CN112732823A - Method for realizing enterprise material supply whole process monitoring system - Google Patents

Abstract

The invention discloses a method for realizing a monitoring system of the whole process of enterprise material supply, which comprises the following steps: the user-defined signboard sub-module acquires and displays project material progress, material detail progress and supply index data associated with the current login user from a database when being triggered; and the material supply whole-process analysis sub-module acquires and displays processing time of different supply units, different projects and different material types from the database when being triggered. The realization is to material supply overall process analysis, including self-defined billboard, multidimension goods and materials class treatment effeciency analysis, unusual retrospection, helps comprehensive, deep understanding material supply level to help the enterprise formulate the exact management strategy, promote the management benefit.

Description

Method for realizing enterprise material supply whole process monitoring system

Technical Field

The invention relates to the technical field of software system methods, in particular to a method for realizing a monitoring system of an enterprise material supply whole process.

Background

The whole process data of material supply relates to a plurality of links such as material procurement, material purchase, contract signing, material fulfillment, material arrival, fund payment and the like, and relates to a large number of external suppliers, design and construction units and huge information quantity. The completion quality and efficiency of each link can influence the overall construction progress of the enterprise project.

At present, the internal material management of an enterprise is based on a supply chain system and takes a material management information system as a main application platform, the business process is basically solidified, the normal business requirements can be met, and the requirements of higher layers of material management cannot be realized in the aspects of data statistical analysis, risk early warning, information monitoring and resource integration.

The core function of the JIT (Just In Time) system is to comprehensively display the Time of the business process nodes, mainly realize the collection of basic data and the standardization of the construction period, and the system can track and early warn to the details according to the construction period, but the system data lacks visual support. Meanwhile, the existing system architecture does not support data analysis, is not built by relying on a data center unified by the whole network, has limited advanced management functions, and cannot realize full coverage of material supply services.

Disclosure of Invention

Therefore, an implementation method of an enterprise material supply whole-process monitoring system is needed to be provided, and the problem that the existing material supply system cannot realize whole-process monitoring is solved.

In order to achieve the above object, the invention provides a method for implementing an enterprise material supply whole-process monitoring system, which is characterized in that the system comprises a material supply whole-process analysis module, a daily supply monitoring module and an emergency supply monitoring module; the material supply overall process analysis module comprises a user-defined billboard sub-module, a material supply overall process analysis sub-module, a multi-dimensional material class processing efficiency analysis sub-module and an abnormity tracing sub-module; the daily supply monitoring module comprises an image progress board submodule, a daily supply demand board submodule, a daily supply purchasing board submodule, a daily supply contract board submodule, a daily supply production board submodule, a daily supply distribution link monitoring submodule and a daily supply to goods board submodule; the emergency supply monitoring module comprises an emergency demand monitoring submodule, an emergency inventory monitoring submodule, an emergency purchase monitoring submodule, an emergency delivery monitoring submodule and an emergency settlement statistical submodule;

the user-defined signboard sub-module acquires and displays project material progress, material detail progress and supply index data associated with the current login user from a database when being triggered; the method comprises the following steps:

the material supply whole-process analysis sub-module acquires and displays processing time of different supply units, different projects and different material types from the database when being triggered;

the multidimensional material class processing efficiency analysis submodule acquires processing time of different supply units in the same supply link from a database when being triggered, displays the processing time of the different supply links, acquires and displays the processing time of the different supply links, and highlights a link consuming long time as a key link;

the exception tracing submodule acquires a processor and a processing link of material detail corresponding to the clicked exception condition from the database and displays the processor and the processing link when being triggered;

the image progress board submodule acquires a material supply progress from a database and displays the material supply progress when triggered;

the daily supply demand billboard sub-module acquires and displays a material demand declaration condition from a database when being triggered, wherein the material demand declaration condition comprises material types, quantity and estimated amount condition;

the daily supply and purchase signboard sub-module acquires and displays the current material situation of purchasing from the database when being triggered, wherein the material situation of purchasing comprises the material class, the quantity and the estimated amount of money;

the daily supply contract signboard sub-module acquires and displays the material types, the quantity and the amount related to the bid commodity contract from the database when being triggered;

