CN112116221A - Evaluation method and system for comprehensive evaluation, electronic device and storage medium - Google Patents

Abstract

The application relates to the technical field of engineering project bid inviting and bidding, and discloses a comprehensive evaluation bid evaluation method, a comprehensive evaluation bid evaluation system, electronic equipment and a storage medium, wherein the comprehensive evaluation bid evaluation method comprises the steps of collecting, extracting, verifying, comparing, submitting and finally reviewing. The bidding evaluation method and the bidding evaluation device have the advantages that the bidding evaluation process is divided into evaluation links of various parameters, the evaluation links are sorted according to the importance of various parameters, the basic qualification is verified, the necessary elements are compared, the inconsistent bidders are deleted before final review, the workload of the bidders is reduced, the time that the inconsistent bidders occupy the bidders is avoided, and the efficiency of bidding evaluation is improved because all the evaluation links are automatically carried out.

Description

Evaluation method and system for comprehensive evaluation, electronic device and storage medium

Technical Field

The application relates to the technical field of engineering project bid, in particular to a bid evaluation method, system, electronic equipment and storage medium for comprehensive evaluation.

Background

In recent years, the total industrial value completed by the Chinese construction industry is increased year by year, the total industrial value is increased from 12497.60 billion in 2000 to 117734.00 billion in 2011, the total industrial value is over 10 trillion customs for the first time, and the amplification is basically maintained to be more than 20%. In recent years, with the implementation of a construction method and a bid inviting method, the package accepting activity in the engineering construction field is continuously improved, and bid inviting and bid bidding become the main mode of the project package issuing in China. Bidding efforts are often time consuming, expensive, and complex processes involving multi-party benefits and regulatory rules. Generally, the bid and bid inviting work is divided into four stages of bid inviting preparation, qualification prequalification, bid opening evaluation and contract signing, wherein the most important stage is the bid opening evaluation stage, and the effectiveness of bid evaluation directly determines the quality and completion efficiency of the project. After opening the bid, the bidding party collects the bid documents received within a certain period, then pre-reviews the bid documents, and after screening out the qualified bid documents, the bidding party is selected by expert review, and the whole bidding evaluation period is long and the workload is large.

With the continuous development of information network technology, the electronic bidding purchasing is taken as a convenient, efficient, transparent and environment-friendly operation mode, advanced computer technology is taken as a support, the internet is taken as a platform, the electronic information technology and the traditional bidding purchasing mode are effectively combined, and the electronic management of the whole processes of bidding preparation, qualification prequalification, bid opening and bid evaluation and the like is realized. However, in the existing electronic bid inviting purchasing method, each link only converts the paper material into the electronic material, and the content of each material still needs to be manually and carefully read and then judged, and the next link is gradually entered, so that the efficiency of the whole auditing process is low.

The inventors consider that there is a drawback to the related art among the above.

Disclosure of Invention

Aiming at the defects in the prior art, the application provides a comprehensive evaluation bid evaluation method and system.

In a first aspect, the evaluation method for comprehensive assessment provided by the present application adopts the following technical scheme.

A bid evaluation method for comprehensive evaluation comprises the following steps:

the collection step comprises: collecting bidding elements of a bidder, wherein the bidding elements comprise a basic qualification i, a necessary element j and a secondary element k;

the extraction step comprises: extracting bidding elements published by a bidding party, wherein the bidding elements comprise a basic qualification a, a necessary element b and a secondary element c;

a verification step: comparing the basic qualification a with the basic qualification i, if the basic qualification i meets the requirement of the basic qualification a, performing a comparison step, otherwise deleting the bidding element and informing the corresponding bidding party;

and (3) comparison: comparing the necessary element b with the necessary element j, if the necessary element j meets the requirement of the necessary element b, reserving the bidding element, otherwise deleting the bidding element and informing the corresponding bidder;

and (5) submitting: sending the remaining bid elements to the tenderer; and the number of the first and second groups,

final examination step: the tenderer selects the bidding element for winning the bid and announces winning information.

By adopting the technical scheme, the bid evaluation process is divided into evaluation links of various parameters, the evaluation links are sorted according to the importance of various parameters, the basic qualification is verified, necessary elements are compared, and the non-conforming bidders are deleted before final evaluation, so that the workload of the bidders is reduced, the time of occupying the bidders by the non-conforming bidders is avoided, and the evaluation links are automatically carried out, so that the bid evaluation efficiency is improved.

