Design of Manufacturing Execution System in Tire Enterprises

Manufacturing Execution System is the tie of computer integrated manufacturing systems on enterprise information integration. This paper designs a MES in tire enterprises according to the need of tire production manufacturing. Production process of tire manufacturing is introduced firstly. Then the structure design and function design of MES in tire enterprises is given. The proposed MES design scheme is applied to a tire enterprise and result shows that MES can improve the tire manufacturing efficiency greatly.

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Middleware Application, Suitable to Build an Automated and Connected Smart Manufacturing Environment

10.5772/intechopen.97397 ◽

2021 ◽

Author(s):

Muzaffar Rao ◽

Thomas Newe

Keyword(s):

Mobile Robots ◽

Industry 4.0 ◽

Manufacturing Systems ◽

Smart Manufacturing ◽

Manufacturing Execution System ◽

Manufacturing Environment ◽

Industrial Internet ◽

A Cell ◽

Smart Industry ◽

Manufacturing Execution

The current manufacturing transformation is represented by using different terms like; Industry 4.0, smart manufacturing, Industrial Internet of Things (IIoTs), and the Model-Based enterprise. This transformation involves integrated and collaborative manufacturing systems. These manufacturing systems should meet the demands changing in real-time in the smart factory environment. Here, this manufacturing transformation is represented by the term ‘Smart Manufacturing’. Smart manufacturing can optimize the manufacturing process using different technologies like IoT, Analytics, Manufacturing Intelligence, Cloud, Supplier Platforms, and Manufacturing Execution System (MES). In the cell-based manufacturing environment of the smart industry, the best way to transfer the goods between cells is through automation (mobile robots). That is why automation is the core of the smart industry i.e. industry 4.0. In a smart industrial environment, mobile-robots can safely operate with repeatability; also can take decisions based on detailed production sequences defined by Manufacturing Execution System (MES). This work focuses on the development of a middleware application using LabVIEW for mobile-robots, in a cell-based manufacturing environment. This application works as middleware to connect mobile robots with the MES system.

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Object Petri Nets Based Monitoring for the Aircraft Assembly System in MES

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.55-57.723 ◽

2011 ◽

Vol 55-57 ◽

pp. 723-728

Author(s):

Feng Wu ◽

Le Zhang

Keyword(s):

Petri Nets ◽

Monitoring System ◽

Rapid Prototype ◽

Computer Integrated Manufacturing ◽

Assembly System ◽

Manufacturing Execution System ◽

Monitoring Design ◽

Aircraft Assembly ◽

Manufacturing Execution Systems ◽

Manufacturing Execution

Monitoring design is one of basic problems during the development of manufacturing execution systems. In this paper we study the monitoring problems for the Aircraft assembly system in manufacturing execution system environment according to the computer integrated manufacturing system architecture of the Aircraft Company in China. We show that the problem of designing monitoring system for manual assembly system is reducible to modeling and synthesizing problem of monitoring system based on Object Petri Nets. Next the problem of implementing the monitoring system results in designing of structure and functions of the monitoring system. In particular, an efficient rapid prototype schema for implementation is presented. An application is demonstrated how to deal with object Petri nets based monitoring for the aircraft vertical fin assembling.

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Function Model of MES Oriented to Mechanical Blanking Workshop

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.622-623.1479 ◽

2012 ◽

Vol 622-623 ◽

pp. 1479-1483 ◽

Cited By ~ 2

Author(s):

Jin Ye Wang ◽

Yan Fang Yue ◽

Jian Lou Wang ◽

Zhi Bo Xin ◽

Xue Min Yao

Keyword(s):

Business Process ◽

Information Integration ◽

Manufacturing Execution System ◽

Functional Requirements ◽

Function Model ◽

Design And Implementation ◽

Function Modules ◽

Mes System ◽

Manufacturing Execution ◽

Idef0 Method

Manufacturing Execution System (MES) is one of the crucial technologies that realizing the information integration for the enterprise, and its function modeling is the base of MES design and implementation. Basis on the analysis of the business process in mechanical blanking workshop and the functional requirements of MES system, the IDEF0 method was adopted to construct the function model of MES system oriented to mechanical blanking workshop, and a detailed description of the function modules and their relationship was given, which laid the foundation for the software development of the MES system.

