CN116502924A - Operation management system and method for building industry chain innovation system - Google Patents

Abstract

The invention discloses an operation management system and method for a construction industry chain innovation system, and belongs to the technical field of operation management. Creating an innovation technology data file, and building a mapping relation between industrial categories and innovation technologies, so as to form a macroscopic relation of technology-function-industry chains; the association condition of the mapping set in the building industry chain is analyzed, so that the condition that the innovative technology penetrates through the industry chain is conveniently researched, the information isolation state is broken, and coordination of different industry categories is unified; analyzing the penetration condition of the innovative technology in the building industry chain, and further analyzing the innovative technology with great influence; according to the observed innovation technology library, similarity matching is carried out, whether a new innovation technology item is added into an operation system for long-term supervision is judged, and then microcosmic analysis of a new technology is completed; therefore, the innovation technology is integrated into the building industry chain, the development and change conditions of the industry chain can be tracked, and support is provided for operation management of the innovation technology for building enterprises.

Description

Operation management system and method for building industry chain innovation system

Technical Field

The invention relates to the technical field of operation management, in particular to an operation management system and method for a construction industry chain innovation system.

Background

The technical innovation is a source spring of vigorous and flourishing nature of enterprises, and the problems of the technical innovation, market and production dislocation of building enterprises are also existed; in the process of technical innovation, building enterprises solve the problems encountered in construction operation or production process by continuously researching and developing new technologies and perfecting the functions of technical application, so that building industry chains can effectively adapt to continuously evolving market demands and continuously perfecting the technical system;

in the prior art, all links before and after a building industry chain are closely connected, the related industries are extremely wide, and the special technologies related to all industries are far away, so after the technology of the former link is innovated, the subsequent link is required to be correspondingly adjusted so as to coordinate and unify; however, because the enterprises participating in each link of the building activities are often in an information isolation state, the innovative technology is often difficult to track the development and change conditions of the throughout industrial chain when being integrated into the building industrial chain, so that the building enterprises are difficult to deeply control the development and the development of the innovative technology, the breakthrough of the innovative technology is improved, and the operation management difficulty of the building enterprises on the innovative technology is increased.

Disclosure of Invention

The invention aims to provide an operation management system and method for a construction industry chain innovation system, so as to solve the problems in the background technology.

In order to solve the technical problems, the invention provides the following technical scheme:

an operation management system for a construction industry chain innovation system, the system comprising: the system comprises an overall induction module, an innovation technology association analysis module, an osmosis analysis module and an operation module;

the overall summarizing module is used for summarizing all innovation technical projects, summarizing functions realized by the innovation technology, establishing an innovation technology data file and generating an innovation technology function set; the method comprises the steps of integrating various industrial categories in the building industry, building a mapping relation between the industrial categories and innovative technologies, and generating a mapping set;

the innovation technology association analysis module is used for analyzing association conditions of the mapping sets in the building industry chain based on innovation technology, establishing a temporary screening library and calculating association degree among the mapping sets; screening the mapping set according to the association degree, and generating an industry category association set;

the permeation analysis module analyzes permeation conditions of any one innovative technology in a building industry chain according to the temporary screening library and the industry category association set; according to the penetration condition, an observation innovation technology library is established;

the operation module is used for analyzing the new innovation technical project and performing similar matching according to the observed innovation technical library; calculating the influence of the new innovation technical project, and judging whether the new innovation technical project is added into an operation system for long-term supervision.

Furthermore, the overall planning and induction module further comprises an innovation technology data archive unit and a mapping unit;

the innovation technology data archive unit is used for carrying out overall planning on innovation technology projects, extracting all innovation technologies covered in the innovation technology projects, and carrying out code marking in a unified form on each innovation technology; acquiring all functions realized by each innovation technology, establishing an innovation technology data file, marking any innovation technology code number in the innovation technology data file as Ii, generating an innovation technology function set by all functions realized by any innovation technology, and marking the innovation technology function set as IIi= { X1, X2, & gt, xn }, wherein Ii represents the ith innovation technology, IIi represents the innovation technology function set correspondingly generated by the innovation technology Ii, X1, X2, & gt, xn respectively represent the 1,2, and n functions;

the mapping unit is configured to orchestrate each industry category in the building industry, and construct a mapping relationship between the industry category and the innovation technology according to the industry category and the innovation technology, where an industry category map includes at least one innovation technology, and the mapping relationship is recorded as Jj → JJj = { I1, I2..the first and second, im }, where Jj represents the j-th industry category, JJj represents a mapping set generated by all innovation technologies included in the j-th industry category, and I1, I2..the first and second, im respectively represent the 1, 2..the first and second innovation technologies.

