

● why 414 "---primary project 120 "

● and how 418 "---Primary objectives 124 "

● about when 420 "---phases-time point (PiPT) 128 "

Also can learn that according to Figure 43 this system and method thereof include following rule, these rules for approval at secondary items CPEI200 " in the association 232 of applicable project for two grades of artificial amounts that uses ":

● in order to create secondary items CPEI200 ", primary project CPEI192 " must pre-exist

● primary project 120 " key element 101 " ratify need of two grades of owners 216 of its and project " and between the applicable project being used for two grades of artificial amounts associate 232 "

● two grades of artificial amounts 229 " can receive primary project 120 at it " key element 101 " and the association 232 of the applicable project for two grades of artificial amounts " when be established

● for primary project CPEI192 " the primary project 120 of main body " the owner can disapprove two grades of artificial amounts 229 ".

● two grades of owners 216 of project " must provide for some type of evidence (such as a file or data) with confirm they to primary project 120 " key element 101 " and the association 232 of the applicable project for two grades of artificial amounts "

Figure 44 is a schematic diagram, that illustrate a Secondary objective CPEI202 " report be how by one for the association 234 of the applicable target of two grades of artificial amounts " be generated, this is used for the association 234 of applicable target of two grades of artificial amounts " there is primary human 116 " key element 101 ", this primary human 116 " key element 101 " there is primary human CPEI188 ".

Figure 44 sets up based on Figure 40, define two grades of owners 218 of a target " by the people association (PP-OBASSOC) 142 to target " it is associated to primary human 116 " key element, wherein this people association (PP-OBASSOC) 142 to target " it is stored in virtual formulation data matrix 102 ".

Two grades of owners 218 of a target " have primary human 116 " the association 234 of applicable target for two grades of artificial amounts " time; two grades of owners 218 of this target " key element 101 " a Secondary objective CPEI202 can be awarded ", wherein primary human 116 " primary human CPEI188 has been awarded ", two grades of owners 218 of target " the association 234 of applicable target for two grades of artificial amounts " contribute to primary human 116 " realize its primary human CPEI188 ".

According to Figure 44, the association 234 of the above-mentioned applicable target for two grades of artificial amounts " for two grades of artificial amounts 229 through careful consideration ", wherein said two grades of artificial amounts 229 " for being stored in base table 314 " in the data value 115 of formula association ".

According to Figure 44, Secondary objective CPEI202 " report comes from and is reported in two grades of owners 218 of target " key element 101 " and with primary human 116 " key element 101 " and between one associate, wherein store primary human CPEI188 " artificial amount event 186 " with by two grades of owners 218 of target " be bound to primary human 116 " and the association 234 of the applicable target being used for two grades of artificial amounts " together be updated.

Figure 44 also illustrates, Secondary objective CPEI202 " report be reported in virtual formulation data matrix 102 ", this virtual formulation data matrix 102 " be according to for Secondary objective CPEI202 " CPEI report rule 324 ", this Secondary objective CPEI202 " report include:

● one how 440 " (second)---two grades of owners 218 of target "

● done what 432 " (second)---be suitable for the association 234 of target " (two grades of artificial amounts 229 ")

Support (insupportof)

● done what 412 "---manually measure 153 " (role) 154 "

● for whom 413 "---primary project 120 " owner

● where 416 "---primary place 118 "

● why 414 "---primary project 120 "

● and how 418 "---Primary objectives 124 "

● about when 420 "---phases-time point (PiPT) 128 "

Also can learn that according to Figure 44 this system and method thereof include following rule, these rules for approval at Secondary objective CPEI202 " in the association 234 of applicable target for two grades of artificial amounts that uses ":

● in order to create Secondary objective CPEI202 ", primary human CPEI188 " must pre-exist

● primary human 116 " key element 101 " ratify need of two grades of owners 218 of itself and target " and between for two grades of artificial amounts applicable target associate 234 "

● two grades of artificial amounts 229 " can receive primary human 116 at it " key element 101 " and the association 234 of applicable target for two grades of artificial amounts " when be established

● for primary human CPEI188 " the primary project 120 of main body " the owner can disapprove two grades of artificial amounts 229 ".

● two grades of owners 216 of target " must provide for some type of evidence (such as a file or data) with confirm they to primary human 116 " key element 101 " and the association 234 of applicable target for two grades of artificial amounts "

Figure 45 is a schematic diagram, that illustrate one or three grades of people CPEI204 " report is how by the association 236 of an applicable people manually measured for three grades of levels " it is generated and is three grades of owners 220 of a people " key element 101 " report, this is used for the association 236 of applicable people of three grades of artificial amounts " there are two grades of owners 212 of people " key element 101 "; two grades of owners 212 of wherein said people " there are two grades of people CPEI196 ", these two grades of people CPEI196 " by having primary human 116 " key element 101 " and the association 230 for the applicable place of two grades of artificial amounts generate.

Figure 45 sets up based on Figure 37 and 41, which define three grades of owners 220 of people " by a person-to-person association (PP-PPASSOC) 136 " it is associated to two grades of owners 212 of people " key element 101 ", wherein this person-to-person association (PP-PPASSOC) is stored in virtual formulation data matrix 102 ".

Three grades of owners 220 described people " key element 101 " there are the two grades of owners 212 relating to people " key element 101 " the association 236 of applicable people for three grades of artificial amounts " time; three grades of owners 220 of this people " key element 101 " three grade people CPEI204s can be awarded ", wherein two grades of owners 212 of people " key element 101 " two grade people CPEI196s have been awarded ", three grades of owners 220 of people " the association 236 of applicable people for three grades of artificial amounts " contribute to two grades of owners 212 of people " realize its two grades of people CPEI196 ".

According to Figure 45, three grades of owners 220 of above-mentioned people " key element 101 " with the two of people grades of owners 212 " key element 101 " and between the applicable people for three grades of artificial amounts associate 236 " be one through three grades of artificial amounts 350 of careful consideration ", wherein said three grades of artificial amounts 350 " for being stored in base table 314 " in the data value 115 of formula association ".

According to Figure 45, three grades of people CPEI204 " report comes from and is reported in three grades of owners 220 of people " with two grades of owners 212 of people " between one associate, wherein store primary human CPEI188 " artificial amount event 186 " with by the three of people grades of owners 220 " be bound to two grades of owners 212 of people " and the association 236 of the applicable people being used for three grades of artificial amounts " together be updated.

Therefore, artificial amount event 186 " comprise three grades of owners 220 of people " two grades of owners 212 to people " the association 236 of the applicable people for three grades of artificial amounts ", two grades of owners 212 of people " to primary human 116 " the association 228 of applicable people for two grades of artificial amounts ", and be used for generating primary human CPEI188 " many key elements associate.

Three grades of people CPEI204 " report be reported in virtual formulation data matrix 102 ", this virtual formulation data matrix 102 " be according to for three grades of people CPEI204 " CPEI report rule 324 ", these three grades of people CPEI204 " report include:

● one who 430 " (the 3rd)---three grades of owners 220 of people "

● done what 444 " (the 3rd)---be suitable for the association 236 of people " (three grades of artificial amounts 350 ")

● one when 446 " (the 3rd)---for three grades of artificial amounts 350 " phases-time point (PiPT) 128 "

To assist

● who is 430 years old " (second)---two grades of owners 212 of people " (two grades of people CPEI196 " the owner)

● done what 432 " (second)---be suitable for the association 228 of people " (the artificial amount 229 of people 116 2 grades ")

To support

● who is 410 years old "---primary human 116 " (primary human CPEI188 " the owner)

● done what 412 "---people manually measures 153 " (role) 154 "

● for whom 413 "---primary project 120 " owner

● where 416 "---primary place 118 "

● why 414 "---primary project 120 "

● and how 418 "---Primary objectives 124 "

● about when 420 "---phases-time point (PiPT) 128 "

Figure 45 also informs this system and method includes following rule, and these rules are generating three grades of people CPEI204 for approval " in the association 236 of applicable people for three grades of artificial amounts that uses ":

● in order to create three grades of artificial amounts 350 ", two grades of artificial amounts 229 " must pre-exist

● two grades of owners 212 of people " key element 101 " needs are ratified three grades of artificial amounts 350 "

● three grades of people CPEI204 " can the three of the people grade owner 220 " key element 101 " receive the association 236 of the applicable people for three grades of artificial amounts to it " approval when be established, wherein for the association 236 of the applicable people of three grades of artificial amounts " be two grades of owners 212 for people ", and the two of this people grades of owners 212 " there are approved two grades of people CPEI196 ".

● for primary human CPEI188 " project 120 of main body " the owner can disapprove three grades of artificial amounts 350 ".

● two grades of owners 212 of people " ratify need of itself and the three of people grades of owners 220 " between for three grades of artificial amounts applicable people associate 236 "

● three grades of owners 220 " must provide for some type of evidence (such as a file or data) to confirm they two grades of owners 212 to people " association.

