CN117035594A

CN117035594A - Intelligent supply chain visual management method

Info

Publication number: CN117035594A
Application number: CN202311055051.XA
Authority: CN
Inventors: 张光伟; 彭勇; 王洪刚; 张万鹏; 张�浩; 王双喜; 邵常林; 郄振雷; 刘畅; 熊涛
Original assignee: Cnpc Pipeline Material Equipment Co ltd
Current assignee: Cnpc Pipeline Material Equipment Co ltd
Priority date: 2023-08-21
Filing date: 2023-08-21
Publication date: 2023-11-10

Abstract

The application relates to the technical field of intelligent supply chain visual management, and provides an intelligent supply chain visual management method, which comprises the following steps: a visual order management system, a visual warehouse management system and a visual transportation management system; the visual order management system provides business communication, logistics service execution and order tracking based on orders; the visual warehouse management system establishes a primary alarm and monitoring center at a headquarter of a logistics company, establishes a main control center and realizes centralized monitoring management of all warehouses at the front end; the visual transportation management system realizes effective management and monitoring of vehicles and cargoes in the transportation process, and the intelligent supply chain visual management method can be used for counting workshop collected data in real time, monitoring production states and quality states of products in process, finished products and materials, realizing quality monitoring and backtracking of the whole material process, and enabling the whole intelligent supply chain management to be more accurate, efficient, intelligent and controllable.

Description

Intelligent supply chain visual management method

Technical Field

The application relates to the technical field of intelligent supply chain visual management, in particular to an intelligent supply chain visual management method.

Background

Supply chain management: it is a method of managing the manufacture, diversion, distribution and sales of products by effectively organizing suppliers, manufacturers, warehouses, distribution centers, and distributors, etc. together to minimize the overall supply chain system cost, while satisfying a certain customer service level. In the age of intelligent economy, many advanced technologies are applied in supply chain management, so that the operation efficiency of the supply chain is effectively improved. In the new technologies, the internet of things is used as a necessary product after the modern information technology is developed to a certain stage, and is applied to supply chain management, so that intelligent identification, positioning, tracking, monitoring and management can be realized, and an intelligent supply chain management mode is created.

The visibility or awareness of various constraints is important in supply chain management, which requires insight into the rules of supply and demand relationships through various complex and complex representations, thereby coordinating the overall supply chain tamping basis for better balance. Visualization techniques may help solve the so-called "visibility" problem. For example, when an enterprise prepares a supply plan, various different types of restriction factors including raw material supply, the use condition of production departments in the enterprise and production capacity of outsourcing enterprises, the distribution capacity of logistics companies and the like can be represented by dynamic graphs, so that the weakest link in a supply chain can be easily found; with respect to the supply plan, the effect of visualization techniques on enterprise inventory reduction is mentioned, and enterprises control supply changes and ensure stable supply by periodically providing supply requirements to suppliers and negotiating supply contracts.

The supply chain visualization is to collect, transmit, store, analyze, process the related index information of orders, logistics, stock and the like in the supply chain by utilizing an information technology, and display the information in a graphical mode according to the requirement of the supply chain.

For example, prior art patent (issued to bulletin number: CN 114399123B) discloses a method and system for intelligent optimization management of intelligent supply chain logistics. The method comprises the steps of obtaining logistics product supply chain information, wherein the supply chain information comprises product basic data, supply chain link point information and supply equipment information; reading the product basic data through a dynamic supply time early-warning model, and analyzing and acquiring early-warning analysis results corresponding to time limit information of the logistics product supply; and (5) dividing the logistics supply grade according to the early warning analysis result, and optimizing the logistics product supply scheme. Through carrying out early warning analysis to every commodity circulation product, can be to the corresponding supply scheme of product planning in order to improve the supervision to the product that exists the supply risk that exists of probably having the supply risk, ensure that all kinds of products can realize high-efficient, swift, timely supply in the safety precaution time limit, in time adjust and optimize commodity circulation product supply scheme to different commodity circulation supply grades, the intelligent optimization management of wisdom supply chain commodity circulation intelligence of being convenient for.