the daily supply and production signboard sub-module acquires and displays the signed material handover condition, the production plan confirmation condition and the supplier warehouse entering condition from the database when being triggered;

the daily supply and distribution link monitoring submodule acquires the real-time condition of a material distribution vehicle from the database when being triggered, and acquires and displays the real-time position condition of the distribution vehicle through the position query interface;

the daily supply to goods billboard submodule acquires the acceptance number and amount of goods and materials from the database, the place where the goods and materials are accepted and the contract condition of acceptance and acceptance from the database when triggered;

the emergency demand monitoring submodule acquires emergency demand reporting conditions from a database and displays the emergency demand reporting conditions when triggered;

the emergency inventory monitoring submodule acquires the stored materials stored in the warehouses in different areas, the materials of construction projects, idle materials and the inventory materials of suppliers from the database when being triggered, and displays the conditions on a map according to the position information of the warehouses;

the emergency purchase monitoring submodule acquires and displays the emergency material purchase condition from the database when being triggered;

the emergency distribution monitoring submodule acquires the real-time situation of the emergency distribution vehicle from the database when being triggered, and acquires and displays the real-time position situation of the distribution vehicle through the position query interface;

the emergency settlement counting submodule acquires and displays emergency material settlement conditions from the database when being triggered, wherein the emergency material settlement conditions comprise goods acceptance conditions, allocation completion conditions, purchase completion conditions and payment conditions.

Further, the whole process monitoring system further comprises an information subscription module, and the information subscription module responds to the information corresponding to the request in a request preset mode according to the request of the user when triggered.

Further, the information subscription module comprises an information subscription sub-module and an information query sub-module;

the information subscription submodule acquires subscription rules and subscription information set by a user when the mobile application of the mobile phone terminal is set, and pushes the subscription information to the subscriber according to the subscription rules;

and the information query submodule acquires the keywords input by the user and returns the information of keyword query when being triggered.

Further, the system comprises a large monitoring screen, a touch all-in-one machine, a desktop computer and a mobile terminal, and the method further comprises the following steps: and displaying data on a large monitoring screen, a touch control all-in-one machine, a desktop computer and a mobile terminal.

Further, the system comprises a data source layer, a data layer, a basic service layer, an application presentation layer and an access layer;

the data source layer generates basic data, including financial data generated by a financial management system, and the basic data is written into a database;

the data layer is basic data in the database;

the basic service layer comprises a network, a server and a database, the system runs on the server, and a user accesses the system through the network;

the application presentation layer reads data from a database according to a user request and displays the data;

the access layer is used for obtaining a user request.

Further, the data layer comprises an operation data storage area, a data warehouse area and a data set market area;

the operation data storage area acquires original data uploaded by the data interface module;

the data warehouse area carries out data cleaning and standardization on the original data based on data resource integration specifications, and stores the standardized data into a database;

the data set marketplace generates summarized data from the standardized data.

Further, the application presentation layer includes:

the ad hoc inquiry function unit: the required report forms and graphs can be quickly generated by dragging dimensions and measuring according to the requirements of business personnel;

the active early warning notification function unit: monitoring the index change condition monitored in the whole enterprise material supply process in real time, and pushing information to relevant decision management personnel in time for abnormal indexes;

the online report query function unit: selecting a display dimension according to the analysis and management requirements of an analyst, and quickly generating a required management analysis report;

advanced visual dynamic display functional unit: the high-grade visual dynamic display function of the material supply indexes is realized through a Flex technical means;

the thematic analysis report query function unit: and generating a formatted analysis report periodically according to the data analysis result of the material supply, and pushing the analysis report to relevant decision and management personnel.

Different from the prior art, the technical scheme realizes the analysis of the whole process of material supply, including the self-defined billboard, the analysis of the processing efficiency of multi-dimensional material classes and the exception tracing, and is helpful for comprehensively and deeply knowing the material supply level, so that enterprises are helped to make correct management strategies and the management benefits are improved.

