CN103118038A - Information and communication technology (ICT) technical support design of enterprise value chain planning configuration dynamic foundation - Google Patents

Abstract

Disclosed is an information and communication technology (ICT) technical support design of enterprise value chain planning configuration dynamic foundation. The ICT technical support design of the enterprise value chain planning configuration dynamic foundation is a new technology which is built on brand new logic, mathematic and scientific foundations established independently by the inventor, and is used for transforming a cloud computing system into a heaven-earth computing system which is universal. The ICT technical support design of the enterprise value chain planning configuration dynamic foundation is established by using an internet user as a center, and thus using a global value chain (GVC) as a center, and using connection and coordination, based on a computer aided system and an internet, between a cognitive system and a practical system as a principal line of an evolution process of a high-level intelligent integrated system (HIIS), and by establishment of a basic model, a normal form and a equation system of network configuration dynamics, and a basic model, a normal form and a equation system of game organization synergetics.

Description

The ICT technical support design of Enterprise Value Chain planning and configuration dynamic foundation

Technical field

" GVC network technology support system [DCN/IIL (VCSE)] ", its bulking property target is, take global value Chain System (GVC) as core, the connection of carrying out based on computer and network thereof with Natural Intelligence and Artificial Intelligence and coordinate main line as general intelligence integrated system (GIIS) Upgrade process, set up brand-new logical foundations, Fundamentals of Mathematics, scientific basic and brand-new technical foundation and engineering foundation, be relative closure, relatively static " resource pool "---system for cloud computing injects soul, intelligence and life, build global intelligent integral contract network computer architecture (CS/HSN (GII)), Global Internet is made become the technique support system that really has life and ecological holographic joint management character.On this basis, take global value Chain System (GVC) as core, the connection of carrying out based on computer aided system and the Internet with cognitive system and practice system and coordinate main line as high-grade intelligent integrated system (HIIS) evolution process is set up based on brand-new theoretical intelligent integrated science system (the IIS ﹠amp of metasystem (MS) science; IIT), logistics net, energy net, Network and Finance Network and the knowledge knowledge network of each field all departments combine together with being dispersed in all over the world with the novel Global Internet of life-giving vigor, carry out energetically the GVC system engineering, foundation really has the dynamic Correspondent network system of global intelligent integral (DCN/HII (GVC)) of life and ecological holographic joint management character, thereby builds intelligent integrated net, life the Internet and ecological operation net.GVC system engineering technology Cluster Exploitation total strategy---inventor Li Zong really is referred to as " since the beginning of history " plan by implementing, and " cloud " counting system that flicker is indefinite is transformed into the Correspondent all things on earth, connects " world " counting system of longitude and latitude.

The main purpose of this invention is by brand-new logical foundations, Fundamentals of Mathematics, scientific basic and brand-new technical foundation and engineering foundation, and the ICT technical support design of dynamic foundation is provided for the Enterprise Value Chain planning and configuration.

All Mathematical Modelings related in this specification have original creativity.

This invention belongs to To enterprises value chain planning and configuration, planning organization and planning management, and (network technology of PA/EVC) is supported the field, be the intelligent integrated technical foundation of To enterprises value chain and then To enterprises value chain planning and configuration system, people, mechanism and tissue guided into the key of " world " (brand-new counting system) of Correspondent all things on earth from flicker indefinite " cloud " (counting system).

PA/EVC is a kind of solution of Enterprise Value Chain system engineering, by means of brand-new Information technology and the network technology, among service strategy and the inside and outside related system of the operation mode whole Enterprise Value Chain planning and configuration take information system as trunk of importing with Enterprise Value Chain, it is the just change on science and technology, but involves related comprehensive integration and the configuration all about the flow process on the cross-region of personnel, fund, logistics, manufacturing and Enterprise Value Chain tissue or transnational border of Enterprise Value Chain organization internal and outside.　　

PA/EVC is physical resources configuration (logistics), human resources configuration (stream of people), fund resources configuration (wealth stream), information resources configuration (information flow) the integrated Enterprise Value Chain configuration software for the inside and outside association of Enterprise Value Chain planning and configuration.The DIM that rule designer by the inside and outside association of To enterprises value chain planning and configuration, system integrator, module generate the business analyzes and Li Zongcheng proposes the inside and outside related ultimate consumer of To enterprises value chain planning and configuration, social governor motion, the SHF of relative analyzes both at home and abroad, describes vertical related department of future generation, horizontal related department and value resource planning (VRP) software.It will comprise the user of the inside and outside association of Enterprise Value Chain planning and configuration/service system framework, use graphical user interface, use open system and make.Except existing standard feature, it also comprises other characteristic, as the adjustment report of the quality of the inside and outside association of Enterprise Value Chain planning and configuration, process enactment configuration and the inside and outside association of Enterprise Value Chain planning and configuration etc.Particularly, thus the basic technology that PA/EVC adopts will be more prone to upgrading will for simultaneously the user software of the inside and outside association of Enterprise Value Chain planning and configuration and the independence of hardware two aspects.The key of PA/EVC be all users of the inside and outside association of Enterprise Value Chain planning and configuration can cutting its use, thereby have natural ease for use.

Background technology

In recent years, the fusion of ICT industry three macroreticulars and system for cloud computing technology were pushed ahead international and domestic always energetically.Grid attempts to realize the overall sharing of interconnected internet resource, comprises information resources, data resource, computational resource and software resource etc.

But at present, the fusion of ICT industry three macroreticulars just is being absorbed in the desperate situation of dying young, the novelty wretched insufficiency of cloud computing technology, and the application of cloud computing meets with all restrictions, and the exploitation of cloud computing system meets with heat, cold difficult situation out of trade in the industry.Along with the fast development of computer technology and the network technology, along with the increase day by day of financial innovation and financial risks, market competition is further aggravated, and space and the scope of Enterprise Value Chain competition further enlarge, and the integrated of global economy also constantly pushed ahead.Twentieth century main To enterprises value chain nineties internal resource is the thought of configuration comprehensively, progressively develops into the configuration thought of how effectively utilizing and configuring whole resource thereupon.Under this situation, at first Li Zongcheng has proposed the concept report of PA/EVC.

Set up Correspondent set based on intelligent compositive economy multiattribute measure space, based on the Correspondent operator of intelligent compositive economy more rules metric matrix, become based on intelligent compositive economy multiple-factor on the comprehensive Correspondent relation of power and the basis based on the Correspondent function of intelligent compositive economy multiplicity algebra system, the inventor proposes to develop and to set up the brand-new network system that logistics network, knowledge network and banking network is combined together take information network as platform---" whole world is the Correspondent network dynamically "; And then propose to develop and to set up and a kind of cloud computing and grid computing included at interior brand-new counting system---towards " world " computation schema of knowledge resource configuration, physical resources configuration and allocation of financial resource; Again and then propose to develop and to set up a kind of take computer operating system and internet operating system as the crucial brand-new operation system that various cognitive operation and practical operation are combined together---and " holographic co-operation system " (OS/HSO).

the dynamic Correspondent network system of GVC DCN/IIL (VCSE) that the inventor proposes, refer to the multimodal value chain system (VCS of multi-layer, from value of the product chain PVC, Enterprise Value Chain EVC, to industry value chain IVC, zone value chain RVC, so that national value chain NVC, GVC GVC) be core, with telecommunications network (MCN), computer network (WWW) and broadcasting and television network (BTN) three macroreticulars are fused to the major technique support, with logistics net (MN), energy drift net (EN), information network (IN), Network and Finance Network (FN) and knowledge knowledge network (KN) five macroreticulars combine together, full field is provided, total system, the global open network system of overall process comprehensive integration business service.

The whole world that the inventor proposes to develop and to set up is Correspondent network and world calculating and the holographic co-operation (abbreviation OS/HSO of system dynamically, Operating System of Holo-synergetic Oganization), be a complete complex system.The world is calculated and is intended to by the logistics under the information network support, knowledge, the full Correspondent network of finance, the computational entity that a plurality of costs are relatively low is integrated into a complete Integrated Intelligent System with powerful calculating ability, and by brand-new business models such as information network inside and outside SaaS/HSO, PaaS/HSO, IaaS/HSO, MSP/HSO, this powerful computing capability is distributed in the terminal use's hand of information network inside and outside.

The whole world dynamically Correspondent network calculations concept can be regarded as a kind of application model that perforation is got up of logistics network, knowledge network and banking network being collected take information network as platform.The dynamic Correspondent network calculations in the whole world is computer-oriented and information network not only, and Logistics Oriented network, knowledge network and banking network.It attempts to surmount, and information is calculated and information network calculates, and information is calculated and information network calculating collects to connect and move with logistics network, knowledge network and banking network and is closely linked, and realization is intelligent integrated.

As the basis of this invention, brand-new logical foundations comprises holographic Correspondent logic, the two poles of the earth Correspondent logic, the holographic Correspondent logic in the two poles of the earth; Brand-new Fundamentals of Mathematics comprise holographic Correspondent mathematics, the two poles of the earth Correspondent mathematics, system's Analysis on Vicissitudes mathematics; Brand-new scientific basic comprises resource distribution dynamics, holographic organization synergetics, the system behavio(u)r theory of value, game coordination, the equilibrium economics that liquidates, holographic Correspondent physics, and the perforation science (interdisciplinary science and Cross science)---metasystem science and the intelligent integrated science that are formed by the large comprehensive of a series of brand-new theories; Brand-new technical foundation is take value chain system as core, towards the synergitic brand-new systems technology of holography (cluster); Brand-new engineering foundation is take value chain system as core, towards the synergitic brand-new system engineering of holography (cluster).

Summary of the invention

(1) for Enterprise Value Chain, the inventor is based on " the resource distribution dynamics " of its independent foundation, " holographic organization synergetics " and " the system behavio(u)r theory of value " and intelligent integrated theory, not only Global Internet is regarded as the resource distribution system, and regard further technique support system take Integrated Intelligent System and process as core as, attempt to set up dynamic foundation the principles of science of To enterprises value chain planning operation (Planning Operation of Enterprise Value Chain Value Chain), and then the technology of setting up as the planning and configuration dynamic foundation consists of and knowledge composition.

(1. 1) set up the dynamic effect design basis of Enterprise Value Chain planning and configuration system.

For fundamental property and the causality that more in depth discloses complexity, the inventor once considered to inquire into from the basic motive effect relation of complication system (CS) bases of setting up whole analyses.Under further analyzing, the basic motive effect relation of complication system can be divided into two fundamental relations, that is:

Equilibrium and the lack of balance relation of configuration effect (DF)-configuration load (DC);

Equilibrium and the lack of balance relation of system behavio(u)r (SE)-system consumption (SA).

The analysis showed that, this a pair of fundamental relation factor of the configuration effect of complication system and resource load affects and determines the adequate condition of complex large system existence, motion, development and variation; The effect of complication system and consume this a pair of fundamental relation factor and affect and determine that complex large system exists, motion, develop and the necessary condition of variation; And this a pair of fundamental relation factor of environmental system that complication system and it face affect and determines that complex large system exists, motion, develop and the boundary condition of variation; This a pair of fundamental relation factor of the gain trend of complication system and Reasonable Mode affects and determines the behavior condition of complex large system existence, motion, development and variation.

The factor that consists of the basic motive effect relation can be divided into two aspects, that is: be configuration effect and configuration load on the one hand, is system behavio(u)r and system consumption on the other hand.With regard to first aspect, the configuration effect comes from the classical mechanics category of power, but surmounts the classical mechanics category of power; The configuration load comes from the classical mechanics category of quality, but surmounts the classical mechanics category of quality.The resource distribution effect is not only with respect to the resource load of system outside, and with respect to the resource load of internal system.This fundamental relation factor affects and determines the adequate condition of complex large system existence, motion, development and variation.We can be promoted to the basic motive analysis principle with this self evident essence hypothesis.The feasibility analysis field of basic motive factorial analysis formation base dynamic effect.With regard to second aspect, system behavio(u)r is relevant with purpose and the target of system, is function and the effect of system; System consumption is relevant with the effect of system, is various energy, quality and information that system consumes for bringing into play effect, even consumes various spiritual resource and social resources.This fundamental relation factor affects and determines the necessary condition of complex large system existence, motion, development and variation.This self evident essence hypothesis can be promoted to basic effect analysis principle.The basic effect factorial analysis consists of the efficiency analysis field of basic motive effect.

In the evolution process of the large system of economy, no matter for the tissue of internal system, or for the tissue of system outside, Social Ecology rule or system are exactly the environmental factor of can not ignore.We can regard Social Ecology rule (system) variable as the modern social economy technology consist of the function of combination, and modern social economy technology formation relates to system structure, institutional framework and system configuration, can regard as mainly to be formed by modern knowledge structure, modern technologies structure, modern division of labor structure, modern ownership structure, Modern industrial, modern finance structure, modern decision structure and modern structure of deal and present information textural association.As shown in Figure 1.

Intersect integrated scientific analysis basis by setting up complication system, the inventor has provided the three basic model, that is: resource node, configure node and organize node.Integrate and see, the resources integration node is the assembly place of being portrayed by various measurable resources, timeliness and spatiality.Suppose to only have lPlant discernible resources integration node; The index of every kind of resources integration node hBe from 1 to lA number.Suppose again, the quantity of these resources integration nodes can be any real number.