Figure 46 is a schematic diagram, that illustrate one or three grades of place CPEI206 " report is how by the association 238 in an applicable place manually measured for three grades of levels " be generated and be three grades of the place owner 222 " key element 101 " report, this is used for the association 238 in applicable place of three grades of artificial amounts " there are two grades of owners 212 of people " key element 101 "; two grades of owners 212 of wherein said people " there are two grades of people CPEI196 ", these two grades of people CPEI196 " by having primary human 116 " key element 101 " and the association 230 in the applicable place for two grades of artificial amounts " generate.

Figure 46 sets up based on Fig. 8 and 12, which define three grades of the place owner 222 " by the people association (PP-PLASSOC) 138 to place " it is associated to two grades of owners 212 of people " key element 101 ", wherein the association (PP-PLASSOC) in place is stored in virtual formulation data matrix 102 by this people ".

Three grades of the described place owner 222 " key element 101 " there are the two grades of owners 212 relating to people " key element 101 " the association 238 in applicable place for three grades of artificial amounts " time; three grades of this place owner 222 " key element 101 " three grade place CPEI206s can be awarded ", wherein two grades of owners 212 of people " key element 101 " two grade people CPEI196s have been awarded ", three grades of the place owner 222 " the association 238 in applicable place for three grades of artificial amounts " contribute to two grades of owners 212 of people " realize its two grades of people CPEI196 ".

According to Figure 46, three grades of the above-mentioned place owner 222 " key element 101 " with the two of people grades of owners 212 " key element 101 " and between the applicable place for three grades of artificial amounts associate 238 " be one through three grades of artificial amounts 350 of careful consideration ", wherein said three grades of artificial amounts 350 " for being stored in base table 314 " in the data value 115 of formula association ".

According to Figure 46, three grades of place CPEI206 " report comes from and is reported in three grades of the place owner 222 " with two grades of owners 212 of people " between one associate, wherein store primary human CPEI188 " artificial amount event 186 " with by three grades of the place owner 222 " be bound to two grades of owners 212 of people " and the association 238 in the applicable place being used for three grades of artificial amounts " together be updated.

Therefore, artificial amount event 186 " comprise three grades of the place owner 222 " two grades of owners 212 to people " the association 238 in the applicable place for three grades of artificial amounts ", two grades of owners 212 of people " to primary human 116 " the association 228 of applicable people for two grades of artificial amounts ", and be used for generating primary human CPEI188 " many key elements 101 " associate.

Three grades of place CPEI206 " report be reported in virtual formulation data matrix 102 ", this virtual formulation data matrix 102 " be according to for three grades of place CPEI206 " CPEI report rule 324 ", these three grades of place CPEI206 " report include:

● one where 448 " (the 3rd)---three grades of the place owner 222 "

● done what 444 " (the 3rd)---be suitable for the association 238 in place " (three grades of artificial amounts 350 ")

● when 446 " (the 3rd)---for three grades of artificial amounts 350 " phases-time point (PiPT) 128 "

To assist

To support

● done what 412 "---people manually measures 153 " (role) 154 "

● for whom 413 "---primary project 120 " owner

● where 416 "---primary place 118 "

● why 414 "---primary project 120 "

● and how 418 "---Primary objectives 124 "

● about when 420 "---phases-time point (PiPT) 128 "

Figure 46 also informs this system and method includes following rule, and these rules are generating three grades of place CPEI206 for approval " in the association 238 in applicable place for three grades of artificial amounts that uses ":

● three grades of place CPEI206 " can three grades of the place owner 222 " key element 101 " receive the association 238 in the applicable place for three grades of artificial amounts to it " approval when be established, wherein for the association 238 in the applicable place of three grades of artificial amounts " be two grades of owners 212 for people ", and the two of this people grades of owners 212 " there are approved two grades of people CPEI196 ".

● two grades of owners 212 of people " ratify need of itself and three grades of the place owner 222 " between for three grades of artificial amounts applicable place associate 238 "

● three grades of place owners 222 " must provide for some type of evidence (such as a file or data) to confirm they two grades of owners 212 to people " association.

Figure 47 is a schematic diagram, that illustrate one or three grades of project CPEI208 " report be how by one for the association 240 of the applicable project of three grades of artificial amounts " be generated and be three grades of owners 224 of a project " key element 101 " report, this is used for the association 238 of applicable project of three grades of artificial amounts " there are two grades of owners 216 of project " key element 101 ", two grades of owners 216 of wherein said project " there is secondary items CPEI200 ", this secondary items CPEI200 " by having primary project 120 " key element 101 " and the association 232 of the applicable project for two grades of artificial amounts " generation.

Figure 47 sets up based on Fig. 9 and 13, which define three grades of owners 224 of project " key element 101 " associate (PR-contribution) 158 by a project and project " be associated to two grades of owners 216 of project " key element 101 ", wherein this project and project associate (PR-contribution) 158 " be stored in virtual formulation data matrix 102 ".

Three grades of owners 224 of project " key element 101 " have and two grades of owners 216 of project " key element 101 " for three grades of artificial amounts applicable project associate 240 " time; three grades of owners 224 of described project " key element 101 " three grade project CPEI208s can be awarded ", wherein two grades of owners 216 of project " key element 101 " secondary items CPEI200 has been awarded ", three grades of owners 224 of project " the association 240 of applicable project for three grades of artificial amounts " contribute to two grades of owners 216 of project " realize its two grades of people CPEI196 ".

According to Figure 47, three grades of owners 224 of above-mentioned project " key element 101 " with two grades of owners 216 of project " key element 101 " and between the applicable project for three grades of artificial amounts associate 240 " be one through three grades of artificial amounts 350 of careful consideration ", wherein said three grades of artificial amounts 350 " for being stored in base table 314 " in the data value 115 of formula association ".

According to Figure 47, three grades of project CPEI208 " report comes from and is reported in three grades of owners 224 of project " with two grades of owners 216 of project " between one associate, wherein store primary project CPEI192 " in artificial amount event 186 " with by three grades of owners 224 of project " be bound to two grades of owners 216 of project " and the association 240 of the applicable project being used for three grades of artificial amounts " together be updated.

Therefore, artificial amount event 186 " comprise three grades of owners 224 of project " to two grades of owners 216 of project " the association 240 of the applicable project for three grades of artificial amounts ", two grades of owners 216 of project " to primary project 120 " the association 232 of the applicable project for two grades of artificial amounts ", and be used for generating primary project CPEI192 " many key elements 101 " associate.

Three grades of project CPEI208 " report be reported in virtual formulation data matrix 102 ", this virtual formulation data matrix 102 " be according to for three grades of project CPEI208 " CPEI report rule 324 ", these three grades of project CPEI208 " report include:

● one why 450 " (the 3rd)---three grades of owners 224 of project "

● done what 444 " (the 3rd)---be suitable for the association 240 of project " (three grades of artificial amounts 350 ")

To assist

To support

● done what 412 "---people manually measures 153 " (role) 154 "

● for whom 413 "---primary project 120 " owner

● where 416 "---primary place 118 "

● why 414 "---primary project 120 "

● and how 418 "---Primary objectives 124 "

● about when 420 "---phases-time point (PiPT) 128 "

Figure 47 also informs this system and method includes following rule, and these rules are generating three grades of project CPEI209 for approval " in the association 240 of applicable project for three grades of artificial amounts that uses ":

● two grades of owners 216 of project " key element 101 " needs are ratified three grades of artificial amounts 350 "

● three grades of project CPEI208 " can three grades of owners 224 of project " key element 101 " receive the association 240 of the applicable project for three grades of artificial amounts to it " approval when be established, wherein for the association 240 of the applicable project of three grades of artificial amounts " be for two grades of owners 216 of project ", and two grades of owners 216 of this project " there is approved secondary items CPEI200 ".

● for primary project CPEI192 " project 120 of main body " the owner can disapprove three grades of artificial amounts 350 ".

● two grades of owners 216 of project " ratify need of three grades of owners 224 of itself and project " between for three grades of artificial amounts applicable project associate 240 "

● three grades of owners of the project 224 " must provide for some type of evidence (such as a file or data) to confirm that they are to two grades of owners 216 of project " association.

Figure 48 is a schematic diagram, that illustrate one or three grades of target CPEI210 " report be how by one for the association 242 of the applicable target of three grades of artificial amounts " be generated and be three grades of owners 226 of a target " key element 101 " report, this is used for the association 242 of applicable target of three grades of artificial amounts " there are two grades of owners 212 of people " key element 101 "; two grades of owners 212 of wherein said people " there are two grades of people CPEI196 ", these two grades of people CPEI196 " by having primary human 116 " key element 101 " and the association 230 in the applicable place for two grades of artificial amounts " generate.

Figure 48 sets up based on Figure 10 and 14, which define three grades of owners 226 of project objective " key element 101 " by the people target (PR-OBASSOC) 142 to project " it is associated to two grades of owners 212 of people " key element 101 ", wherein this people target (PR-OBASSOC) 142 to project " it is stored in virtual formulation data matrix 102 ".

