CN114971693A - Engineering cost consultation management system based on BIM - Google Patents

Abstract

The invention discloses a project cost consultation management system based on BIM, belonging to the project cost field, the invention is used for solving the problems that engineering cost consultants cannot know the high-quality degree of a consultant and cannot distinguish the authenticity of a consultation result, and the system comprises a consultation analysis module, a consultation matching module and a service screening module, wherein the service screening module is used for screening engineering cost service providers to obtain a service selection table, the consultation matching module is combined with the service selection table to match input consultation information to obtain preset consultation information of different engineering cost service providers, and the consultation analysis module is combined with data to analyze the consultation result of the engineering cost and feed back the qualified consultation result to a server.

Description

Engineering cost consultation management system based on BIM

Technical Field

The invention belongs to the field of construction cost, relates to a consultation management technology, and particularly relates to a BIM-based construction cost consultation management system.

Background

The project cost refers to the construction cost of the project predicted or actually paid in the construction period, the knowledge and skill in the aspects of management, economics, engineering technology and the like are comprehensively applied, the working process of predicting, planning, controlling, accounting, analyzing, evaluating and the like the project cost is called project cost management, according to the procedures, methods and basis specified by laws, regulations and standards and the like, the prediction or determination of the project cost and the constituent content thereof is called project pricing, and the project pricing basis comprises project metering pricing standards, project pricing quota, project cost information and the like related to pricing content, pricing method and price standard;

in the prior art, when the engineering cost is consulted and managed, the consultant cannot obtain the high-quality degree of the engineering cost consultant, only can blindly search the answer of the consultation information, and the consultant cannot distinguish the authenticity and the objectivity of the searched consultation result;

therefore, a project cost consultation management system based on the BIM is provided.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a BIM-based engineering cost consultation management system.

The technical problem to be solved by the invention is as follows: how to provide a high-quality engineering cost consultant and simultaneously ensure the authenticity and objectivity of a consultation structure.

The purpose of the invention can be realized by the following technical scheme:

a project cost consultation management system based on BIM comprises a user terminal, a consultation analysis module, a consultation matching module, a service screening module, a data acquisition module and a server, wherein the user terminal comprises a consultation end and a service end, the data acquisition module is used for acquiring service information of a project cost service provider and sending the service information to the service screening module, the service screening module is used for screening the project cost service provider to obtain a service selection table which is fed back to the server, and the server sends the service selection table to the consultation matching module;

the system comprises a consultation end, a consultation analysis module, a consultation matching module and a service selection table, wherein the consultation end is used for consulting personnel to input consultation information and send the consultation information to a server, the server sends the consultation information to the consultation matching module, the consultation matching module is used for matching the input consultation information in combination with the service selection table, preset consultation information of different engineering cost service providers is obtained through matching and fed back to the server, the server inquires a plurality of consultation results of the consulting personnel according to the preset consultation information of the different engineering cost service providers and feeds back the plurality of consultation results to the consultation analysis module;

the data acquisition module is also used for acquiring the consulting data of the construction cost consulting results of different construction cost service providers and sending the consulting data to the server, and the server sends the consulting data to the consulting analysis module;

the consultation analysis module is used for analyzing the consultation result of the construction cost by combining the use data, the qualified consultation result is fed back to the server, the server sends the qualified consultation result to the consultation end, and the consultation personnel at the consultation end check the qualified consultation result.

Furthermore, the consultation end is used for registering and logging in the system after a consultation person of the construction cost inputs personal information and sending the personal information to the server;

and the server is used for registering and logging in the system after the engineering cost service provider inputs the enterprise information and sending the enterprise information to the server.

Further, the personal information comprises the name of the consultant and the mobile phone number of real-name authentication;

the enterprise information comprises the enterprise name and the enterprise address of the engineering cost service provider.

Further, the service information comprises the establishment time, the service times and the favorable comment number of the engineering cost service provider;

the consultation data comprises evaluation number, favorable evaluation number and consultation times of the construction cost service provider corresponding to the consultation result.