Drawings

FIG. 1 is a functional block diagram of the present invention;

FIG. 2 is a diagram of a secure production asset monitoring application interaction of the present invention;

FIG. 3 is a technical architecture diagram of the present invention;

FIG. 4 is a diagram of the deployment of the present invention;

FIG. 5 is a diagram of the data processing architecture of the present invention;

FIG. 6 is a schematic diagram of a first stage of data processing according to the present invention;

FIG. 7 is a diagram illustrating a second stage of data processing according to the present invention;

FIG. 8 is a third stage of data processing according to the present invention;

FIG. 9 is a block and access interaction architecture diagram of the present invention.

Detailed Description

To explain technical contents, structural features, and objects and effects of the technical solutions in detail, the following detailed description is given with reference to the accompanying drawings in conjunction with the embodiments.

Referring to fig. 1 to 9, the present embodiment provides a method for implementing an enterprise material supply overall process monitoring and controlling system, where the enterprise material supply overall process monitoring and controlling system includes an interface for interacting with a user and a stored database, and the system can obtain corresponding data from the database according to a click trigger of the user. The material monitoring system application framework is shown in fig. 1. The material monitoring system realizes daily supply monitoring and comprises an image progress board (information flow, fund flow and physical flow), a daily supply demand board, a daily supply purchasing board, a daily supply contract board, a daily supply production board, a daily supply distribution board and a daily supply to goods board, and all business key point weights are arranged according to key business points of a supply chain and combined with the actual material supply progress. And visually displaying the progress of the material supply image according to the project dimension and the material item dimension, reflecting problem links and nodes of a supply lag project, and providing an early warning mechanism for finding and coordinating and solving the material supply problem as early as possible.

The material monitored control system still gathers the inventory condition (including project and supplier's inventory) that show emergent material demand condition, company and master according to net, province dimension including emergent demand control, emergent inventory control, emergent purchase control, emergent delivery control, emergent settlement statistics, and the supplier produces the transportation condition, promptly allocates for realizing province interior, province emergency material and provides information support, promotes the emergent material supply overall planning ability of company. The mobile application is realized on the mobile phone terminal to realize the monitoring of the whole material supply process and the information subscription of comprehensive inquiry.

Specifically, the enterprise material supply overall process monitoring system mainly comprises a material supply overall process analysis module, a daily supply monitoring module, an emergency supply monitoring module and an information subscription module, the system uses object covering network (main company), province (branch company), land and county four levels of related business personnel, and the architecture diagram is shown in fig. 1. The specific item contents are as follows:

the material supply overall process analysis module comprises a user-defined billboard sub-module, a material supply overall process analysis sub-module, a multi-dimensional material class processing efficiency analysis sub-module and an abnormity tracing sub-module.

In the custom signboard sub-module, management personnel facing different units, different management levels and different posts provide custom-defined personal concerned project material progress, material detail progress and supply index data, and convenient and quick supply chain information flow, fund flow and physical distribution management monitoring are realized; the system records the progress and index information of personal attention, and after logging in, the My billboard can be directly displayed on a personal home page. And after the user clicks, the sub-module acquires and displays the project material progress, the material detail progress and the supply index data associated with the current login user from the database.

In the material supply overall process analysis submodule, the material supply overall process analysis is realized, the processing efficiency of different units, different projects and different material types is analyzed, the transverse comparison, the longitudinal analysis, the abnormal tracing and the short plate reinforcement are realized through time-consuming analysis.

In the multi-dimensional material class processing efficiency analysis submodule, multi-dimensional material class processing efficiency analysis is different from traditional operation monitoring analysis. The statistical indexes are not based on the operation performance and the management level of the supply chain, but are analyzed from the processing efficiency of material supply, including transverse comparison and longitudinal comparison. Transverse comparison: and in the same supply link, the processing efficiency of different units is compared, and the units or suppliers with lower supply service level are analyzed, so that the overall supply level is improved. Longitudinal analysis: comparing the efficiency of links (namely different supply links) such as demand, purchase, contract, production, delivery, arrival and the like, identifying a supply key link, circularly optimizing the material construction period, and achieving the aim of improving the supply plan.