Three grades of owners 226 of target " key element 101 " have and two grades of owners 212 of people " key element 101 " for three grades of artificial amounts target associate 242 " time; three grades of owners 226 of described target " key element 101 " three grade target CPEI210s can be awarded ", wherein two grades of owners 212 of people " key element 101 " two grade people CPEI196s have been awarded ", three grades of owners 226 of target " the association 242 of applicable target for three grades of artificial amounts " contribute to two grades of owners 212 of people " realize its two grades of people CPEI196 ".

According to Figure 48, three grades of owners 226 of target " key element 101 " with two grades of owners 212 of people " key element 101 " and between the applicable target for three grades of artificial amounts associate 242 " be one through three grades of artificial amounts 350 of careful consideration ", wherein said three grades of artificial amounts 350 " for being stored in base table 314 " in the data value 115 of formula association ".

According to Figure 48, three grades of target CPEI210 " report comes from and is reported in three grades of owners 226 of target " with two grades of owners 212 of people " between one associate, wherein store primary human CPEI188 " in artificial amount event 186 " with by three grades of owners 226 of target " be bound to two grades of owners 212 of people " and the association 242 of the destination item being used for three grades of artificial amounts " together be updated.

Therefore, artificial amount event 186 " comprise three grades of owners 226 of target " to two grades of owners 212 of people " the association 242 of the applicable target for three grades of artificial amounts ", two grades of owners 212 of people " to primary human 116 " the association 228 of applicable people for two grades of artificial amounts ", and be used for generating primary human CPEI188 " many key elements 101 " associate.

Three grades of target CPEI210 " report be reported in virtual formulation data matrix 102 ", this virtual formulation data matrix 102 " be according to for three grades of target CPEI210 " CPEI report rule 324 ", these three grades of target CPEI210 " report include:

● one how 452 " (the 3rd)---three grades of owners 226 of target "

● done what 444 " (the 3rd)---be suitable for the association 242 of target " (three grades of artificial amounts 350 ")

To assist

To support

● done what 412 "---people manually measures 153 " (role) 154 "

● for whom 413 "---primary project 120 " owner

● where 416 "---primary place 118 "

● why 414 "---primary project 120 "

● and how 418 "---Primary objectives 124 "

● about when 420 "---phases-time point (PiPT) 128 "

Figure 48 also informs this system and method includes following rule, and these rules are generating three grades of target CPEI2109 for approval " in the association 242 of applicable target for three grades of artificial amounts that uses ":

● three grades of target CPEI210 " can three grades of owners 226 of target " key element 101 " receive the association 242 of the applicable target for three grades of artificial amounts to it " approval when be established, wherein for the association 242 of the applicable target of three grades of artificial amounts " be for two grades of owners 212 of people ", and two grades of owners 212 of this people " there are approved two grades of people CPEI196 ".

● two grades of owners 212 of people " ratify need of three grades of owners 226 of itself and target " between for three grades of artificial amounts applicable target associate 242 "

● three grades of object owners 226 " must provide for some type of evidence (such as a file or data) to confirm that they are to two grades of owners 212 of people " association.

Figure 49 is a schematic diagram, illustrates a people automatic CPEI report 246 " be how to be generated according to " the artificial project measuring composition of matter of formulation manually measures display method for reporting and system thereof " and be people 116 " key element 101 " report.

According to Figure 49, in the case where there, the automatic CPEI report 246 of people " will be generated:

● there is a primary place CPEI190 " place (PL) 118 " key element 101 " have submitted a people 116 " key element 101 " and together with this people 116 " in project 120 " on artificial amount 153 " (role) 154 " as its primary place CPEI190 " a part, wherein this people 116 " key element 101 " before do not submit it in project 120 " on artificial amount 153 " (role) 154 " or this people 116 " key element 101 " for unknown.

● there is a primary project CPEI192 " project (PR) 120 " key element 101 " have submitted a people 116 " key element 101 " and together with this people 116 " in project 120 " on artificial amount 153 " (role) 154 " as its primary project CPEI192 " a part, wherein this people 116 " key element 101 " before do not submit it in project 120 " on artificial amount 153 " (role) 154 " or this people 116 " key element 101 " for unknown.

● there is a Primary objectives CPEI194 " target OB) 124 " key element 101 " have submitted a people 116 " key element 101 " and together with this people 116 " in project 120 " on artificial amount 153 " (role) 154 " as its primary place CPEI190 " a part, wherein this people 116 " key element 101 " before do not submit it in project 120 " on artificial amount 153 " (role) 154 " or this people 116 " key element 101 " for unknown.

Figure 49 also illustrates these people automatic CPEI report 246 " by people's automaticmanual amount module 244 " and be the automatic owner 248 of people " generate; wherein people's automaticmanual amount module 244 " from virtual formulation data matrix 102 " in artificial amount event 186 " output formulation primary data field 330 "; this virtual formulation data matrix 102 " be according to for the automatic CPEI report 246 of people " CPEI report regular 324 ", this CPEI report rule 324 " include

● people automatic CPEI report 246 " be by the automatic owner 248 of people by the method for this system " beyond the association of someone's input generate.This is defined as a cross-correlation 368 ", these cross-correlations 368 " be stored in virtual formulation data matrix 102 " and in base table 314 ".

Figure 50 is a schematic diagram, illustrates the automatic CPEI in a place report 252 " be how to be generated according to present pre-ferred embodiments " the artificial project measuring composition of matter of formulation manually measures display method for reporting and system thereof " and be place 118 " key element 101 " report.

According to Figure 50, in the case where there, the automatic CPEI report 252 in place " will be generated:

● there is a primary human CPEI188 " people (PP) 116 " key element 101 " have submitted a place 118 " key element 101 " and together with this place 118 " in project 120 " on artificial amount 153 " (service) 156 " as its primary human CPEI188 " a part, wherein this place 118 " key element 101 " before do not submit it in project 120 " on artificial amount 153 " (service) 156 " or this place 118 " key element 101 " be the unknown.

● there is a primary project CPEI192 " project (PR) 120 " key element 101 " have submitted a place 118 " key element 101 " and together with this place 118 " in project 120 " on artificial amount 153 " (service) 156 " as its primary human CPEI188 " a part, wherein this place 118 " key element 101 " before do not submit it in project 120 " on artificial amount 153 " (service) 156 " or this place 118 " key element 101 " be the unknown.

● there is a Primary objectives CPEI194 " target OB) 124 " key element 101 " have submitted a place 118 " key element 101 " and together with this place 118 " in project 120 " on artificial amount 153 " (service) 156 " as its primary human CPEI188 " a part, wherein this place 118 " key element 101 " before do not submit it in project 120 " on artificial amount 153 " (service) 156 " or this place 118 " key element 101 " be the unknown.

Figure 50 also illustrates the automatic CPEI in these places report 252 " by place automaticmanual amount module 250 " and be the automatic owner 254 in place " generate; wherein place automaticmanual amount module 250 " from virtual formulation data matrix 102 " in artificial amount event 186 " output formulation primary data field 330 "; this virtual formulation data matrix 102 " be according to for the automatic CPEI report 252 in place " CPEI report regular 324 ", this CPEI report rule 324 " include

● the automatic CPEI in place report 252 " be by place 118 by the method for this system " association of someone's input beyond the owner generates.This is defined as a cross-correlation 368 ", these cross-correlations 368 " be stored in virtual formulation data matrix 102 " and in base table 314 ".

Figure 51 is a schematic diagram, illustrates a project automatic CPEI report 258 " be how to be generated according to present pre-ferred embodiments " the artificial project measuring composition of matter of formulation manually measures display method for reporting and system thereof " and be project 120 " key element 101 " report.

According to Figure 51, in the case where there, project CPEI report 258 " will be generated:

● there is a primary human CPEI188 " people (PP) 116 " key element 101 " have submitted a project 120 " key element 101 " and together with this project 120 " in another project 120 " on artificial amount 153 " (contribution) 158 " as its primary human CPEI188 " a part, wherein this project 120 " key element 101 " before do not submit it in project 120 " on artificial amount 153 " (contribution) 158 " or this project 120 " key element 101 " be the unknown.

● there is a primary place CPEI190 " place (PL) 118 " key element 101 " have submitted a project 120 " key element 101 " and together with this project 120 " in another project 120 " on artificial amount 153 " (contribution) 158 " as its primary human CPEI188 " a part, wherein this project 120 " key element 101 " before do not submit it in project 120 " on artificial amount 153 " (contribution) 158 " or this project 120 " key element 101 " be the unknown.

● there is a Primary objectives CPEI194 " target OB) 124 " key element 101 " have submitted a project 120 " key element 101 " and together with this project 120 " in another project 120 " on artificial amount 153 " (contribution) 158 " as its primary human CPEI188 " a part, wherein this project 120 " key element 101 " before do not submit it in project 120 " on artificial amount 153 " (contribution) 158 " or this project 120 " key element 101 " be the unknown.

Figure 51 also illustrates these projects automatic CPEI report 258 " by project automaticmanual amount module 256 " and be the automatic owner 260 of project " generate; wherein said project automaticmanual amount module 256 " from virtual formulation data matrix 102 " in artificial amount event 186 " output formulation primary data field 330 "; this virtual formulation data matrix 102 " be according to for the automatic CPEI report 258 of project " CPEI report regular 324 ", this CPEI report rule 324 " include

● project automatic CPEI report 258 " be by project 120 by the method for this system " association of someone's input beyond the owner generates.This is defined as a cross-correlation 368 ", these cross-correlations 368 " be stored in virtual formulation data matrix 102 " and in base table 314 ".