Further, the innovative technology association analysis module further comprises an association degree calculation unit and a screening unit;

the association degree calculating unit is used for selecting any one innovation technology Ii, searching the mapping set with any one innovation technology selected in each mapping set, and storing all the searched mapping sets into the temporary screening library F (Ii); in the temporary screening library, a mapping set JJj is selected, and the association degree of the mapping set is calculated according to the mapping relation, wherein the specific calculation formula is as follows:

CD(JJj→JJy)=NUM(JJj∩JJy)2/[NUM(JJj)*NUM(JJy)]

wherein CD (JJj → JJy) represents the degree of association between mapping set JJj and mapping set JJy, y represents the industry category number and j+.y, NUM (JJj), NUM (JJy) and NUM (JJj n JJy) represent the number of innovative technologies contained in mapping set JJj, mapping set JJy and set JJj n JJy, JJj, JJy ⊆ F (Ii), respectively;

the filtering unit is configured to preset a relevance threshold, count a mapping set JJy corresponding to the relevance threshold, and generate an industry category relevance set GJj.

Further, the permeation profiling module further comprises a permeability calculation unit and an observation innovation technology library unit;

the permeability calculation unit calculates the permeability of any one innovative technology in the building industry chain according to the association set of the temporary screening library and the industry category, and the specific calculation formula is as follows:

DOP(Ii)=[∑j=1NUM(F)NUM(GJj)]/NUM(F)

wherein, DOP (Ii) represents the permeability of any innovative technology Ii in the building industry chain, F=F (Ii), NUM (GJj) and NUM (F) represent the number of mapping sets in the industry category association set GJj and the temporary screening library F (Ii), respectively;

the observed innovation technology library unit is used for presetting a permeability threshold, marking the innovation technology as an observed innovation technology if the permeability of any innovation technology Ii in the building industry chain is greater than or equal to the permeability threshold, and establishing an observed innovation technology library.

Further, the operation module further comprises a similarity matching unit and a judging unit;

the similarity matching unit Is used for acquiring any new innovation technology item in real time, analyzing the new innovation technology item to obtain K innovation technologies in total, and carrying out overall planning on functions realized by any innovation technology Is in the new innovation technology item to generate an innovation technology function set, wherein the innovation technology function set Is recorded as IIs, and s represents innovation technology codes; the K innovation technologies are combined to correspondingly generate innovation technology function sets, and a set H is generated; comparing the similarity of any innovation technology Is with each observation innovation technology in the observation innovation technology library, performing similar matching on the innovation technology function set IIs and the innovation technology function set generated by each observation innovation technology, and attaching a mark to be observed to any innovation technology Is successfully subjected to similar matching; an innovation technology function set corresponding to the innovation technology added with the mark to be observed is generated, and a set h is generated;

the judging unit calculates the influence degree of any new innovation technical project according to the set H and the set H, and the specific calculation formula is as follows:

LV(Is)=∑g=1GNUMh(Xg)/NUMH(Xg)

ID=∑s=1KLV(Is)

wherein LV (Is) represents a label value of any one innovation technology, NUMh (Xg) represents the number of innovation technology function sets in which any one function Xg exists in the set H in the innovation technology function sets IIs, G represents a function number, G represents the total number of functions in the innovation technology function sets IIs, and ID represents the influence degree of any one new innovation technology item;

presetting an influence threshold, and if the influence degree of any one new innovative technology item is greater than or equal to the influence threshold, sending the any one new innovative technology item to an operation supervision department.

An operation management method for a construction industry chain innovation system comprises the following steps:

step S100: the method comprises the steps of integrating all innovation technology items, summarizing functions realized by the innovation technology, establishing an innovation technology data file, and generating an innovation technology function set; the method comprises the steps of integrating various industrial categories in the building industry, building a mapping relation between the industrial categories and innovative technologies, and generating a mapping set;

step S200: based on the innovation technology, analyzing the association condition of the mapping sets in the building industry chain, establishing a temporary screening library, and calculating the association degree between the mapping sets; screening the mapping set according to the association degree, and generating an industry category association set;

step S300: analyzing the penetration condition of any one innovative technology in the building industry chain according to the temporary screening library and the industry category association set; according to the penetration condition, an observation innovation technology library is established;

step S400: analyzing the new innovation technical project, and performing similar matching according to the observed innovation technical library; calculating the influence of the new innovation technical project, and judging whether the new innovation technical project is added into an operation system for long-term supervision.

Further, the specific implementation process of the step S100 includes:

step S101: overall planning is carried out on the innovation technology project, all innovation technologies covered in the innovation technology project are extracted, and code marks in a unified form are carried out on each innovation technology; acquiring all functions realized by each innovation technology, establishing an innovation technology data file, marking any innovation technology code number in the innovation technology data file as Ii, generating an innovation technology function set by all functions realized by any innovation technology, and marking the innovation technology function set as IIi= { X1, X2, & gt, xn }, wherein Ii represents the ith innovation technology, IIi represents the innovation technology function set correspondingly generated by the innovation technology Ii, X1, X2, & gt, xn respectively represent the 1,2, and n functions;

step S102: building a mapping relation between the industry category and the innovation technology according to the industry category and the innovation technology, wherein one industry category mapping comprises at least one innovation technology, the mapping relation is recorded as Jj-JJj = { I1, I2, & gt, im }, wherein Jj represents the j industry category, JJj represents a mapping set generated by all innovation technologies contained in the j industry category, I1, I2, & gt, im represents the 1,2, and m innovation technologies respectively;

according to the method, when the technology is innovated, new problems are continuously raised according to the problems encountered in construction operation or production process and links before and after a building industry chain, and further effective functions brought by the innovative technology are continuously considered; meanwhile, because enterprises participating in all links of the building activities are often in an information isolation state, the innovative technology is integrated into the building industry chain, and the development and change conditions of the industry chain are often difficult to track; the invention further builds the mapping relation between the industrial category and the innovative technology, and forms the macroscopic relation of technology-function-industry chain.