For the described resource distribution of the following differential equation (power)

( 1. 2. 1 )

The general type of resource distribution (power) can be write:

( 1. 2. 2 )

Wherein, X _SC With X _EC Be respectively system resource load and environmental resource load,

, ( 1. 2. 3 a )

( 1. 2. 3 b )

And X _DM , X _DT With X _DC The configuration tissue that is respectively subject highlighting drops into, the configuration carrier of intermediation drops into and the resource load of objectification drops into.

For easy, we can consider a kind of tertiary structure: for an enterprise value chain network by terminal client and raw material supply department's (resource node), product manufacturing sector and equipment thereof and affiliated facility (configuration node), product R ﹠ D department and equipment thereof and subsystem (tissue node) formation, we can provide the expression of following simple form:

Wherein L/ M/ N---network node quantity consists of, LBe the resource node number, MBe the configuration nodal point number, NFor knot of tissue is counted;

ESO---outside joint management relation relates to outside concentrating and dispersion, cooperation and competitive relation;

ISO---internal coordination membership credentials relate to inner concentrating and dispersion, cooperation and competitive relation.

Generally speaking, the centralization degree of system is relevant with the number of organizing node: when knot of tissue is counted n=1 o'clock, system reached in complete set; When knot of tissue is counted n〉=2 o'clock, system was in dispersity, and knot of tissue counts greatlyr, and the decentralized degree of system is just higher.

For network

, the described resource distribution of the following differential equation (power) is arranged

( 1. 2. 1 )

The general type of Network resource allocation (power) can be write:

( 1. 2. 2 )

Wherein, X _SC With X _EC Be respectively system resource load and environmental resource load,

, ( 1. 2. 3 a )

( 1. 2. 3 b )

For Enterprise Value Chain, bring into play in system the resource distribution amount that effect is brought M _F Be to bring into play the resource distribution amount that effect consumes with system

M _L Between, following three kinds of relations are arranged:

， ，

。( 1. 2. 47 )

Work as system behavio(u)r

During for positive effect,

Be the effect residue, form value;

Work as system behavio(u)r During for positive effect,

Be the effect shortage, be worth shortage;

Work as system behavio(u)r During for positive effect,

For effect zero residue, valueless.

(1. 2) set up the intelligent Integrated design basis of Enterprise Value Chain planning and configuration system.

Design according to the inventor, the mass-energy configuration of Enterprise Value Chain planning and configuration system is by the formations such as planning and configuration center (it is analyzed towards organizing node), planning and configuration target (complex of multi-layer), planning and configuration mode (it is analyzed towards the planning and configuration node), planning and configuration load (it analyzes the resourceoriented node) and planning and configuration environmental factor of subject highlighting, as shown in Fig. 2.Here, the mass-energy configuration center of Enterprise Value Chain planning and configuration system has developed becomes the advanced configuration main body with complex target system, and has a decision structure of complicated dynamic foundation (except bio-energy consists of, also relating to relations between ownership and management of enterprises, distribution of interests structure etc.), senior Enterprise Value Chain intelligent organization (and complex organization's form of socialization) and complexity; The mass-energy configuration mode of senior Enterprise Value Chain planning and configuration system relates to configuration approach, instrument, means, equipment, technical system and method, program, strategy and the aspect such as strategic; The resource distribution load of senior Enterprise Value Chain planning and configuration system comprises natural resources configuration load, configuration of social resources load and life resource distribution load, perhaps comprises physical resources configuration load, information resources configuration load, value resource configuration load, human resources configuration load etc.Senior Enterprise Value Chain planning and configuration is can be engaged in practical activity and cognitive activities and these two kinds of activities are combined the complex configurations main body of carrying out the Enterprise Value Chain planning and configuration, senior Enterprise Value Chain planning and configuration information has the more content of horn of plenty than general life-information, has more senior form.In the environment of various senior Enterprise Value Chain intelligence, senior Enterprise Value Chain planning and configuration system not only has stronger adaptability, and has stronger developing ability and certain transcendency.

Brand-new research object as the proposition of this book, Enterprise Value Chain planning and configuration system can be regarded as Enterprise Value Chain planning and configuration main body according to certain Enterprise Value Chain planning and configuration target, in certain environment with the process of certain Enterprise Value Chain planning and configuration mode to Enterprise Value Chain planning and configuration object generation effect.

According to new design, Enterprise Value Chain planning and configuration main body is relevant with the cognitive system main body (or showing as the cognitive system main body), relevant with the practice system main body (or showing as the practice system main body) on the other hand on the one hand; Enterprise Value Chain planning and configuration target can be regarded as perception target and practical goals are carried out comprehensive result; Enterprise Value Chain planning and configuration mode can be regarded cognitive configuration mode as and put into practice the integrated of configuration mode.

(1. 3) set up the technological know-how dynamic foundation of Enterprise Value Chain planning and configuration system.

We can regard the technical system of modern practice by member as P _T14 , instrument P _T13 , means P _T12 , instrument P _T11 , equipment P _T10 , facility P _T9 , program P _T8 , the rule (comprising system) P _T7 , skill P _T6 , the plan (comprising design) P _T5 , method P _T4 , strategy P _T3 , tactics P _T2 , strategy P _T1 Etc. the comple x dynamics system of different levels various factors formation, namely

P _{T S} = < P _T , ψ _T > ( P _T = { P _{T 1} , P _{T 2} , ···, P _{T 14} })。

Here, can be with technical system P _T Be divided into 14 levels ( i=1,2,, 14):

＜ P _T , ψ _T Multi-level multifactor technological system

P _T The elements combination of technological system, namely

{ p ₁₁ , p ₁₂ , ···, p _{1 k 1} , p ₂₁ , p ₂₂ , ···, p _{2 k 2} , ··· , p _{14 1} , p _{14 2} , ···, p _{14 k 14} }

ψ _T The structure function of technological system, ψ _T = ψ _T ( X)

XTechnological system key element state vector, namely

( x ₁₁ , x ₁₂ , ···, x _{1 k 1} , x ₂₁ , x ₂₂ , ···, x _{2 k 2} , ··· , x _{14 1} , x _{14 2} , ···, x _{14 k 14} )

＜ P _{T, i j} , s _{i j} Technological system＜ P _T , ψ _T iThe level subsystem,

i = 1, 2, ···, 14； j = 0, 1, 2, ···, k _i

D( h _i , s _i ) technological system＜ P _T , ψ _T iLevel decomposes

s _i The iThe state vector of level subsystem, namely ( s _i1 , s _i2 ,, s _{Ik i} )

h _i The iThe level subsystem＜ s _i , h _i Structure function,

s _i = { s _i1 , s _i2 , ···, s _{ik i} }， h _i = h _i ( g _i )

U _{i j} { e _i | ψ _T ( e _i ) ≥ j _i }

min U _{i j} ( φ) ψ _T ( X) minimum vector set, j=0,1,2,, k _i

PThe state probability vector of technological system, namely ( P(0), P(1), P(2),, P( k _i ))

The ∧ conjunction means minimizing operation in lattice operation

∨ extracts, and means to get macrooperation in lattice operation

The multi-level multimode relevant technology systems of MCTS

MIF monotonic increase discrete function

Further, can provide following note:

The 14th level: component set P _T14 = p _14,1, p _14,2,, p _{14, k14} }

The 13rd level: instrument set P _T13 = p _13,1, p _13,2,, p _{13, k1} }

The 12nd level: means set P _T12 = p _12,1, p _12,2,, p _{12, k1} }

11th layer: instrumentation set P _T11 = p _11,1, p _11,2,, p _{11, k1} }

The 10th level: cluster tool P _T10 = p _10,1, p _10,2,, p _{10, k1} }

The 9th level: facility set P _T9 = p _9,1, p _9,2,, p _{9, k1} }

The 8th level: collection of programs P _T8 = p _8,1, p _8,2,, p _{8, k1} }

The 7th level: regular collection P _T7 = p _7,1, p _7,2,, p _{7, k1} }

The 6th level: skill set P _T6 = p _6,1, p _6,2,, p _{6, k1} }

The 5th level: plan set P _T5 = p _5,1, p _5,2,, p _{5, k1} }

The 4th level: method set P _T4 = p _4,1, p _4,2,, p _{4, k1} }

The 3rd level: strategy set P _T3 = p _3,1, p _3,2,, p _{3, k1} }

The 2nd level: tactics set P _T2 = p _2,1, p _2,2,, p _{2, k1} }

The 1st level: strategy set P _T1 = p _1,1, p _1,2,, p _{1, k1} }

We can regard the modern knowledge system by the graphical sysmbol set as K ₁₄, the set of spoken word word K ₁₃, the set of written language word K ₁₂, artificial language (comprising the mathematics language) character set K ₁₁, the everyday expressions set K ₁₀, the technical term set K ₉, the abstract concept set K ₈, the general category set K ₇, concrete judgement set K ₆, the abstract proposition set K ₅, the Heuristics set K ₄, the knowwhy set K ₃, department's scientific knowledge set K ₂, comprehensive knowledge (comprising interdisciplinary science, Cross science and philosophy) set K ₁Etc. the comple x dynamics system of different levels various factors formation, namely

K _S = < K _B , π>。

Here, can be with knowledge hierarchy KBe divided into 14 levels ( i=1,2,, 14):

＜ K _B , πMulti-level multifactor knowledge system

K _B The elements combination of knowledge system, namely

{ k ₁₁ , k ₁₂ , ···, k _{1 h1} , k ₂₁ , k ₂₂ , ···, k _{2 h 2} , ··· , k _{14 1} , k _{14 2} , ···, k _{14 h 14} }

πThe structure function of knowledge system, π= π( X)

XKnowledge system key element state vector, namely

( x ₁₁ , x ₁₂ , ···, x _{1 h1} , x ₂₁ , x ₂₂ , ···, x _{2 h 2} , ··· , x _{14 1} , x _{14 2} , ···, x _{14 h14} )

＜ K _{B, i j} , g _{i j} Knowledge system＜ K _B , π iThe level subsystem,

i = 1, 2, ···, 14； j = 0, 1, 2, ···, h _i

D( c _i , g _i ) knowledge system＜ K _B , π iLevel decomposes

g _i The iThe state vector of level subsystem, namely ( g _i1 , g _i2 ,, g _{Ih i} )

c _i The iThe level subsystem＜ G _i , c _i Structure function,

G _i = { g _i1 , g _i2 , ···, g _{ih i} }， c _i = c _i ( g _i )

U _{i j} { e _i | π( e _i ) ≥ j _i }

min U _{i j} ( π) π( X) minimum vector set, j=0,1,2,, h _i

PThe state probability vector of knowledge system, namely ( P(0), P(1), P(2),, P( h _i ))

The ∧ conjunction means minimizing operation in lattice operation

∨ extracts, and means to get macrooperation in lattice operation

The multi-level multimode relevant knowledge of MCKS system

MIF monotonic increase discrete function

Further, can provide following note:

The 14th level: graphical sysmbol set K _T14 = k _14,1, k _14,2,, k _{14, h14} }

The 13rd level: spoken word word set K _T13 = k _13,1, k _13,2,, k _{13, h1} }

The 12nd level: written language word set K _T12 = k _12,1, k _12,2,, k _{12, h1} }

11th layer: artificial language character set K _T11 = k _11,1, k _11,2,, k _{11, h1} }

The 10th level: everyday expressions set K _T10 = k _10,1, k _10,2,, k _{10, h1} }

The 9th level: technical term set K _T9 = k _9,1, k _9,2,, k _{9, h1} }

The 8th level: abstract concept set K _T8 = k _8,1, k _8,2,, k _{8, h1} }

The 7th level: general category set K _T7 = k _7,1, k _7,2,, k _{7, h1} }

The 6th level: concrete judgement set K _T6 = k _6,1, k _6,2,, k _{6, h1} }

The 5th level: abstract proposition set K _T5 = k _5,1, k _5,2,, k _{5, h1} }

The 4th level: Heuristics set K _T4 = k _4,1, k _4,2,, k _{4, h1} }

The 3rd level: knowwhy set K _T3 = k _3,1, k _3,2,, k _{3, h1} }

The 2nd level: department's scientific set K _T2 = k _2,1, k _2,2,, k _{2, h1} }

The 1st level: comprehensive knowledge set K _T1 = k _1,1, k _1,2,, k _{1, h1} }

(1. 4) set up the ownership structure design basis of Enterprise Value Chain planning and configuration system.

setting up on the integrated Allocation Analysis mechanical foundation of complication system, under the economic large system Complete Factor Analysis with Synergetics framework that the inventor sets up, we can expand the consumption of emerging classical economic-producer's framework, the implicit each transaction of supposition insider transaction system cost all includes the risk of losing property right in economic same behavior people framework, this makes the trade-off between inner specialized dynamic effect and property transaction dynamic effect become possibility, thereby make the property transaction dynamic effect be carried out discussion to the impact of resource configuration system, so for the formalization of property right economy provides more wide approach.

If total lKind of property is to each property entitle wherein.Usually, if each economic behaviour in economic large system has the amount of property right for each person M _{d, k} More, it is also just higher that the rights and interests of this system are enjoyed level.Can provide following new function:

( 1. 5. 209 )

In formula RExpression rights and interests function, M _{d, k} Be k( k=1,2,, l) plant the tax power configuration amount of property, namely

( 1. 5. 210 )

Wherein, C _{d, k} Be k( k=1,2,, l) plant the configuration intensity of property, x _k Be k( k=1,2,, l) plant the quantity of property. M _{d, k} Can regard as k( k=1,2,, l) plant the property right amount of property.We can set up one dimension property right space thus.