Figure 52 is a schematic diagram, illustrates a target automatic CPEI report 264 " be how to be generated according to present pre-ferred embodiments " the artificial project measuring composition of matter of formulation manually measures display method for reporting and system thereof " and be target 124 " key element 101 " report.

According to Figure 52, in the case where there, the automatic CPEI report 264 of target " will be generated:

● there is a primary human CPEI188 " people (PP) 116 " key element 101 " have submitted a target 124 " key element 101 " and together with this target 124 " in project 120 " on artificial amount 153 " (application) 160 " as its primary human CPEI188 " a part, wherein this target 124 " key element 101 " before do not submit it in project 120 " on artificial amount 153 " (application) 160 " or this target 124 " key element 101 " be the unknown.

● there is a primary place CPEI190 " place (PL) 118 " key element 101 " have submitted a target 124 " key element 101 " and together with this target 124 " in project 120 " on artificial amount 153 " (application) 160 " as its primary human CPEI188 " a part, wherein this target 124 " key element 101 " before do not submit it in project 120 " on artificial amount 153 " (application) 160 " or this target 124 " key element 101 " be the unknown.

● there is a primary project CPEI192 " project (PR) 120 " key element 101 " have submitted a target 124 " key element 101 " and together with this target 124 " in project 120 " on artificial amount 153 " (application) 160 " as its primary human CPEI188 " a part, wherein this target 124 " key element 101 " before do not submit it in project 120 " on artificial amount 153 " (application) 160 " or this target 124 " key element 101 " be the unknown.

Figure 52 also illustrates these targets automatic CPEI report 264 " by target automaticmanual amount module 262 " and be the automatic owner 266 of target " generate; wherein said target automaticmanual amount module 262 " from virtual formulation data matrix 102 " in artificial amount event 186 " output formulation primary data field 330 "; this virtual formulation data matrix 102 " be according to for the automatic CPEI report 264 of target " CPEI report regular 324 ", this CPEI report rule 324 " include

● target automatic CPEI report 264 " be by target 124 by the method for this system " association of someone's input beyond the owner generates.This is defined as a cross-correlation 368 ", these cross-correlations 368 " be stored in virtual formulation data matrix 102 " and in base table 314 ".

Figure 53 also illustrates people's automated reasoning and manually measures 270 "; a place automated reasoning manually measures 272 ", one project automated reasoning manually measures 274 "; manually measure 276 with a target automated reasoning " for key element 101 " generate; wherein automated reasoning manually measures 270 ", 272 ", 274 ", 276 " be according to as next is for the rule 268 of automated reasoning ", and from virtual formulation data matrix 102 " in event 186 of manually measuring " associated data of reasoning that exports draws:

1, automated reasoning association 367 " be when two key elements 101 " at the general item 120 of common phases-time point (PiPT) " and on have manually measure 153 " time the association that automatically generated by system.

2, automated reasoning association 367 " it is not stored in virtual formulation data matrix 102 " in interior table

3, automated reasoning association 367 " it is taken as not authenticated association, owing to this association is not yet verified

If 4 automated reasonings associations 367 " by the key element 101 in the association of reasoning " confirm, this key element 101 " may call for it and be converted into primary CPEI188 ", 190 " 192 " 194 ".

Figure 53 further defines automated reasoning association 367 " can only at shared same project (PR) 120 " and two artificial amount events 186 of same stage time point (PiPT) " in key element 101 " between generation.These key elements 101 " including:

● people (PP) 116 "

● people 2 (PP2) 130 "

● place (PL) 118 "

● place 2 (PL2) 132 "

● project (PR) 120 "

● project 2 (PR) 122 "

● target (OB) 124 "

● target 2 (OB2) 134 "

Figure 53 it further provides for people's automated reasoning and manually measures 270 "; place automated reasoning manually measures 272 ", project automated reasoning manually measures 274 ", and target automated reasoning manually measures 276 " be from based on the described rule 268 for automated reasoning " above-mentioned key element 101 " draw.

Figure 54 is a schematic diagram, illustrate for generating and the primary CPEI196 of report ", 198 ", 200 ", 202 " data, , two grades of CPEI196 ", 198 ", 200 ", 202 " data and three grades of CPEI204 ", 206 ", 208 ", 210 " the various virtual formulation data matrix 102 of data " reporting modules, above-mentioned CPEI data are used for making each key element 101 " by a data entry system 310 " enter and report to respond an inquiry, this inquiry have employed the data interrogation system 312 according to " project of formulation combination is manually measured affair displaying method and the searches prime system system " rule having built up ".

According to Figure 54, virtual formulation data matrix 102 " by as lower module is people 116 " export people 116 in report " data:

● people's primary CPEI module 278 "---at primary human CPEI188 " export people (PP) 116 in report " data

● a people two grades CPEI module 280 "---at two grades of people CPEI196 " export people (PP) 116 in report " data

● a people three grades CICPE module 282 "---at three grades of people CPEI204 " export people (PP) 116 in report " data

● people's automaticmanual amount module 244 "---in people automatic CPEI report 246 " in export people (PP) 116 " data

● an automated reasoning manually measures module 284 "---manually measure 270 at people's automated reasoning " export people (PP) 116 in report " data

Figure 54 also illustrates virtual formulation data matrix 102 " by as lower module is in place 118 " report in export point 118 " data:

● a place primary CPEI module 286 "---at primary place CPEI190 " export point (PL) 118 in report " data

● two grades of a place CPEI module 288 "---at two grades of place CPEI198 " report in export point (PL) 118 " data

● three grades of a place CPEI module 290 "---at three grades of place CPEI206 " report in export point (PL) 118 " data

● place automaticmanual amount module 250 "---at the automatic CPEI252 in place " report in export point (PL) 118 " data

● a place automated reasoning module 292 "---manually measure 272 at place automated reasoning " report in export point (PL) 118 " data

Figure 54 also illustrates virtual formulation data matrix 102 " by as lower module is in project 120 " report in output project 120 " data:

● a project primary CPEI module 294 "---at primary project CPEI192 " output project (PR) 120 in report " data

● a project two grades CPEI module 296 "---at secondary items CPEI200 " report in output project (PR) 120 " data

● a project three grades CPEI module 298 "---at three grades of project CPEI208 " report in output project (PR) 120 " data

● project automaticmanual amount module 256 "---at the automatic CPEI258 of project " report in output project (PR) 120 " data

● a project automated reasoning module 300 "---manually measure 274 at project automated reasoning " report in output project (PR) 120 " data

Figure 54 also illustrates virtual formulation data matrix 102 " by as lower module is in target 124 " export target 124 in report " data:

● an objectives Primary CPEI module 302 "---at Primary objectives CPEI194 " export target (OB) 124 in report " data

● a target two grades CPEI module 304 "---at Secondary objective CPEI202 " export target (OB) 124 in report " data

● a target three grades CPEI module 306 "---at three grades of target CPEI210 " export target (OB) 124 in report " data

● target automaticmanual amount module 262 "---at the automatic CPEI264 of target " export target (OB) 124 in report " data

● a target automated reasoning module 308 "---manually measure 276 at target automated reasoning " export project objective (OB) 124 in report " data

Figure 55 A-55D illustrates various primary CPEI (people, place, project and target) 188 ", 190 ", 192 " and, 194 " the graphical report attribute of display (noun).

Figure 55 A illustrates a primary human CPEI188 " display include formulation primary data field 330 ", the primary data field 330 of these formulation " can include, but not limited to as follows:

● primary human CPEI188 " owner's name

● primary human CPEI188 " owner manually measures 153 " (role) 154 "

● project 120 " name

● particular individual (people 116 ") name

● particular individual (people 116 ") type

● project 120 " type

● project 120 " pattern

● project 120 " perform the time

● project 120 " date of publication

● project 120 " owner's name

● place 118 " name

● target 124 " name

Figure 55 B illustrates a primary place CPEI190 " display includes the primary data field 330 of formulation ", the primary data field 330 of these formulation " can include, but not limited to as follows:

● primary place CPEI190 " owner's name

● primary place CPEI190 " owner manually measures 153 " (service) 156 "

● project 120 " name

● particular individual (people 116 ") name

● particular individual (people 116 ") type

● project 120 " type

● project 120 " pattern

● project 120 " the execution time

● project 120 " date of publication

● project 120 " owner's name

● people 116 " name and role 154

● place 2132 " name

● target 124 " name

Figure 55 C illustrates a primary project CPEI192 " display includes the primary data field 330 of formulation ", the primary data field 330 of these formulation " can include, but not limited to as follows:

● primary project CPEI192 " owner's name

● primary project CPEI192 " owner manually measures 153 " (contribution) 158 "