Preferably, in the verification step, before the basic qualification a and the basic qualification i are compared, the basic qualification i is compared in a networking mode, the authenticity of the basic qualification i is verified, if the basic qualification a and the basic qualification i are correct, the verification is continued, and if the basic qualification i is incorrect, the corresponding bidder returns to correct or complain.

By adopting the technical scheme, the authenticity of the basic qualification of the bidder is verified through networking, and the bidder is prevented from falsely making efforts to interfere with bid evaluation.

Preferably, the evaluation method for comprehensive evaluation further comprises:

setting: setting the interval of each necessary element b and the weight of each necessary element b;

a transcoding step: making scales by the interval of each necessary element b, uniformly distributing each scale in a divergent shape, enabling the starting points of each scale to coincide, setting the total length of each scale according to the weight ratio of each necessary element b, marking the position of each necessary element j as a dot, and connecting adjacent dots;

a sorting step: calculating the area of a pattern formed by enclosing all the dot connecting lines of each bidder, and arranging bidding elements of each bidder approximately according to the area of each bidder; and the number of the first and second groups,

a display step: and sending the arranged bidders and the corresponding patterns to an intelligent terminal of the tenderer.

By adopting the technical scheme, the bidding elements of the bidders meeting the requirements are presented in a pattern form before final review, so that the tenderers can conveniently and rapidly, intuitively and vividly master the advantages and the disadvantages of the bidders, and the time of the final review step is favorably shortened.

Preferably, before the step of presenting, there is also a step of integrating: and comparing the minor elements k of each bidder with the minor elements c, if the minor elements k meet the requirements of the minor elements c, listing the minor elements k on one side of the pattern, and otherwise, hiding the minor elements k.

By adopting the technical scheme, the secondary elements are listed on one side of the pattern, so that the tenderer can conveniently know other advantages of the bidder, the diversity of bid evaluation contents is enriched, and the scientificity of the bid evaluation method is improved.

Preferably, a feedback step exists between the setting step and the final reviewing step: collecting the evaluation of the tenderer on the successful bidder, screening the first three necessary elements j from the necessary elements j of the successful bidder, adding a preference coefficient m in the setting step in the next similar bid evaluation process, wherein the preference coefficient m =0.01 × n +1, and n is the number of times the necessary elements j are selected, and multiplying the weight of the corresponding necessary elements b set in the next setting step by the preference coefficient m to obtain a new weight.

By adopting the technical scheme, the accepted bidding elements obtained by the bidding party are collected and added into the next similar bid evaluation process, so that the advantages of the bidding party meeting the bidding elements are increased, the bidding party can quickly select the bidding party meeting the requirements, the final review time is further shortened, and the bid evaluation efficiency is improved.

In a second aspect, the present application provides a bid evaluation system for comprehensive evaluation, which adopts the following technical solution.

An evaluation system for comprehensive evaluation, comprising:

the collection module is used for collecting the bidding elements of the bidders;

the storage module is used for storing the bidding elements published by the bidding party and the bidding elements sent by the bidding party;

the networking module is used for connecting the Internet to collect the basic qualification i of the bidder;

the setting module is used for setting the interval of each necessary element b and the weight of each necessary element b in the storage module;

the first comparison unit is used for calling the bidding elements from the acquisition module, calling the basic qualification a of the corresponding bidding party from the networking module, comparing whether the bidding elements are consistent or not, if so, keeping the corresponding bidding elements, and otherwise, returning the corresponding bidding party for correction or complaint;

the second comparison unit is used for calling the bidding element from the acquisition module, calling the bidding element from the storage module, comparing the basic qualification a with the basic qualification i, if the basic qualification i meets the requirement of the basic qualification a, performing a comparison step, and if not, deleting the bidding element and informing a corresponding bidder;

the third comparison unit is used for calling the bidding element from the acquisition module, calling the bidding element from the storage module, comparing the necessary element b with the necessary element j, if the necessary element j meets the requirement of the necessary element b, retaining the bidding element, and otherwise, deleting the bidding element and informing the corresponding bidder;

the submission module is used for calling the rest bidding elements in the acquisition module and sending the rest bidding elements to the tenderer; and the number of the first and second groups,

and the final examination module is used for receiving the bid elements sent by the final examination module, selecting the bid elements for winning the bid and announcing the information of winning the bid.