Further, the screening process of the service screening module specifically comprises the following steps:

the method comprises the following steps: marking the engineering cost service trademark as u, 1, 2, … …, and z, which is a positive integer;

step two: acquiring the service times of a project cost service provider, and marking the service times as FCu;

step three: obtaining the establishment time of the engineering cost service provider, and obtaining the establishment duration TCu of the engineering cost service provider by subtracting the establishment time from the current time of the server;

step four: acquiring the favorable rating number of a project cost service provider, and marking the favorable rating number as HCu;

step five: substituting the service times, the establishment duration and the favorable evaluation number into a calculation formula to calculate a service value FWu of the engineering cost service provider, wherein the calculation formula is as follows:

in the formula, a1, a2 and a3 are all proportionality coefficients with fixed numerical values, and the values of a1, a2 and a3 are all larger than zero;

step six: and arranging the service values in a descending order according to the numerical values to obtain a service selection table of the engineering cost service provider.

Further, the matching process of the consultation matching module is specifically as follows:

step S1: segmenting input consultation information by a Chinese segmentation technology to obtain a plurality of consultation phrases;

step S2: acquiring a plurality of preset phrases of different project cost service providers stored in a server;

step S3: acquiring the number of characters of a consultation phrase, and selecting a plurality of preset phrases of different project cost service providers according to the number of the characters;

step S4: acquiring strokes of each character in a consultation phrase, comparing the consultation phrase with a plurality of preset phrases of different engineering cost service providers one by one, and comparing to obtain the preset phrases of different engineering cost service providers corresponding to each consultation phrase;

step S5: and recombining and arranging preset phrases of different engineering cost service providers corresponding to the consultation phrases according to the sequence to obtain preset consultation information of different engineering cost service providers corresponding to the consultation information.

Further, the analysis process of the consultation analysis module is specifically as follows:

step SS 1: marking the consulting result corresponding to the engineering cost service provider as Ju;

step SS 2: obtaining the consulting times of the corresponding consulting results of the engineering cost service provider, and marking the consulting times as ZC _Ju ；

Step SS 3: obtaining the evaluation number and the favorable evaluation number of the corresponding consultation result of the engineering cost service provider, wherein the favorable evaluation number is compared with the evaluation number to obtain the favorable evaluation rate HPL of the consultation result _Ju ；

Step SS 4: by the formula

Calculating the acceptance RK of the corresponding consultation result of the engineering cost service provider _Ju (ii) a In the formula, b1 and b2 are proportionality coefficients with fixed numerical values, and the values of b1 and b2 are both larger than zero;

step SS 5: and classifying the consultation result corresponding to the engineering cost service provider with the recognition degree greater than the recognition degree threshold value as a qualified consultation result.

Compared with the prior art, the invention has the beneficial effects that:

the invention screens the construction cost service provider through the service screening module to obtain a service selection list of the construction cost service provider and send the service selection list to the consultation matching module;

meanwhile, a consultant inputs consultation information through a consultation end and sends the consultation information to a server, the server sends the consultation information to a consultation matching module, the consultation matching module matches the input consultation information with a service selection table to obtain preset consultation information of different construction cost service providers corresponding to the consultation information and feeds the preset consultation information back to a consultation analysis module, a data acquisition module also acquires the consultation data of construction cost consultation results of different construction cost service providers and sends the consultation data to the consultation analysis module, the consultation analysis module analyzes the consultation results of construction cost by combining the data, obtains the acceptance of the construction cost service providers corresponding to the consultation results by analysis, and classifies the consultation results corresponding to the construction cost service providers with the acceptance greater than the acceptance threshold into qualified consultation results, the invention firstly provides a high-quality construction cost consultant and analyzes the consultation results, thereby ensuring the authenticity and objectivity of the consultation structure.

Drawings

In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.