Further, the specific implementation process of the step S200 includes:

step S201: selecting any innovation technology Ii, searching a mapping set with any selected innovation technology in each mapping set, and storing all the searched mapping sets into a temporary screening library F (Ii); in the temporary screening library, a mapping set JJj is selected, and the association degree of the mapping set is calculated according to the mapping relation, wherein the specific calculation formula is as follows:

CD(JJj→JJy)=NUM(JJj∩JJy)2/[NUM(JJj)*NUM(JJy)]

wherein CD (JJj → JJy) represents the degree of association between mapping set JJj and mapping set JJy, y represents the industry category number and j+.y, NUM (JJj), NUM (JJy) and NUM (JJj n JJy) represent the number of innovative technologies contained in mapping set JJj, mapping set JJy and set JJj n JJy, JJj, JJy ⊆ F (Ii), respectively;

step S202: presetting a relevance threshold, counting a mapping set JJy corresponding to the relevance threshold and generating an industry category relevance set GJj;

according to the method, in the macroscopic relation, the mapping relation between the industrial category and the innovation technology is further analyzed, the association degree is calculated, the condition that the innovation technology penetrates through the industrial chain is conveniently researched, and the information isolation state is broken; the higher the association, the more unified the coordination of different industry categories can be achieved by representing the introduction of innovative technology.

Further, the implementation process of the step S300 includes:

step S301: according to the association set of the temporary screening library and the industry category, the permeability of any one innovative technology in the building industry chain is calculated, and the specific calculation formula is as follows:

DOP(Ii)=[∑j=1NUM(F)NUM(GJj)]/NUM(F)

wherein, DOP (Ii) represents the permeability of any innovative technology Ii in the building industry chain, F=F (Ii), NUM (GJj) and NUM (F) represent the number of mapping sets in the industry category association set GJj and the temporary screening library F (Ii), respectively;

step S302: presetting a permeability threshold, marking any innovation technology Ii as an observation innovation technology if the permeability of the innovation technology Ii in a building industry chain is greater than or equal to the permeability threshold, and establishing an observation innovation technology library;

according to the method, in the related industry category, the permeability of the innovation technology in the building industry chain is further analyzed, the larger the permeability is, the larger the influence of the innovation technology on the whole building industry chain is, the larger the effect of the innovation technology on the whole development of the building industry chain is promoted, and the innovation technology is used as the observation innovation technology.

Further, the specific implementation process of the step S400 includes:

step S401: acquiring any new innovation technology item in real time, analyzing the new innovation technology item to obtain K innovation technologies in total, and carrying out overall planning on functions realized by any innovation technology Is in the new innovation technology item to generate an innovation technology function set, wherein the innovation technology function set Is recorded as IIs, and s represents innovation technology codes; the K innovation technologies are combined to correspondingly generate innovation technology function sets, and a set H is generated;

step S402: comparing the similarity of any innovation technology Is with each observation innovation technology in the observation innovation technology library, performing similar matching on the innovation technology function set IIs and the innovation technology function set generated by each observation innovation technology, and attaching a mark to be observed to any innovation technology Is successfully subjected to similar matching; an innovation technology function set corresponding to the innovation technology added with the mark to be observed is generated, and a set h is generated;

step S403: according to the set H and the set H, the influence degree of any new innovative technical project is calculated, and the specific calculation formula is as follows:

LV(Is)=∑g=1GNUMh(Xg)/NUMH(Xg)

ID=∑s=1KLV(Is)

wherein LV (Is) represents a label value of any one innovation technology, NUMh (Xg) represents the number of innovation technology function sets in which any one function Xg exists in the set H in the innovation technology function sets IIs, G represents a function number, G represents the total number of functions in the innovation technology function sets IIs, and ID represents the influence degree of any one new innovation technology item;

presetting an influence threshold, and if the influence of any one new innovative technical project is greater than or equal to the influence threshold, transmitting the any one new innovative technical project to an operation supervision department;

according to the method, an observation innovation technology library is established through research of macroscopic relation, then the new technology and the observation innovation technology are compared and analyzed through microscopic analysis of the new technology, and the mark to be observed is added through similarity matching, so that the innovation technology is observed, the tag value of the innovation technology is calculated through each microscopic function, the tag value is larger to represent the innovation technology more important, whether the new innovation technology item is added into an operation system for long-term supervision is judged integrally, the influence degree of the new innovation technology item is calculated, the influence degree is larger to represent the new innovation technology item more important, and the new innovation technology item is required to be added into the operation system for long-term supervision.