In one dimension property right space, the rights and interests level of enjoying can be regarded the function of this kind property right amount as: R( M _d ).When an economic behaviour people amount of holding property right is M _{d, 1} With M _{d, 2} The time, if we think that having property right is M _{d, 1} Ratio had property right and was time M _{d, 2} The time better, the note

, that is have property right and be M _{d, 1} The Shi Quanyi level of enjoying is better than having property right M _{d, 2} The time rights and interests enjoy level, namely refer to R( M _{d, 1} ) R( M _{d, 2} ).That is: when

The time, remember R( M _{d, 1} ) R( M _{d, 2} ).Use vector

Can represent lPlant a kind of combination of property right.The property right amount M _{d, k} Should be greater than zero.

Property right might constitute the property right space.Usually, the property right space can be expressed as follows:

It is that the closed convex set of tieing up in the Euclidean space is closed.

Now consider two groups of property rights:

With

If think to have by certain economic behaviour people's preference X _d Ratio Y _d Have better, note If think that both are the same, or it is better which can not compare, note X _d ~ Y _d At this moment can claim X _d With Y _d Indifference.

For lPlant property right, can propose following two basic assumptions:

Suppose 1 the more the better postulating

If X _d Y _d , R( X _d ) R( Y _d ); If X _d = Y _d , R( X _d )= R( Y _d ); If X _d 〉= Y _d , R( X _d ) 〉= R( Y _d ).

Suppose R( X _d ) can be little, so the more the better postulate mean the rights and interests function the single order partial derivative greater than 0, that is:

We can the rights and interests function first derivative be called the marginal profit of property right.

Suppose that 2 rights and interests are enjoyed limited and the variation of property right type is postulated

The mathematical expression of originally postulating is the rights and interests functions R( X _d ) be strict recessed function, this means that the Hessian matrix of rights and interests function second-order partial differential coefficient is negative definite:

Negative definite.

For nTwo kinds of property transaction dynamical systems of individual and stability analysis thereof, can set up following Mathematical Modeling:

The 1st people

The 2nd people

·····························································

····························································· ( 1. 5. 211 )

The nThe people

,

Wherein C _{d, E} Be the property transaction cost.

Because everyone rights and interests function is concave function, therefore having under budgetary restraints separately:

System's (1. 5. 211) is made the Lyapunnov energy function:

It is easy to show that, d V( t)/ d t≤ 0 and only exist

The place is 0.Therefore system's (1. 5. 211) is Asymptotic Stability.This shows, the property transaction cost will trend towards a certain stationary value, and two kinds of property rights reach supply-and-demand equilibrium at last, and the at this moment configuration of property right arrives some Pareto equilibrium points.

(2) for Enterprise Value Chain, the inventor is at the brand-new logical foundations of its independent foundation, Fundamentals of Mathematics, on scientific basic and brand-new technical foundation and engineering foundation, for " cloud " counting system that flicker is indefinite is transformed into the Correspondent all things on earth, connect " world " counting system of longitude and latitude, adhere to take the global value Chain System as core, with the connection of EVC cognitive system (and computer aided system) and EVC practice system (and computer aided system) with coordinate main line as high-grade intelligent integrated system (HIIS) evolution process, set up the know-why of planning and configuration dynamic foundation design.

(2. 1) are being inquired into aspect intelligent society internal coordination factor kinetics relation, the inventor will consider to introduce the internal support factor and the inner intensifier of the integrated large system of intelligence, and consider to set up based on the trend Factor Equations group of the internal motivation factor with based on the development factor equation group of the internal coordination factor.For intelligence integrated large system, on the one hand, what practice process and cognitive process occurred in the inner specialized and inner division of labor separates with integrated, the formation internal motivation factor; On the other hand, inner specialized minute industry and the layering that occurs in practice process and cognitive process with the inside division of labor forms the internal coordination factor.For intelligent homogeneity main body, can set up intelligent function, with the relation between expression intelligence life tissue and Resource allocation power and technical merit.Under set time natural endowment constraint, knowledge is determined by level labor division.By the distribution of time in disparity items (task) resource distribution, can determine professional level.The specialized level of intelligent organization should be the function of intelligent individual professional level.Follow the evolution specialized and division of labor, intelligent behavior people is developed by the same main body of intelligence becomes the intelligent main body of separating, and then evolving becomes intelligent integrated entity.For the internal motivation factor, basic motive analysis and the basic effect analysis of setting up intelligent separating purification on the one hand, basic motive analysis and the basic effect analysis of setting up on the other hand Intelligent integrated.For the internal coordination factor, set up on the one hand specialized basic motive analysis and basic effect analysis, set up on the other hand basic motive analysis and the basic effect analysis of the division of labor.

Typical intelligent generating function can be listed following several:

B1) based on the intelligent generating function of fixed proportion with based on the intelligent generating function of variable proportion

Intelligent generating function with technique for fixing coefficient can be described as the intelligent generating function of fixed proportion, for example, following simple form is arranged:

( 1. 5. 2 )

At this, intelligence generates yBe x ₁With x ₂Function, can not carry out any substituting this moment between Input Factors, arbitrary specific intelligence generates quantity levels needs specific Input Factors combination.Only increase the input of various key elements according to identical ratio, just may increase achievement quantity.

The intelligent generating function of more special fixed proportion can be written as following form:

( 1. 5. 3 )

This formal specification intelligence generates and is lIndividual ratio K ₁/ α ₁, K ₂/ α ₂,, K _l / α _l Minimum value. lPlant forming element and keep fixed proportion.Under this form, can not the phase trans-substitution between various forming elements.

The variable intelligent generating function of technical coefficient can be described as the intelligent generating function of variable proportion.When two kinds of forming elements can substitute fully, this function was linear intelligent generating function; When two kinds of forming elements not exclusively substituted, this function was the Nonlinear Intelligent generating function.

The existence of the intelligent generating function of variable proportion makes intelligence life tissue or the individual achievement of utilizing different input ratios to generate same quantity become possibility.Along with the continuous progress of technology, intelligent generating function can change.

B2) homogeneous intelligent generating function

For a kind of intelligent generating function

If all forming elements that drop into change λTimes, and intelligent achievement quantity changes by same direction λ ⁿ Doubly, namely

，

So intelligent generating function can be described as homogeneous intelligent generating function.Especially, if n=1, this function is Linear Homogeneous intelligence generating function.

More typical homogeneous intelligent generating function can be written as following form:

( 1. 5. 4 )

In formula, ARepresent set intellectual technology level; K ₁With K ₂Be two kinds of forming elements, and be that the phase trans-substitution is by incomplete phase trans-substitution; αWith βBe respectively two kinds of forming elements to the contribution of intelligent achievement quantity, wherein, 1＜ α＜0,1＜ β＜0.

Order Expression iBe engaged in vItem is movable (or to be generated vAchievement, bear vTask) compliance rate (or completion rate, realize rate).Order A _vi ≡ T _vi / T _i Expression iBe engaged in vItem is movable (or to be generated vAchievement, bear vThe item task) professional level.Use these expression formulas and arrange (1.), we can be expressed as the rate that realizes of an activity (or compliance rate of the completion rate of an achievement, a task) function of a people's professional level:

， ，······，

，······，

；

( 1. 5. 26 )

In formula

Expression iBe engaged in vItem is movable (or to be generated vAchievement, bear vTask) compliance rate (or completion rate, realize rate); A _vi Expression iBe engaged in vItem is movable (or to be made vAchievement, bear vThe item task) professional level.If a1(or a＜1), With A _vi And

With A _wi Together increase (or reducing).This means that the rate that realizes that a people is engaged in an activity is engaged in the professional level of this activity and together increases with it.

(2. 2) load elastic type Enterprise Value Chain planning and configuration configuration effect (being called for short CEC type Enterprise Value Chain planning and configuration configuration power) can be write:

,

Constant elasticity of substitution type Enterprise Value Chain planning and configuration configuration effect (being called for short CES type Enterprise Value Chain planning and configuration configuration power) can be write:

,

For the described resource load of the following differential equation (power)

The general type of Enterprise Value Chain planning and configuration load (power) can be write:

Wherein, X _PC With X _RC Be respectively practice system load and cognitive system load:

,

And X _MR , X _ER , X _IR , X _KR With X _SR The physical resources input, energy resource input, information resources input, knowledge resource input and the spiritual resource that are respectively in the Enterprise Value Chain planning and configuration drop into.

For the described system behavio(u)r of the following differential equation

The general type of Enterprise Value Chain planning and configuration system behavio(u)r can be write:

Wherein

,

The complete form of Enterprise Value Chain planning and configuration system behavio(u)r can be write:

Wherein,

For the main body that comes from the practice system field and be used for the practice system field drops into;

The main body input that is used for the practice system field for coming from field of cognitive systems;

The main body that is used for field of cognitive systems for coming from the practice system field drops into; The main body that also is used for field of cognitive systems for coming from field of cognitive systems drops into;

For the technology that comes from the practice system field and be used for the practice system field drops into;

The technology input that is used for the practice system field for coming from field of cognitive systems;

The technology that is used for field of cognitive systems for coming from the practice system field drops into;

The technology that also is used for field of cognitive systems for coming from field of cognitive systems drops into; For the load that comes from the practice system field and be used for the practice system field drops into;

The load input that is used for the practice system field for coming from field of cognitive systems;

The load that is used for field of cognitive systems for coming from field of cognitive systems drops into;

For the load that comes from the practice system field and be used for the practice system field drops into.

Constant elasticity of substitution type Enterprise Value Chain planning and configuration system behavio(u)r function (being called for short CES type Enterprise Value Chain planning and configuration system behavio(u)r function)

Wherein

,

For the described system consumption of the following differential equation

The general type of Enterprise Value Chain planning and configuration system consumption can be write:

Wherein, X _PA With X _RA Be respectively practice system consumption and cognitive system consumption:

,

And X _MA , X _EA , X _IA , X _KA With X _SA Be respectively physical resources consumption, energy resource consumption, information resources consumption, knowledge resource consumption and spiritual resource consumption in the Enterprise Value Chain planning and configuration.

(2. 3) now, for the power capital system, we consider suitably to introduce collaborative state variable, collaborative state factor and state trend parameter, Primary Study is set up collaborative state factor kinetics equation.

What at first need to consider is to introduce suitable, as to be used for describing general complicated power capital system macrostate order parameter, introduce suitable, be used for the control parameter of reflection external environment effect, and introduce suitable, be used for reflecting respectively general complicated power capital system basic motive, base load, basic effect, substantially consume, the various basic collaborative variablees of inner cooperation and competition and outside cooperation and competition.

For arbitrary complicated power capital system, the order parameter can be used as the basic variable of descriptive system macrostate.We can consider to choose the lower stock number of certain capital domination in all total resources of a certain economic system shared proportion as the basic variable of description power capital system macrostate.This proportion can be seen the weight of certain capital as, thus, we can consider to provide the weight of budget power capital, the weight of administrative power capital, the weight of speculating the power capital and the weight of derivative power capital, and with the order parameter of these four amounts as description power capital system macrostate.

In the situation that arbitrary complicated power capital system is summed up as resource configuration system, suppose that this system is total HIndividual resource node, LIndividual configuration node and NThe individual node of organizing, wherein,

The lIndividual configuration node comprises h _l Individual resource node,

, l=1,2,, L

The nThe individual node of organizing comprises l _n Individual configuration node,

, n=1,2,, N

Suppose that the magnitude of value that power capital system definite under the configuration tightness level of various resources drops into is M _dS Various power capital inputs are divided into four classes, that is: for by the resource quantity of budget power capital domination, by the resource quantity of administrative power capital domination, by the resource quantity of speculating the domination of power capital with by the resource quantity that derives the domination of power capital, they can be denoted as respectively Q _B , Q _A , Q _S With Q _D Constantly t, power capital system configuration density Π _dK Can be as giving a definition:

, ( 1. 8. 132 )

Wherein, Π _dB Be budget power capital system configuration density, Q _B Be the resource quantity by the domination of budget power capital, σ _dB Tax power configuration tightness for budget power capital resources; Π _dA Be administrative power capital system configuration density, Q _A Be the resource quantity by the domination of administrative power capital, σ _dA Tax power configuration tightness for the administrative power capital resources; Π _dS Be congenial power capital system configuration density, Q _S Serve as reasons and speculate the resource quantity of power capital domination, σ _dS For speculating the tax power configuration tightness of power capital resources; Π _dD Be derivative power capital system configuration density, Q _D The resource quantity that the derivative power capital of serving as reasons is arranged, σ _dD Tax power configuration tightness for derivative power capital resources; And

ρ = 1, 2, ···, K ( 1. 8. 133 a )

ρ = 1, 2, ···, K ( 1. 8. 133 b )

ρ = 1, 2, ···, K ( 1. 8. 133 c )

ρ = 1, 2, ···, K ( 1. 8. 133 d )

Wherein, Q _ρ Be the under power capital system domination ρPlant the quantity of resource, KBe the resource kind number under the domination of power capital system, p _ρ Be the under power capital system domination ρPlant the price of resource.