By adopting the technical scheme, the evaluation of the plurality of bidding elements is quickly completed by utilizing the first comparison unit, the second comparison unit and the third comparison unit, so that the bids meeting the bidding requirement are screened out to be convenient for the selection of the bidding party, and the bid evaluation efficiency is improved.

Preferably, the final review module includes:

the receiving unit is used for receiving the bidding elements sent by the submission module;

the transcoding unit is used for calling the bidding factors in the storage module, manufacturing scales according to the interval of each necessary factor b, uniformly distributing each scale in a divergent shape to enable the starting points of each scale to coincide, and setting the total length of each scale according to the weight ratio of each necessary factor b in the setting module;

the marking unit is used for calling the bidding elements received by the receiving unit, marking the position of each necessary element j on the scale as a dot, and connecting adjacent dots;

the calculation unit is used for collecting patterns formed by enclosing connecting lines of adjacent circular dots in the marking unit and calculating the area of each bidding square forming the pattern;

the sequencing unit is used for acquiring the area numerical value of each bidding square pattern in the calculation unit and sequencing the bidding elements of each bidding party in a sequence of approximately small area numerical values;

the integration unit is used for calling the bidding elements received by the receiving unit, comparing the minor elements k of each bidder with the minor elements c, if the minor elements k meet the requirements of the minor elements c, listing the minor elements k on one side of the pattern, otherwise, hiding the minor elements k;

the display unit is used for calling the bidding elements and the corresponding patterns of each bidder arranged in the sorting unit and sending the bidding elements and the corresponding patterns to the intelligent terminal of the tenderer for the tenderer to select; and the number of the first and second groups,

and the public indication unit is used for calling the bidder selected by the bidder in the final review module and announcing the bid-winning information to the Internet and each bidder.

By adopting the technical scheme, the bidding elements of the bidders meeting the requirements are presented in a pattern form by using the display unit, so that the tenderer can conveniently and rapidly, intuitively and vividly master the advantages and the disadvantages of the bidders, and the time of final review steps can be shortened.

Preferably, the evaluation system for comprehensive evaluation further includes a feedback module, which includes:

the evaluation unit is used for listing necessary elements j of the bidding party for winning the bid and collecting three necessary elements j approved by the bidding party for winning the bid; and the number of the first and second groups,

and the weighting unit is used for acquiring the number of times that each necessary element j in the evaluation unit is selected, recording the number of times as n, adding a preference coefficient m into a setting module in the next similar evaluation process, wherein the preference coefficient m =0.01 × n +1, and multiplying the weight of the corresponding necessary element b set in the setting module in the next similar evaluation process by the preference coefficient m to obtain a new weight.

By adopting the technical scheme, the accepted bidding elements obtained by the bidding party are collected and added into the next similar bid evaluation process, so that the advantages of the bidding party meeting the bidding elements are increased, the bidding party can quickly select the bidding party meeting the requirements, the final review time is further shortened, and the bid evaluation efficiency is improved.

In a third aspect, the present application provides a bid evaluation electronic device for comprehensive evaluation, which adopts the following technical scheme:

the electronic device for evaluating the bid for the comprehensive evaluation comprises a memory and a processor, wherein the memory is stored with a computer program which can be loaded by the processor and can execute the bid evaluation method for the comprehensive evaluation.

In a fourth aspect, the present application provides a computer-readable storage medium, which adopts the following technical solutions:

a computer-readable storage medium storing a computer program that can be loaded by a processor and that executes the above-described evaluation method of comprehensive evaluation.

In summary, the present application includes at least one of the following beneficial technical effects:

according to the scheme, the bid evaluation process is divided into evaluation links of various parameters, and each evaluation link is automatically carried out, so that the bid evaluation efficiency is improved;

the scheme sorts according to the importance of various parameters, verifies the basic qualification, compares necessary elements, and deletes the non-conforming bidders before final review, thereby reducing the workload of the tenderers;

the proposal presents the bidding elements of each bidder meeting the requirements in a pattern form before final review, is convenient for the tenderer to quickly, intuitively and vividly master the advantages and the disadvantages of each bidder, and is beneficial to shortening the time of the final review step.