● project 120 " name

● particular individual (people 116 ") name

● particular individual (people 116 ") type

● project 120 " type

● project 120 " pattern

● project 120 " the execution time

● project 120 " date of publication

● project 120 " owner's name

● people 116 " name and role 154

● place 118 " name

● target 124 " name

Figure 55 D illustrates a Primary objectives CPEI194 " display include formulation primary data field 330 ", the primary data field 330 of these formulation " can include, but not limited to as follows:

● Primary objectives CPEI194 " owner's name

● Primary objectives CPEI194 " owner manually measures 153 " (application) 160 "

● project 120 " name

● particular individual (people 116 ") name

● particular individual (people 116 ") type

● project 120 " type

● project 120 " pattern

● project 120 " the execution time

● project 120 " date of publication

● project 120 " owner's name

● people 116 " name and role 154

● place 118 " name

● target 2134 " name

According to Figure 55 A, primary human CPEI188 " display show below additional content by patterned:

● a primary main artificial amount body 376 ": show and belong to project 120 " and project relationship data 174 " the primary data field 330 of formulation "

● primary subordinate adnexa 1 (primarylowerappendageone) 378 ": show and belong to people 116 " possessory artificial amount 153 " (role) 154 ", ranking, and people 116 " possessory artificial amount 153 " (role) 154 " phases-time point (PiPT) 128 that occurs " the primary data field 330 of formulation "

● a primary subordinate adnexa 2380 ": show and belong to place 118 " and target 124 " the primary data field 330 of formulation ", wherein target 124 " by it in project 120 " on manually measure 153 " be associated with people 116 " owner

According to Figure 55 B, primary place CPEI190 " display shows below additional content by patterned:

● primary main artificial amount body 376 ": show and belong to project 120 " and project relationship data 174 " the primary data field 330 of formulation "

● primary subordinate adnexa 1378 ": show and belong to place 118 " possessory artificial amount 153 " (service) 156 ", ranking, and place 118 " possessory artificial amount 153 " (service) 156 " phases-time point (PiPT) 128 that occurs " the primary data field 330 of formulation "

● primary subordinate adnexa 2380 ": show and belong to people 116 ", place 2132 " and target 124 " the primary data field 330 of formulation ", wherein target 124 " by it in project 120 " on manually measure 153 " be associated with place 118 " owner

According to Figure 55 C, primary project CPEI192 " display shows below additional content by patterned:

● primary main artificial amount body 376 ": show and belong to project 2122 " the project relationship data 174 of (main body of CPEI) and project 2 " and the primary data field 330 of formulation "

● primary subordinate adnexa 1378 ": show and belong to project 120 " possessory artificial amount 153 " (contribution) 158 ", ranking, and project 120 " possessory artificial amount 153 " (contribution) 158 " phases-time point (PiPT) 128 that occurs " the primary data field 330 of formulation "

● primary subordinate adnexa 2380 ": show and belong to people 116 ", place 118 " and target 124 " the primary data field 330 of formulation ", wherein target 124 " by it in project 2122 " on manually measure 153 " be associated with project 120 " owner

According to Figure 55 D, primary project objective CPEI194 " display shows below additional content by patterned:

● primary subordinate adnexa 1378 ": show and belong to target 124 " possessory artificial amount 153 " (application) 160 ", ranking, and target 124 " possessory artificial amount 153 " (application) 160 " phases-time point (PiPT) 128 that occurs " the primary data field 330 of formulation "

● primary subordinate adnexa 2380 ": show and belong to people 116 ", place 118 " and target 2134 " the primary data field 330 of formulation ", wherein target 2134 " by it in project 120 " on manually measure 153 " be associated with target 124 " owner

Figure 55 A-55D it also illustrates, described formulation primary data field 330 " it is likely to the additional data that hyperlink is connected to, additional data includes, but is not limited to, as follows:

● other primary CPEI188 ", 190 ", 192 " and, 194 " display

● other two grades of CPEI196 ", 198 ", 200 " and, 202 " display

● other three grades of CPEI204 ", 206 ", 208 " and, 210 " display

● ecommerce or user's (buying BuyItNow immediately) commercial affairs network address

● other network address or portal website (webnetwork)

● interactive report

● other generally manually measures data

● check

● ranking

● medium (picture, screen, image, icon, etc.)

Figure 55 A-55D it also illustrates when a user " upset " or " mouse moves past " specific area, formulates primary data field 330 " a primary rolling message 394 can be entered ".Described rolling message can show, but is not limited to, as follows:

● text guide

● to the hyperlink of additional data

● medium (picture, screen, image, icon, etc.)

● the explanation of hyperlink

Figure 56 A-56D illustrates various two grades of CPEI (people, place, project and target) 196 ", 198 ", 200 ", 202 " display (noun) graphical report attribute.

Figure 56 A illustrates one or two grades of people CPEI196 " display include formulation secondary data field 372 ", the secondary data field 372 of these formulation " can include, but not limited to as follows:

● two grades of people CPEI196 " possessory name

● two grades of people CPEI196 " possessory artificial amount 229 "

● secondary stages time point (PiPT) 128 "

● primary key element 340 " name and in primary project 120 " on artificial amount 153 "

● primary project 120 " name

● particular individual (people 116 ") name

● particular individual (people 116 ") type

● primary project 120 " type

● primary project 120 " pattern

● primary project 120 " perform the time

● primary project 120 " date of publication

Figure 56 B illustrates one or two grades of place CPEI198 " display include formulation secondary data field 372 ", the secondary data field 372 of these formulation " can include, but not limited to as follows:

● two grades of place CPEI198 " possessory name

● two grades of place CPEI198 " possessory artificial amount 229 "

● secondary stages time point (PiPT) 128 "

● primary project 120 " name

● particular individual (people 116 ") name

● particular individual (people 116 ") type

● primary project 120 " type

● primary project 120 " pattern

● primary project 120 " perform the time

● primary project 120 " date of publication

Figure 56 C illustrates a secondary items CPEI200 " display include formulation secondary data field 372 ", the secondary data field 372 of these formulation " can include, but not limited to as follows:

● secondary items CPEI200 " possessory name

● secondary items CPEI200 " possessory artificial amount 229 "

● secondary stages time point (PiPT) 128 "

● primary project 120 " name

● particular individual (people 116 ") name

● particular individual (people 116 ") type

● primary project 120 " type

● primary project 120 " pattern

● primary project 120 " perform the time

● primary project 120 " date of publication

Figure 56 D illustrates a Secondary objective CPEI202 " display include formulation secondary data field 372 ", the secondary data field 372 of these formulation " can include, but not limited to as follows:

● Secondary objective CPEI202 " possessory name

● Secondary objective CPEI202 " possessory artificial amount 229 "

● secondary stages time point (PiPT) 128 "

● primary project 120 " name

● particular individual (people 116 ") name

● particular individual (people 116 ") type

● primary project 120 " type

● primary project 120 " pattern

● primary project 120 " perform the time

● primary project 120 " date of publication

According to Figure 56 A, two grades of people CPEI196 " display show below additional content by patterned:

● two grades of main artificial amount bodies 382 ": show and belong to primary project 120 " and primary project relationship data 174 " the secondary data field 372 of formulation "

● a secondary body adnexa 1384 ": show and belong to people 116 " owner is together with described primary key element 340 " possessory in primary project 120 " on the associated primary key element 340 of artificial amount "; primary key element 340 " ranking, and primary key element 340 " artificial amount 153 " phases-time point (PiPT) 128 that occurs " and the secondary data field 372 of formulation "

● a secondary body adnexa 2386 ": show and belong to people 116 " possessory two grades of artificial amounts 229 ", ranking, and two grades of artificial amounts 229 " phases-time point (PiPT) 128 that occurs " the secondary data field 372 of formulation "

According to Figure 56 B, two grades of place CPEI198 " display show below additional content by patterned:

● a secondary body adnexa 1384 ": show and belong to place 118 " owner is together with described primary key element 340 " possessory in primary project 120 " on the associated primary key element 340 of artificial amount "; primary key element 340 " ranking, and primary key element 340 " artificial amount 153 " phases-time point (PiPT) 128 that occurs " and the secondary data field 372 of formulation "

● a secondary body adnexa 2386 ": show and belong to place 118 " possessory two grades of artificial amounts 229 ", ranking, and two grades of artificial amounts 229 " phases-time point (PiPT) 128 that occurs " the secondary data field 372 of formulation "

According to Figure 56 C, secondary items CPEI192 " display show below additional content by patterned:

● a secondary body adnexa 1384 ": show and belong to project 120 " owner is together with described primary key element 340 " possessory in primary project 2122 " on the associated primary key element 340 of artificial amount "; primary key element 340 " ranking, and primary key element 340 " artificial amount 153 " phases-time point (PiPT) 128 that occurs " and the secondary data field 372 of formulation "

● a secondary body adnexa 2386 ": show and belong to project 120 " possessory two grades of artificial amounts 229 ", ranking, and two grades of artificial amounts 229 " phases-time point (PiPT) 128 that occurs " the secondary data field 372 of formulation "

According to Figure 56 D, secondary items target CPEI202 " display show below additional content by patterned:

● a secondary body adnexa 1384 ": show and belong to target 124 " owner is together with described primary key element 340 " possessory in primary project 2122 " on the associated primary key element 340 of artificial amount "; primary key element 340 " ranking, and primary key element 340 " artificial amount 153 " phases-time point (PiPT) 128 that occurs " and the secondary data field 372 of formulation "

● a secondary body adnexa 2386 ": show and belong to target 124 " possessory two grades of artificial amounts 229 ", ranking, and two grades of artificial amounts 229 " phases-time point (PiPT) 128 that occurs " the secondary data field 372 of formulation "

Figure 56 A-56D it also illustrates, described formulation secondary data field 372 " it is likely to the additional data that hyperlink is connected to, additional data includes, but is not limited to, as follows:

● other primary CPEI188 ", 190 ", 192 " and, 194 " display

● other two grades of CPEI196 ", 198 ", 200 " and, 202 " display

● other three grades of CPEI204 ", 206 ", 208 " and, 210 " display

● interactive report

● other generally manually measures data

● check

● ranking

● medium (picture, screen, image, icon, etc.)