Here, we can be with power capital system configuration density Π _dK Be elected to be the order parameter of describing for being used for this complexity power capital system macrostate, and be referred to as collaborative state variable.

Further, for complicated power capital system, can be with the order parameter as state variable Π _dK Be divided into target order parameter and actual order parameter, be denoted as respectively Π _dK With Π _dK

For the power capital system, we consider suitably to introduce Collaborative Control parameter, the Collaborative Control factor and control the trend parameter, and Primary Study is set up Collaborative Control factor kinetics equation.

Suppose extraneous constantly tThe resource flow that provides to budget power capital system M _{E, B} Contain material stream M _{EM, B} , manpower stream M _{EH, B} , cash flow M _{EK, B} And information flow M _{EI, B} , that is:

( 1. 8. 134 )

Wherein,

Q _{EM, Bυ} For the external world to budget power capital system provide υ _M Plant the quantity of material stream,

V _MB The kind number that the material that provides to budget power capital system for the external world flows,

σ _{EM, Bυ} For the external world to budget power capital system provide υ _M Plant the tax power configuration tightness of material stream;

Q _{EH, Bυ} For extraneous budget power capital system provide υ _H Plant the quantity of manpower stream,

V _HB The kind number that the manpower that provides to budget power capital system for the external world flows,

σ _{EH, Bυ} For extraneous budget power capital system provide υ _H Plant the tax power configuration tightness of manpower stream;

Q _{EK, Bυ} For the external world to budget power capital system provide υ _K Plant the quantity of cash flow,

V _KB The kind number of the cash flow that provides to budget power capital system for the external world,

σ _{EK, Bυ} For the external world to budget power capital system provide υ _K Plant the tax power configuration tightness of cash flow;

Q _{EI, Bυ} For the external world to budget power capital system provide υ _I Plant the quantity of information flow,

V _IB The kind number of the information flow that provides to budget power capital system for the external world,

σ _{EI, Bυ} For the external world to budget power capital system provide υ _I Plant the tax power configuration tightness of information flow.

Suppose extraneous constantly tThe resource flow that provides to the administrative power capital system M _{E, A} Contain material stream M _{EM, A} , manpower stream M _{EH, A} , cash flow M _{EK, A} And information flow M _{EI, A} , that is:

( 1. 8. 135 )

Wherein, Q _{EM, Aυ} For the external world to the administrative power capital system provide υ _M Plant the quantity of material stream, V _MA The kind number that the material that provides to the administrative power capital system for the external world flows, σ _{EM, Aυ} For the external world to the administrative power capital system provide υ _M Plant the tax power configuration tightness of material stream; Q _{EH, Aυ} For extraneous administrative power capital system provide υ _H Plant the quantity of manpower stream, V _HA The kind number that the manpower that provides to the administrative power capital system for the external world flows, σ _{EH, Aυ} For extraneous administrative power capital system provide υ _H Plant the tax power configuration tightness of manpower stream; Q _{EK, Aυ} For the external world to the administrative power capital system provide υ _K Plant the quantity of cash flow, V _KA The kind number of the cash flow that provides to the administrative power capital system for the external world, σ _{EK, Aυ} For the external world to the administrative power capital system provide υ _K Plant the tax power configuration tightness of cash flow; Q _{EI, Aυ} For the external world to the administrative power capital system provide υ _I Plant the quantity of information flow, V _IA The kind number of the information flow that provides to the administrative power capital system for the external world, σ _{EI, Aυ} For the external world to the administrative power capital system provide υ _I Plant the tax power configuration tightness of information flow.

Suppose extraneous constantly tTo the resource flow of speculating the power capital system and providing M _{E, S} Contain material stream M _{EM, S} , manpower stream M _{EH, S} , cash flow M _{EK, S} And information flow M _{EI, S} , that is:

( 1. 8. 136 )

Wherein, Q _{EM, Sυ} For the external world to speculate that the power capital system provides the υ _M Plant the quantity of material stream, V _MS The kind number that the material that provides to congenial power capital system for the external world flows, σ _{EM, Sυ} For the external world to speculate that the power capital system provides the υ _M Plant the tax power configuration tightness of material stream; Q _{EH, Sυ} For the external world speculate that the power capital system provides the υ _H Plant the quantity of manpower stream, V _HS The kind number that the manpower that provides to congenial power capital system for the external world flows, σ _{EH, Sυ} For the external world speculate that the power capital system provides the υ _H Plant the tax power configuration tightness of manpower stream; Q _{EK, Sυ} For the external world to speculate that the power capital system provides the υ _K Plant the quantity of cash flow, V _KS For the external world to the kind number of speculating the cash flow that the power capital system provides, σ _{EK, Sυ} For the external world to speculate that the power capital system provides the υ _K Plant the tax power configuration tightness of cash flow; Q _{EI, Sυ} For the external world to speculate that the power capital system provides the υ _I Plant the quantity of information flow, V _IS For the external world to the kind number of speculating the information flow that the power capital system provides, σ _{EI, Sυ} For the external world to speculate that the power capital system provides the υ _I Plant the tax power configuration tightness of information flow.

Suppose extraneous constantly tThe resource flow that provides to derivative power capital system M _{E, D} Contain material stream M _{EM, D} , manpower stream M _{EH, D} , cash flow M _{EK, D} And information flow M _{EI, D} , that is:

( 1. 8. 137 )

Wherein, Q _{EM, Dυ} For the external world to derivative power capital system provide the υ _M Plant the quantity of material stream, V _MD The kind number that the material that provides to derivative power capital system for the external world flows, σ _{EM, Dυ} For the external world to derivative power capital system provide the υ _M Plant the tax power configuration tightness of material stream; Q _{EH, Dυ} For the derivative power capital system in the external world provide the υ _H Plant the quantity of manpower stream, V _HD The kind number that the manpower that provides to derivative power capital system for the external world flows, σ _{EH, Dυ} For the derivative power capital system in the external world provide the υ _H Plant the tax power configuration tightness of manpower stream; Q _{EK, Dυ} For the external world to derivative power capital system provide the υ _K Plant the quantity of cash flow, V _KD The kind number of the cash flow that provides to derivative power capital system for the external world, σ _{EK, Dυ} For the external world to derivative power capital system provide the υ _K Plant the tax power configuration tightness of cash flow; Q _{EI, Dυ} For the external world to derivative power capital system provide the υ _I Plant the quantity of information flow, V _ID The kind number of the information flow that provides to derivative power capital system for the external world, σ _{EI, Dυ} For the external world to derivative power capital system provide the υ _I Plant the tax power configuration tightness of information flow.

Suppose extraneous constantly tThe resource flow that provides to the power capital system of a certain complexity M _{E, K} Contain material stream M _{EM, K} , manpower stream M _{EH, K} , cash flow M _{EK, K} And information flow M _{EI, K} , that is:

( 1. 8. 138 )

Wherein, Q _{E, Bυ} For the external world to budget power capital system provide υ _B The quantity of group resource flow, V _B The category number of the resource flow that provides to budget power capital system for the external world, σ _{E, Bυ} For the external world to budget power capital system provide υ _B The tax power configuration tightness of group resource flow; Q _{E, Aυ} For the external world to the administrative power capital system provide υ _A The quantity of group resource flow, V _A The category number of the resource flow that provides to the administrative power capital system for the external world, σ _{E, Aυ} For the external world to the administrative power capital system provide υ _A The tax power configuration tightness of group resource flow; Q _{E, Sυ} For the external world to speculate that the power capital system provides the υ _S The quantity of group resource flow, V _S For the external world to the category number of speculating the resource flow that the power capital system provides, σ _{E, Sυ} For the external world to speculate that the power capital system provides the υ _S The tax power configuration tightness of group resource flow; Q _{E, Dυ} For the external world to derivative power capital system provide the υ _D The quantity of group resource flow, V _D The category number of the resource flow that provides to derivative power capital system for the external world, σ _{E, Dυ} For the external world to derivative power capital system provide the υ _D The tax power configuration tightness of group resource flow.

Here, we can be with the external world constantly tThe resource flow that provides to a certain power capital system M _E Be elected to be as being used for describing outer bound pair and should complexity power capital organize the control parameter of power capital system generation effect, and be referred to as the Collaborative Control parameter.

Further, organize the power capital system for complicated power capital, can be with as controlling parameter M _E Be divided into target control parameter and working control parameter, be denoted as respectively M _E With M _E

(3) for Enterprise Value Chain, the inventor is at the brand-new logical foundations of its independent foundation, Fundamentals of Mathematics, on scientific basic and brand-new technical foundation and engineering foundation, for " cloud " counting system that flicker is indefinite is transformed into the Correspondent all things on earth, connect " world " counting system of longitude and latitude, adhere to take the global value Chain System as core, with the connection of EVC cognitive system and EVC practice system with coordinate critical process as Integrated Intelligent System, it is suitable to introduce, be used for reflecting respectively general Complex Adaptive Systems basic motive, base load, basic effect, basic consumption, the various basic collaborative variable of inner cooperation and competition and outside cooperation and competition, set up engineering concept and the technical scheme of the design of planning and configuration dynamic foundation.

(3. 1) as complicated self-organizing cooperative control system, and Enterprise Value Chain planning and configuration large system is by Practice Subject (the intelligentized self-organizing system of Enterprise Value Chain) P _M And cognitive subject (the intelligentized self-organizing system of Enterprise Value Chain) C _M , practical basis P _B And cognitive basis C _B , practice technology P _T And cognitive techniques C _T , effective object P _O With cognitive object C _O , practical environment P _E And cognitive environment C _E Interconnect, interact and form, be denoted as:

G =< G _M , G _B , G _T , G _O , G _E , Ψ _G >，

Wherein Ψ _G Be Enterprise Value Chain planning and configuration structure function, G _M =＜ P _M , C _M , Ψ _{G M} , G _B =＜ P _B , C _B , Ψ _GB , G _T =＜ P _T , C _T , Ψ _GT , G _O =＜ P _O , C _O , Ψ _{G O} , G _E =＜ P _E , C _E , Ψ _{G E} , wherein Ψ _{G M} Be Enterprise Value Chain planning and configuration agent structure function, wherein Ψ _{G B} Be Enterprise Value Chain intelligent basis structure function, wherein Ψ _{G T} Be Enterprise Value Chain intellectual technology structure function, wherein Ψ _{G O} Be Enterprise Value Chain smart object structure function, wherein Ψ _{G E} Be Enterprise Value Chain intelligent environment structure function.

C1. as the principal element of the large system of Enterprise Value Chain planning and configuration, Enterprise Value Chain planning and configuration main body G _M Can be divided into the individual form of Enterprise Value Chain planning and configuration G _{M, pre} , Enterprise Value Chain planning and configuration group form G _{M, col} With Enterprise Value Chain planning and configuration social form G _{M, soc}

The individual form of Enterprise Value Chain planning and configuration main body is the self-organizing system that is made of single intelligence life (human individual), and it can regard the advanced form of nature self-organizing as, is denoted as G _{M I}

The group form of Enterprise Value Chain planning and configuration main body is the Self-organized Group system that is made of two above intelligence lifes (human colony), and it can regard the low level form of social self-organization as, is denoted as G _{M II}

The social form of Enterprise Value Chain planning and configuration main body is the self-organizing complication system that is made of by certain social relationships numerous intelligence lifes, and it can regard the advanced form of social organization as, is denoted as G _{M III}

Generally speaking, as the Enterprise Value Chain planning and configuration self-organizing system of complexity, Enterprise Value Chain planning and configuration main body has physiological structure Φ _P , mental structure Φ _M And social structure Φ _S , be denoted as G _M =＜ G _{M S} , Φ _P , Φ _M , Φ _S .Physiological structure is prevalent among various vital tissues forms, and mental structure only is present among some life system, and social structure mainly is present among human life's tissue.

Use system comparative analysis method ^[], the social structure of Enterprise Value Chain planning and configuration main body can be divided into three basic level, that is: decision structure D, message structure IAnd dynamic structure M, be denoted as Φ _S =＜ D, I, M.

For Enterprise Value Chain planning and configuration large system, so-called decision structure mainly refers to policy-making power, coordinates power and the distribution relation of enforcement power in the middle of all participants of a certain Enterprise Value Chain planning and configuration activity, by policy-making power percentage a, coordinate power percentage bWith enforcement power percentage cReflection can be denoted as D=＜ a, b, c.The subject matter of decision structure is obviously the centralization and decentralization of policy-making power.

For Enterprise Value Chain planning and configuration large system, so-called message structure refers to mainly that information level flows, information perpendicular flow and the distribution relation of information cross flow one in the middle of all participants of the huge activity of a certain Enterprise Value Chain planning and configuration, by bottom horizontal flow sheet information percentage d, perpendicular flow information percentage eWith cross flow one information percentage fReflection can be denoted as I=＜ d, e, f.The subject matter of message structure is obviously direction and the size of information flow.

For Enterprise Value Chain planning and configuration large system, so-called dynamic structure refers to that mainly property right (property right), resource consumption (payment) and residue ask for (income) distribution relation in the middle of all participants of a certain Enterprise Value Chain planning and configuration activity, by property right percentage g, perrcentage depletion hWith income percentage kReflection can be denoted as M=＜ g, h, k.The subject matter of dynamic structure is obviously basis and the condition of power mechanism.