The analysis of the processing efficiency of the dimension material class comprises the following analysis:

1. carrying out statistical analysis on the processing efficiency and the processing quality of the material demand plan:

1) the time consumed by the requirement plan declaration and examination and approval is counted according to the dimension of the requirement unit/department, the dimension of the project type and the dimension of the goods and materials, ranking is carried out according to the number of consumed days, and the goods and materials department can be guided to optimize the requirement declaration period according to the average consumed time of the declaration of the goods and materials of different types.

2) And counting the number of items returned by the demand plan, the number of times of return and the time-consuming days of treatment after return according to the dimension of the demand unit/department, and analyzing the influence of the filling error of the demand plan on the supply timeliness.

2. The processing efficiency of material purchase is counted, and the reason influencing the purchase progress is analyzed:

1) and analyzing and counting the number of days consumed by the material from the completion of examination and approval of the demand plan to the issuance of the bid-winning notice in the purchase according to the purchasing level and the dimension of the material class, and analyzing the efficiency of accepting the purchase demand by different units.

2) And (4) counting the days spent in the process of reporting the purchasing demands step by step in county, place, province and network, and analyzing the efficiency of accepting demands of different logistics service levels.

3) According to different purchasing modes, the time spent from the plan of accepting the purchasing demand to the issuance of the purchasing bid-winning notice is counted, the time spent in different purchasing stages is analyzed, and the material department can be guided to optimize the standard construction period of material purchasing.

3. Efficiency of contract processing of analyte materials:

1) and counting the average days spent from the successful bid notice to the completion of contract signing according to unit dimensions and material class dimensions, and analyzing the processing days spent on different approval roles in the contract signing process.

2) And (4) counting the contract signing proportion in a contract processing standard construction period (the on-line contract signing construction period is 30 days) according to unit dimensions, and comparing the contract signing timeliness of different units.

3) And comparing contract signing timeliness rates of the same unit and different time periods, and analyzing the trend of the contract signing efficiency reduction or increase.

4) And (4) counting the comparison condition of the fund plan and the actual payment amount according to the project dimension and the material detail to obtain the statistical result of the winning value of the project materials.

4. Analyzing the production supply efficiency of a supplier:

1) analyzing the days consumed by the suppliers, the warehouse and the delivery after the contracts of different suppliers, different product classes and different units are signed, and analyzing the efficiency of the suppliers in each production link.

2) And (4) counting the on-time supply rates of different suppliers and different material classes, and analyzing the supply service level of the suppliers according to different supply check standards such as the on-time supply, the 3-day on-time supply, the 7-day on-time supply and the like.

5. Analyzing the efficiency of supplier material distribution:

and counting the days spent by different suppliers and different categories from shipment to on-site acceptance and analyzing the reasonable construction period of material distribution.

6. And (3) evaluating the indexes of the arriving links:

and (5) counting the one-time acceptance qualification rate of the arrived goods of different units and different material classes.

In the abnormity tracing submodule, aiming at transverse or longitudinal processing aging index abnormal conditions, a processor and a processing link of material detail corresponding to the clicked abnormal conditions are obtained from a database and displayed, and the time-consuming reason can be analyzed by tracing the processor and the processing link of the material detail.

The daily supply monitoring module comprises an image progress board submodule, a daily supply demand board submodule, a daily supply purchasing board submodule, a daily supply contract board submodule, a daily supply production board submodule, a daily supply distribution link monitoring submodule and a daily supply to goods board submodule.

In the sub-module of the image progress board (information flow, fund flow, physical logistics), the supply progress of the material can be obtained and displayed, and the method specifically comprises the following functions:

1) realize the daily supply global progress billboard of goods and materials: visually displaying the material supply image progress and the fund total image progress of different unit projects, and displaying the quantity of bright red and yellow lamp projects of material supply.

2) According to the project dimension, showing the material supply billboard of the project: visually displaying the material supply image progress and the project material fund payment image progress according to the JIT control node, and analyzing the project material fund winning value. And displaying the total quantity of the project material demands, the total quantity of different supply links and the quantity of red, yellow and green lights of the project through the progress bar.

3) The user can customize the focus items and focused focus items according to the management requirement, and the focus items are displayed on the top of the billboard home page.