Figure 56 A-56D it also illustrates when a user " upset " or " mouse moves past " specific area, formulates secondary data field 372 " one or two grades of rolling message 396 can be entered ".Described rolling message can show, but is not limited to, as follows:

● text guide

● to the hyperlink of additional data

● medium (picture, screen, image, icon, etc.)

● the explanation of hyperlink

Figure 57 A-57D illustrates various three grades of CPEI (people, place, project and target) 204 ", 206 ", 208 ", 210 " display (noun) graphical report attribute.

Figure 57 A illustrates one or three grades of people CPEI204 " display include formulation three DBMS fields 374 ", three DBMS fields 374 of these formulation " can include, but not limited to as follows:

● three grades of people CPEI204 " possessory name

● three grades of people CPEI204 " possessory three grades of artificial amounts 350 "

● three grades of phases-times point (PiPT) 128 "

● two-stage elements 341 " name and two grades of artificial amounts 229 "

● primary project 120 " name

● particular individual (people 116 ") name

● particular individual (people 116 ") type

● primary project 120 " type

● primary project 120 " pattern

● primary project 120 " perform the time

● primary project 120 " date of publication

Figure 57 B illustrates one or three grades of place CPEI206 " display include formulation three DBMS fields 374 ", three DBMS fields 374 of these formulation " can include, but not limited to as follows:

● three grades of place CPEI206 " possessory name

● three grades of place CPEI206 " possessory three grades of artificial amounts 350 "

● three grades of phases-times point (PiPT) 128 "

● two-stage elements 341 " name and two grades of artificial amounts 229 "

● primary project 120 " name

● particular individual (people 116 ") name

● particular individual (people 116 ") type

● primary project 120 " type

● primary project 120 " pattern

● primary project 120 " perform the time

● primary project 120 " date of publication

Figure 57 C illustrates one or three grades of project CPEI208 " display include formulation three DBMS fields 374 ", three DBMS fields 374 of these formulation " can include, but not limited to as follows:

● three grades of project CPEI208 " possessory name

● three grades of project CPEI208 " possessory three grades of artificial amounts 350 "

● three grades of phases-times point (PiPT) 128 "

● two-stage elements 341 " name and two grades of artificial amounts 229 "

● primary project 120 " name

● particular individual (people 116 ") name

● particular individual (people 116 ") type

● primary project 120 " type

● primary project 120 " pattern

● primary project 120 " perform the time

● primary project 120 " date of publication

Figure 57 D illustrates one or three grades of target CPEI210 " display include formulation three DBMS fields 374 ", three DBMS fields 374 of these formulation " can include, but not limited to as follows:

● three grades of target CPEI210 " possessory name

● three grades of target CPEI210 " possessory three grades of artificial amounts 350 "

● three grades of phases-times point (PiPT) 128 "

● two-stage elements 341 " name and two grades of artificial amounts 229 "

● primary project 120 " name

● particular individual (people 116 ") name

● particular individual (people 116 ") type

● primary project 120 " type

● primary project 120 " pattern

● primary project 120 " perform the time

● primary project 120 " date of publication

According to Figure 57 A, three grades of people CPEI204 " display show below additional content by patterned:

● three grades of main artificial amount bodies 388 ": show and belong to primary project 120 " and primary project relationship data 174 " three DBMS fields 374 of formulation "

● one or three grades of main body adnexaes 1390 ": show and belong to two-stage elements 341 " together with primary key element 340 " possessory in primary project 120 " on artificial amount 153 " associated primary key element 340 ", primary key element 340 " ranking, and primary key element 340 " artificial amount 153 " phases-time point (PiPT) 128 that occurs " and three grades of formulation according to field 374 "

● one or three grades of main body adnexaes 2392 ": show and belong to people 116 " possessory three grades of artificial amounts 350 "; ranking; with three grades of artificial amounts 350 " phases-time point (PiPT) 128 that occurs "; and two-stage elements 341 " name, ranking and two grades of artificial amounts 229 " the secondary data field 372 of formulation "

According to Figure 57 B, three grades of place CPEI206 " display show below additional content by patterned:

● one or three grades of main body adnexaes 2392 ": show and belong to place 118 " possessory three grades of artificial amounts 350 "; ranking; with three grades of artificial amounts 350 " phases-time point (PiPT) 128 that occurs "; and two-stage elements 341 " name, ranking and two grades of artificial amounts 229 " the secondary data field 372 of formulation "

According to Figure 57 C, three grades of project CPEI208 " display show below additional content by patterned:

● three grades of main artificial amount bodies 388 ": show and belong to primary project 2122 " the primary project relationship data 174 of (main body of primary CPEI) and primary project 2 " and three DBMS fields 374 of formulation "

● one or three grades of main body adnexaes 2392 ": show and belong to project 120 " possessory three grades of artificial amounts 350 "; ranking; with three grades of artificial amounts 350 " phases-time point (PiPT) 128 that occurs "; and two-stage elements 341 " name, ranking and two grades of artificial amounts 229 " the secondary data field 372 of formulation "

According to Figure 57 D, three grades of project objective CPEI210 " display show below additional content by patterned:

● one or three grades of main body adnexaes 2392 ": show and belong to target 124 " possessory three grades of artificial amounts 350 "; ranking; with three grades of artificial amounts 350 " phases-time point (PiPT) 128 that occurs "; and two-stage elements 341 " name, ranking and two grades of artificial amounts 229 " the secondary data field 372 of formulation "

Figure 57 A-57D it also illustrates, described formulation three DBMS field 374 " it is likely to the additional data that hyperlink is connected to, additional data includes, but is not limited to, as follows:

● other primary CPEI188 ", 190 ", 192 " and, 194 " display

● other two grades of CPEI196 ", 198 ", 200 " and, 202 " display

● other three grades of CPEI204 ", 206 ", 208 " and, 210 " display

● interactive report

● other generally manually measures data

● check

● ranking

● medium (picture, screen, image, icon, etc.)

Figure 57 A-57D it also illustrates when a user " upset " or " mouse moves past " specific area, formulates three DBMS fields 374 " one or three grades of rolling message 398 can be entered ".Described rolling message can show, but is not limited to, as follows:

● text guide

● to the hyperlink of additional data

● medium (picture, screen, image, icon, etc.)

● the explanation of hyperlink

Skilled person would appreciate that shown in accompanying drawing and the embodiment of the present invention described above is only the example to the present invention rather than restriction.

It can thus be seen that the object of the invention can fully be efficiently accomplished.This embodiment for explaining function of the present invention and structural principle has been absolutely proved and has been described, and the present invention is not by the restriction based on the change on these embodiment basis.Therefore, the present invention includes being encompassed in all modifications within appended claims claimed range and spirit.

Claims

1. a phases-time dot system, it is manually measured at least one reporting a key element, wherein said key element is relevant with an end product, wherein said end product is selected from a group, the wherein said group of art included within the suitable development phase of described end product, industry, the natural products determined with the described phases-time of described end product, thus, described phases-time point methods is by the past, now and the macroscopic view of the phases-time view of Future Project, microcosmic, with nanometer phases-time point report for the described past, measure with the artificial of Future Project now, wherein said phases-time dot system includes:

One controls computer (mastercomputer), it disposes (housing) relation phases-time data base, artificial amount for the phases-time point data with the key element of the project development relating to an end product that receive and store an exploitation event, receive and manually measure the phases-time data in data and the phases-time data base relevant to the one development phase with storage key element, receive and to having, there are on the project development of a product generic-document data that key element that exploitation event manually measures is relevant with storage, build artificial amount and the phases-time data relevant to the number in the stage of the project development of described product and type, with the described phases-time data being reported in a phases-time report；

One communication mode, it includes a computerized equipment, and the key element scientifically collection phase time manually measured for having project development event on described end product manually measures data；

One client machine, described client machine can be connected with described control computer with being energized, data are manually measured for the key element presentation stage time point manually measured for having project development event, inquiring about described phases-time data base and receive search reply (return) report coming from described phases-time data base, wherein said phases-time data base has a link of the stage time matrix report to key element selected by；With

One search system, thus the artificial amount of key element exploitation and phases-time data are inquired by described client machine, by by a phases-time report generation module from the described phases-time database retrieval of described control computer, and dynamically reported to described client machine.

null2. system according to claim 1，It is characterized in that，Described phases-time matrix report includes a target head、One stage time matrix、With a phases-time artificial moment matrix point (matrixpointinphasetimeeffort)，Wherein said phases-time matrix and the artificial moment matrix point of described phases-time constitute an X-Y scheme with three-dimensional properties and show，Wherein said three-dimensional properties occurs in the part of two interactions，The window of wherein said two parts at least shows the development phase about a project and starts the data with date of expiry timetable，With the artificial amount of a key element and phases-time point thereof，In its background (context) by the suitable stage of the proportional artificial amount being shown in a product development stage、It is shown in the head of a phases-time X-axis，Wherein said phases-time X-axis shows the past of a project graphically、Present and the following development phase，It is shown in during the figure of other key element of a same development phase shows，Be shown in during a figure shows，Wherein said figure shows access into the phases-time macroscopic view of (accesses) manually amount、Microcosmic、With a nanometer story line view.

