CN102279944A - Interactive checking and approving system for integrity of configurable bill of material (BOM) - Google Patents

Interactive checking and approving system for integrity of configurable bill of material (BOM) Download PDF

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CN102279944A
CN102279944A CN2010102004846A CN201010200484A CN102279944A CN 102279944 A CN102279944 A CN 102279944A CN 2010102004846 A CN2010102004846 A CN 2010102004846A CN 201010200484 A CN201010200484 A CN 201010200484A CN 102279944 A CN102279944 A CN 102279944A
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code
bom
pof
product
feature
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CN102279944B (en
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徐举宏
万海峰
李原
俞碧华
山建新
冯晔
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SAIC Motor Corp Ltd
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SAIC Motor Corp Ltd
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Abstract

The invention provides an interactive checking and approving system for the integrity of a configurable bill of material (BOM). The system is connected with at least one management system; the interactive checking and approving system for the integrity of the configurable BOM comprises a database and a server communicated with the database; the management system comprises a full function position description library, a full configuration characteristic foundational library and a BOM table; the server comprises a receiving module and an interactive checking and approving module, wherein the receiving module is used for receiving the full function position description library, the full configuration characteristic foundational library and the BOM table from the management system, and the interactive checking and approving module for the integrity of the BOM is used for generating a function position using set according to the full function position description library, the full configuration characteristic foundational library and the BOM table and checking and approving the integrity of the function position using set. According to the system, integrity analysis can be performed on configurable BOMs of multiple platforms and multiple items as well as sub-BOM of sub-items, and the checking and approving accuracy and efficiency of the BOM are increased.

Description

Configurable Bill of Material (BOM) integrality is mutual to be checked and authorisation system
Technical field
The present invention relates to data processing method and system, relate in particular to a kind of method and system of configurable Bill of Material (BOM) integrality comparison.
Background technology
BOM (Bill of Material, Bill of Material (BOM)) is meant the tabulation of all materials that product comprised.In order to satisfy the demand of market diversification, both may be arranged in the different sub-project of different platforms with a kind of product, each platform may comprise the experimental process project again simultaneously, and the configuration of each sub-project has nothing in common with each other; The business department that faces of BOM is various in addition, comprise design department, purchasing department, treasurer's department, logistics department, manufacturing sector or the like, for the uniform data that all departments are used, present most of enterprise adopts PDM (Product Data Management System, product data management system) in a platform, manages super BOM concentratedly with configurable method, to satisfy the demand of different business department.In order to respond market and quality improvement etc. fast, engineering change (EC) can take place usually super BOM is upgraded.Under the condition of various dynamic changes, how to check the integrality of each configuration Bill of Material (BOM) of each sub-BOM under the super BOM real-time, be the prerequisite condition that manufacturing enterprise realizes rapid processing, accurately produces fast by client's diversified demand order.At present, this comparison work is mostly by manually finishing.Because each product may comprise various materials, cause the comparison workload big, defective such as easily make mistakes.Existing relevant BOM system can not realize this comparison function.
Summary of the invention
Purpose of the present invention is to utilize sub-BOM of product to have and only have the principle of a thing item number in one concrete function position maximum possible, provide a kind of configurable Bill of Material (BOM) integrality to compare system, be used to carry out interactive mode and check and check and approve, generate corresponding results and handle for the staff.
The invention provides mutual inspection of a kind of configurable Bill of Material (BOM) BOM integrality and authorisation system, the mutual inspection of this configurable BOM integrality links to each other with at least one management system with authorisation system, the mutual inspection with authorisation system of this BOM integrality comprises server, wherein:
This management system comprises global function location expression storehouse, full configuration feature base library and BOM table;
This server comprises receiver module and the mutual inspection of BOM integrality and checks and approves module, wherein this receiver module is used for receiving this global function location expression storehouse, full configuration feature base library and BOM table from management system, and this BOM integrality is mutual to be checked and check and approve module and be used for generating POF according to full configuration feature base library and BOM table and use set and describe the storehouse according to full configuration feature and use the integrality of set to check and check and approve to POF.
Preferably, in mutual inspection of above-mentioned BOM integrality of the present invention and authorisation system, this global function location expression storehouse comprises at least one product basic function location expression storehouse, the necessary product basic function of product position is described in this product basic function location expression storehouse, wherein each product basic function location expression storehouse comprises at least one data line, and this data line comprises that first POF describes code.