FIG. 1 is an overall system block diagram of the present invention;

FIG. 2 is a block diagram of another system of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Example one

Referring to fig. 1, a project cost consultation management system based on BIM includes a user terminal, a consultation analysis module, a consultation matching module, a service screening module, a data acquisition module, and a server;

the user terminal comprises a consultation end and a service end, wherein the consultation end is used for a consultation person at the construction cost to input personal information and then register and log in the system, and the personal information is sent to the server; the server is used for registering and logging in the system after the engineering cost service provider inputs enterprise information and sending the enterprise information to the server;

the personal information comprises the name of the consultant, the mobile phone number of real-name authentication and the like; the enterprise information comprises an enterprise name, an enterprise address and the like of the engineering cost service provider;

the data acquisition module is used for acquiring service information of a project cost service provider and sending the service information to the service screening module;

specifically, the service information includes the establishment time, the service times, the goodness number, and the like of the engineering cost service provider;

the service screening module is used for screening the engineering cost service provider, and the screening process specifically comprises the following steps:

the method comprises the following steps: marking the engineering cost service trademark as u, 1, 2, … …, and z, which is a positive integer;

step two: acquiring the service times of a project cost service provider, and marking the service times as FCu;

step three: obtaining the establishment time of the engineering cost service provider, and obtaining the establishment duration TCu of the engineering cost service provider by subtracting the establishment time from the current time of the server;

step four: acquiring the favorable scores of the engineering cost service provider, and marking the favorable scores as HCu;

step five: substituting the service times, the establishment duration and the favorable evaluation number into a calculation formula to calculate a service value FWu of the engineering cost service provider, wherein the calculation formula is as follows:

in the formula, a1, a2 and a3 are all proportionality coefficients with fixed numerical values, and the values of a1, a2 and a3 are all larger than zero;

step six: arranging the service values in a descending order according to the numerical value to obtain a service selection table of the engineering cost service provider;

the service screening module feeds back the service selection table to the server, and the server sends the service selection table to the consultation matching module;

the consultation end is used for consulting personnel to input consultation information and sending the consultation information to the server, the server sends the consultation information to the consultation matching module, the consultation matching module is used for matching the input consultation information in combination with the service selection table, and the matching process is as follows:

step S1: segmenting input consultation information by a Chinese segmentation technology to obtain a plurality of consultation phrases;

step S2: acquiring a plurality of preset phrases of different project cost service providers stored in a server;

step S3: acquiring the number of characters of a consultation phrase, and selecting a plurality of preset phrases of different project cost service providers according to the number of the characters;

step S4: acquiring strokes of each character in a consultation phrase, comparing the consultation phrase with a plurality of preset phrases of different engineering cost service providers one by one, and comparing to obtain the preset phrases of different engineering cost service providers corresponding to each consultation phrase;

step S5: recombining and arranging preset phrases of different engineering cost service providers corresponding to the consultation phrase according to the sequence to obtain preset consultation information of different engineering cost service providers corresponding to the consultation information;

the consultation matching module feeds back preset consultation information of different construction cost service providers to the server, the server inquires according to the preset consultation information of the different construction cost service providers to obtain a plurality of consultation results of the consultants, and the plurality of consultation results are fed back to the consultation analysis module;

the data acquisition module acquires the consultation data of the cost consultation results of different engineering cost service providers and sends the consultation data to the server, and the server sends the consultation data to the consultation analysis module;

specifically, the consulting data includes evaluation number, favorable evaluation number, consulting frequency and the like of the engineering cost service provider corresponding to the consulting result;

the consultation analysis module is used for analyzing the consultation result of the engineering cost by combining the use data, and the analysis process is as follows:

step SS 1: marking the consulting result corresponding to the engineering cost service provider as Ju;

step SS 2: obtaining the consulting times of the corresponding consulting results of the engineering cost service provider, and marking the consulting times as ZC _Ju ；

Step SS 3: obtaining the evaluation number and the favorable evaluation number of the corresponding consultation result of the engineering cost service provider, wherein the favorable evaluation number is compared with the evaluation number to obtain the favorable evaluation rate HPL of the consultation result _Ju ；

Step SS 4: by the formula

Calculating the acceptance RK of the corresponding consultation result of the engineering cost service provider _Ju (ii) a In the formula, b1 and b2 are proportionality coefficients with fixed numerical values, and the values of b1 and b2 are both larger than zero;

step SS 5: classifying the consultation result corresponding to the engineering cost service provider with the recognition degree greater than the recognition degree threshold value as a qualified consultation result;

and the consultation analysis module feeds back the qualified consultation result to the server, the server sends the qualified consultation result to the consultation end, and the consultation personnel at the consultation end check the qualified consultation result.