3. system according to claim 2, it is characterised in that described phases-time matrix at least includes:

One Part I, its matrix header shows a project name, past, now, with indicate icon (indicatoricons) future, for indicating whether the project reported is the past project come forth, reach the present project in being currently in production an of issuing date, or reached a projected release date phase not yet produce a Future Project, and macroscopic view, microcosmic and nanometer instruction icon, for indicating whether the artificial amount reported is phases-time macroscopic view landscape view (landscapeview), one phases-time microcosmic portrait view (portraitview), or a phases-time nanometer close-up illustration (close-upview)；

One Part II, one stage time matrix window portion, it includes one and manually measures possessory name and artificial amount, a product artifact link, one manually measures possessory contact point, one vertically shows all production phases in project development, and it is selected from including theory exploitation, and early stage produces, produce, later stage produces, and manufactures/distribution/marketing and a group of later stage manufacture/distribution/marketing composition；

One X-axis, it flatly includes a phases-time arrow, described phases-time be divided into multiple part with each time production phase in a project duration corresponding, there is a left arrow of finger for the project data of indicating over, one refers to that right arrow is used for indicating Future Project data, it is used for following the trail of time project stage and product content execution time with a clockwork, the independent phases-time arrow clockwork icon thus representing each development phase of project enables viewer to enter the phases-time macroscopic view for display in subordinate (lower) Part III of phases-time matrix, microcosmic, with a nanometer view；

One opening stage box indicator, the beginning reported of time development phase of its proportional box size patterned each time development phase being similar to for being indicated report by X-axis phases-time arrow and Y-axis phases-time and continuing of date of expiry,

One hidden stage box, is positioned at described opening stage box, for describing the beginning manually measured and the date of expiry, and the phases-time that artificial amount occurs；

One Part III, phases-time manually measures the stage time point in window portion, its phases-time arrow with Part II interacts, automatically the window that other key element is manually measured is shown including one, the artificial amount of other key element wherein said occurred within the same development phase, because the possessory artificial amount manually measuring present Part II, have from these other key elements to the link of the artificial amount report manually measured to that key element；

One window, when a user upset and click one opening stage box, it dynamically shows that generation is manually measured in other key element of the identical items of different development phases, wherein said opening stage box is in the phases-time matrix window of Part II, and the phases-time matrix window mouthpiece of wherein said Part II has the link manually measuring the individually artificial amount report to that key element from each those shown other key elements；With

One window, when a user overturns and clicks suitable phases-time arrow clockwork icon, it is with phases-time macroscopic view, microcosmic, dynamically showing with nanometer story line view occurs all key elements in the identical items of all development phases manually to measure, wherein then a user enters the selected Storyboard vibration of phases-time macroscopic view, microcosmic, and nanometer story line from described phases-time arrow clockwork icon.

null4. system according to claim 3，It is characterized in that，Farther include a Storyboard vibration in phases-time player，Wherein Storyboard has been announced project or has had in the project of a time of disclosure to have past of key element of a production exploit person work amount at one one according to it，Vibrate with the Storyboard of Future Project/product now，Described phases-time player at least shows the phases-time macroscopic view of a key element，Microcosmic，With a nanometer view，Described key element has been announced project one or has had in a project of a time of disclosure and have a production exploit person work amount，Its creation data is processed by a story line editing machine，The layering of wherein said story line editing machine and relation story line Data View are drawn by an artificial amount scholar by an artificial amount editing key (effortologyeditorialkeys)，Storage，And entrance，The each story linearly coupled editor being suitably in phases-time rules and procedures of wherein said artificial amount scholar manually measures data，Wherein vibrate in the described Storyboard of phases-time player and include:

The Header portion of one display Storyboard attribute, wherein said Storyboard attribute Storyboard includes report name, artificial amount owner's title, is shown in the phases-time point view in Storyboard, project name, and the characteristic individual in project；

nullOne core，It is for phases-time macroscopic view，Microcosmic，With a nanometer display for story line view，The display that artificial amount view of one key element is entered by phases-time story line event icons vibration (abeatsinphasetimestorylineventicon)，Wherein phases-time story line event icons is by a story line editing and processing，The display of one phases-time macroscopic view landscape view，Wherein said phases-time macroscopic view landscape view is a story line product general survey，The artificial amount situation of one key element is associated with suitable phases-time macroscopic view landscape view attribute by wherein said story line product general survey in the vibration of phases-time，Wherein said story line product general survey is determined by an artificial amount scholar in the vibration of phases-time，It is included by high line (hi-line) the microscopic view data of the exploitation situation of described key element，The display of one phases-time microcosmic portrait view，Wherein said phases-time microcosmic portrait view is story line product microcosmic sequence (microsequence)，The artificial amount situation of one key element is associated with suitable phases-time microcosmic portrait view attribute by wherein said story line product microcosmic sequence in the vibration of phases-time，It is included by high line (hi-line) nanometer viewdata for the exploitation situation of described key element，Display with a phases-time nanometer close-up illustration，Wherein said phases-time nanometer close-up illustration is a story line product nanometer blueprint，The artificial amount situation of one key element is associated by the vibration of wherein said story line product nanometer blueprint with suitable phases-time nanometer close-up illustration attribute，Described phases-time nanometer close-up illustration attribute is included by a nanometer viewdata for the exploitation situation of each key element，Then it vibrate with the Storyboard in phases-time story line event icons and be associated，

nullOne lower portion，Its display a) microcosmic phases-time point link (link)，Wherein said link enables a user to link to and observer、Place、Scheme and target component，Wherein said target component has one in described project、Macroscopic view in phases-time report、Microcosmic and nanometer Storyboard vibration，B) the search arrow of phases-time link，The link of wherein said phases-time allows six stages of described user one project development of search: the past of disclosed product、Present and the following development phase，With the described phases-time macroscopic view for described project、Microcosmic and Nano-property and c) an artificial amount editing key，It at least enables described user be vibrated by the Storyboard in phases-time is reported that story line EventSelect is graduate and relevant，Story informant's work amount of wherein said story line event and story line fx (storylinefx) have an effect on the story line of product，It enables described user to enter described artificial amount and their vibration at the phases-time for this theme project (thesubjectproject) story behind，Further，It is manually measured editing key and allows also to described user change Storyboard story report from a liner announcement，Wherein said Storyboard story report from a liner is accused and is included story line event、Story informant's work amount、Story line fx，Story with artificial amount behind，With the story report from a liner announcement checking that the Storyboard at described phases-time of change is vibrated.

5. system according to claim 1, it is characterised in that farther include a checking dynamically (DVIVD) that double; two confirmations are independent in real time and mate auditing system, comprising:

One first equipment, it is used for transmitting key element and manually measures time data, and what described data described a temporal key element in detail one manually measures, and a source data is shown；

One second equipment, is used for receiving key element and manually measures event data and the displaying of described source data；With

One computerized equipment, for store described key element manually measure event data in one preserve data base and store described source data be showed in a display data storehouse, for adopting a real-time matching auditing method confirm and verify that described key element manually measures event data independently, wherein said real-time matching auditing method is used for collecting, test, event data is manually measured with following the trail of described key element, manually measure event data for distributing data set grade of auditing in described key element, and be used for reporting that described key element manually measures event data in one by Audit Report.

6. system according to claim 5, it is characterised in that by adopting a real-time matching auditing method, described key element is manually measured event data and is identified and verified independently, and wherein said real-time matching auditing method comprises the following steps:

Receive and check that described key element manually measures event data；

Inputting described key element and manually measure event data to described storage data base, described source data is showed in the display data storehouse in computerized device；

Confirm and verify independently manually to be measured event data by what accurately enter to storage data base, and the artificial amount event data verified further in storage data base by one first semi-automatic auditing procedure makes itself and the artificial amount active source Data Matching in display data storehouse；

Shift described artificial amount event data to await orders region from described storage data base to one of the approval based on the first auditing procedure；

Distribute a data set by a system audit auditor and audit grade to described artificial amount event data；With

Shift described artificial amount event data from above-mentioned region of awaiting orders to a core database, described core database be based on auditor approval data set audit grade computerized data in.