In addition, the prior patent (grant bulletin number: CN 110609864B) discloses a chemical supply chain-oriented data visualization management method and device, wherein the method comprises the following steps: the method comprises the steps of collecting multi-source heterogeneous data of each node on a supply chain based on various industrial sensors, and uploading the multi-source heterogeneous data to a cloud server; performing exception analysis processing on the multi-source heterogeneous data based on a time sequence and a space sequence to obtain exception analysis data, and storing the exception analysis data in a cloud database in a cloud server; and carrying out visual processing on different visual scenes according to the industrial field environment on the abnormal analysis data based on visual scene analysis, and pushing visual results according to different visual scenes. In the embodiment of the application, the exception analysis can be rapidly performed, and the overall visualization and pushing of the exception analysis data can be performed.

However, the following problems are found in the implementation related art: according to the technical scheme, in the visual management for the intelligent supply chain, data can not be collected in a workshop in real time, and the production states and quality states of products, finished products and materials can be monitored, so that the transparency and controllability of the visual management of the supply chain are reduced, and the visual management of the supply chain is inconvenient to implement, and accurate, efficient, intelligent and controllable supply chain management is inconvenient.

Disclosure of Invention

The application provides a visual management method of an intelligent supply chain, which aims to solve the problems that the existing visual management method of the intelligent supply chain cannot count workshop collected data in real time and monitor the production states and quality states of products, finished products and materials, thereby reducing the transparency and controllability of visual management of the supply chain.

The technical scheme of the application is as follows: an intelligent supply chain visual management method, the method comprising: a visual order management system, a visual warehouse management system and a visual transportation management system; the visual order management system provides service communication, logistics service execution and order tracking based on orders, and realizes logistics transportation through flow management and rule control of the orders; the visual warehouse management system establishes a primary alarm and monitoring center at a headquarter of a logistics company, establishes a main control center, realizes centralized monitoring management of all front-end warehouses, and enables a central user to manage front-end warehouse status and information through web browsing according to authority; the visual transportation management system utilizes the technologies of global positioning, geographic information system, computer vision, pattern recognition and artificial intelligence to realize effective management and monitoring of vehicles and cargoes in the transportation process, and the system consists of a vehicle monitoring management module, a cargo transportation process state monitoring module and a wireless data transmission module.

Further, the visual order management system manages the flow of the order, and the visual order management system comprises the following steps:

s1, scanning a label of a material to record information such as use, current conditions and sources of a product;

s2, tracking production details of the semi-finished product through procedure records and data statistics of the semi-finished product in production;

s3, tracking the state of the finished product in the final stage through packaging, warehousing, in-warehouse adjustment, ex-warehouse and quality inspection process records and statistics of the finished product;

the system can effectively help production planning and production scheduling, becomes an effective mode for adapting to orders, saving productivity and cost, effectively controls the production process, prevents misloading, neglected loading and multiple loading of parts, counts data collected in workshops in real time, monitors the production states and quality states of products, finished products and materials, and can realize production state supervision of staff by utilizing bar codes or RFID automatic identification technology.

Furthermore, the master control center utilizes an integrated centralized intelligent comprehensive monitoring management control application platform developed by a video recognition analysis technology, a computer network, a geographic information system and a database, the center is connected with the relevant information of each front-end warehouse, the required video and data information is transmitted, stored and shared through a network, remote retrieval and inquiry are carried out according to authorization, and interconnection, intercommunication and mutual control are realized through an open interface.

Further, the implementation process of the integrated centralized intelligent comprehensive monitoring management control application platform is as follows: acquiring information of the current logistics state through a video identification analysis technology, transmitting the information to a geographic information system through a computer network for analysis, and respectively transmitting analysis results to a main control center and a database, wherein the main control center realizes the processing of the analysis results, and the database realizes the storage and backup of the analysis results; timely and reliable first hand information is provided for leading decisions, command scheduling and evidence obtaining of all levels, the freight information in the whole process is provided for customers and the customers of the customers, and the accuracy of freight and stock is remarkably improved by optimizing the flow of information and stock in a warehouse.