For decision structure, should consider individual right ( a(IND), b(IND), c(IND)), collective's power ( a(COL), b(COL), c(COL)) and public power ( a(PUB), b(PUB), c(PUB)).For message structure, should consider personal information ( d(IND), e(IND), f(IND)), collective's information ( d(COL), e(COL), f(COL)) and public information ( d(PUB), e(PUB), f(PUB)).For dynamic structure, should consider individual property right ( g(IND), h(IND), k(IND)), collective property right ( g(COL), h(COL), k(COL)) and public domain ( g(PUB), h(PUB), k(PUB)).

As the intelligentized self-organizing control system of Enterprise Value Chain, Enterprise Value Chain planning and configuration main body G _M Can be denoted as G _M =＜ g _M , Ψ _M , wherein g _M Be the basic organization unit set g _M = g _M1 , g _M2 ,, g _{M n} , Ψ _M Structure function for the self-organizing complex control system Ψ _M = Ψ _M ( X), XBasic organization unit state vector for system X=( x ₁, x ₂,, x _n ), G _{M, i} =＜ g _{M, i} , d _i ( i=1,2,, w) be system G _M =＜ g _M , Ψ _M Subsystem, and u _M For system＜ d, u _M Structure function, d _M = d _M1 , d _M2 ,, d _{M w} , u _M = u _M ( d _M ).

C2. as the Fundamentals of the large system of Enterprise Value Chain planning and configuration, basic condition G _B Can be divided into material base condition, Information base condition and spiritual basis condition.Further, basic condition can be regarded as mainly and consisted of by five class element of resources, be denoted as G _B = G _{B M} , G _{B E} , G _{B I} , G _{B K} , G _{B G} .Wherein, all are by the material of Enterprise Value Chain planning and configuration main body control or utilization G _{B M} And the energy G _{B E} Consist of the material base of the large system of Enterprise Value Chain planning and configuration, all are by the communications facility of Enterprise Value Chain planning and configuration main body control or utilization G _{B I} Consist of the Information base of the large system of Enterprise Value Chain planning and configuration, the knowledge that all are grasped or utilized by Enterprise Value Chain planning and configuration main body G _{B K} With Enterprise Value Chain intelligence G _{B G} Consist of the spiritual basis of the large system of Enterprise Value Chain planning and configuration.As the technology of the large system core factor of Enterprise Value Chain planning and configuration substantially from basic condition.

On the other hand, basic condition can be divided into natural basis condition and social base condition.Under field conditions (factors), all various physical materials by Enterprise Value Chain planning and configuration main body control or utilization, chemical material, biomaterial, electric power, waterpower, nuclear energy, wind-force, ecological recycle system etc. consist of the natural basis of the large system of Enterprise Value Chain planning and configuration.Under social condition, all are by the various social resources of Enterprise Value Chain planning and configuration main body control or utilization, as law, administrative power, ethics standard, interpersonal relationships, social morals etc., and cultural resource, as level of education, scientific research condition, art foundation, cultural facility etc., consist of the social base of the large system of Enterprise Value Chain planning and configuration.

In various basic conditions, knowledge is more and more important factor.Knowledge can be divided into multiple level by layer of structure---graphical sysmbol set, the set of spoken word word, the set of written language word, artificial language (comprising the mathematics language) character set, everyday expressions set, technical term set, abstract concept set, general category set, concrete judgement set, abstract proposition set, Heuristics set, knowwhy set, department's scientific set, comprehensive knowledge (comprising interdisciplinary science, Cross science and philosophy) set etc.

C3. as the key factor of the large system of Enterprise Value Chain planning and configuration, technology P _T Jointly being made of practice technology and cognitive techniques, is a multi-level complicated dynamic system that comprises many factors.In the large systematic procedure of arbitrary Enterprise Value Chain planning and configuration, always have the integral body of structure function as one between technology and various technology and exist and play a role.

We can regard modern enterprise value chain planning and configuration technical system by putting into practice member as P _T14 With cognitive member C _T14 , put into practice instrument P _T13 And cognitive tool C _T13 , put into practice means P _T12 And cognitive method C _T12 , put into practice instrument P _T11 With cognitive instrument C _T11 , put into practice equipment

P _T10 And cognitive device C _T10 , put into practice facility P _T9 With put into practice facility C _T9 , put into practice program P _T8 And cognitive degree C _T8 , practice rule (comprising system) P _T7 And rule of recogni-tion (comprising system) C _T7 , put into practice skill P _T6 And cognition skill C _T6 , realization (comprising design)

P _T5 With cognition plan (comprising design) C _T5 , hands-on approach P _T4 And cognitive approach C _T4 , practice strategy P _T3 And cognitive strategy C _T3 , put into practice tactics P _T2 With cognitive tactics C _T2 , practice strategy P _T1 With cognitive strategy C _T1 Etc. the comple x dynamics system of different levels various factors formation, namely

G _{T S} = < G _T , Ψ _T > ( G _T = { P _{T 1} , C _{T 1} , P _{T 2} , C _{T 2} , ···, P _{T 14} , C _{T 14} })。

Here, can be with Enterprise Value Chain planning and configuration technical system G _T Be divided into 14 levels ( i=1,2,, 14):

＜ G _T , Ψ _T Multi-level multifactor Enterprise Value Chain planning and configuration technological system

G _T The elements combination of Enterprise Value Chain planning and configuration technological system, namely

{ p ₁₁ , p ₁₂ , ···, p _{1 k 1} , p ₂₁ , p ₂₂ , ···, p _{2 k 2} , ··· , p _{14 1} , p _{14 2} , ···, p _{14 k 14} , c ₁₁ , c ₁₂ , ···, c _{1 k 1} ,

c ₂₁ , c ₂₂ , ···, c _{2 k 2} , ··· , c _{14 1} , c _{14 2} , ···, c _{14 k 14} }

Ψ _T The structure function of Enterprise Value Chain planning and configuration technological system, Ψ _T = Ψ _T ( X)

XEnterprise Value Chain planning and configuration technological system key element state vector, namely

( x ₁₁ , x ₁₂ , ···, x _{1 k 1} , x ₂₁ , x ₂₂ , ···, x _{2 k 2} , ··· , x _{14 1} , x _{14 2} , ···, x _{14 k 14} )

＜ G _{T, i j} , d _{T i j} Enterprise Value Chain planning and configuration technological system＜ G _T , Ψ _T iThe level subsystem,

i = 1, 2, ···, 14； j = 0, 1, 2, ···, k _i

D( u _{T i} , d _{T i} ) Enterprise Value Chain planning and configuration technological system＜ G _T , Ψ _T iLevel decomposes

d _T The iThe state vector of level subsystem, namely ( d _{T i1} , d _Ti2 ,, d _{Tik i} )

u _{T i} The iThe level subsystem＜ d _{T i} , u _{T i} Structure function,

d _{T i} = { d _Ti1 , d _Ti2 , ···, d _{Tik i} }， u _{T i} = u _i ( d _{T i} )

U _{i j} { e _i | π( e _i ) ≥ j _i }

min U _{i j} ( π) Ψ _T ( X) minimum vector set, j=0,1,2,, k _i

PThe state probability vector of Enterprise Value Chain planning and configuration technological system, namely ( P(0), P(1), P(2),, P( k _i ))

The ∧ conjunction means minimizing operation in lattice operation

∨ extracts, and means to get macrooperation in lattice operation

The multi-level multimode relevant technology systems of MCTS

MIF monotonic increase discrete function

Further, can provide following note:

The 14th level: Enterprise Value Chain planning and configuration component set G _T14 = p _14,1, p _14,2,, p _{14, k14} , c _14,1, c _14,2,, c _{14, k14} }

The 13rd level: Enterprise Value Chain planning and configuration instrument set G _T13 = p _13,1, p _13,2,, p _{13, k1} , c _13,1, c _13,2,, c _{13, k1} }

The 12nd level: Enterprise Value Chain planning and configuration means set G _T12 = p _12,1, p _12,2,, p _{12, k1} , c _12,1, c _12,2,, c _{12, k1} }

11th layer: Enterprise Value Chain planning and configuration instrumentation set G _T11 = p _11,1, p _11,2,, p _{11, k1} , c _11,1, c _11,2,, c _{11, k1} }

The 10th level: Enterprise Value Chain planning and configuration cluster tool G _T10 = p _10,1, p _10,2,, p _{10, k1} , c _10,1, c _10,2,, c _{10, k1} }

The 9th level: Enterprise Value Chain planning and configuration facility set G _T9 = p _9,1, p _9,2,, p _{9, k1} , c _9,1, c _9,2,, c _{9, k1} }

The 8th level: Enterprise Value Chain planning and configuration collection of programs G _T8 = p _8,1, p _8,2,, p _{8, k1} , c _8,1, c _8,2,, c _{8, k1} }

The 7th level: Enterprise Value Chain planning and configuration regular collection G _T7 = p _7,1, p _7,2,, p _{7, k1} , c _7,1, c _7,2,, c _{7, k1} }

The 6th level: Enterprise Value Chain planning and configuration skill set G _T6 = p _6,1, p _6,2,, p _{6, k1} , c _6,1, c _6,2,, c _{6, k1} }

The 5th level: Enterprise Value Chain planning and configuration plan set G _T5 = p _5,1, p _5,2,, p _{5, k1} , c _5,1, c _5,2,, c _{5, k1} }

The 4th level: Enterprise Value Chain planning and configuration method set G _T4 = p _4,1, p _4,2,, p _{4, k1} , c _4,1, c _4,2,, c _{4, k1} }

The 3rd level: Enterprise Value Chain planning and configuration strategy set G _T3 = p _3,1, p _3,2,, p _{3, k1} , c _3,1, c _3,2,, c _{3, k1} }

The 2nd level: Enterprise Value Chain planning and configuration tactics set G _T2 = p _2,1, p _2,2,, p _{2, k1} , c _2,1, c _2,2,, c _{2, k1} }

The 1st level: Enterprise Value Chain planning and configuration strategy set G _T1 = p _1,1, p _1,2,, p _{1, k1} , c _1,1, c _1,2,, c _{1, k1} }

Enterprise Value Chain planning and configuration basis is the condition that Enterprise Value Chain planning and configuration technology plays a role, and Enterprise Value Chain planning and configuration technology is that Enterprise Value Chain planning and configuration basis factor interconnects and the dynamical system that forms.

(3. 2) are the joint management relation internally, and Enterprise Value Chain planning and configuration dynamic foundation can be divided into following 9 seed categories:

The inner planning and configuration dynamic foundation of concentrating type of cooperation enterprise value chain network URN (on, oc, os, [ICC])

The inner planning and configuration dynamic foundation of concentrating type of cooperation enterprise value chain network URN (on, oc, os, [ICK])

The inner planning and configuration dynamic foundation of concentrating type of cooperation enterprise value chain network URN (on, oc, os, [ICH])

The inner planning and configuration dynamic foundation of concentrating type of cooperation enterprise value chain network URN (on, oc, os, [IDC])

The inner planning and configuration dynamic foundation of concentrating type of cooperation enterprise value chain network URN (on, oc, os, [IDK])

The inner planning and configuration dynamic foundation of concentrating type of cooperation enterprise value chain network URN (on, oc, os, [IDH])

The inner planning and configuration dynamic foundation of concentrating type of cooperation enterprise value chain network URN (on, oc, os, [IMC])

The inner planning and configuration dynamic foundation of concentrating type of cooperation enterprise value chain network URN (on, oc, os, [IMK])

The inner planning and configuration dynamic foundation of concentrating type of cooperation enterprise value chain network URN (on, oc, os, [IMH])

From co-organized from the outside to look at the relationship, Enterprise Value Chain planning and configuration dynamic foundation can be divided into following 9 seed categories:

The outside planning and configuration dynamic foundation of concentrating type of cooperation enterprise value chain network URN (on, oc, os, [ECC])

The outside planning and configuration dynamic foundation of concentrating type of competition enterprise value chain network URN (on, oc, os, [ECK])

The outside planning and configuration dynamic foundation of coordinating type enterprise value chain network URN (on, oc, os, [ECH]) of concentrating

The planning and configuration dynamic foundation of outer loose cooperation type enterprise value chain network URN (on, oc, os, [EDC])

The planning and configuration dynamic foundation of outer scattered type of competition enterprise value chain network URN (on, oc, os, [EDK])

Outer scattered is coordinated the planning and configuration dynamic foundation of type enterprise value chain network URN (on, oc, os, [EDH])

The planning and configuration dynamic foundation of outside collecting and distributing type of cooperation enterprise value chain network URN (on, oc, os, [EMC])

The planning and configuration dynamic foundation of outside collecting and distributing type of competition enterprise value chain network URN (on, oc, os, [EMK])

The planning and configuration dynamic foundation of outside collecting and distributing coordination type enterprise value chain network URN (on, oc, os, [EMH])

From inside and outside joint management relation, Enterprise Value Chain planning and configuration dynamic foundation can be divided into following 81 seed categories:

The outside planning and configuration power of concentrating cooperation/inner type of cooperation enterprise value chain network URN ([ECC/ICC]) of concentrating

The outside planning and configuration power of concentrating cooperation/inner type of competition enterprise value chain network URN ([ECC/ICK]) of concentrating