Drawings

FIG. 1 is a schematic diagram of the steps in example 1 of the present application.

FIG. 2 is a schematic diagram of the steps in example 2 of the present application.

Detailed Description

The present application is described in further detail below with reference to the attached drawings.

Example 1: the embodiment of the application discloses a bid evaluation method for comprehensive evaluation. As shown in fig. 1, the bid evaluation method for comprehensive evaluation includes:

the collection step comprises: collecting bidding elements of a bidder, wherein the bidding elements comprise a basic qualification i, a necessary element j and a secondary element k;

the extraction step comprises: extracting bidding elements published by a bidding party, wherein the bidding elements comprise a basic qualification a, a necessary element b and a secondary element c;

anti-counterfeiting step: the authenticity of the basic qualification i is verified in a networking mode, if the authenticity is correct, the verification step is carried out, and if the authenticity is not correct, the corresponding bidder returns to correct or complain;

a verification step: comparing the basic qualification a with the basic qualification i, if the basic qualification i meets the requirement of the basic qualification a, performing a comparison step, otherwise deleting the bidding element and informing the corresponding bidding party;

and (3) comparison: comparing the necessary element b with the necessary element j, if the necessary element j meets the requirement of the necessary element b, reserving the bidding element, otherwise deleting the bidding element and informing the corresponding bidder;

and (5) submitting: sending the remaining bid elements to the tenderer;

setting: setting the interval of each necessary element b and the weight of each necessary element b;

a transcoding step: making scales by the interval of each necessary element b, uniformly distributing each scale in a divergent shape, enabling the starting points of each scale to coincide, setting the total length of each scale according to the weight ratio of each necessary element b, marking the position of each necessary element j as a dot, and connecting adjacent dots;

a sorting step: calculating the area of a pattern formed by enclosing all the dot connecting lines of each bidder, and arranging bidding elements of each bidder approximately according to the area of each bidder;

an integration step: comparing the minor elements k of each bidder with the minor elements c, if the minor elements k meet the requirements of the minor elements c, listing the minor elements k on one side of the patterns, otherwise, hiding the minor elements k;

a display step: sending the arranged bidders and the corresponding patterns to an intelligent terminal of the tenderer; and the number of the first and second groups,

final examination step: the tenderer selects the bidding element for winning the bid and announces winning information.

In the embodiment, the bid evaluation process is divided into evaluation links of various parameters, the evaluation links are sorted according to the importance of the various parameters, the basic qualification is verified, the necessary elements are compared, and the non-conforming bidders are deleted before final review, so that the workload of the bid inviting party is reduced, the time of the non-conforming bidders occupying the bid inviting party is avoided, and the evaluation links are automatically carried out, so that the bid evaluation efficiency is improved.

Example 1: the embodiment of the application discloses a bid evaluation method for comprehensive evaluation.

As shown in fig. 1, the bid evaluation method for comprehensive evaluation includes:

the collection step comprises: collecting bidding elements of a bidder, wherein the bidding elements comprise a basic qualification i, a necessary element j and a secondary element k;

the extraction step comprises: extracting bidding elements published by a bidding party, wherein the bidding elements comprise a basic qualification a, a necessary element b and a secondary element c;

anti-counterfeiting step: the authenticity of the basic qualification i is verified in a networking mode, if the authenticity is correct, the verification step is carried out, and if the authenticity is not correct, the corresponding bidder returns to correct or complain;

a verification step: comparing the basic qualification a with the basic qualification i, if the basic qualification i meets the requirement of the basic qualification a, performing a comparison step, otherwise deleting the bidding element and informing the corresponding bidding party;

and (3) comparison: comparing the necessary element b with the necessary element j, if the necessary element j meets the requirement of the necessary element b, reserving the bidding element, otherwise deleting the bidding element and informing the corresponding bidder;

and (5) submitting: sending the remaining bid elements to the tenderer;

setting: setting the interval of each necessary element b and the weight of each necessary element b;

a transcoding step: making scales by the interval of each necessary element b, uniformly distributing each scale in a divergent shape, enabling the starting points of each scale to coincide, setting the total length of each scale according to the weight ratio of each necessary element b, marking the position of each necessary element j as a dot, and connecting adjacent dots;