Compared with the prior art, the invention has the following beneficial effects: the invention provides an operation management system and method for an innovation system of a building industry chain, which are used for establishing an innovation technology data file, constructing a mapping relation between industry categories and innovation technologies and further forming a macroscopic relation of a technology-function-industry chain; the association condition of the mapping set in the building industry chain is analyzed, so that the condition that the innovative technology penetrates through the industry chain is conveniently researched, the information isolation state is broken, and coordination of different industry categories is unified; analyzing the penetration condition of the innovative technology in the building industry chain, and further analyzing the innovative technology with great influence; according to the observed innovation technology library, similarity matching is carried out, whether a new innovation technology item is added into an operation system for long-term supervision is judged, and then microcosmic analysis of a new technology is completed; therefore, the innovation technology is integrated into the building industry chain, the development and change conditions of the industry chain can be tracked, and support is provided for operation management of the innovation technology for building enterprises.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention. In the drawings:

FIG. 1 is a schematic diagram of an operation management system for a building industry chain innovation system according to the present invention;

fig. 2 is a schematic diagram of steps of an operation management method for a construction industry chain innovation system according to the present invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-2, the present invention provides the following technical solutions:

referring to fig. 1, in a first embodiment: there is provided an operation management system for a construction industry chain innovation system, the system comprising: the system comprises an overall induction module, an innovation technology association analysis module, an osmosis analysis module and an operation module;

the overall induction module is used for overall planning all innovation technical projects, inducing functions realized by the innovation technology, establishing an innovation technical data file and generating an innovation technical function set; the method comprises the steps of integrating various industrial categories in the building industry, building a mapping relation between the industrial categories and innovative technologies, and generating a mapping set;

the overall induction module further comprises an innovation technology data archive unit and a mapping unit;

the innovation technology data archive unit is used for carrying out overall planning on innovation technology projects, extracting all innovation technologies covered in the innovation technology projects, and carrying out code marking in a unified form on each innovation technology; acquiring all functions realized by each innovation technology, establishing an innovation technology data file, marking any innovation technology code number in the innovation technology data file as Ii, generating an innovation technology function set by all functions realized by any innovation technology, and marking the innovation technology function set as IIi= { X1, X2, & gt, xn }, wherein Ii represents the ith innovation technology, IIi represents the innovation technology function set correspondingly generated by the innovation technology Ii, X1, X2, & gt, xn respectively represent the 1 st, 2 nd, n functions;

a mapping unit, configured to orchestrate various industry categories in the building industry, and construct a mapping relationship between the industry categories and the innovation technology according to the industry categories and the innovation technology, where one industry category map includes at least one innovation technology, and the mapping relationship is denoted as Jj → JJj = { I1, I2, & gt, im }, where Jj represents the j-th industry category, JJj represents a mapping set generated by all innovation technologies included in the j-th industry category, I1, I2, & gt, im represents the 1,2, and m innovation technologies, respectively;

the innovation technology association analysis module is used for analyzing association conditions of the mapping sets in the building industry chain based on innovation technology, establishing a temporary screening library and calculating association degree among the mapping sets; screening the mapping set according to the association degree, and generating an industry category association set;

the innovation technology association analysis module further comprises an association degree calculation unit and a screening unit;

the association degree calculating unit is used for selecting any innovation technology Ii, searching the mapping set with any selected innovation technology in each mapping set, and storing all the searched mapping sets into the temporary screening library F (Ii); in the temporary screening library, a mapping set JJj is selected, and the association degree of the mapping set is calculated according to the mapping relation, wherein the specific calculation formula is as follows:

CD(JJj→JJy)=NUM(JJj∩JJy)2/[NUM(JJj)*NUM(JJy)]

wherein CD (JJj → JJy) represents the degree of association between mapping set JJj and mapping set JJy, y represents the industry category number and j+.y, NUM (JJj), NUM (JJy) and NUM (JJj n JJy) represent the number of innovative technologies contained in mapping set JJj, mapping set JJy and set JJj n JJy, JJj, JJy ⊆ F (Ii), respectively;

the screening unit is used for presetting a relevance threshold, counting mapping sets JJy corresponding to the relevance threshold and generating an industry category relevance set GJj;

the permeation analysis module analyzes permeation conditions of any one innovative technology in a building industry chain according to the temporary screening library and the industry category association set; according to the penetration condition, an observation innovation technology library is established;

the osmosis analysis module further comprises a permeability calculation unit and an observation innovation technology library unit;

the permeability calculation unit calculates the permeability of any one innovative technology in the building industry chain according to the temporary screening library and the industry category association set, and the specific calculation formula is as follows:

DOP(Ii)=[∑j=1NUM(F)NUM(GJj)]/NUM(F)

wherein, DOP (Ii) represents the permeability of any innovative technology Ii in the building industry chain, F=F (Ii), NUM (GJj) and NUM (F) represent the number of mapping sets in the industry category association set GJj and the temporary screening library F (Ii), respectively;

the observing innovation technology library unit is used for presetting a permeability threshold, marking the innovation technology as an observing innovation technology if the permeability of any innovation technology Ii in the building industry chain is greater than or equal to the permeability threshold, and establishing an observing innovation technology library;

the operation module is used for analyzing the new innovation technical project and performing similar matching according to the observed innovation technical library; calculating the influence of the new innovation technology project, and judging whether the new innovation technology project is added into an operation system for long-term supervision;

the operation module further comprises a similarity matching unit and a judging unit;

the similarity matching unit Is used for acquiring any new innovation technology item in real time, analyzing the new innovation technology item to obtain K innovation technologies in total, and carrying out overall planning on the functions realized by any innovation technology Is in the new innovation technology item to generate an innovation technology function set, wherein the innovation technology function set Is recorded as IIs, and s represents innovation technology codes; the K innovation technologies are combined to correspondingly generate innovation technology function sets, and a set H is generated; comparing the similarity of any innovation technology Is with each observation innovation technology in the observation innovation technology library, performing similar matching on the innovation technology function set IIs and the innovation technology function set generated by each observation innovation technology, and attaching a mark to be observed to any innovation technology Is successfully subjected to similar matching; an innovation technology function set corresponding to the innovation technology added with the mark to be observed is generated, and a set h is generated;

the judging unit calculates the influence degree of any new innovation technical project according to the set H and the set H, and the specific calculation formula is as follows:

LV(Is)=∑g=1GNUMh(Xg)/NUMH(Xg)

ID=∑s=1KLV(Is)

wherein LV (Is) represents a label value of any one innovation technology, NUMh (Xg) represents the number of innovation technology function sets in which any one function Xg exists in the set H in the innovation technology function sets IIs, G represents a function number, G represents the total number of functions in the innovation technology function sets IIs, and ID represents the influence degree of any one new innovation technology item;

presetting an influence threshold, and if the influence degree of any one new innovative technology item is greater than or equal to the influence threshold, sending the any one new innovative technology item to an operation supervision department.

Referring to fig. 2, in the second embodiment: an operation management method for a construction industry chain innovation system is provided, and the method comprises the following steps:

the method comprises the steps of integrating all innovation technology items, summarizing functions realized by the innovation technology, establishing an innovation technology data file, and generating an innovation technology function set; the method comprises the steps of integrating various industrial categories in the building industry, building a mapping relation between the industrial categories and innovative technologies, and generating a mapping set;

overall planning is carried out on the innovation technology project, all innovation technologies covered in the innovation technology project are extracted, and code marks in a unified form are carried out on each innovation technology; acquiring all functions realized by each innovation technology, establishing an innovation technology data file, marking any innovation technology code number in the innovation technology data file as Ii, generating an innovation technology function set by all functions realized by any innovation technology, and marking the innovation technology function set as IIi= { X1, X2, & gt, xn }, wherein Ii represents the ith innovation technology, IIi represents the innovation technology function set correspondingly generated by the innovation technology Ii, X1, X2, & gt, xn respectively represent the 1 st, 2 nd, n functions;

building a mapping relation between the industry category and the innovation technology according to the industry category and the innovation technology, wherein one industry category mapping comprises at least one innovation technology, the mapping relation is recorded as Jj-JJj = { I1, I2,., im }, wherein Jj represents the j industry category, JJj represents a mapping set generated by all innovation technologies contained in the j industry category, I1, I2,., im represents the 1,2, and m innovation technologies respectively;

based on the innovation technology, analyzing the association condition of the mapping sets in the building industry chain, establishing a temporary screening library, and calculating the association degree between the mapping sets; screening the mapping set according to the association degree, and generating an industry category association set;

selecting any innovation technology Ii, searching a mapping set with any selected innovation technology in each mapping set, and storing all the searched mapping sets into a temporary screening library F (Ii); in the temporary screening library, a mapping set JJj is selected, and the association degree of the mapping set is calculated according to the mapping relation, wherein the specific calculation formula is as follows:

CD(JJj→JJy)=NUM(JJj∩JJy)2/[NUM(JJj)*NUM(JJy)]

wherein CD (JJj → JJy) represents the degree of association between mapping set JJj and mapping set JJy, y represents the industry category number and j+.y, NUM (JJj), NUM (JJy) and NUM (JJj n JJy) represent the number of innovative technologies contained in mapping set JJj, mapping set JJy and set JJj n JJy, JJj, JJy ⊆ F (Ii), respectively;

for example, for innovation 6, in the building industry chain, the industry categories applied to innovation 6 are { industry category 1, industry category 2}, then the temporary screening library F (innovation 6) = { JJ1, JJ2};

presetting a relevance threshold, counting a mapping set JJy corresponding to the relevance threshold and generating an industry category relevance set GJj;

analyzing the penetration condition of any one innovative technology in the building industry chain according to the temporary screening library and the industry category association set; according to the penetration condition, an observation innovation technology library is established;

according to the association set of the temporary screening library and the industry category, the permeability of any one innovative technology in the building industry chain is calculated, and the specific calculation formula is as follows:

DOP(Ii)=[∑j=1NUM(F)NUM(GJj)]/NUM(F)

wherein, DOP (Ii) represents the permeability of any innovative technology Ii in the building industry chain, F=F (Ii), NUM (GJj) and NUM (F) represent the number of mapping sets in the industry category association set GJj and the temporary screening library F (Ii), respectively;

presetting a permeability threshold, marking any innovation technology Ii as an observation innovation technology if the permeability of the innovation technology Ii in a building industry chain is greater than or equal to the permeability threshold, and establishing an observation innovation technology library;

analyzing the new innovation technical project, and performing similar matching according to the observed innovation technical library; calculating the influence of the new innovation technology project, and judging whether the new innovation technology project is added into an operation system for long-term supervision;

acquiring any new innovation technology item in real time, analyzing the new innovation technology item to obtain K innovation technologies in total, and carrying out overall planning on functions realized by any innovation technology Is in the new innovation technology item to generate an innovation technology function set, wherein the innovation technology function set Is recorded as IIs, and s represents innovation technology codes; the K innovation technologies are combined to correspondingly generate innovation technology function sets, and a set H is generated;

comparing the similarity of any innovation technology Is with each observation innovation technology in the observation innovation technology library, performing similar matching on the innovation technology function set IIs and the innovation technology function set generated by each observation innovation technology, and attaching a mark to be observed to any innovation technology Is successfully subjected to similar matching; an innovation technology function set corresponding to the innovation technology added with the mark to be observed is generated, and a set h is generated;

according to the set H and the set H, the influence degree of any new innovative technical project is calculated, and the specific calculation formula is as follows:

LV(Is)=∑g=1GNUMh(Xg)/NUMH(Xg)

ID=∑s=1KLV(Is)

wherein LV (Is) represents a label value of any one innovation technology, NUMh (Xg) represents the number of innovation technology function sets in which any one function Xg exists in the set H in the innovation technology function sets IIs, G represents a function number, G represents the total number of functions in the innovation technology function sets IIs, and ID represents the influence degree of any one new innovation technology item;

for example, parsing a new innovative technical project results in:

the innovation technology 1 has the following functions: x1, X2;

the innovation technology 2 has the following functions: x1;

the innovation technology 3 has the following functions: x2, X4;

the innovation technology 4 has the following functions: x1, X3, X4;

wherein, the innovation technology 2 and the innovation technology 3 are innovation technologies added with marks to be observed through similarity matching;

then, according to the formula calculation, LV (innovations 1) =1/3+1/2≡0.83, LV (innovations 2) =1/3, LV (innovations 3) =1/2+1/2=1, LV (innovations 4) =1/3+0/1+1/2≡0.83, id=0.83+0.33+1+0.83=2.99;

presetting an influence threshold, and if the influence degree of any one new innovative technology item is greater than or equal to the influence threshold, sending the any one new innovative technology item to an operation supervision department.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention and is not intended to limit the present invention, but although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the technical solutions described in the foregoing embodiments, or equivalents may be substituted for some of the technical features thereof. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (10)

1. An operation management method for a construction industry chain innovation system is characterized by comprising the following steps:

step S100: the method comprises the steps of integrating all innovation technology items, summarizing functions realized by the innovation technology, establishing an innovation technology data file, and generating an innovation technology function set; the method comprises the steps of integrating various industrial categories in the building industry, building a mapping relation between the industrial categories and innovative technologies, and generating a mapping set;

step S200: based on the innovation technology, analyzing the association condition of the mapping sets in the building industry chain, establishing a temporary screening library, and calculating the association degree between the mapping sets; screening the mapping set according to the association degree, and generating an industry category association set;

step S300: analyzing the penetration condition of any one innovative technology in the building industry chain according to the temporary screening library and the industry category association set; according to the penetration condition, an observation innovation technology library is established;

step S400: analyzing the new innovation technical project, and performing similar matching according to the observed innovation technical library; calculating the influence of the new innovation technical project, and judging whether the new innovation technical project is added into an operation system for long-term supervision.

2. The method for operation management of a building industry chain innovation system according to claim 1, wherein the implementation process of step S100 includes:

step S101: overall planning is carried out on the innovation technology project, all innovation technologies covered in the innovation technology project are extracted, and code marks in a unified form are carried out on each innovation technology; acquiring all functions realized by each innovation technology, establishing an innovation technology data file, marking any innovation technology code number in the innovation technology data file as Ii, generating an innovation technology function set by all functions realized by any innovation technology, and marking the innovation technology function set as IIi= { X1, X2, & gt, xn }, wherein Ii represents the ith innovation technology, IIi represents the innovation technology function set correspondingly generated by the innovation technology Ii, X1, X2, & gt, xn respectively represent the 1,2, and n functions;

step S102: and building a mapping relation between the industry categories and the innovation technology according to the industry categories and the innovation technology, wherein one industry category mapping comprises at least one innovation technology, the mapping relation is recorded as Jj-JJj = { I1, I2, & gt, im }, wherein Jj represents the j industry category, JJj represents a mapping set generated by all innovation technologies contained in the j industry category, I1, I2, & gt, im represents the 1,2, and m innovation technologies respectively.