Outside cooperation/inner planning and configuration the power of coordinating type enterprise value chain network URN ([ECC/ICH]) of concentrating of concentrating

The outside planning and configuration power of concentrating cooperation/inner type of cooperation enterprise value chain network URN of dispersion ([ECC/IDC])

The outside planning and configuration power of concentrating cooperation/inner type of competition enterprise value chain network URN of dispersion ([ECC/IDK])

The outside planning and configuration power of concentrating cooperation/inner decentralized coordinating type enterprise value chain network URN ([ECC/IDH])

The outside planning and configuration power of concentrating cooperation/inner collecting and distributing type of cooperation enterprise value chain network URN ([ECC/IMC])

The outside planning and configuration power of concentrating cooperation/inner collecting and distributing type of competition enterprise value chain network URN ([ECC/IMK])

The outside planning and configuration power of concentrating cooperation/inner collecting and distributing coordination type enterprise value chain network URN ([ECC/IMH])

The outside planning and configuration power of concentrating competition/inner type of cooperation enterprise value chain network URN ([ECK/ICC]) of concentrating

The outside planning and configuration power of concentrating competition/inner type of competition enterprise value chain network URN ([ECK/ICK]) of concentrating

Outside competition/inner planning and configuration the power of coordinating type enterprise value chain network URN ([ECK/ICH]) of concentrating of concentrating

The outside planning and configuration power of concentrating competition/inner type of cooperation enterprise value chain network URN of dispersion ([ECK/IDC])

The outside planning and configuration power of concentrating competition/inner type of competition enterprise value chain network URN of dispersion ([ECK/IDK])

The outside planning and configuration power of concentrating competition/inner decentralized coordinating type enterprise value chain network URN ([ECK/IDH])

The outside planning and configuration power of concentrating competition/inner collecting and distributing type of cooperation enterprise value chain network URN ([ECK/IMC])

The outside planning and configuration power of concentrating competition/inner collecting and distributing type of competition enterprise value chain network URN ([ECK/IMK])

The outside planning and configuration power of concentrating competition/inner collecting and distributing coordination type enterprise value chain network URN ([ECK/IMH])

The outside planning and configuration power of concentrating coordination/inner type of cooperation enterprise value chain network URN ([ECH/ICC]) of concentrating

The outside planning and configuration power of concentrating coordination/inner type of competition enterprise value chain network URN ([ECH/ICK]) of concentrating

Outside concentrating coordinated/the inner planning and configuration power of coordinating type enterprise value chain network URN ([ECH/ICH]) of concentrating

The outside planning and configuration power of concentrating coordination/inner type of cooperation enterprise value chain network URN of dispersion ([ECH/IDC])

The outside planning and configuration power of concentrating coordination/inner type of competition enterprise value chain network URN of dispersion ([ECH/IDK])

The outside planning and configuration power of concentrating coordination/inner decentralized coordinating type enterprise value chain network URN ([ECH/IDH])

The outside planning and configuration power of concentrating coordination/inner collecting and distributing type of cooperation enterprise value chain network URN ([ECH/IMC])

The outside planning and configuration power of concentrating coordination/inner collecting and distributing type of competition enterprise value chain network URN ([ECH/IMK])

The outside planning and configuration power of concentrating coordination/inner collecting and distributing coordination type enterprise value chain network URN ([ECH/IMH])

The planning and configuration power of type of cooperation enterprise value chain network URN ([EDC/ICC]) is concentrated in outer loose cooperation/inside

The planning and configuration power of type of competition enterprise value chain network URN ([EDC/ICK]) is concentrated in outer loose cooperation/inside

The planning and configuration power of coordinating type enterprise value chain network URN ([EDC/ICH]) is concentrated in outer loose cooperation/inside

Outer loose cooperation/inside disperses the planning and configuration power of type of cooperation enterprise value chain network URN ([EDC/IDC])

Outer loose cooperation/inside disperses the planning and configuration power of type of competition enterprise value chain network URN ([EDC/IDK])

The planning and configuration power of outer loose cooperation/inner decentralized coordinating type enterprise value chain network URN ([EDC/IDH])

The planning and configuration power of outer loose cooperation/inner collecting and distributing type of cooperation enterprise value chain network URN ([EDC/IMC])

The planning and configuration power of outer loose cooperation/inner collecting and distributing type of competition enterprise value chain network URN ([EDC/IMK])

The planning and configuration power of outer loose cooperation/inner collecting and distributing coordination type enterprise value chain network URN ([EDC/IMH])

Outer scattered competition/inner planning and configuration power of concentrating type of cooperation enterprise value chain network URN ([EDK/ICC])

Outer scattered competition/inner planning and configuration power of concentrating type of competition enterprise value chain network URN ([EDK/ICK])

Outer scattered competition/inner planning and configuration power of coordinating type enterprise value chain network URN ([EDK/ICH]) of concentrating

Outer scattered competition/inner planning and configuration power that disperses type of cooperation enterprise value chain network URN ([EDK/IDC])

Outer scattered competition/inner planning and configuration power that disperses type of competition enterprise value chain network URN ([EDK/IDK])

The planning and configuration power of outer scattered competition/inner decentralized coordinating type enterprise value chain network URN ([EDK/DH])

The planning and configuration power of outer scattered competition/inner collecting and distributing type of cooperation enterprise value chain network URN ([EDK/IMC])

The planning and configuration power of outer scattered competition/inner collecting and distributing type of competition enterprise value chain network URN ([EDK/IMK])

The planning and configuration power of outer scattered competition/inner collecting and distributing coordination type enterprise value chain network URN ([EDK/IMH])

Outer scattered coordination/inner planning and configuration power of concentrating type of cooperation enterprise value chain network URN ([EDH/ICC])

Outer scattered coordination/inner planning and configuration power of concentrating type of competition enterprise value chain network URN ([EDH/ICK])

Outer scattered is coordinated/the inner planning and configuration power of coordinating type enterprise value chain network URN ([EDH/ICH]) of concentrating

Outer scattered coordination/inner planning and configuration power that disperses type of cooperation enterprise value chain network URN ([EDH/IDC])

Outer scattered coordination/inner planning and configuration power that disperses type of competition enterprise value chain network URN ([EDH/IDK])

The planning and configuration power of outer scattered coordination/inner decentralized coordinating type enterprise value chain network URN ([EDH/IDH])

The planning and configuration power of outer scattered coordination/inner collecting and distributing type of cooperation enterprise value chain network URN ([EDH/IMC])

The planning and configuration power of outer scattered coordination/inner collecting and distributing type of competition enterprise value chain network URN ([EDH/IMK])

The planning and configuration power of outer scattered coordination/inner collecting and distributing coordination type enterprise value chain network URN ([EDH/IMH])

The planning and configuration power of type of cooperation enterprise value chain network URN ([EMC/ICC]) is concentrated in outside collecting and distributing cooperation/inside

The planning and configuration power of type of competition enterprise value chain network URN ([EMC/ICK]) is concentrated in outside collecting and distributing cooperation/inside

The planning and configuration power of coordinating type enterprise value chain network URN ([EMC/ICH]) is concentrated in outside collecting and distributing cooperation/inside

Outside collecting and distributing cooperation/inside disperses the planning and configuration power of type of cooperation enterprise value chain network URN ([EMC/IDC])

Outside collecting and distributing cooperation/inside disperses the planning and configuration power of type of competition enterprise value chain network URN ([EMC/IDK])

The planning and configuration power of outside collecting and distributing cooperation/inner decentralized coordinating type enterprise value chain network URN ([EMC/IDH])

The planning and configuration power of type of cooperation enterprise value chain network URN ([EMC/IMC]) is concentrated in outside collecting and distributing cooperation/inside

The planning and configuration power of type of competition enterprise value chain network URN ([EMC/IMK]) is concentrated in outside collecting and distributing cooperation/inside

The planning and configuration power of coordinating type enterprise value chain network URN ([EMC/IMH]) is concentrated in outside collecting and distributing cooperation/inside

The planning and configuration power of type of cooperation enterprise value chain network URN ([EMK/ICC]) is concentrated in outside collecting and distributing competition/inside

The planning and configuration power of type of competition enterprise value chain network URN ([EMK/ICK]) is concentrated in outside collecting and distributing competition/inside

The planning and configuration power of coordinating type enterprise value chain network URN ([EMK/ICH]) is concentrated in outside collecting and distributing competition/inside

Outside collecting and distributing competition/inside disperses the planning and configuration power of type of cooperation enterprise value chain network URN ([EMK/IDC])

Outside collecting and distributing competition/inside disperses the planning and configuration power of type of competition enterprise value chain network URN ([EMK/IDK])

The planning and configuration power of outside collecting and distributing competition/inner decentralized coordinating type enterprise value chain network URN ([EMK/IDH])

The planning and configuration power of outside collecting and distributing competition/inner collecting and distributing type of cooperation enterprise value chain network URN ([EMK/IMC])

The planning and configuration power of outside collecting and distributing competition/inner collecting and distributing type of competition enterprise value chain network URN ([EMK/IMK])

The planning and configuration power of outside collecting and distributing competition/inner collecting and distributing coordination type enterprise value chain network URN ([EMK/IMH])

The planning and configuration power of type of cooperation enterprise value chain network URN ([EMH/ICC]) is concentrated in outside collecting and distributing coordination/inside

The planning and configuration power of type of competition enterprise value chain network URN ([EMH/ICK]) is concentrated in outside collecting and distributing coordination/inside

The planning and configuration power of coordinating type enterprise value chain network URN ([EMH/ICH]) is concentrated in outside collecting and distributing coordination/inside

Outside collecting and distributing coordination/inside disperses the planning and configuration power of type of cooperation enterprise value chain network URN ([EMH/IDC])

Outside collecting and distributing coordination/inside disperses the planning and configuration power of type of competition enterprise value chain network URN ([EMH/IDK])

The planning and configuration power of outside collecting and distributing coordination/inner decentralized coordinating type enterprise value chain network URN ([EMH/IDH])

The planning and configuration power of outside collecting and distributing coordination/inner collecting and distributing type of cooperation enterprise value chain network URN ([EMH/IMC])

The planning and configuration power of outside collecting and distributing coordination/inner collecting and distributing type of competition enterprise value chain network URN ([EMH/IMK])

The planning and configuration power of outside collecting and distributing coordination/inner collecting and distributing coordination type enterprise value chain network URN ([EMH/IMH])

4, description of drawings

Fig. 1 is the Social Ecology Game Relationship schematic diagram of economic organization.

In the evolution process of the large system of economy, no matter for the tissue of internal system, or for the tissue of system outside, Social Ecology rule or system are exactly the environmental factor of can not ignore.We can regard Social Ecology rule (system) variable as the modern social economy technology consist of the function of combination, and modern social economy technology formation relates to system structure, institutional framework and system configuration, can regard as mainly to be formed by modern knowledge structure, modern technologies structure, modern division of labor structure, modern ownership structure, Modern industrial, modern finance structure, modern decision structure and modern structure of deal and present information textural association.As shown in Figure 1.

Fig. 2 is the basic configuration pie graph of Enterprise Value Chain planning and configuration system.

The mass-energy configuration of high-grade intelligent life system is by the formations such as configuration center (it is analyzed towards organizing node), configuration target (complex of multi-layer), configuration mode (it is analyzed towards the configuration node), configuration load (it analyzes the resourceoriented node) and configuration surroundings factor of subject highlighting, as shown in Fig. 2.Here, the mass-energy configuration center of high-grade intelligent life system has developed becomes the advanced configuration main body with complex target system, and has a decision structure of complicated dynamic foundation (except bio-energy consists of, also relating to relations between ownership and management of enterprises, distribution of interests structure etc.), high-grade intelligent tissue (and complex organization's form of socialization) and complexity; The mass-energy configuration mode of high-grade intelligent life system relates to configuration approach, instrument, means, equipment, technical system and method, program, strategy and the aspect such as strategic; The resource distribution load of high-grade intelligent life system comprises natural resources configuration load, configuration of social resources load and life resource distribution load, perhaps comprises physical resources configuration load, information resources configuration load, value resource configuration load, human resources configuration load etc.High-grade intelligent life is can be engaged in practical activity and cognitive activities and these two kinds of activities are combined to carry out the integrated complex configurations main body of intelligence, the high-grade intelligent life-information has the more content of horn of plenty than general life-information, has more senior form.

Fig. 3 is the general intelligence integrated morphology schematic diagram of Enterprise Value Chain planning and configuration system.

As shown in Figure 3, intelligent integrated entity relevant with the cognitive system main body (or showing as the cognitive system main body), relevant with the practice system main body (or showing as the practice system main body) on the other hand in fact on the one hand; The integrated target of intelligence can be regarded as perception target and practical goals are carried out comprehensive result; The intelligence integration mode can be regarded cognitive configuration mode as and put into practice the integrated of configuration mode.

Fig. 4 is the dynamic Correspondent network system of Enterprise Value Chain planning and configuration figure.

The characteristics of IT industry and telecommunication industry Transformation Development: the firstth, compete, mutually merge and innovate (ICT manufacturing industry and ICT service trade are mutually blended, competed) transboundary transboundary; The secondth, model innovation, a lot of business and model innovation are out; The 3rd is Industrial Convergence, forms industry form larger, should be new, forms new ICT industry, information service industry and a telecommunications industry.This is direction and the vision of following telecommunications industry transition and development.Information service industry that IT industry and telecommunication industry are experiencing transformation process: hardware manufacturing---Software for Design industry---.The ICT industry itself is exactly syncretization, mobile, broadband, intelligent, ITization.