Preferably, in mutual inspection of above-mentioned BOM integrality of the present invention and authorisation system, this full configuration feature base library comprises that at least one product configuration feature describes the storehouse, this product configuration feature is described the configuration feature that product is described in the storehouse, each product configuration feature is described the storehouse and is comprised feature code and at least one data acquisition, this data acquisition comprises the model code and first configured list, this model code is represented the type under this product, and this first configured list is used to represent whether the represented concrete model of this model code comprises the represented product feature of this feature code.
Preferably, in mutual inspection of above-mentioned BOM integrality of the present invention and authorisation system, this data acquisition also comprises the sub-model code and first configured list, type under this model code and sub-this product of model coded representation, this first configured list is used to represent whether this model code and the represented concrete model of sub-model code comprise the represented product feature of this feature code.
Preferably, in mutual inspection of above-mentioned BOM integrality of the present invention and authorisation system, the BOM table comprises at least one product BOM table, and this product BOM table comprises that at least one BOM is capable, and each BOM is capable, and PT CODE, second POF of comprising described code, material configuration relation constraint formula.
Preferably, in mutual inspection of above-mentioned BOM integrality of the present invention and authorisation system, this material configuration relation constraint formula is the logical formula of model code and feature code or is the logical formula of model code.
Preferably, above-mentioned BOM integrality of the present invention mutual check with authorisation system in, this BOM integrality is mutual to be checked and checks and approves module and also comprise POF set generation module, this POF set generation module is used to carry out following steps:
Extract material configuration relation constraint formula from the product BOM table, this material configuration relation constraint formula is resolved, draw subclass according to product configuration feature base library;
PT CODE in this subclass and the product BOM table, material configuration relation constraint formula are combined, form POF and use set.
Preferably, in mutual inspection of above-mentioned BOM integrality of the present invention and authorisation system, POF uses set to comprise PT CODE, material configuration relation constraint formula and subclass, subclass comprises that second POF describes code, model code and tabulation, and the result that this tabulation is resolved according to first configured list draws.
Preferably, in mutual inspection of above-mentioned BOM integrality of the present invention and authorisation system, POF uses set to comprise that PT CODE, material configuration relation retrain formula, second POF is described code and subclass, subclass comprises that second POF describes code, model code, sub-model code and tabulation, and the result that this tabulation is resolved according to first configured list draws
Preferably, above-mentioned BOM integrality of the present invention mutual check with authorisation system in, this BOM integrality is mutual to be checked and checks and approves module and also comprise comparison module, this comparison module is used for carrying out at least a of following steps:
Set and product basic function location expression storehouse are used in the comparing function position, describe code to determine first POF that POF uses the subclass in the set whether to comprise in the product basic function location expression storehouse;
POF use set is carried out the inside oneself relatively, to determine whether exist second POF of repetition to describe code in the subclass in the POF use set.
Preferably, in mutual inspection of above-mentioned BOM integrality of the present invention and authorisation system, comparison module merges processing with the result of each subclass comparison.
Technique effect of the present invention is, can carry out integrity analysis to the sub-BOM of configurable BOM of multi-platform, multinomial purpose and sub-project thereof, avoided defectives such as the manually-operated workload is big, error rate height, improved the BOM integrality and verified and accuracy and the efficient checked and approved.
Description of drawings
Fig. 1 is the hardware structure figure according to the mutual system that checks and check and approve of Bill of Material (BOM) of the present invention (BOM) integrality;
Fig. 2 is the functional block diagram according to the server in mutual inspection of BOM integrality of the present invention and the authorisation system;
Fig. 3 checks and the functional block diagram of checking and approving module according to BOM integrality of the present invention is mutual.
Embodiment
Describe the preferred embodiments of the present invention in detail below in conjunction with accompanying drawing, identical in the accompanying drawings reference number is represented components identical.
Seeing also shown in Figure 1ly, is the mutual hardware structure figure that checks with the system that checks and approves of Bill of Material (BOM) of the present invention (BOM) integrality.The mutual inspection with the system that checks and approves of this BOM integrality comprises display 10, network 11, server 12 and database 14.Display 10 has user interface, carries out the mutual associative operation of checking and checking and approving of BOM integrality for the user, shows corresponding information.