3. The method for operation management of a building industry chain innovation system according to claim 2, wherein the implementation process of step S200 includes:

step S201: selecting any innovation technology Ii, searching a mapping set with any selected innovation technology in each mapping set, and storing all the searched mapping sets into a temporary screening library F (Ii); in the temporary screening library, a mapping set JJj is selected, and the association degree of the mapping set is calculated according to the mapping relation, wherein the specific calculation formula is as follows:

CD(JJj→JJy)=NUM(JJj∩JJy)2/[NUM(JJj)*NUM(JJy)]

wherein CD (JJj → JJy) represents the degree of association between mapping set JJj and mapping set JJy, y represents the industry category number and j+.y, NUM (JJj), NUM (JJy) and NUM (JJj n JJy) represent the number of innovative technologies contained in mapping set JJj, mapping set JJy and set JJj n JJy, JJj, JJy ⊆ F (Ii), respectively;

step S202: the association threshold is preset, the statistical association is greater than or equal to the mapping set JJy corresponding to the association threshold, and the industry category association set GJj is generated.

4. The method for operation management of a building industry chain innovation system according to claim 3, wherein the implementation process of the step S300 includes:

step S301: according to the association set of the temporary screening library and the industry category, the permeability of any one innovative technology in the building industry chain is calculated, and the specific calculation formula is as follows:

DOP(Ii)=[∑j=1NUM(F)NUM(GJj)]/NUM(F)

wherein, DOP (Ii) represents the permeability of any innovative technology Ii in the building industry chain, F=F (Ii), NUM (GJj) and NUM (F) represent the number of mapping sets in the industry category association set GJj and the temporary screening library F (Ii), respectively;

step S302: presetting a permeability threshold, marking any innovation technology Ii as an observation innovation technology if the permeability of the innovation technology Ii in a building industry chain is larger than or equal to the permeability threshold, and establishing an observation innovation technology library.

5. The method for operation management of a building industry chain innovation system according to claim 4, wherein the implementation process of step S400 includes:

step S401: acquiring any new innovation technology item in real time, analyzing the new innovation technology item to obtain K innovation technologies in total, and carrying out overall planning on functions realized by any innovation technology Is in the new innovation technology item to generate an innovation technology function set, wherein the innovation technology function set Is recorded as IIs, and s represents innovation technology codes; the K innovation technologies are combined to correspondingly generate innovation technology function sets, and a set H is generated;

step S402: comparing the similarity of any innovation technology Is with each observation innovation technology in the observation innovation technology library, performing similar matching on the innovation technology function set IIs and the innovation technology function set generated by each observation innovation technology, and attaching a mark to be observed to any innovation technology Is successfully subjected to similar matching; an innovation technology function set corresponding to the innovation technology added with the mark to be observed is generated, and a set h is generated;

step S403: according to the set H and the set H, the influence degree of any new innovative technical project is calculated, and the specific calculation formula is as follows:

LV(Is)=∑g=1GNUMh(Xg)/NUMH(Xg)

ID=∑s=1KLV(Is)

wherein LV (Is) represents a label value of any one innovation technology, NUMh (Xg) represents the number of innovation technology function sets in which any one function Xg exists in the set H in the innovation technology function sets IIs, G represents a function number, G represents the total number of functions in the innovation technology function sets IIs, and ID represents the influence degree of any one new innovation technology item;

presetting an influence threshold, and if the influence degree of any one new innovative technology item is greater than or equal to the influence threshold, sending the any one new innovative technology item to an operation supervision department.

6. An operation management system for a construction industry chain innovation system, the system comprising: the system comprises an overall induction module, an innovation technology association analysis module, an osmosis analysis module and an operation module;

the overall summarizing module is used for summarizing all innovation technical projects, summarizing functions realized by the innovation technology, establishing an innovation technology data file and generating an innovation technology function set; the method comprises the steps of integrating various industrial categories in the building industry, building a mapping relation between the industrial categories and innovative technologies, and generating a mapping set;

the innovation technology association analysis module is used for analyzing association conditions of the mapping sets in the building industry chain based on innovation technology, establishing a temporary screening library and calculating association degree among the mapping sets; screening the mapping set according to the association degree, and generating an industry category association set;

the permeation analysis module analyzes permeation conditions of any one innovative technology in a building industry chain according to the temporary screening library and the industry category association set; according to the penetration condition, an observation innovation technology library is established;

the operation module is used for analyzing the new innovation technical project and performing similar matching according to the observed innovation technical library; calculating the influence of the new innovation technical project, and judging whether the new innovation technical project is added into an operation system for long-term supervision.