Example two

Referring to fig. 2, a project cost consultation management system based on BIM, the system further includes an information monitoring module and an intelligent updating module;

in specific implementation, a home page display function or an intelligent recommendation function is usually arranged in a system, a webpage and an App, and the engineering cost consultation management system is also not exceptional;

the server displays the preset consultation information on a home page, and the data acquisition module is used for acquiring retrieval data of the preset consultation information and sending the retrieval data to the server;

specifically, the matching times of the detection data as the preset consultation information and the like are described;

the server sends the retrieval data to the information monitoring module, the information monitoring module is used for monitoring preset consultation information, and the monitoring process specifically comprises the following steps:

step P1: marking preset consultation information as o, o is 1, 2, … …, v, v is a positive integer;

step P2: randomly setting an information monitoring time period of preset consultation information, and setting a starting segmentation point, a middle segmentation point and an ending segmentation point in the information monitoring time period, wherein the time period from the starting segmentation point to the middle segmentation point is a first time period, and the time period from the middle segmentation point to the ending segmentation point is a second time period;

step P3: setting a plurality of time points T1T in a first period; setting a plurality of time points T2T in the second time period, wherein T is 1, 2, … …, n is a positive integer, and T represents the number of the time points;

step P4: acquiring real-time matching times of preset consultation information at different time points in a first time period, and marking the real-time matching times as PCo _T1t ；

Acquiring real-time matching times of preset consultation information at different time points in a second time period, and marking the real-time matching times as PCo _T2t ；

Step P5: by the formula

Calculating to obtain a first matching rate PS1o of preset consultation information in a first time period;

similarly, a second matching rate PS2o of the preset consultation information in the second time period is calculated by a formula;

step P6: comparing the first matching rate with the second matching rate;

if the first matching rate is less than or equal to the second matching rate, go to step P7;

if the first matching rate is greater than the second matching rate, go to step P8;

step P7: acquiring a matching rate threshold value of preset consultation information stored in a server;

if the second matching rates are all smaller than the matching rate threshold, generating an intelligent updating signal;

if the first matching rate is smaller than the matching rate threshold value, the second matching rate is larger than or equal to the matching rate threshold value, or the first matching rate is larger than or equal to the matching rate threshold value, a continuous display signal is generated;

step P8: acquiring a matching rate threshold of preset consultation information stored in a server;

if the first matching rates are all smaller than the matching rate threshold, generating an intelligent updating signal;

if the second matching rate is less than the matching rate threshold and the first matching rate is greater than or equal to the matching rate threshold, or the second matching rate is greater than or equal to the matching rate threshold, generating a continuous display signal;

the information monitoring module feeds back the intelligent updating signal or the continuous display signal to the server, the server sends the intelligent updating signal or the continuous display signal to the intelligent updating module, and the intelligent updating module updates the preset consultation information displayed on the home page in the system according to the intelligent updating signal or the continuous display signal;

a BIM-based engineering cost consultation management system is characterized in that during work, service information of an engineering cost service provider is obtained through a data acquisition module and sent to a service screening module, the service screening module screens the engineering cost service provider, a project cost service trademark is marked as u, service times FCu, establishment time TCu and goodness of comments HCu of the engineering cost service provider are obtained, and the service times, the establishment time and the goodness of comments are substituted into a calculation formula

Calculating to obtain a service value FWu of the engineering cost service provider, arranging the service values in descending order according to the numerical value to obtain a service selection table of the engineering cost service provider, feeding the service selection table back to the server by the service screening module, and sending the service selection table to the consultation matching module by the server;

meanwhile, a consultant inputs consultation information through a consultation end and sends the consultation information to a server, the server sends the consultation information to a consultation matching module, the consultation matching module matches the input consultation information by combining a service selection table, the input consultation information is segmented by a Chinese segmentation technology to obtain a plurality of consultation phrases, a plurality of preset phrases of different engineering cost service providers are stored in the acquisition server, then the number of characters of the consultation phrases is obtained, the plurality of preset phrases of the different engineering cost service providers are selected according to the number of the characters, finally, strokes of each character in the consultation phrases are obtained, the consultation phrases are compared with the plurality of preset phrases of the different engineering cost service providers one by one to obtain the preset phrases of the different engineering cost service providers corresponding to each consultation, the preset phrases corresponding to the different engineering cost service providers are recombined and arranged according to the phrase sequence, the method comprises the steps that preset consultation information of different engineering cost service providers corresponding to consultation information is obtained, a consultation matching module feeds the preset consultation information of the different engineering cost service providers back to a server, the server inquires a plurality of consultation results of consultants according to the preset consultation information of the different engineering cost service providers, and the plurality of consultation results are fed back to a consultation analysis module;