7. system according to claim 6, it is characterised in that described key element is manually measured data and is identified by full-automatic second auditing procedure and verified independently further, wherein said full-automatic second auditing procedure comprises the following steps:

Described artificial amount event data of auditing and artificial amount event data audit grade, wherein said artificial amount event data and artificial amount event data audit grade are reported from described core database, wherein the described core database in described storage data base and described artificial amount event data and artificial amount event data audit grade opposed (against)；

Report one generation is mated from the audit of the second auditing procedure of described artificial amount event data or an audit mispairing, wherein said artificial amount event data is reported from described core database, the wherein described artificial amount event data in described storage data base and described core database opposed (against)；

Report one generation is from the database-located of any audit mispairing of the second auditing procedure；

When a mispairing produces, the correction of the generation any needs in core database or in storage data base；

By a module data (moduleuponquery) produced based on inquiry, report that the audit integration project of a described artificial amount event data manually measures situation ((CPEI) display, if the display that described artificial amount event data is directly inputted by an artificial amount owner or whether described artificial amount event data is automatically generated by described system approach from the artificial amount event data inputted by other key element；

When reporting that described audit integration project manually measures situation, displaying one is according to the icon of system convention and auditing procedure, wherein said audit integration project is manually measured situation and is described described artificial amount, wherein said artificial amount is manually measured accreditation (acknowledged) by an event Item owner as a trust (credited), and wherein said trust is manually measured from the described artificial amount manually not measured accreditation by the described event Item owner as described trust；With

Manually measured situation by audit audit integration project and be sent to a client machine by described and show for having described annexed drawings target, wherein said attached icon show described audit integration project manually measure situation audit level and whether described in be demonstrated integration project of auditing and manually measure situation and be described artificial amount or described trust is manually measured.

null8. system according to claim 1，It is characterized in that，Farther include (formulaic) virtual matrix system of the formulation being based upon described core database，(formulaic) virtual matrix system of wherein said formulation，Depend on inquiry，By simple or complicated association，Described key element is automatically manually measured event data close and be coupled to other described key element and manually measure event data，Stages respectively time point (accordingtotheirrespectivethepointsinphasetime) according to them，Enable described audit integration project manually measure situation data generation module be dynamically generated dimension audit integration project manually measure situation data，Wherein said dimension audit integration project manually measure situation data be described in be queried target component report，Described audit integration project is manually measured situation data generation module and is at least included:

The primary CPEI module of one people (PP), the CPEI module of people's second grade, the CPEI module of people's tertiary gradient, an automatic CPEI module of people and people's automated reasoning module, be used for reporting a past, present and future-man CPEI report；The primary CPEI module in one place (PL), place the second grade CPEI module, place tertiary gradient CPEI module, the automatic CPEI module in place and a place automated reasoning module are for reporting a place CPEI report in the past, now and in the future；

The primary CPEI module of one project (PR), the CPEI module of project second grade, the CPEI module of a project tertiary gradient, an automatic CPEI module of project and a project automated reasoning module, be used for reporting a project CPEI report in the past, now and in the future；With

The primary CPEI module of one target (PL), target the second grade CPEI module, a target tertiary gradient CPEI module, the automatic CPEI module of target and a target automated reasoning module, for reporting a target CPEI report in the past, now and in the future.

9. system according to claim 8, it is characterized in that, described dimension CPEI data report good at many forms, the functional and integration project being designed disclosed formulation that interacts manually measures situation and shows (interactiondesignedpublishedformulaicconjoinedprojecteff ortinstancereportdisplays), each described CPEI reporting system module, showing in rule with the infrastructure of each described formulation and grammer and reported, wherein said CPEI report data group at least includes:

Key element manually measures event data

Component attributes

Selected characterization is individual

It is not carried out data fields and renews information (rollovermessages)

From the described CPEI hyperlink reported, the natural language primitive (primitives) of formulation is shown in wherein said CPEI report: who, what, for Whom, where, why, how, and phases-time point to key element other described is manually measured event data CPEI report and is shown:

Who has done and has been programmed the formulation report display for described primary CPEI, described second grade CPEI and described tertiary gradient CPEI at phases-time what, and the report displaying of wherein said formulation farther includes at least:

One shows that the project shown for all artificial amounts and the main of item attribute manually measure main body,

At least two is for showing subordinate's adnexa (lowerappendages) of primary artificial amount, one shows that manually measure, described primary manually measures hierarchical level by key element for described primary, with the first adnexa that described primary manually measures phases-time point, and one show correlating factor the second adnexa

At least two is for showing higher level's adnexa (upperappendages) that described second grade is manually measured, one shows that described second level element is manually measured, described second grade manually measures hierarchical level, with the first adnexa that described second grade manually measures phases-time point, show that primary key element is closed with one and be coupled to the second adnexa that described second level element is manually measured, manually measure with described primary key element and manually measure phases-time point with described primary key element, and

At least two is for showing higher level's adnexa (upperappendages) that the described tertiary gradient is manually measured, one shows that at least described tertiary gradient key element is manually measured, the described tertiary gradient manually measures hierarchical level, with the first adnexa that the described tertiary gradient manually measures phases-time point, the same with the second level element title, and second level element manually measure pass and be coupled to the described tertiary gradient and manually measure, show that primary element name closes the second higher level's adnexa (secondupperappendage) being coupled to described second level element with one, described primary key element is manually measured, described second level element phases-time point, with described primary factor level grade,

Wherein said form good, functional and interact and be designed disclosed formulation CPEI data report and show and be different from the infrastructure according to described formulation and grammer shows that the formula display data of rule and content build, and described form good, functional and interact and be designed disclosed formulation CPEI data report and show and be different from the infrastructure according to described formulation and the regular DISPLAY ORDER of grammer displaying and alphabet data line representation.

10. a DVIVD event data coupling record of the audit method, it is characterized in that, including following the trail of and showing that a) key element is manually measured the time, b) key element is manually measured event data collection and is completed, c) key element manually measures data CPEI audit grade, d) key element manually measures event data dual audit matching detection analysis, and d) key element manually measures the step of event data auditing procedure.

11. method according to claim 10, it is characterised in that comprise the steps:

Real time record and the artificial amount event data collection being illustrated in DVIVD event data coupling audit recorder complete；

Mating real time record in audit recorder in DVIVD event data to indicate or a mispairing lamp instruction with displaying one coupling lamp, wherein said coupling lamp indicates and is caused by the audit matching detection analysis of described system doubling with the instruction of described mispairing lamp；

Real time record and one icon of displaying, wherein said icon indicates whether that described manually being measured by report manually measures classification further as trusting, when described trust is manually measured and is therefore mated that everyone admits by an event Item in audit recorder in DVIVD event data, and

The artificial CPEI audit level measuring event data is distributed to according to system convention and auditing procedure record and displaying, the artificial amount event data collection mated in audit recorder in DVIVD event data completes, and is audited by the highest audit system horizontal of described system of real-time verification including mating in audit recorder in described DVIVD event data.

12. one kind is manually measured event data for collecting one and manually measures in situation report the artificial amount event method for reporting of formulation in real time reporting described artificial amount event data at multiple real-time formulation integration project, it is characterised in that comprise the following steps:

Described artificial amount event data is collected from a data source；

According to amount event data artificial described in a Formula Input Technology specified to a computerized equipment, wherein said appointment formula is used in the association of kinds of artificial amount event data；

Process described artificial amount event data and the simple and complicated association formed between artificial amount event data；

Described artificial amount event data in base table is stored in a core database at described computerized equipment；

Receive one from the CPEI data query to described core database of a user equipment；

Utilize core database described in a CPEI data search block search to respond described inquiry；

Virtual view generates the inquiry that multiple CPEI data are made by a CPEI data generation module with response；With

Reporting described multiple CPEI data in predefined, structurized (predefined, structured) CPEI data report, wherein said CPEI data report carries the Data View module of virtual view desktop.

13. method according to claim 12, it is characterised in that comprise the following steps:

Collect described artificial amount event data in an artificial amount situation with satisfied one group predetermined who manually measure what situation event formula done with phases-time key element, each usual semantics for natural language basis, metaphorical formal and unofficial grammer, rule (rule shown in usual basis and grammer) is shown with CPEI report, predetermined who manually measure what situation event rules done with phases-time key element, at least include:

What who has for Whom done where why, and how to relate to phases-time point (PiPT),

Where, what who has for Whom done where why, and how to relate to phases-time point (PiPT),

Why, what who has for Whom done where why, and how to relate to phases-time point (PiPT),

How, what who has for Whom done where why, and how to relate to phases-time point (PiPT),

When, what who has for Whom done where why, and how to relate to phases-time point (PiPT),

What who has done on a PiPT, supports what who has for Whom done where why, and how to relate to phases-time point (PiPT), and

What who has done on a PiPT, assists what who has done on a PiPT, supports what who has for Whom done where why, and how to relate to phases-time point (PiPT).