7. An operation management system for a construction industry chain innovation system according to claim 6, wherein: the overall planning and induction module also comprises an innovation technology data archive unit and a mapping unit;

the innovation technology data archive unit is used for carrying out overall planning on innovation technology projects, extracting all innovation technologies covered in the innovation technology projects, and carrying out code marking in a unified form on each innovation technology; acquiring all functions realized by each innovation technology, establishing an innovation technology data file, marking any innovation technology code number in the innovation technology data file as Ii, generating an innovation technology function set by all functions realized by any innovation technology, and marking the innovation technology function set as IIi= { X1, X2, & gt, xn }, wherein Ii represents the ith innovation technology, IIi represents the innovation technology function set correspondingly generated by the innovation technology Ii, X1, X2, & gt, xn respectively represent the 1,2, and n functions;

the mapping unit is configured to orchestrate each industry category in the building industry, and construct a mapping relationship between the industry category and the innovation technology according to the industry category and the innovation technology, where an industry category map includes at least one innovation technology, and the mapping relationship is recorded as Jj → JJj = { I1, I2..the first and second, im }, where Jj represents the j-th industry category, JJj represents a mapping set generated by all innovation technologies included in the j-th industry category, and I1, I2..the first and second, im respectively represent the 1, 2..the first and second innovation technologies.

8. An operation management system for a construction industry chain innovation system according to claim 7, wherein: the innovation technology association analysis module further comprises an association degree calculation unit and a screening unit;

the association degree calculating unit is used for selecting any one innovation technology Ii, searching the mapping set with any one innovation technology selected in each mapping set, and storing all the searched mapping sets into the temporary screening library F (Ii); in the temporary screening library, a mapping set JJj is selected, and the association degree of the mapping set is calculated according to the mapping relation, wherein the specific calculation formula is as follows:

CD(JJj→JJy)=NUM(JJj∩JJy)2/[NUM(JJj)*NUM(JJy)]

wherein CD (JJj → JJy) represents the degree of association between mapping set JJj and mapping set JJy, y represents the industry category number and j+.y, NUM (JJj), NUM (JJy) and NUM (JJj n JJy) represent the number of innovative technologies contained in mapping set JJj, mapping set JJy and set JJj n JJy, JJj, JJy ⊆ F (Ii), respectively;

the filtering unit is configured to preset a relevance threshold, count a mapping set JJy corresponding to the relevance threshold, and generate an industry category relevance set GJj.

9. An operation management system for a construction industry chain innovation system according to claim 8, wherein: the permeation profiling module further comprises a permeability calculation unit and an observation innovation technology library unit;

the permeability calculation unit calculates the permeability of any one innovative technology in the building industry chain according to the association set of the temporary screening library and the industry category, and the specific calculation formula is as follows:

DOP(Ii)=[∑j=1NUM(F)NUM(GJj)]/NUM(F)

wherein, DOP (Ii) represents the permeability of any innovative technology Ii in the building industry chain, F=F (Ii), NUM (GJj) and NUM (F) represent the number of mapping sets in the industry category association set GJj and the temporary screening library F (Ii), respectively;

the observed innovation technology library unit is used for presetting a permeability threshold, marking the innovation technology as an observed innovation technology if the permeability of any innovation technology Ii in the building industry chain is greater than or equal to the permeability threshold, and establishing an observed innovation technology library.

10. An operation management system for a construction industry chain innovation system according to claim 9, wherein: the operation module further comprises a similarity matching unit and a judging unit;

the similarity matching unit Is used for acquiring any new innovation technology item in real time, analyzing the new innovation technology item to obtain K innovation technologies in total, and carrying out overall planning on functions realized by any innovation technology Is in the new innovation technology item to generate an innovation technology function set, wherein the innovation technology function set Is recorded as IIs, and s represents innovation technology codes; the K innovation technologies are combined to correspondingly generate innovation technology function sets, and a set H is generated; comparing the similarity of any innovation technology Is with each observation innovation technology in the observation innovation technology library, performing similar matching on the innovation technology function set IIs and the innovation technology function set generated by each observation innovation technology, and attaching a mark to be observed to any innovation technology Is successfully subjected to similar matching; an innovation technology function set corresponding to the innovation technology added with the mark to be observed is generated, and a set h is generated;

the judging unit calculates the influence degree of any new innovation technical project according to the set H and the set H, and the specific calculation formula is as follows:

LV(Is)=∑g=1GNUMh(Xg)/NUMH(Xg)

ID=∑s=1KLV(Is)

wherein LV (Is) represents a label value of any one innovation technology, NUMh (Xg) represents the number of innovation technology function sets in which any one function Xg exists in the set H in the innovation technology function sets IIs, G represents a function number, G represents the total number of functions in the innovation technology function sets IIs, and ID represents the influence degree of any one new innovation technology item;

presetting an influence threshold, and if the influence degree of any one new innovative technology item is greater than or equal to the influence threshold, sending the any one new innovative technology item to an operation supervision department.