the data acquisition module is also used for acquiring consulting data of construction cost consulting results of different construction cost service providers and sending the consulting data to the server, the server sends the consulting data to the consulting analysis module, the consulting analysis module analyzes the consulting results of the construction cost by combining the data, the consulting result corresponding to the construction cost service provider is marked as Ju, the consulting times of the consulting results corresponding to the construction cost service provider are obtained, and the consulting times are marked as ZC _Ju Then, obtaining the evaluation number and the favorable evaluation number of the corresponding consultation result of the engineering cost service provider, and obtaining the favorable evaluation rate HPL of the consultation result by the favorable evaluation number to the evaluation number _Ju By the formula

Calculating the acceptance RK of the corresponding consultation result of the engineering cost service provider _Ju The method comprises the steps of classifying a consultation result corresponding to a construction cost service provider with the recognition degree larger than a recognition degree threshold value into a qualified consultation result, feeding the qualified consultation result back to a server by a consultation analysis module, sending the qualified consultation result to a consultation end by the server, and checking the qualified consultation result by a consultation person at the consultation end;

the system also comprises an information monitoring module and an intelligent updating module, wherein the server displays the preset consultation information on a home page, acquires retrieval data of the preset consultation information through the data acquisition module and sends the retrieval data to the server, and the server sends the retrieval data to the information monitoring module;

monitoring the preset consultation information through the information monitoring module, marking the preset consultation information as o, and randomly setting the preset consultation informationSetting a start division point, a middle division point and an end division point in the information monitoring time period, wherein the start division point to the middle division point are first time periods, the middle division point to the end division point are second time periods, and a plurality of time points T1T are set in the first time periods; setting a plurality of time points T2T in the second time period, and acquiring real-time matching times PCo of preset consultation information at different time points in the first time period _T1t Acquiring real-time matching times PCo of preset consultation information at different time points in a second time period _T2t By the formula

The method comprises the steps of obtaining a first matching rate PS1o of preset consultation information in a first time period through calculation, obtaining a second matching rate PS2o of the preset consultation information in a second time period through formula calculation, comparing the first matching rate with the second matching rate, generating an intelligent updating signal or continuously displaying a signal, feeding the intelligent updating signal or continuously displaying the signal back to a server, sending the intelligent updating signal or continuously displaying the signal to an intelligent updating module by the server, and updating the preset consultation information displayed on a home page in the system by the intelligent updating module according to the intelligent updating signal or continuously displaying the signal.

The above formulas are all calculated by taking the numerical value of the dimension, the formula is a formula of the latest real situation obtained by collecting a large amount of data and performing software simulation, the preset parameters in the formula are set by the technical personnel in the field according to the actual situation, the weight coefficient and the scale coefficient are specific numerical values obtained by quantizing each parameter, and the subsequent comparison is convenient.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (7)

1. A BIM-based engineering cost consultation management system is characterized by comprising a user terminal, a consultation analysis module, a consultation matching module, a service screening module, a data acquisition module and a server, wherein the user terminal comprises a consultation end and a service end, the data acquisition module is used for acquiring service information of an engineering cost service provider and sending the service information to the service screening module, the service screening module is used for screening the engineering cost service provider to obtain a service selection table which is fed back to the server, and the server sends the service selection table to the consultation matching module;

the system comprises a consultation end, a consultation analysis module, a consultation matching module and a service selection table, wherein the consultation end is used for consulting personnel to input consultation information and send the consultation information to a server, the server sends the consultation information to the consultation matching module, the consultation matching module is used for matching the input consultation information in combination with the service selection table, preset consultation information of different engineering cost service providers is obtained through matching and fed back to the server, the server inquires a plurality of consultation results of the consulting personnel according to the preset consultation information of the different engineering cost service providers and feeds back the plurality of consultation results to the consultation analysis module;

the data acquisition module is also used for acquiring the consulting data of the construction cost consulting results of different construction cost service providers and sending the consulting data to the server, and the server sends the consulting data to the consulting analysis module;

the consultation analysis module is used for analyzing the consultation result of the construction cost by combining the use data, the qualified consultation result is fed back to the server, the server sends the qualified consultation result to the consultation end, and the consultation personnel at the consultation end check the qualified consultation result.