4) Showing material detail item supply billboard: and visually displaying the planned time and the actual completion time of each node of the material supply, and identifying the planned time and the actual completion time by red, yellow and green lamps. Handler information to a particular provisioning node may be tracked. And displaying the fund plan progress of the material item, and analyzing the plan payment amount, the actual payment amount and the winning value.

5) The user can customize and pay attention to the supply condition of the key materials and the key items to be paid attention to according to the management requirement, and the key items are displayed on the bulletin board home page.

In the daily supply demand billboard submodule, the material demand billboard is realized: and monitoring the current demand reporting conditions of the whole network, province and region, and analyzing the conditions including material types, quantity and estimated amount according to the dimension of the project. And monitoring the delayed reporting condition, the requirement approval overtime condition and the requirement plan return condition.

In daily supply purchase billboard submodule piece, realize goods and materials purchase billboard: monitoring the whole network two-level material purchasing condition, monitoring the required material type, quantity and estimated amount to be purchased, the material type, quantity and estimated amount being purchased and the material type, quantity and amount condition being purchased overtime according to the dimensions such as units, item types and the like.

In the daily supply contract bulletin board submodule, a contract management bulletin board is realized: and monitoring the execution condition of the contract of the bidding supplies in the whole network, and monitoring the type, the amount and the amount of the bid-winning batch complex supplies, the amount of the signed supplies, the amount of the contract and the number of the contract according to the dimensions of units, projects and the like.

In the daily supply production billboard submodule, realize the production billboard of supplies: and monitoring the signed material handover condition, the production plan confirmation condition and the supplier warehouse entering condition.

In the daily supply distribution link monitoring submodule, the material distribution billboard is realized: based on GIS combined with LBS service, real-time position can be inquired through a position inquiry interface, project material distribution conditions are comprehensively monitored, and real-time conditions of distribution vehicles including distribution vehicle types, on-the-way information, predicted arrival time, driver information, distribution efficiency, distribution time limit, distribution progress and the like are mastered.

In daily supply to the billboard submodule, realize that the goods and materials arrive the billboard: and monitoring the quantity and amount of the materials and the goods arriving and acceptance, the goods arriving and acceptance site, the contract acceptance condition and the like.

The emergency supply monitoring module comprises an emergency demand monitoring submodule, an emergency inventory monitoring submodule, an emergency purchase monitoring submodule, an emergency delivery monitoring submodule and an emergency settlement counting submodule.

And in the emergency demand monitoring submodule, monitoring the whole network emergency demand reporting condition, and analyzing the conditions including material types, quantity, reporting time, required arrival time, delivery places and other special requirements according to the project dimension.

In the emergency inventory monitoring submodule, monitoring the conditions of stored materials, construction materials, idle materials and supplier inventory materials stored in warehouses in different areas, and displaying the material types, the storage quantity, the storage amount and the places of different inventory types through a GIS map; the matching condition of the stock materials and the emergency requirements can be displayed by combining the current emergency requirement condition, wherein the matching condition comprises the distance between the stock materials and a delivery-required place, the transportation condition (road transportation, cross-sea transportation) and the like.

In the emergency purchasing monitoring submodule, the purchasing condition of the whole network emergency materials is monitored, and the types, the quantity, the names of suppliers, the amount and the arrival condition of the purchased materials are analyzed according to the unit dimension, the item dimension and the like.

In the emergency delivery monitoring submodule, the emergency material delivery condition is comprehensively monitored based on GIS combined with LBS service, and the real-time condition of a delivery vehicle, including the information of a delivery vehicle type, on-the-way information, predicted arrival time, driver information, delivery efficiency, delivery time limit, delivery progress, on-the-way information and the like, is mastered.

In the emergency settlement statistic submodule, the emergency material settlement condition is monitored, and the analysis comprises the goods arrival acceptance condition, the allocation completion condition, the purchase completion condition and the payment condition.

The information subscription module responds to the information corresponding to the request in a preset request mode according to the request of the user, and the preset mode can be a real-time display mode, a mail sending mode, a short message sending mode, a mobile phone APP pushing mode and the like. The information subscription module comprises an information subscription sub-module and an information inquiry sub-module.