Furthermore, the vehicle monitoring management module is in real-time communication with the master control center management system through the 3G wireless network, and the Beidou-based vehicle-mounted positioning system can send the position information of the truck back to the master control center positioned at the headquarters of the company, and the geographic information system is used for updating and displaying the position information in real time.

Further, the cargo transportation process state monitoring module includes: the camera is used for monitoring the mental state of a driver in the driving process, can monitor the mental state of the driver in the driving process, prevents fatigue driving, stops the accident from being at a low level, and transmits the compressed monitoring video and analysis result to the master control center for backup storage through a wireless network of the data transmission module.

Further, the visual warehouse management system includes: the functions of receiving goods, putting on shelves, picking goods, delivering goods and managing the inventory are realized, and comprehensive support bar codes and RFID automatic equipment are adopted; the batch materials are identified and transmitted without interruption through the RFID technology, so that the quality monitoring and backtracking of the whole process of the materials are realized, the intelligent information processing is realized through automatic acquisition and automatic processing of production process data, and the whole logistics supply chain management is more accurate, efficient, intelligent and controllable.

The technical scheme provided by the application has the following beneficial effects:

the application can effectively improve the transparency and controllability of the whole supply chain, thereby greatly reducing the risk of the supply chain, leading the flow of enterprises to be more visual, leading the information inside the enterprises to be visualized, being more effectively communicated, realizing the transparency of management, effectively helping the production planning and the production arrangement, becoming an effective mode adapting to orders, saving productivity and cost, effectively controlling the production process, preventing the wrong installation, neglecting installation and multiple installation of spare parts, counting the data collected in workshops in real time, monitoring the production states and quality states of products, finished products and materials, simultaneously utilizing the bar codes and RFID automatic identification technology to realize the supervision of the production states of staff, realizing the quality monitoring and backtracking of the whole process of materials, realizing the intelligent information processing through the automatic collection and automatic processing of the production process data, and leading the management of the whole intelligent supply chain to be more accurate, efficient, intelligent and controllable.

Drawings

The application will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a flow chart of a method for implementing visual management in a visual order management system according to the present application;

fig. 2 is a flowchart of an implementation process of the integrated centralized intelligent integrated monitoring management control application platform provided by the application.

Detailed Description

The technical solutions of the embodiments of the present application will be clearly and completely described below in conjunction with the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Referring to fig. 1 and 2, the present application provides a technical solution: an intelligent supply chain visual management method, the method comprising: a visual order management system, a visual warehouse management system and a visual transportation management system; the visual order management system provides business communication based on orders, performs logistics service and order tracking, and realizes logistics transportation through flow management and rule control of the orders; the visual warehouse management system establishes a primary alarm and monitoring center at a headquarter of a logistics company, establishes a main control center, realizes centralized monitoring management of all front-end warehouses, and enables a central user to manage front-end warehouse status and information through web browsing according to authority; the visual transportation management system utilizes the technologies of global positioning, geographic information system, computer vision, pattern recognition and artificial intelligence to realize effective management and monitoring of vehicles and cargoes in the transportation process, and the system consists of a vehicle monitoring management module, a cargo transportation process state monitoring module and a wireless data transmission module.

In an embodiment of the present application, the visual order management system for managing the flow of an order includes the following methods:

in the embodiment of the application, the visual order management system is a system for providing business communication, executing logistics service and order tracking based on orders, realizes logistics transportation planning through flow management and rule control of the orders, effectively reduces goods inventory, supports unified customer order management, realizes unified order allocation, realizes the visualization of the whole flow of the orders, and also has flexible and configurable custom workflow and rule engine;

example 1: in the logistics information platform, the order tracking function can be realized, and the use of the product, the information of the existing condition, the source and the like are recorded by scanning the label of the material; by tracking the production details of the semi-finished product through the process records and the data statistics of the semi-finished product, the problems of which process, which materials, which machine type, which personnel and the like in production can be tracked in the process of returning the semi-finished product or producing the semi-finished product; the condition of the finished product in the final stage is tracked by process records such as packaging, warehousing, in-warehouse adjustment, ex-warehouse, quality inspection and the like, and the inquiry operation is performed when needed; finally, individual and category products and all product tracing, quality control and flow management of the whole production from the part product to the semi-finished product to the finished product are realized, and a complete production tracing management system platform is established.