Display 10 links to each other with server 12.Server 12 comprises a plurality of functional modules, is used to receive the information from management system 1, realizes the mutual inspection of BOM integrality and checks and approves, and the user who produces corresponding prompt information announcement makes it can carry out subsequent treatment.Database 14 is used for storing the mutual information of using or producing with approval procedure of checking of BOM integrality.Database 14 is connected with server 12.Though in Fig. 1, this database 14 is shown in outside the server 12, it equally also can be integrated in the server 12.The mutual inspection of this BOM integrality links to each other with at least one management system 1 by network 11 with authorisation system.Network 11 can be an intranet, also can be the communication network of Internet or other type.Management system 1 is used to store global function location expression storehouse A, full configuration feature base library B and configurable BOM table C.
As shown in Figure 2, be the functional block diagram of the server 12 of mutual inspection of BOM integrality of the present invention and authorisation system.This server 12 comprises receiver module 120 and the mutual inspection of BOM integrality and checks and approves module 122.
Receiver module 120 is downloaded global function location expression storehouse A, full configuration feature base library B and configurable BOM table C, and is stored in the database 14 by network 11 from management system 1.Receiver module is regularly synchronous with management system 1 120 every days, and unidirectional download management system data updated on 1 same day is so that the data of the data of database 14 and management system 1 have consistance.
Global function location expression storehouse A comprises the product basic function location expression storehouse A at platform 1,2...n 1, A 2... A n, be respectively applied for description at the necessary product basic function of the product of platform 1,2...n position.
Product basic function location expression storehouse A kComprise at least one data line, 1≤k≤n wherein, each data line comprise that first POF describes code, are used to describe essential functions of components and installation site.Preferably this data line also comprises the description code description of character property, is used for first POF is presented at display with describing the represented parts character property of code.
As shown in table 1, table 1 is product basic function location expression storehouse A 1The exemplary list of partial content.Wherein this first POF is described code and illustratively is 8 hexadecimal codes.
First POF is described code Code description is described
0001A01A VEHICLE ASM (car load)
0111A01F BOLT/SCREW-VAC REG VLV (bolt-adjustor module)
0111A01E BOLT/SCREW-CHRG AIR CLR BRKT (bolt-sky filter support is to vehicle body)
0111A01H BRACKET ASM-CHRG AIR CLR (empty filter bracket assembly)
0111A01K HOSE-TURBO COOL FEED (flexible pipe-supercharger is to intercooler)
0111A01L HOSE-TURBO COOL RTN (flexible pipe-intercooler is to throttle body)
0111A01R CLAMP-CHRG AIR CLR COOL HOSE CONN (clamp-CAC is to the engine flexible pipe)
0111A01S0111A02B0111L01H0211A01A0211A01D BOLT/SCREW-CHRG AIR CLR COOL PIPE (bolt-CAC pipeline) PIPE ASM-FUEL FEED﹠RTN (fuel pipe oil pipe assembly under the floor) PIPE ASM-FUEL FEED (fuel oil service and transfer system oil inlet pipe assembly) BOLT/SCREW-S/GR CLA (bolt-steering box clamp) BOLT/SCREW-S/GR SUPT (screw-steering box is to the subframe foundry goods)
0211A01V HOSE ASM-P/S GR INL (power steer oil inlet hose assembly)
Table 1
Full configuration feature base library B comprises at the product configuration feature of platform 1,2...n and describes storehouse B 1, B 2... B n, be respectively applied for the configuration feature of description at the product of platform 1,2...n.
The product configuration feature is described storehouse B kComprise feature code and data acquisition B K1, B K2... B Km, this data acquisition comprises the model code and first configured list, and this model code is represented the type under this product, and this first configured list is used to represent whether the represented concrete model of this model code comprises the represented product feature of this feature code.This first configured list carries out logical operation to the material configuration relation code constraint of BOM table C, parses the application result of part on the specific product type.
Preferably, this data acquisition also comprises the experimental process model code.At this moment, this first configured list is used to be illustrated in model code and whether the represented concrete model of sub-model code comprises the represented product feature of this feature code.
Table 2 is for to describe storehouse B at the product configuration feature of platform 1 1The exemplary list of partial content.B 1Comprise feature code and data acquisition B 11, B 12And B 13B 11, B 12And B 13Comprise model code, sub-model code and first configured list.Schematically, model code is 6 codes, and feature code is 4 hexadecimal codes.First configured list is the S/O/-tabulation.