The information subscription sub-module is provided with a mobile application of a mobile phone terminal, a user can manually define subscription information, and the application automatically pushes the subscription information to a subscriber according to a subscription rule. The method comprises the steps of acquiring subscription rules and subscription information set by a user when mobile application of a mobile phone terminal is set, and pushing the subscription information to a subscriber according to the subscription rules. The information that can be subscribed to includes: the total supply schedule of project materials, the supply detail schedule of material items and the detail schedule of emergency material supply.

In the information inquiry submodule, mobile application of a mobile phone terminal is provided, a user can inquire information by inputting keywords, and the application returns relevant inquiry information. Queryable information includes: the total supply schedule of project materials, the supply detail schedule of material items and the detail schedule of emergency material supply.

When the system is used for application interaction, the interaction with other service systems can be realized. The interaction is shown in figure 2. The application interaction table is shown in the following table:

when the system is deployed, the following hardware mode is adopted for deployment.

The technical architecture is as follows: the technical architecture diagram is shown in fig. 3, and the system comprises a large monitoring screen, a touch control all-in-one machine, a desktop computer and a mobile terminal, and can be displayed on different devices.

The deployment mode is as follows: the centralized deployment mode is favorable for the quality set and the processing logic unification of data information, ensures that a head office, a provincial company and each city and town office support detailed business data and large-scale information on the basis of unified business aperture and data processing logic, and develops data analysis work in an all-round way. Meanwhile, the data information security and the confidentiality of each city and place are protected based on a multi-dimensional authority system and an access control mechanism, and related units and individuals can only see the data information necessary for developing daily data analysis work. As shown in fig. 4.

The technical route comprises the following contents:

1. data source layer: the data source is a data producer and provides basic service data for the enterprise material supply whole-process monitoring construction project. The data source for monitoring the construction project in the whole process of enterprise material supply comprises various operation type data which are generated by an application system in a head office and depend on actual business, such as main business income data of a financial management system.

2. And (3) a data layer: the data layer includes data storage and data processing for managing system operational information. The data storage is a data storage database of the enterprise material supply whole-process monitoring construction project, and the enterprise material supply whole-process monitoring construction project is developed on the basis of a centralized data warehouse of a data center. The database logically comprises three large partitions: ODS, data warehouse area, and data set market area.

Data storage is divided into three logical levels according to data flow:

the data range in the enterprise material supply overall process monitoring construction project is very wide, and the data content in the enterprise material supply overall process monitoring construction project needs to be effectively managed through an enterprise-level data model.

The data model is divided into a conceptual data model, a logical data model and a physical data model:

conceptual data model: the concept data model is a high-level model, defines important business concepts and the relation among the important business concepts, and consists of core data topics or a set of the data topics and business relations among the topics.

Logical data model: further decomposition and refinement of the conceptual data model, describing entities, attributes, and entity relationships. Design time generally follows a "third paradigm" to achieve minimal data redundancy.

Physical data model: describing the details of attribute field type, length, etc., balancing data redundancy and performance, and considering the factors of database product, corresponding index, etc

In the process of monitoring construction projects in the whole process of enterprise material supply, data can be summarized into corresponding data topic domains, and topic-oriented analysis and data access are facilitated.

The functional components of the data processing of the present invention are shown in fig. 5. The method mainly comprises the following steps:

a core service component: the functions of data processing such as extraction, cleaning, conversion and loading are realized.

Scheduling a data processing flow: and realizing the flow scheduling function of the data processing task.

Data quality service: data quality checking functionality is supported.

General service: implementing data processing tool basic or general functions.

The task flow of data processing can be divided into three phases:

the first stage is as follows: the load from the data source to the operative data store layer is completed. In the process, the data storage model is basically consistent with the source system;

and a second stage: and completing the loading of the operation type data storage layer to the base layer. In the process, the data of all places are required to be converted according to the data standard and stored according to the unified data model;

and a third stage: and finishing the data loading of the common application summary layer and the individual application summary layer. In the process, the low-granularity data of the base layer is required to be aggregated into high-granularity data based on analysis indexes, and the high-granularity data is stored according to a multi-dimensional data model (a star-shaped or snowflake-shaped data model);

3. basic service layer: the infrastructure architecture of the enterprise material supply whole-process monitoring construction project comprises four parts: network, server, storage, backup and restore, which should satisfy the relevant requirements.