Now provide intelligent integrated large system and carry out by structure and function the Mathematical Modeling that level decomposes.We can be modeled as this hierarchical set (hierarchical set) of hierarchical structure directed graph (1evel structured diagraphs).After the integrated large system G I of intelligence was carried out the level decomposition by structure and function, G I structurally can represent to become a hierarchical set

( 2. 2 )

The factor that affects complication system existence and development is both relevant, also relevant with the whole condition of complication system self with the individual condition that consists of the complication system fundamental with condition.

Second stage is production master program, material demand planning, power balance, workshop project configuration, quality configuration, equipment the configuration of metering, human resources configuration, solution analysis, the Enterprise Value Chain planning and configuration of the inside and outside association of integrating enterprise value chain planning and configuration.Cycle is about 16 months.Main realize take the market of the inside and outside association of Enterprise Value Chain planning and configuration as demand, with vertically and the master ga(u)ge that laterally drives divide core, holographic concertedness enterprise schema take the input and output of the inside and outside association of Enterprise Value Chain planning and configuration as main contents into, effectively be controlled at goods, compress to greatest extent stock, improve delivery date, satisfying the market needs rapidly.

The overall goal of C 2 planning and configuration

a. implementing Enterprise Value Chain planning and configuration project as opportunity, the promoting enterprise value chain is by traditional sealing, poor efficiency, the extensive style configuration mode transformation to the configuration mode of transparent, collaborative, standard, lean, the realization of support Enterprise Value Chain strategic objective.

b. strengthen the Enterprise Value Chain configurations.Set up the inside and outside associated data standard of Enterprise Value Chain planning and configuration and the coding scheme of standard, the basis rectification of promoting enterprise value chain; Strengthen product design, the technical papers standard configurations of the inside and outside association of Enterprise Value Chain planning and configuration; The ration allocation when raw materials consumption of the inside and outside association of refinement Enterprise Value Chain planning and configuration, man-hour, the occupation of capital, table of equipment; Enterprise Value Chain standard campaign of the inside and outside association of standard Enterprise Value Chain planning and configuration; Strengthen the customer resources information configuration of the inside and outside association of Enterprise Value Chain planning and configuration; The cost of the inside and outside association of refinement Enterprise Value Chain planning and configuration and price configuration; Strengthen delivery flow process and the role norm configuration of the inside and outside association of Enterprise Value Chain planning and configuration.

c. improve configuration, decision-making technique.Realize that data integration and the database overall situation of IRP, each subsystem of the inside and outside association of Enterprise Value Chain planning and configuration share; Set up the Enterprise Value Chain Back ground Information structure of the inside and outside association of Enterprise Value Chain planning and configuration, comprise integrated information network and comprehensive unified data interaction form; Neat cover stock configuration and the analysis of the inside and outside association of Enterprise Value Chain planning and configuration; The process consuming cost of the inside and outside association of Enterprise Value Chain planning and configuration is adjusted; The risk of sale on credit of the inside and outside association of Enterprise Value Chain planning and configuration is controlled and the customer resources configuration; Vertically reach the integrated application of the horizontal main system operation planning that drives, material demand planning, order configuration; The real-time cost accounting of minute product of the inside and outside association of Enterprise Value Chain planning and configuration; Fast Quotation; Profit budget and the breakeven analysis of the inside and outside association of Enterprise Value Chain planning and configuration; Online multidimensional data analysis supports decision-making to use.

d. take the Enterprise Value Chain planning and configuration as standard, system improving Enterprise Value Chain configuration is supported Enterprise Value Chain and is carried out phyletic evolution, and the Enterprise Value Chain that forms transparent, open, collaborative, standard, lean is cultural.

The implementation content of C 3 planning and configuration

a. the logistics arrangement of the inside and outside association of Enterprise Value Chain planning and configuration.Rely on brand-new information system support, in time transmit the demand of the inside and outside related production system of Enterprise Value Chain planning and configuration, and by integrated with the information of the inside and outside related logistics system of Enterprise Value Chain planning and configuration, rapidly the inside and outside related demand of producing of Enterprise Value Chain planning and configuration is made fast reaction, guarantee the Qi Taoxing of the inside and outside related production material of Enterprise Value Chain planning and configuration.Enterprise Value Chain planning and configuration system proposes the inside and outside related demand planning of producing of Enterprise Value Chain planning and configuration according to system's operation planning; The inside and outside related production system of Enterprise Value Chain planning and configuration can according to the neat cover situation of material planning inquiry raw material and parts, propose the inside and outside related logistics arrangement planning of Enterprise Value Chain planning and configuration; The inside and outside related information of Enterprise Value Chain planning and configuration of support Enterprise Value Chain planning and configuration system is integrated, the inside and outside affiliated supplier's configuration scheme of the Enterprise Value Chain planning and configuration of Erecting and improving; With the foundation of the information such as delivery date of the inside and outside affiliated supplier of Enterprise Value Chain planning and configuration, article quality as supplier evaluation; Arrange the inside and outside affiliated supplier's evaluation result of Enterprise Value Chain planning and configuration share distribution, Payments Policy to combine with logistics; Set up the information bank of the configurations such as the inside and outside related logistics of Enterprise Value Chain planning and configuration arranges the cycle, economic lot size, safety inventory, provide foundation in time ensureing the material supply.

b. sale, stock and the production system of the inside and outside association of Enterprise Value Chain planning and configuration.System's operation planning is the programmatic document that instructs the inside and outside related activity in production of Enterprise Value Chain planning and configuration.For the enforcement of safeguards system operation planning, material logistics arrangement planning, cooperation part planning, workshop project planning, the equipment that can produce simultaneously the inside and outside association of Enterprise Value Chain planning and configuration use a series of supporting planning such as planning, moulds of industrial equipment planning.System's operation planning and these planning are guiding principle and purpose relation, and guiding principle is lifted and could be opened by order.

c. the cost configuration of the inside and outside association of Enterprise Value Chain planning and configuration.Production cost to the inside and outside association of Enterprise Value Chain planning and configuration is planned, adjusts, controls and configures, set up the departmental cost budget method of the inside and outside association of Enterprise Value Chain planning and configuration, and with thing in cost analysis compare, make budget progressively department learn, accurately, provide the data of use for Enterprise Value Chain organizational decision making.

d. the inside and outside association of Enterprise Value Chain planning and configuration deal with configuration.The account payable subsystem of the inside and outside association of Enterprise Value Chain planning and configuration mainly configures the various contact funds that Enterprise Value Chain occurs with supplier in running, effectively help Enterprise Value Chain configuration person to grasp the flow direction of fund, control the outflow of Enterprise Value Chain fund by monitoring payment situation, form the good circulation of circulating fund.The account payable subsystem of the inside and outside association of Enterprise Value Chain planning and configuration is filled in invoice, tax and logistics operational costs use based on logistics arrangement activity, also can directly call the order that logistics arranges subsystem to generate.Invoice amount is shared with the warehouse-in material, can determine to put in storage material payment situation.The invoice rear generation account payable account of transferring items, payment order and account payable account are settled accounts, and determine the received payment amount of money and the arrearage amount of money, can process advance payment simultaneously.In order to grasp in real time following cash flow artificial situation of Enterprise Value Chain tissue, the system of the inside and outside association of Enterprise Value Chain planning and configuration also provides abundant query statistic function, and arranges subsystem, the integrated use of account subsystem with the inside and outside related logistics of Enterprise Value Chain planning and configuration.

e. the receivable configuration of the inside and outside association of Enterprise Value Chain planning and configuration.The Enterprise Value Chain tissue is by to the application of Enterprise Value Chain planning and configuration system, realizes sharing of data between the monetary items department of the inside and outside association of Enterprise Value Chain planning and configuration and sales department, completes the interchange of data message on network; The ingather calculate table money of the monetary items section of the inside and outside association of Enterprise Value Chain planning and configuration will be take the invoice for sales of sales department as according to registering; The ingather calculate table money of the inside and outside association of Enterprise Value Chain planning and configuration is by collecting toward vostro account.Gathering, the invoice for sales of the inside and outside association of Enterprise Value Chain planning and configuration are evidence-based, and clear and definite flow process is originated.The returned money clearing time can be assigned to each account due, make ingather calculate table age, the reflection of advance aging in time, accurately, not only can carry out ingather calculate table age, advance aging analysis of accounts, can also carry out the returned money aging analysis of accounts.

6,600 patent of invention common implementing plan brief introductions

The great initiative academic research achievement of completing based on a series of independence and freedom proposes strategy---a GVC system engineering technology Cluster Exploitation total strategy that can be referred to as " since the beginning of history " plan.

The total strategy target of GVC network technology support system can be summed up as following content:

level I, aspect technological development basic (front end of ICT industrial chain), from turning to by Internet user's terminal effect chain (centered by EC/IU) centered by the Internet user, the connection of carrying out based on computer and network thereof with Natural Intelligence and Artificial Intelligence and coordinate main line as general intelligence integrated system (IIS) Upgrade process, set up brand-new logical foundations, Fundamentals of Mathematics, scientific basic and brand-new technical foundation and engineering foundation, be relative closure, relatively static " resource pool "---system for cloud computing injects soul, intelligence and life, build global intelligent integral network computer system (CS/HSN (GII)), Global Internet is made become the technique support system that really has life and ecological holographic joint management.

Level II, in the application facet (end of ICT industrial chain) of brand new technical, from (turning to centered by the multimodal global value Chain System of multi-layer (GVC) centered by EC/IU) by Internet user's terminal effect chain, the connection of carrying out based on computer aided system and the Internet with cognitive system and practice system and coordinate main line as high-grade intelligent integrated system (HIIS) evolution process is set up based on brand-new theoretical intelligent integrated science system (the IIS ﹠amp of metasystem (MS) science; IIT), with the novel Global Internet of life-giving vigor be dispersed in all over the world logistics net, energy net, Network and Finance Network and the knowledge knowledge network of each field all departments combine together (DCN), carry out energetically the GVC system engineering, foundation really has the dynamic Correspondent network system of global intelligent integral (DCN/HII (GVC)) of life and ecological holographic joint management, thereby builds intelligent integrated net, life the Internet and ecological operation net.

GVC system engineering technology Cluster Exploitation total strategy---the inventor is referred to as " since the beginning of history " plan by implementing, and " cloud " counting system that flicker is indefinite is transformed into the Correspondent all things on earth, connects " world " counting system of longitude and latitude.

calculate revolution based on the world that cloud computing is changed, take the multimodal global value catenary system of multi-layer as core, with modern electronic technology, modern communication technology and present information network technology are for supporting the basis, with logistics network, energy network, information network, banking network and knowledge network are combined closely, and set up efficient, intensive, have the large system of intelligent integrated dynamic Correspondent network of life (or ecological) Self-Organization, greatly simplify Team Management's (and business administration), division management (and management of industry), district management and national management and whole world management effectively reduce team (and enterprise) infrastructure cost, department's (and industry) infrastructure cost, region base facility cost and national basis facility cost and global basis facility cost improve team (and enterprise) level of IT application comprehensively, department's (and industry) level of IT application, region informatization level and national information level and global IT application level, with all social tissues and movable configuration node and the activity thereof that becomes in global multi-layer multi-mode system effect chain network system thereof, especially with all social economic organizations and movable configuration node and the activity thereof that becomes in the global multi-layer multi-mode value chain network system thereof, cause the most at last more educated, intelligent and networking becomes society, tissue, individual man's basic property.

Claims (7)

1. independent claims---the ICT technical support design of Enterprise Value Chain planning and configuration dynamic foundation, that the applicant is setting up brand-new logical foundations, Fundamentals of Mathematics, on scientific basic and brand-new technical foundation and engineering foundation, for " cloud " counting system that flicker is indefinite is transformed into the Correspondent all things on earth, connect " world " counting system of longitude and latitude, centered by the Internet user, and then centered by global value Chain System (GVC), the connection of carrying out based on computer and network thereof with Natural Intelligence and Artificial Intelligence and coordinate main line as general intelligence integrated system (IIS) Upgrade process, a new technology that puts forward by setting up network configuration dynamics basic model and normal form, this right is characterised in that:

A, for the ICT technical support of Enterprise Value Chain planning and configuration mechanism, brand-new logical foundations comprises holographic Correspondent logic, the two poles of the earth Correspondent logic, the holographic Correspondent logic in the two poles of the earth; Brand-new Fundamentals of Mathematics comprise holographic Correspondent mathematics, the two poles of the earth Correspondent mathematics, system's Analysis on Vicissitudes mathematics; Brand-new scientific basic comprises resource distribution dynamics, holographic organization synergetics, the system behavio(u)r theory of value, game coordination, the equilibrium economics that liquidates, holographic Correspondent physics, and the perforation science (interdisciplinary science and Cross science)---metasystem science and the intelligent integrated science that are formed by the large comprehensive of a series of brand-new theories; Brand-new technical foundation is take value chain system as core, towards the synergitic brand-new systems technology of holography (cluster); Brand-new engineering foundation is take value chain system as core, towards the synergitic brand-new system engineering of holography (cluster);

B, for the ICT technical support of Enterprise Value Chain planning and configuration mechanism, " world " calculating itself is an extremely complicated system, has very complicated holographic joint management structure, here, on the one hand, various computers and infrastructure thereof, auxiliary device and the network equipment (comprising server, browser) couple together with holographic joint management pattern (comprising ICC, ICK, ICH, IDC, IDK, IDH, IMC, IMK, IMH, ECC, ECK, ECH, EDC, EDK, EDH, EMC, EMK, EMH) and form the computer interconnected network tissue; On the other hand, various users and effect chain thereof couple together with holographic joint management pattern (comprising ICC, ICK, ICH, IDC, IDK, IDH, IMC, IMK, IMH, ECC, ECK, ECH, EDC, EDK, EDH, EMC, EMK, EMH) and form natural intelligence socialization tissue, and this natural intelligence socialization tissue and computer interconnected network tissue form " world " counting system CS/HSN (GII) that the inventor censures jointly;

C, for the ICT technical support of Enterprise Value Chain planning and configuration mechanism, set up the principle of dynamics of To enterprises value chain planning operation, and then set up the scientific basic of planning and configuration dynamic design, set up the know-why of planning and configuration dynamic foundation design;

D, for the ICT technical support of Enterprise Value Chain planning and configuration mechanism, introduce suitable, be used for reflecting respectively general Complex Adaptive Systems basic motive, base load, basic effect, substantially consume, the various basic collaborative variablees of inner cooperation and competition and outside cooperation and competition, set up engineering concept and the technical scheme of the design of planning and configuration dynamic foundation.