Data acquisition B 11, B 12And B 13Model code be respectively UI2CP2 (standard form), UI2DP2 (comfort type) and UI2SP2 (luxury).B 11, B 12And B 13First configured list represent whether comprise the represented product feature of feature code under the four seed models (sub-model code is 1.8T LHD, 1.8T RHD, 1.9D LHD and 1.8D RHD) of UI2SP2 (standard form), UI2DP2 (comfort type) and UI2SP2 (luxury) pattern respectively.Wherein S represent standard configuration, O represent choosing dress ,-expression do not adorn.This first configured list also can be the code of other form.Preferably, this product configuration feature is described storehouse B 1Also comprise feature title (not shown), be used to represent the implication of character property ground expression feature code.
Table 2
Though sub-model code has been shown in table 2, it equally also can not comprise sub-model code.At this moment, the concrete model of this this product of model code direct representation.
Though, the product configuration feature has been shown in table 2 has described storehouse B 1Comprise 3 data sets, but the quantity that is not intended as data set limits, it also can comprise 1 data set or a plurality of data set.
Comprise 4 sub-model code though this first configuring arrange has been shown in table 2, it equally also can comprise one or more sub-model codes.Though data acquisition B has been shown in table 2 in addition 11, B 12And B 13In include 4 sub-model code, but and be intended to quantity with sub-model code and be defined as equally, each data acquisition can comprise the sub-model code of varying number equally.
Similarly, the S/O/-code in this first configured list also can be the coding of other form, for example is 2 binary codes, and 11 expression standard configurations, 00 expression are not adorned, 10 expression choosing dresses.Those skilled in the art can revise accordingly according to concrete application.
Configurable BOM table C comprises at least one product BOM table C k, this product BOM table comprises that at least one BOM is capable, each BOM is capable, and PT CODE, second POF of comprising described code, material configuration relation constraint formula.Wherein this material configuration relation constraint formula is the logical expression of model code and feature code or only is the logical formula of model code.
PT CODE Second POF is described code Material configuration relation constraint formula
00000001 0111A02B UI2SP2&C00R.
00000002 0111L01H UI2SP2&C00R.
00000003 0211A01A UI2CP2&UI2DP2.
00000004 0211A01D UI2DP2.
00000005 0211A01V UI2SP2&B00L&C00R.
00000006 0211A01V UI2SP2&B00R&C00R.
Table 3
Table 3 is product BOM table C 1The exemplary list of partial content.Product BOM table C 1Comprise several rows, each capable PT CODE, second POF of comprising is described code and material configuration relation code constraint.Wherein PT CODE illustratively is 8 16 scale codings, second POF and describes code and illustratively be 8 16 scale codings.With the first behavior example of table 3, PT CODE is that to describe code be that 0111A02B, material configuration relation constraint formula are UI2SP2﹠amp to 00000001, second POF; C00R.
After obtaining global function location expression storehouse A, full configuration feature base library B and configurable BOM table C, the BOM integrality is checked alternately and is checked and approved module 122 and according to global function location expression storehouse A, full configuration feature base library B and BOM table C the integrality that the BOM that is provided shows C is detected alternately and checks and approves.
The BOM integrality is checked alternately and is checked and approved module 122 and also comprises a plurality of functional modules.As shown in Figure 3, Fig. 3 checks and the functional block diagram of checking and approving module 122 for the BOM integrality is mutual.The BOM integrality is checked alternately and is checked and approved module 122 and comprises POF set generation module 1220 and comparison module 1221.POF set generation module 1220 is used for using set E according to full configuration feature base library B and BOM table C systematic function position kContrast module 1221 is used for according to product basic function location expression storehouse A kPOF is used set E kIntegrality check and check and approve.
POF set generation module 1220 is with product BOM table C kIn material configuration relation constraint formula extract, according to product configuration feature base library B kThis material configuration relation constraint formula is resolved, draw subclass, with this subclass and product BOM table C kIn PT CODE, the material configuration relation constraint formula and second POF describe code and combine, use set E thereby form POF k
POF uses set E kComprise PT CODE, material configuration relation constraint formula and subclass E K1, E K2... E Km, subclass E KjComprise that second POF describes code, model code, tabulation, this tabulation draws according to the first configured list analysis result.POF uses set E kIn each row of data represent that the represented part of this PT CODE describes the operating position of the represented functional description position of code by second POF under concrete each product type of different model code representatives.Preferably, this subclass E KjAlso comprise sub-model code.
Table 4 uses set E for POF 1The exemplary list of partial content.Specifically describe POF set production module systematic function position below in conjunction with table 1-4 and use set E 1Generative process.