a sorting step: calculating the area of a pattern formed by enclosing all the dot connecting lines of each bidder, and arranging bidding elements of each bidder approximately according to the area of each bidder;

an integration step: comparing the minor elements k of each bidder with the minor elements c, if the minor elements k meet the requirements of the minor elements c, listing the minor elements k on one side of the patterns, otherwise, hiding the minor elements k;

a display step: sending the arranged bidders and the corresponding patterns to an intelligent terminal of the tenderer;

final examination step: the tenderer selects the bidding elements of the successful bid and announces the successful bid information; and the number of the first and second groups,

a feedback step: collecting the evaluation of the tenderer on the successful bidder, screening the first three necessary elements j from the necessary elements j of the successful bidder, adding a preference coefficient m in the setting step in the next similar bid evaluation process, wherein the preference coefficient m =0.01 × n +1, and n is the number of times the necessary elements j are selected, and multiplying the weight of the corresponding necessary elements b set in the next setting step by the preference coefficient m to obtain a new weight.

In this embodiment, on the basis of embodiment 1, the bidding factors approved by the bidding party are collected and added to the next similar bid evaluation process, so as to increase the advantages of the bidding parties meeting the bidding factors, facilitate the bidding party to quickly select the bidding parties meeting the requirements, further shorten the final review time, and improve the bid evaluation efficiency.

Example 3: the embodiment of the application also discloses a bid evaluation system for comprehensive evaluation, which comprises:

and the acquisition module is used for acquiring the bidding elements of the bidders.

And the storage module is used for storing the bidding elements published by the bidding party and the bidding elements sent by the bidding party.

And the networking module is used for connecting the Internet to collect the basic qualification i of the bidder.

And the setting module is used for setting the interval of each necessary element b and the weight of each necessary element b in the storage module.

The module of comparing includes:

the first comparison unit is used for calling the bidding elements from the acquisition module, calling the basic qualification a of the corresponding bidding party from the networking module, comparing whether the bidding elements are consistent or not, if so, keeping the corresponding bidding elements, and otherwise, returning the corresponding bidding party for correction or complaint;

the second comparison unit is used for calling the bidding element from the acquisition module, calling the bidding element from the storage module, comparing the basic qualification a with the basic qualification i, if the basic qualification i meets the requirement of the basic qualification a, performing a comparison step, and if not, deleting the bidding element and informing a corresponding bidder; and the number of the first and second groups,

and the third comparison unit is used for calling the bidding element from the acquisition module, calling the bidding element from the storage module, comparing the necessary element b with the necessary element j, if the necessary element j meets the requirement of the necessary element b, retaining the bidding element, and if not, deleting the bidding element and informing the corresponding bidder.

And the submission module is used for calling the rest bidding elements in the acquisition module and sending the rest bidding elements to the tenderer.

A final check module:

the receiving unit is used for receiving the bidding elements sent by the submission module;

the transcoding unit is used for calling the bidding factors in the storage module, manufacturing scales according to the interval of each necessary factor b, uniformly distributing each scale in a divergent shape to enable the starting points of each scale to coincide, and setting the total length of each scale according to the weight ratio of each necessary factor b in the setting module;

the marking unit is used for calling the bidding elements received by the receiving unit, marking the position of each necessary element j on the scale as a dot, and connecting adjacent dots;

the calculation unit is used for collecting patterns formed by enclosing connecting lines of adjacent circular dots in the marking unit and calculating the area of each bidding square forming the pattern;

the sequencing unit is used for acquiring the area numerical value of each bidding square pattern in the calculation unit and sequencing the bidding elements of each bidding party in a sequence of approximately small area numerical values;

the integration unit is used for calling the bidding elements received by the receiving unit, comparing the minor elements k of each bidder with the minor elements c, if the minor elements k meet the requirements of the minor elements c, listing the minor elements k on one side of the pattern, otherwise, hiding the minor elements k;

the display unit is used for calling the arranged bidding elements and corresponding patterns of each bidder in the sorting unit and the integrating unit and sending the bidding elements and corresponding patterns to the intelligent terminal of the tenderer for the tenderer to select; and the number of the first and second groups,

and the public indication unit is used for calling the bidder selected by the bidder in the final review module and announcing the bid-winning information to the Internet and each bidder.