2. dependent claims---the present invention described according to independent claims 1 regards Enterprise Value Chain planning and configuration system as set that the chain by a kind of node by some (or variable number) and some (or variable number) is consisted of, has multiple level and various modes, dynamic effect design basis and the intelligent Integrated design of setting up To enterprises value chain planning operation are basic, and this right is characterised in that:

According to the analysis according to the independent claims 1 described inventor, the basic motive effect relation of complication system can be divided into two fundamental relations, that is:

Equilibrium and the lack of balance relation of configuration effect (DF)-configuration load (DC);

Equilibrium and the lack of balance relation of system behavio(u)r (SE)-system consumption (SA);

Generally speaking, the centralization degree of system is relevant with the number of organizing node: when knot of tissue is counted n=1 o'clock, system reached in complete set; When knot of tissue is counted n〉=2 o'clock, system was in dispersity, and knot of tissue counts greatlyr, and the decentralized degree of system is just higher;

For network

, the described resource distribution of the following differential equation (power) is arranged

( 1. 2. 1 )

The general type of Network resource allocation (power) can be write:

( 1. 2. 2 )

Wherein, X _SC With X _EC Be respectively system resource load and environmental resource load,

, ( 1. 2. 3 a )

( 1. 2. 3 b )

According to the analysis according to the independent claims 1 described inventor, the configuration of the mass-energy of Enterprise Value Chain planning and configuration system is by the formations such as configuration center (it is analyzed towards organizing node), configuration target (complex of multi-layer), configuration mode (it is analyzed towards the configuration node), configuration load (its analysis resourceoriented node) and configuration surroundings factor of subject highlighting; Here, the mass-energy configuration center of Enterprise Value Chain planning and configuration system has developed becomes the advanced configuration main body with complex target system, and has a decision structure of complicated dynamic foundation (except bio-energy consists of, also relating to relations between ownership and management of enterprises, distribution of interests structure etc.), senior Enterprise Value Chain intelligent organization (and complex organization's form of socialization) and complexity; The mass-energy configuration mode of senior Enterprise Value Chain planning and configuration system relates to configuration approach, instrument, means, equipment, technical system and method, program, strategy and the aspect such as strategic; The resource distribution load of senior Enterprise Value Chain planning and configuration system comprises natural resources configuration load, configuration of social resources load and life resource distribution load, perhaps comprises physical resources configuration load, information resources configuration load, value resource configuration load, human resources configuration load etc.

3. dependent claims---for Enterprise Value Chain, the inventor described according to independent claims 1 is with the connection of EVC cognitive system (RS and computer aided system thereof) and EVC practice system (PS and computer aided system thereof) and coordinate main line as high-grade intelligent integrated system (HIIS) evolution process, set up technological know-how design basis and the ownership structure design basis of planning and configuration, this right is characterised in that:

We can regard the technical system of modern practice by member as P _T14 , instrument P _T13 , means P _T12 , instrument P _T11 , equipment P _T10 , facility P _T9 , program P _T8 , the rule (comprising system) P _T7 , skill P _T6 , the plan (comprising design) P _T5 , method P _T4 , strategy

P _T3 , tactics P _T2 , strategy P _T1 Etc. the comple x dynamics system of different levels various factors formation, namely

P _{T S} = < P _T , ψ _T > ( P _T = { P _{T 1} , P _{T 2} , ···, P _{T 14} })；

We can regard the modern knowledge system by the graphical sysmbol set as K ₁₄, the set of spoken word word K ₁₃, the set of written language word K ₁₂, artificial language (comprising the mathematics language) character set K ₁₁, the everyday expressions set K ₁₀, the technical term set K ₉, the abstract concept set K ₈, the general category set K ₇, concrete judgement set K ₆, the abstract proposition set K ₅, the Heuristics set K ₄, the knowwhy set K ₃, department's scientific knowledge set K ₂, comprehensive knowledge (comprising interdisciplinary science, Cross science and philosophy) set K ₁Etc. the comple x dynamics system of different levels various factors formation, namely K _S =＜ K _B , π; Here, can be with knowledge hierarchy KBe divided into 14 levels ( i=1,2,, 14);

If total lKind of property is to each property entitle wherein; Usually, if each economic behaviour in economic large system has the amount of property right for each person M _{d, k} More, it is also just higher that the rights and interests of this system are enjoyed level; Can provide following new function:

( 1. 5. 209 )

In formula RExpression rights and interests function, M _{d, k} Be k( k=1,2,, l) plant the tax power configuration amount of property, namely

( 1. 5. 210 )

Wherein, C _{d, k} Be k( k=1,2,, l) plant the configuration intensity of property, x _k Be k( k=1,2,, l) plant the quantity of property; M _{d, k} Can regard as k( k=1,2,, l) plant the property right amount of property; We can set up one dimension property right space thus;

Property right might constitute the property right space; Usually, the property right space can be expressed as follows:

It is that the closed convex set of tieing up in the Euclidean space is closed.

4. dependent claims---for the planning and configuration of Enterprise Value Chain, the inventor described according to independent claims 1 provides multiple intelligent aggregation function form, and this right is characterised in that:

The specialized level of intelligent organization should be the function of intelligent individual professional level; Follow the evolution specialized and division of labor, intelligent behavior people is developed by the same main body of intelligence becomes the intelligent main body of separating, and then evolving becomes intelligent integrated entity; For the internal motivation factor, basic motive analysis and the basic effect analysis of setting up intelligent separating purification on the one hand, basic motive analysis and the basic effect analysis of setting up on the other hand Intelligent integrated; For the internal coordination factor, set up on the one hand specialized basic motive analysis and basic effect analysis, set up on the other hand basic motive analysis and the basic effect analysis of the division of labor;

Order

Expression iBe engaged in vItem is movable (or to be generated vAchievement, bear vTask) compliance rate (or completion rate, realize rate); Order A _vi ≡ T _vi / T _i Expression iBe engaged in vItem is movable (or to be generated vAchievement, bear vThe item task) professional level; Use these expression formulas and arrange (1.), we can be expressed as the rate that realizes of an activity (or compliance rate of the completion rate of an achievement, a task) function of a people's professional level:

，

，······，

，······，

；

( 1. 5. 26 )

In formula

Expression iBe engaged in vItem is movable (or to be generated vAchievement, bear vTask) compliance rate (or completion rate, realize rate); A _vi Expression iBe engaged in vItem is movable (or to be made vAchievement, bear vThe item task) professional level; If a1(or a＜1),

With A _vi And

With A _wi Together increase (or reducing); This means that the rate that realizes that a people is engaged in an activity is engaged in the professional level of this activity and together increases with it.

5. dependent claims---for the planning and configuration of Enterprise Value Chain, the inventor described according to independent claims 1 sets up intelligent integrated configuration dynamics basic model, and this right is characterised in that:

The integrated configuration effect of constant elasticity of substitution type Enterprise Value Chain intelligence (being called for short the integrated configuration power of CES type Enterprise Value Chain intelligence) can be write:

,

For the described resource load of the following differential equation (power)

The general type of the Enterprise Value Chain integrated load of intelligence (power) can be write:

Wherein, X _PC With X _RC Be respectively practice system load and cognitive system load:

,

。

6. dependent claims---for Enterprise Value Chain, that the inventor described according to independent claims 1 introduces is suitable, be used for reflecting respectively general Complex Adaptive Systems basic motive, base load, basic effect, substantially consume, the various basic collaborative variablees of inner cooperation and competition and outside cooperation and competition, set up the engineering concept of planning and configuration dynamic foundation design, this right is characterised in that:

As the self-organizing cooperative control system of complexity, Enterprise Value Chain planning and configuration large system is by Practice Subject (the intelligentized self-organizing system of Enterprise Value Chain) P _M And cognitive subject (the intelligentized self-organizing system of Enterprise Value Chain) C _M , practical basis P _B And cognitive basis C _B , practice technology P _T And cognitive techniques C _T , effective object P _O With cognitive object C _O , practical environment P _E And cognitive environment C _E Interconnect, interact and form, be denoted as:

G =< G _M , G _B , G _T , G _O , G _E , Ψ _G >，

Wherein Ψ _G Be Enterprise Value Chain planning and configuration structure function, G _M =＜ P _M , C _M , Ψ _{G M} , G _B =＜ P _B , C _B , Ψ _GB , G _T =＜ P _T , C _T , Ψ _GT , G _O =＜ P _O , C _O , Ψ _{G O} , G _E =＜ P _E , C _E , Ψ _{G E} , wherein Ψ _{G M} Be Enterprise Value Chain planning and configuration agent structure function, wherein Ψ _{G B} Be Enterprise Value Chain intelligent basis structure function, wherein Ψ _{G T} Be Enterprise Value Chain intellectual technology structure function, wherein

Ψ _{G O} Be Enterprise Value Chain smart object structure function, wherein Ψ _{G E} Be Enterprise Value Chain intelligent environment structure function.

7. dependent claims---for Enterprise Value Chain, that the inventor described according to independent claims 1 introduces is suitable, be used for reflecting respectively general Complex Adaptive Systems basic motive, base load, basic effect, substantially consume, the various basic collaborative variablees of inner cooperation and competition and outside cooperation and competition, set up the technical scheme of planning and configuration dynamic foundation design, this right is characterised in that:

Joint management relation internally, Enterprise Value Chain planning and configuration dynamic foundation can be divided into following 9 seed categories:

The inner planning and configuration dynamic foundation of concentrating type of cooperation enterprise value chain network URN (on, oc, os, [ICC])

The inner planning and configuration dynamic foundation of concentrating type of cooperation enterprise value chain network URN (on, oc, os, [ICK])

The inner planning and configuration dynamic foundation of concentrating type of cooperation enterprise value chain network URN (on, oc, os, [ICH])

The inner planning and configuration dynamic foundation of concentrating type of cooperation enterprise value chain network URN (on, oc, os, [IDC])

The inner planning and configuration dynamic foundation of concentrating type of cooperation enterprise value chain network URN (on, oc, os, [IDK])

The inner planning and configuration dynamic foundation of concentrating type of cooperation enterprise value chain network URN (on, oc, os, [IDH])

The inner planning and configuration dynamic foundation of concentrating type of cooperation enterprise value chain network URN (on, oc, os, [IMC])

The inner planning and configuration dynamic foundation of concentrating type of cooperation enterprise value chain network URN (on, oc, os, [IMK])

The inner planning and configuration dynamic foundation of concentrating type of cooperation enterprise value chain network URN (on, oc, os, [IMH])

From co-organized from the outside to look at the relationship, Enterprise Value Chain planning and configuration dynamic foundation can be divided into following 9 seed categories:

The outside planning and configuration dynamic foundation of concentrating type of cooperation enterprise value chain network URN (on, oc, os, [ECC])

The outside planning and configuration dynamic foundation of concentrating type of competition enterprise value chain network URN (on, oc, os, [ECK])

The outside planning and configuration dynamic foundation of coordinating type enterprise value chain network URN (on, oc, os, [ECH]) of concentrating

The planning and configuration dynamic foundation of outer loose cooperation type enterprise value chain network URN (on, oc, os, [EDC])

The planning and configuration dynamic foundation of outer scattered type of competition enterprise value chain network URN (on, oc, os, [EDK])

Outer scattered is coordinated the planning and configuration dynamic foundation of type enterprise value chain network URN (on, oc, os, [EDH])

The planning and configuration dynamic foundation of outside collecting and distributing type of cooperation enterprise value chain network URN (on, oc, os, [EMC])

The planning and configuration dynamic foundation of outside collecting and distributing type of competition enterprise value chain network URN (on, oc, os, [EMK])

The planning and configuration dynamic foundation of outside collecting and distributing coordination type enterprise value chain network URN (on, oc, os, [EMH]).

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