According to C 1In the material configuration relation constraint formula UI2SP2﹠amp of first row; C00R, question blank B 1In, the feature model code is that to describe the storehouse be B to the product configuration feature of UI2SP2 11So, storehouse B is described for the other products configuration feature 12And B 13, to draw for model code be UI2CP2 and UI2DP2 according to the tabulation of the first configured list analysis result is----; Inquire about the product configuration feature then and describe storehouse B 11In feature code be first configured list among the C00R, thereby draw for model code be UISP2 be-S-S according to the tabulation of the first configured list analysis result;
According to C 1In the material configuration relation constraint formula UI2CP2﹠amp of second row; UI2DP2, at this moment, this material configuration relation constraint formula is the logical expression of model code UI2CP2 and UI2DP2, can draw this moment, be UISP2 according to the tabulation of the first configured list analysis result for model code be----, be respectively SSSS, SSSS for model code UI2CP2 and UI2DP2 according to the tabulation of the first configured list analysis result.
Comparison module 1220 is used for successively POF being used set E kWith product basic function location expression storehouse A at platform K kCompare, to judge subclass E KiWhether comprise product basic function location expression storehouse A at platform K kIn second POF code is described.If E KiDo not comprise product basic function location expression storehouse A fully kIn second POF code is described, output alarm signal then, expression lacks POF and describes code, preferably, the POF that output lacks on display 10 is described code.Otherwise, then export corresponding signal indication and on all necessary POF, do not lack part.
In addition, comparison module 1220 also is used for POF is used set E KiCarry out the inside oneself relatively, to determine subclass E KiThe POF whether existence repeats is described code.Repeat if exist, output alarm signal then, expression exists the POF that repeats to describe code, preferably, the POF that output repeats on display 10 is described code, alternatively, and in output function location expression code, export this POF and describe the pairing PT CODE of code, material configuration relation constraint formula and model code (and sub-model code, when sub-model code exists) and tabulation.Otherwise then the output expression does not have the signal that repeats.
Preferably, comparison module 1220 merges processing with the result of each subclass comparison
Because POF uses set E kComprise BOM table C kPT CODE information, by POF being used set E kIntegrality check and check and approve and realize effect that the integrality of BOM table is checked and checked and approved.
In view of these instructions, those of ordinary skill in the art will expect other embodiments of the invention, combination and modification easily.Therefore, when reading in conjunction with above-mentioned explanation and accompanying drawing, the present invention is only limited by the following claim of all embodiment and modification that comprises.
Figure BSA00000158085400121

Claims (11)

1. a configurable Bill of Material (BOM) BOM integrality is checked and authorisation system alternately, it is characterized in that, the mutual inspection of this configurable BOM integrality links to each other with at least one management system with authorisation system, and mutual the inspection with authorisation system of this BOM integrality comprises server, wherein:
This management system comprises global function location expression storehouse, full configuration feature base library and BOM table;
This server comprises receiver module and the mutual inspection of BOM integrality and checks and approves module, wherein this receiver module is used for receiving this global function location expression storehouse, full configuration feature base library and BOM table from management system, and this BOM integrality is mutual to be checked and check and approve module and be used for generating POF according to full configuration feature base library and BOM table and use set and describe the storehouse according to full configuration feature and use the integrality of set to check and check and approve to POF.
2. the system as claimed in claim 1, it is characterized in that, this global function location expression storehouse comprises at least one product basic function location expression storehouse, the necessary product basic function of product position is described in this product basic function location expression storehouse, wherein each product basic function location expression storehouse comprises at least one data line, and this data line comprises that first POF describes code.
3. system as claimed in claim 1 or 2, it is characterized in that, this full configuration feature base library comprises that at least one product configuration feature describes the storehouse, this product configuration feature is described the configuration feature that product is described in the storehouse, each product configuration feature is described the storehouse and is comprised feature code and at least one data acquisition, this data acquisition comprises the model code and first configured list, this model code is represented the type under this product, and this first configured list is used to represent whether the represented concrete model of this model code comprises the represented product feature of this feature code.
4. system as claimed in claim 3, it is characterized in that, this data acquisition also comprises the sub-model code and first configured list, type under this model code and sub-this product of model coded representation, this first configured list is used to represent whether this model code and the represented concrete model of sub-model code comprise the represented product feature of this feature code.
5. system as claimed in claim 1 or 2 is characterized in that, the BOM table comprises at least one product BOM table, and this product BOM table comprises that at least one BOM is capable, and each BOM is capable, and PT CODE, second POF of comprising described code, material configuration relation constraint formula.
6. system as claimed in claim 5 is characterized in that, this material configuration relation constraint formula is the logical formula of model code and feature code or is the logical formula of model code.