A feedback module, comprising:

the evaluation unit is used for listing necessary elements j of the bidding party for winning the bid and collecting three necessary elements j approved by the bidding party for winning the bid; and the number of the first and second groups,

and the weighting unit is used for acquiring the number of times that each necessary element j in the evaluation unit is selected, recording the number of times as n, adding a preference coefficient m into a setting module in the next similar evaluation process, wherein the preference coefficient m =0.01 × n +1, and multiplying the weight of the corresponding necessary element b set in the setting module in the next similar evaluation process by the preference coefficient m to obtain a new weight.

The bid evaluation system for comprehensive evaluation disclosed in this embodiment implements the bid evaluation methods for comprehensive evaluation of embodiments 1 and 2, and utilizes the first comparison unit, the second comparison unit, and the third comparison unit to quickly complete evaluation of a plurality of bid elements, so that bids meeting bid inviting requirements are screened out to facilitate selection of a bid inviting party, and bid evaluation efficiency is improved.

Example 4: the embodiment of the invention provides a comprehensive evaluation electronic device, which comprises a memory and a processor, wherein the memory is used for storing a plurality of evaluation data; the memory may be a RAM, ROM, EPROM, EEPROM, FLAH, magnetic or optical disk, or the like. The memory is stored with a computer program which can be loaded by the processor and can execute the evaluation method of the comprehensive evaluation. The processor includes a central processing unit such as a subsidiary CPU or MPU, or a host system configured with the subsidiary CPU or MPU as a core, and includes hardware or software.

Example 5: the embodiment of the invention provides a computer storage medium, which includes various media capable of storing program codes, such as a U disk, a mobile hard disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a magnetic disk or an optical disk, and a computer program capable of being loaded by a processor and executing the evaluation method of comprehensive evaluation is stored in the media.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. A bid evaluation method for comprehensive evaluation is characterized by comprising the following steps:

the collection step comprises: collecting bidding elements of a bidder, wherein the bidding elements comprise a basic qualification i, a necessary element j and a secondary element k;

the extraction step comprises: extracting bidding elements published by a bidding party, wherein the bidding elements comprise a basic qualification a, a necessary element b and a secondary element c;

a verification step: comparing the basic qualification a with the basic qualification i, if the basic qualification i meets the requirement of the basic qualification a, performing a comparison step, otherwise deleting the bidding element and informing the corresponding bidding party;

and (3) comparison: comparing the necessary element b with the necessary element j, if the necessary element j meets the requirement of the necessary element b, reserving the bidding element, otherwise deleting the bidding element and informing the corresponding bidder;

and (5) submitting: sending the remaining bid elements to the tenderer; and the number of the first and second groups,

final examination step: the tenderer selects the bidding element for winning the bid and announces winning information.

2. The bid evaluation method for comprehensive evaluation according to claim 1, wherein in the verification step, before comparing the basic qualification a with the basic qualification i, the basic qualification i is compared on line to verify the authenticity of the basic qualification i, and if no error occurs, the verification is continued, otherwise, the bidding party returns to correct or complain the bid.

3. The bid evaluation method for comprehensive evaluation according to claim 1, further comprising:

setting: setting the interval of each necessary element b and the weight of each necessary element b;

a transcoding step: making scales by the interval of each necessary element b, uniformly distributing each scale in a divergent shape, enabling the starting points of each scale to coincide, setting the total length of each scale according to the weight ratio of each necessary element b, marking the position of each necessary element j as a dot, and connecting adjacent dots;

a sorting step: calculating the area of a pattern formed by enclosing all the dot connecting lines of each bidder, and arranging bidding elements of each bidder approximately according to the area of each bidder; and the number of the first and second groups,

a display step: and sending the arranged bidders and the corresponding patterns to an intelligent terminal of the tenderer.

4. The bid evaluation method for comprehensive evaluation according to claim 3, wherein before the displaying step, there is an integrating step: and comparing the minor elements k of each bidder with the minor elements c, if the minor elements k meet the requirements of the minor elements c, listing the minor elements k on one side of the pattern, and otherwise, hiding the minor elements k.