Example 2: in practical application, the production planning and the production scheduling can be effectively assisted, and the method becomes an effective mode for adapting to orders, saving the productivity and saving the cost; the production process is effectively controlled, the false installation, missing installation and multiple installation of spare and accessory parts are prevented, data are collected in a real-time statistics workshop, the production states and quality states of products, finished products and materials are monitored, and meanwhile, the production state supervision of staff can be realized by utilizing a bar code or RFID automatic identification technology.

In the embodiment of the application, a master control center utilizes an integrated centralized intelligent comprehensive monitoring management control application platform developed by a video recognition analysis technology, a computer network, a geographic information technology and a database technology, the center is connected with all front-end warehouse related information, the needed information such as video, data and the like is transmitted, stored and shared through a network, remote retrieval and inquiry are carried out according to authorization, and interconnection, intercommunication and mutual control are realized by an open interface; timely and reliable first hand information is provided for leading decisions, command scheduling and evidence obtaining of all levels, the limitation of a conventional warehousing system is exceeded, the freight information in the whole process is provided for customers and the customers of the customers, and the accuracy of freight and inventory is remarkably improved by optimizing the flow of information and inventory in a warehouse.

In the embodiment of the application, the vehicle monitoring management module is communicated with the master control center management system in real time through the 3G wireless network, and the Beidou-based vehicle-mounted positioning system can send the position information of the truck back to the master control center positioned at the headquarters of the company, and the geographic information system carries out real-time updating and displaying; the visual transportation management system provided by the application supports various transportation modes (such as highways, railways, waterways, aviation, short barges, multi-mode intermodal transportation, warehouse-moving operation, goods-picking operation and the like) and various operation modes (including self-maintenance, convection, outsourcing, main stream business processing, scattered business processing and the like), helps customers to improve transportation management efficiency and enhances systematic execution management; the system supports the integration, the separation and the optimization of transportation vehicle resources and routes of multiple dispatching centers and customer orders, and can realize the visual monitoring of the whole process of vehicles and orders.

In an embodiment of the application, a cargo transportation process state monitoring module includes: the camera is used for monitoring the mental state of a driver in the driving process, can monitor the mental state of the driver in the driving process, prevents fatigue driving, stops the accident from being at a low level, and transmits the compressed monitoring video and analysis result to the master control center for backup storage through a wireless network of the data transmission module.

In an embodiment of the present application, a visual warehouse management system includes: the functions of receiving goods, putting on shelves, picking goods, delivering goods and managing the inventory are realized, and comprehensive support bar codes and RFID automatic equipment are adopted; the batch materials are identified and transmitted without interruption through the RFID technology, so that the quality monitoring and backtracking of the whole process of the materials are realized, the intelligent information processing is realized through automatic acquisition and automatic processing of production process data, and the whole logistics supply chain management is more accurate, efficient, intelligent and controllable.

It should be noted that: the application relates to a visual management method of an intelligent supply chain, which comprises the following steps: the visual order management system is a system for providing business communication, executing logistics service and order tracking based on orders, realizes logistics transportation planning by controlling the flow management and rules of the orders, effectively reduces goods inventory, supports unified customer order management, unified order allocation, realizes the visualization of the whole flow of the orders, and also has flexible and configurable custom workflow and rule engines; in the logistics information platform, the order tracking function can be realized, and the use of the product, the information of the existing condition, the source and the like are recorded by scanning the label of the material; by tracking the production details of the semi-finished product through the process records and the data statistics of the semi-finished product, the problems of which process, which materials, which machine type, which personnel and the like in production can be tracked in the process of returning the semi-finished product or producing the semi-finished product; the condition of the finished product in the final stage is tracked by process records such as packaging, warehousing, in-warehouse adjustment, ex-warehouse, quality inspection and the like, and the inquiry operation is performed when needed; finally, individual and category products and all product traceability, quality control and flow management of the whole production from the part product to the semi-finished product to the finished product are realized, and a complete production traceability management system platform is established; the production planning and the production scheduling can be effectively assisted, an effective mode for adapting to orders, saving productivity and cost is realized, the effective production process is controlled, the misloading, neglected loading and multiple loading of parts are prevented, the data are collected in a real-time statistics workshop, the production states and quality states of products, finished products and materials are monitored, and meanwhile, the production state supervision of staff can be realized by utilizing a bar code or RFID automatic identification technology; the visual transportation management system supports various transportation modes (such as highways, railways, waterways, aviation, short barges, multi-mode intermodal transportation, warehouse moving operation, goods picking operation and the like) and various operation modes (including self-maintenance, convection, outsourcing, main stream business processing, scattered business processing and the like), helps customers to improve transportation management efficiency, and enhances systematic execution management; the system supports the integration, the separation and the optimization of transportation vehicle resources and routes of multiple dispatching centers and customer orders, and can realize the visual monitoring of the whole process of vehicles and orders; the intelligent supply chain visual management method can effectively improve the transparency and controllability of the whole supply chain, thereby greatly reducing the risk of the supply chain, enabling the flow of an enterprise to be more visual, enabling the information inside the enterprise to be visualized and be more effectively transmitted, and realizing the transparency of management.