7. system as claimed in claim 6 is characterized in that, this BOM integrality checks alternately and check and approve module and also comprise POF set generation module that this POF set generation module is used to carry out following steps:
Extract material configuration relation constraint formula from the product BOM table, this material configuration relation constraint formula is resolved, draw subclass according to product configuration feature base library;
PT CODE in this subclass and the product BOM table, material configuration relation constraint formula are combined, form POF and use set.
8. system as claimed in claim 7, it is characterized in that, POF uses set to comprise PT CODE, material configuration relation constraint formula and subclass, and subclass comprises that second POF describes code, model code and tabulation, and this tabulation draws according to the result of first configured list parsing.
9. system as claimed in claim 7, it is characterized in that, POF uses set to comprise that PT CODE, material configuration relation retrain formula, second POF is described code and subclass, subclass comprises that second POF describes code, model code, sub-model code and tabulation, and the result that this tabulation is resolved according to first configured list draws.
10. system as claimed in claim 8 or 9 is characterized in that, this BOM integrality is mutual to be checked and check and approve module and also comprise comparison module, and this comparison module is used for carrying out at least a of following steps:
Set and product basic function location expression storehouse are used in the comparing function position, describe code to determine first POF that POF uses the subclass in the set whether to comprise in the product basic function location expression storehouse;
POF use set is carried out the inside oneself relatively, to determine whether exist second POF of repetition to describe code in the subclass in the POF use set.
11. system as claimed in claim 10 is characterized in that, comparison module merges processing with the result of each subclass comparison.
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CN104657148A (en) * 2015-03-11 2015-05-27 北京汽车研究总院有限公司 Data checking method and data checking device
CN105242529A (en) * 2015-11-17 2016-01-13 潍柴动力股份有限公司 Optional method and device for vehicle configuration
CN107330648A (en) * 2017-06-12 2017-11-07 北京汽车研究总院有限公司 The preparation method and scheduling apparatus of the vehicle trial-manufactured material inventory configured based on multi-vehicle-type
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CN109242253A (en) * 2018-08-06 2019-01-18 智车优行科技(上海)有限公司 Bill of materials extracting method, device and storage medium
CN109409728A (en) * 2018-10-19 2019-03-01 厦门金龙联合汽车工业有限公司 A kind of integrality detection method and system of configurable bill of materials
CN109840732A (en) * 2017-11-29 2019-06-04 上海汽车集团股份有限公司 Vehicle can configure the check system of bill of materials integrality under the conditions of freely matching
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CN111368148A (en) * 2020-03-02 2020-07-03 深圳百胜扬工业电子商务平台发展有限公司 Super BOM generation method and device
CN111507609A (en) * 2020-04-13 2020-08-07 兰剑智能科技股份有限公司 Material list generation method and device and electronic equipment
CN111950072A (en) * 2019-04-29 2020-11-17 上海汽车集团股份有限公司 Full-vehicle configuration management method and system
CN112307739A (en) * 2020-11-05 2021-02-02 贵州航天电子科技有限公司 PBOM and process route integrity checking system
CN113592383A (en) * 2021-08-30 2021-11-02 一汽奔腾轿车有限公司 System and method for comparing engineering BOM (bill of material) by using product function list

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CN104657148A (en) * 2015-03-11 2015-05-27 北京汽车研究总院有限公司 Data checking method and data checking device
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CN109840732A (en) * 2017-11-29 2019-06-04 上海汽车集团股份有限公司 Vehicle can configure the check system of bill of materials integrality under the conditions of freely matching
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CN109409728A (en) * 2018-10-19 2019-03-01 厦门金龙联合汽车工业有限公司 A kind of integrality detection method and system of configurable bill of materials
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CN111368148B (en) * 2020-03-02 2023-05-02 深圳百胜扬工业电子商务平台发展有限公司 Super BOM generation method and device
CN111507609B (en) * 2020-04-13 2023-10-27 兰剑智能科技股份有限公司 Bill of materials generation method, apparatus and electronic device
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CN112307739A (en) * 2020-11-05 2021-02-02 贵州航天电子科技有限公司 PBOM and process route integrity checking system
CN113592383A (en) * 2021-08-30 2021-11-02 一汽奔腾轿车有限公司 System and method for comparing engineering BOM (bill of material) by using product function list
CN113592383B (en) * 2021-08-30 2024-04-16 一汽奔腾轿车有限公司 System and method for comparing engineering BOM by using product function bill

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