2. The BIM-based construction cost consultation management system according to claim 1, wherein the consultation terminal is used for a consultation staff of construction cost to register and log in the system after inputting personal information and sending the personal information to the server;

and the server is used for registering and logging in the system after the engineering cost service provider inputs the enterprise information and sending the enterprise information to the server.

3. The BIM-based construction cost consultation management system according to claim 2, wherein the personal information includes names of consultants, mobile phone numbers of real name certification;

the enterprise information includes the enterprise name and the enterprise address of the engineering cost service provider.

4. The BIM-based construction cost consultation management system according to claim 1, wherein the service information includes establishment time, service times and goodness of service of a construction cost service provider;

the consultation data comprises evaluation number, favorable evaluation number and consultation times of the construction cost service provider corresponding to the consultation result.

5. The BIM-based construction cost consultation management system according to claim 1, wherein the screening process of the service screening module is as follows:

the method comprises the following steps: recording the construction cost service trademark as u, wherein u is 1, 2, … …, z is a positive integer;

step two: acquiring the service times of a project cost service provider, and marking the service times as FCu;

step three: obtaining the establishment time of the engineering cost service provider, and obtaining the establishment duration TCu of the engineering cost service provider by subtracting the establishment time from the current time of the server;

step four: acquiring the favorable scores of the engineering cost service provider, and marking the favorable scores as HCu;

step five: substituting the service times, the establishment duration and the favorable evaluation number into a calculation formula to calculate a service value FWu of the engineering cost service provider, wherein the calculation formula is as follows:

in the formula, a1, a2 and a3 are all proportionality coefficients with fixed numerical values, and the values of a1, a2 and a3 are all larger than zero;

step six: and arranging the service values in a descending order according to the numerical values to obtain a service selection table of the engineering cost service provider.

6. The BIM-based construction cost consultation management system according to claim 1, wherein the consultation matching module is specifically matched as follows:

step S1: segmenting input consultation information by a Chinese segmentation technology to obtain a plurality of consultation phrases;

step S2: acquiring a plurality of preset phrases of different project cost service providers stored in a server;

step S3: acquiring the number of characters of a consultation phrase, and selecting a plurality of preset phrases of different project cost service providers according to the number of the characters;

step S4: acquiring strokes of each character in a consultation phrase, comparing the consultation phrase with a plurality of preset phrases of different engineering cost service providers one by one, and comparing to obtain the preset phrases of different engineering cost service providers corresponding to each consultation phrase;

step S5: and recombining and arranging preset phrases of different engineering cost service providers corresponding to the consultation phrases according to the sequence to obtain preset consultation information of different engineering cost service providers corresponding to the consultation information.

7. The BIM-based construction cost consultation management system according to claim 1, wherein the analysis process of the consultation analysis module is as follows:

step SS 1: marking the consultation result corresponding to the engineering cost service provider as Ju;

step SS 2: obtaining the consultation times of the project cost service provider corresponding to the consultation result, and marking the consultation times as ZC _Ju ；

Step SS 3: obtaining the evaluation number and the favorable evaluation number of the corresponding consultation result of the engineering cost service provider, wherein the favorable evaluation number is compared with the evaluation number to obtain the favorable evaluation rate HPL of the consultation result _Ju ；

Step SS 4: by the formula

Calculating the acceptance RK of the corresponding consultation result of the engineering cost service provider _Ju (ii) a In the formula, b1 and b2 are proportionality coefficients with fixed numerical values, and the values of b1 and b2 are both larger than zero;

step SS 5: and classifying the consultation result corresponding to the engineering cost service provider with the recognition degree greater than the recognition degree threshold value as a qualified consultation result.

Images