5. The bid evaluation method for comprehensive evaluation according to claim 3, wherein a feedback step exists between the setting step and the final review step: collecting the evaluation of the tenderer on the successful bidder, screening the first three necessary elements j from the necessary elements j of the successful bidder, adding a preference coefficient m in the setting step in the next similar bid evaluation process, wherein the preference coefficient m =0.01 × n +1, and n is the number of times the necessary elements j are selected, and multiplying the weight of the corresponding necessary elements b set in the next setting step by the preference coefficient m to obtain a new weight.

6. An evaluation system for comprehensive evaluation, comprising:

the collection module is used for collecting the bidding elements of the bidders;

the storage module is used for storing the bidding elements published by the bidding party and the bidding elements sent by the bidding party;

the networking module is used for connecting the Internet to collect the basic qualification i of the bidder;

the setting module is used for setting the interval of each necessary element b and the weight of each necessary element b in the storage module;

the first comparison unit is used for calling the bidding elements from the acquisition module, calling the basic qualification a of the corresponding bidding party from the networking module, comparing whether the bidding elements are consistent or not, if so, keeping the corresponding bidding elements, and otherwise, returning the corresponding bidding party for correction or complaint;

the second comparison unit is used for calling the bidding element from the acquisition module, calling the bidding element from the storage module, comparing the basic qualification a with the basic qualification i, if the basic qualification i meets the requirement of the basic qualification a, performing a comparison step, and if not, deleting the bidding element and informing a corresponding bidder;

the third comparison unit is used for calling the bidding element from the acquisition module, calling the bidding element from the storage module, comparing the necessary element b with the necessary element j, if the necessary element j meets the requirement of the necessary element b, retaining the bidding element, and otherwise, deleting the bidding element and informing the corresponding bidder;

the submission module is used for calling the rest bidding elements in the acquisition module and sending the rest bidding elements to the tenderer; and the number of the first and second groups,

and the final examination module is used for receiving the bid elements sent by the final examination module, selecting the bid elements for winning the bid and announcing the information of winning the bid.

7. The system for evaluating the bid according to claim 6, wherein the final review module comprises:

the receiving unit is used for receiving the bidding elements sent by the submission module;

the transcoding unit is used for calling the bidding factors in the storage module, manufacturing scales according to the interval of each necessary factor b, uniformly distributing each scale in a divergent shape to enable the starting points of each scale to coincide, and setting the total length of each scale according to the weight ratio of each necessary factor b in the setting module;

the marking unit is used for calling the bidding elements received by the receiving unit, marking the position of each necessary element j on the scale as a dot, and connecting adjacent dots;

the calculation unit is used for collecting patterns formed by enclosing connecting lines of adjacent circular dots in the marking unit and calculating the area of each bidding square forming the pattern;

the sequencing unit is used for acquiring the area numerical value of each bidding square pattern in the calculation unit and sequencing the bidding elements of each bidding party in a sequence of approximately small area numerical values;

the integration unit is used for calling the bidding elements received by the receiving unit, comparing the minor elements k of each bidder with the minor elements c, if the minor elements k meet the requirements of the minor elements c, listing the minor elements k on one side of the pattern, otherwise, hiding the minor elements k;

the display unit is used for calling the bidding elements and the corresponding patterns of each bidder arranged in the sorting unit and sending the bidding elements and the corresponding patterns to the intelligent terminal of the tenderer for the tenderer to select; and the number of the first and second groups,

and the public indication unit is used for calling the bidder selected by the bidder in the final review module and announcing the bid-winning information to the Internet and each bidder.

8. The system of claim 7, further comprising a feedback module comprising:

the evaluation unit is used for listing necessary elements j of the bidding party for winning the bid and collecting three necessary elements j approved by the bidding party for winning the bid; and the number of the first and second groups,

and the weighting unit is used for acquiring the number of times that each necessary element j in the evaluation unit is selected, recording the number of times as n, adding a preference coefficient m into a setting module in the next similar evaluation process, wherein the preference coefficient m =0.01 × n +1, and multiplying the weight of the corresponding necessary element b set in the setting module in the next similar evaluation process by the preference coefficient m to obtain a new weight.

9. An electronic device for bid evaluation of a composite assessment, comprising a memory and a processor, the memory having stored thereon a computer program that can be loaded by the processor and that executes the method according to any one of claims 1 to 5.

10. A computer-readable storage medium, in which a computer program is stored which can be loaded by a processor and which executes the method according to any of claims 1-5.

Images