The foregoing description of the preferred embodiments of the application is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the application.

Claims

1. An intelligent supply chain visual management method, characterized in that the method comprises the following steps: a visual order management system, a visual warehouse management system and a visual transportation management system;

the visual order management system provides service communication, logistics service execution and order tracking based on orders, and realizes logistics transportation through flow management and rule control of the orders;

the visual warehouse management system establishes a primary alarm and monitoring center at a headquarter of a logistics company, establishes a main control center, realizes centralized monitoring management of all front-end warehouses, and enables a central user to manage front-end warehouse status and information through web browsing according to authority;

the visual transportation management system utilizes the technologies of global positioning, geographic information system, computer vision, pattern recognition and artificial intelligence to realize effective management and monitoring of vehicles and cargoes in the transportation process, and the system consists of a vehicle monitoring management module, a cargo transportation process state monitoring module and a wireless data transmission module.

2. The intelligent supply chain visual management method according to claim 1, wherein: the visual order management system manages the flow of the order, and comprises the following steps:

s1, scanning a label of a material to record the use and the existing condition and source information of a product;

s3, tracking the state of the finished product in the final stage through packaging, warehousing, in-warehouse adjustment, ex-warehouse and quality inspection process records and statistics of the finished product.

3. The intelligent supply chain visual management method according to claim 1, wherein: the main control center utilizes an integrated centralized intelligent comprehensive monitoring management control application platform developed by a video recognition analysis technology, a computer network, a geographic information technology and a database technology, the center is connected with relevant information of each front-end warehouse, required video and data information is transmitted, stored and shared through a network, remote retrieval and inquiry are carried out according to authorization, and interconnection, intercommunication and mutual control are realized by an open interface.

4. A method of intelligent supply chain visualization management as in claim 3, wherein: the implementation process of the integrated centralized intelligent comprehensive monitoring management control application platform is as follows: the information of the current logistics state is obtained through a video identification and analysis technology, then the information is transmitted to a geographic information system through a computer network for analysis, analysis results are respectively transmitted to a main control center and a database, the main control center processes the analysis results, and the database stores and backs up the analysis results.

5. The intelligent supply chain visual management method according to claim 1, wherein: the vehicle monitoring management module is in real-time communication with the master control center management system through the 3G wireless network, and the Beidou-based vehicle-mounted positioning system can send the position information of the trucks back to the master control center positioned at the headquarters of the company, and the geographic information system is used for updating and displaying the position information in real time.

6. The intelligent supply chain visual management method according to claim 1, wherein: the cargo transportation process state monitoring module comprises: the camera is arranged in the truck cab and used for monitoring the mental state of a driver in the driving process, and the compressed monitoring video and analysis results are transmitted to the master control center for backup storage through a wireless network of the data transmission module.

7. The intelligent supply chain visual management method according to claim 1, wherein: the warehouse management system comprises: the functions of receiving, loading, picking, delivering and inventory management business are realized, and the comprehensive support bar codes and RFID automatic equipment are adopted.