4. Application presentation layer: the invention integrates FLEX visualization components by using OracleBIEE technology in application display, and realizes the following functions:

the ad hoc inquiry function unit: according to the requirements of business personnel, required reports and graphs can be generated rapidly by means of dragging dimensions and measuring, and flexible management and analysis requirements are supported.

The active early warning notification function unit: the index change condition monitored in the whole process of enterprise material supply is monitored in real time, and the abnormal index is pushed to relevant decision management personnel in time.

The online report query function unit: providing the function of ad hoc inquiry. Analysts can flexibly select display dimensions according to own analysis and management requirements, and quickly generate a required management analysis report.

Advanced visual dynamic display functional unit: and the high-grade visual dynamic display function of the indexes is realized through a Flex technical means.

The thematic analysis report query function unit: and generating a formatted analysis report periodically according to the data analysis result, and pushing the analysis report to a relevant decision and management person.

5. And an access layer: the method is used for acquiring a user request, and the data access form of the user comprises an interactive information dashboard, Answer ad hoc inquiry, prospective detection and alarm, a Microsoft office plug-in, mobile analysis, Web service, and report formulation and release. All access data are based on a decision support application general information model built in the business intelligent server. The business intelligence server needs to have functions including security management, metadata management, intelligent caching, clustering, multiprocessing, connection pooling, multidimensional computing and integration, etc. Meanwhile, it is required to have good scalability and high performance, and to meet the requirements of intelligent request generation and optimized data access, as shown in fig. 9.

It should be noted that, although the above embodiments have been described herein, the invention is not limited thereto. Therefore, based on the innovative concepts of the present invention, the technical solutions of the present invention can be directly or indirectly applied to other related technical fields by making changes and modifications to the embodiments described herein, or by using equivalent structures or equivalent processes performed in the content of the present specification and the attached drawings, which are included in the scope of the present invention.

Claims (7)

1. An implementation method of an enterprise material supply whole process monitoring system is characterized in that the system comprises a material supply whole process analysis module, a daily supply monitoring module and an emergency supply monitoring module; the material supply overall process analysis module comprises a user-defined billboard sub-module, a material supply overall process analysis sub-module, a multi-dimensional material class processing efficiency analysis sub-module and an abnormity tracing sub-module; the daily supply monitoring module comprises an image progress board submodule, a daily supply demand board submodule, a daily supply purchasing board submodule, a daily supply contract board submodule, a daily supply production board submodule, a daily supply distribution link monitoring submodule and a daily supply to goods board submodule; the emergency supply monitoring module comprises an emergency demand monitoring submodule, an emergency inventory monitoring submodule, an emergency purchase monitoring submodule, an emergency delivery monitoring submodule and an emergency settlement statistical submodule; the method comprises the following steps:

the user-defined signboard sub-module acquires and displays project material progress, material detail progress and supply index data associated with the current login user from a database when being triggered;

the material supply whole-process analysis sub-module acquires and displays processing time of different supply units, different projects and different material types from the database when being triggered;

the multidimensional material class processing efficiency analysis submodule acquires processing time of different supply units in the same supply link from a database when being triggered, displays the processing time of the different supply links, acquires and displays the processing time of the different supply links, and highlights a link consuming long time as a key link;

the exception tracing submodule acquires a processor and a processing link of material detail corresponding to the clicked exception condition from the database and displays the processor and the processing link when being triggered;

the image progress board submodule acquires a material supply progress from a database and displays the material supply progress when triggered;

the daily supply demand billboard sub-module acquires and displays a material demand declaration condition from a database when being triggered, wherein the material demand declaration condition comprises material types, quantity and estimated amount condition;

the daily supply and purchase signboard sub-module acquires and displays the current material situation of purchasing from the database when being triggered, wherein the material situation of purchasing comprises the material class, the quantity and the estimated amount of money;

the daily supply contract signboard sub-module acquires and displays the material types, the quantity and the amount related to the bid commodity contract from the database when being triggered;

the daily supply and production signboard sub-module acquires and displays the signed material handover condition, the production plan confirmation condition and the supplier warehouse entering condition from the database when being triggered;

the daily supply and distribution link monitoring submodule acquires the real-time condition of a material distribution vehicle from the database when being triggered, and acquires and displays the real-time position condition of the distribution vehicle through the position query interface;

the daily supply to goods billboard submodule acquires the acceptance number and amount of goods and materials from the database, the place where the goods and materials are accepted and the contract condition of acceptance and acceptance from the database when triggered;

the emergency demand monitoring submodule acquires emergency demand reporting conditions from a database and displays the emergency demand reporting conditions when triggered;

the emergency inventory monitoring submodule acquires the stored materials stored in the warehouses in different areas, the materials of construction projects, idle materials and the inventory materials of suppliers from the database when being triggered, and displays the conditions on a map according to the position information of the warehouses;

the emergency purchase monitoring submodule acquires and displays the emergency material purchase condition from the database when being triggered;

the emergency distribution monitoring submodule acquires the real-time situation of the emergency distribution vehicle from the database when being triggered, and acquires and displays the real-time position situation of the distribution vehicle through the position query interface;

the emergency settlement counting submodule acquires and displays emergency material settlement conditions from the database when being triggered, wherein the emergency material settlement conditions comprise goods acceptance conditions, allocation completion conditions, purchase completion conditions and payment conditions.

2. The method for implementing the enterprise material supply whole-process monitoring system according to claim 1, wherein: the whole process monitoring system also comprises an information subscription module, and the information subscription module responds to the information corresponding to the request in a request preset mode according to the request of the user when being triggered.

3. The method for implementing the enterprise material supply whole-process monitoring system according to claim 2, wherein: the information subscription module comprises an information subscription sub-module and an information query sub-module;

the information subscription submodule acquires subscription rules and subscription information set by a user when the mobile application of the mobile phone terminal is set, and pushes the subscription information to the subscriber according to the subscription rules;

and the information query submodule acquires the keywords input by the user and returns the information of keyword query when being triggered.

4. The method for implementing the enterprise material supply whole-process monitoring system according to claim 1, wherein: the system comprises a large monitoring screen, a touch all-in-one machine, a desktop computer and a mobile terminal, and the method further comprises the following steps: and displaying data on a large monitoring screen, a touch control all-in-one machine, a desktop computer and a mobile terminal.

5. The method for implementing the enterprise material supply whole-process monitoring system according to claim 1, wherein: the system comprises a data source layer, a data layer, a basic service layer, an application presentation layer and an access layer;

the data source layer generates basic data, including financial data generated by a financial management system, and the basic data is written into a database;

the data layer is basic data in the database;

the basic service layer comprises a network, a server and a database, the system runs on the server, and a user accesses the system through the network;

the application presentation layer reads data from a database according to a user request and displays the data;

the access layer is used for obtaining a user request.

6. The method for implementing the enterprise material supply whole-process monitoring system according to claim 5, wherein: the data layer comprises an operation data storage area, a data warehouse area and a data set market area;

the operation data storage area acquires original data uploaded by the data interface module;

the data warehouse area carries out data cleaning and standardization on the original data based on data resource integration specifications, and stores the standardized data into a database;

the data set marketplace generates summarized data from the standardized data.

7. The method for implementing the enterprise material supply whole-process monitoring system according to claim 5, wherein: the application presentation layer includes:

the ad hoc inquiry function unit: the required report forms and graphs can be quickly generated by dragging dimensions and measuring according to the requirements of business personnel;

the active early warning notification function unit: monitoring the index change condition monitored in the whole enterprise material supply process in real time, and pushing information to relevant decision management personnel in time for abnormal indexes;

the online report query function unit: selecting a display dimension according to the analysis and management requirements of an analyst, and quickly generating a required management analysis report;

advanced visual dynamic display functional unit: the high-grade visual dynamic display function of the material supply indexes is realized through a Flex technical means;

the thematic analysis report query function unit: and generating a formatted analysis report periodically according to the data analysis result of the material supply, and pushing the analysis report to relevant decision and management personnel.

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