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CIM-OSA and Stochastic Time Petri Nets for Behavioural Modelling and Model Handling in CIM Systems Design and Building

Proceedings of the Institution of Mechanical Engineers Part B Journal of Engineering Manufacture ◽

10.1243/pime_proc_1993_207_075_02 ◽

1993 ◽

Vol 207 (3) ◽

pp. 147-158 ◽

Cited By ~ 12

Author(s):

M W C Aguiar ◽

R H Weston

Keyword(s):

Petri Net ◽

Manufacturing Systems ◽

Systems Design ◽

Structure Design ◽

Computer Integrated Manufacturing ◽

Integrated Manufacturing ◽

Model Execution ◽

Behaviour Models ◽

Stochastic Time

Means are considered that can structure design and building processes associated with integrated manufacturing systems. To meet the identified needs, the paper proposes the use of an environment for executing models which adopts and extends the concepts and guidelines identified by the CIM-OSA (computer integrated manufacturing-open sytems architecture) consortium. A key component of the environment concerns the execution of models of behaviour. The paper describes (with reference to on-going implementation work) how CIM-OSA behaviour models can be represented and handled by stochastic time Petri net model execution tools. The use of the design and building environment is illustrated with reference to a case study application involving the batch manufacture of a family of electronic products. Here, the necessary form of key CIM-OSA and Petri net models are described, as are results from the Petri net simulation studies. The paper also comments on the advantages and limitations of the CIM-OSA modelling approach and how certain of those limitations are circumvented by adopting the proposed environment for model execution.

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A Manufacturing Execution System for Discrete Industry

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.519-520.1585 ◽

2014 ◽

Vol 519-520 ◽

pp. 1585-1588

Author(s):

Ju Fang Hu ◽

Chun Ru Xiong

Keyword(s):

Production Scheduling ◽

Continuous Production ◽

Manufacturing Execution System ◽

Manufacturing Companies ◽

Enterprise Information ◽

Planning And Scheduling ◽

Automatic Production ◽

Practical Applications ◽

Discrete Manufacturing ◽

Manufacturing Execution

Manufacturing Execution System (MES) is widely used in enterprise production scene. But most manufacturing execution systems are expensive and mostly for the continuous production-oriented enterprises. Thus, they are hardly applied to a large number of existing discrete manufacturing enterprises. For discrete manufacturing companies, on-site processing is complex such as the planning and scheduling. This paper proposes a concept that is the use of advanced enterprise information management and designs a CIMS technology for discrete industry. The system is capable of real-time monitoring of discrete manufacturing companies in the products of the process of production and production data collection. The completion of the automatic production scheduling is achieved, providing a variety of enterprise project management module upper and greatly optimizing various production resources of the enterprise configuration. In practical applications, it has received very good results.

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The impact of a manufacturing execution system on supply chain performance

International Journal of Applied Logistics ◽

10.4018/ijal.286160 ◽

2022 ◽

Vol 12 (1) ◽

pp. 0-0

Keyword(s):

Supply Chain ◽

Manufacturing Industry ◽

Performance Metrics ◽

Manufacturing Execution System ◽

Enterprise Information ◽

Lean Practices ◽

Manufacturing Execution Systems ◽

Global Operations ◽

The Impact ◽

Manufacturing Execution

Manufacturing Execution Systems (MES) are still rather unknown compared to their relatives, Enterprise Information Systems. To date, most research about MES focused on technical aspects and implementation approaches. In this paper, five statistical models are developed and a web-based survey among global Operations and Supply Chain managers from the manufacturing industry is conducted. Managers were invited to complete a questionnaire, where the central questions queried the mentioned performance metrics, but also other conditions like the presence of ERP or Lean practices. When comparing the means between companies with and without an MES, it shows that on each performance metric, MES-companies perform better than non-MES companies do. The results of the statistical analysis support the authors’ claim that companies with an MES in place outperform their competitors without an MES on the inventory- and logistics performance, as well as on Order Lead Time.

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Development of a system framework for the computer-integrated manufacturing execution system: A distributed object-oriented approach

International Journal of Computer Integrated Manufacturing ◽

10.1080/095119299130137 ◽

1999 ◽

Vol 12 (5) ◽

pp. 384-402 ◽

Cited By ~ 48

Author(s):

Fan-Tien Cheng ◽

Eric Shen ◽

Jun-Yan Deng ◽

Kevin Nguyen

Keyword(s):

Object Oriented ◽

Computer Integrated Manufacturing ◽

Manufacturing Execution System ◽

System Framework ◽

Integrated Manufacturing ◽

Distributed Object ◽

System A ◽

Object Oriented Approach ◽

Manufacturing Execution ◽

Oriented Approach

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A Reference Model and a vision for manufacturing system for 2030

INTERNATIONAL JOURNAL OF COMPUTERS & TECHNOLOGY ◽

10.24297/ijct.v14i7.1899 ◽

2015 ◽

Vol 14 (7) ◽

pp. 5861-5868

Author(s):

Morteza Sadegh Amalnik

Keyword(s):

Manufacturing Systems ◽

Manufacturing System ◽

Reference Model ◽

Resource Planning ◽

Virtual Manufacturing ◽

Computer Integrated Manufacturing ◽

Virtual Enterprises ◽

Manufacturing Execution System ◽

Manufacturing Companies ◽

Advanced Planning

The manufacturing enterprises are now experiencing high pressure of competition. In addition, the advancement in computer software, hardware, networks, information technologies and integration has been gradually reshaping the manufacturing companies by shifting from the industrial age to the information and knowledge era. Due to these elevated competitiveness and advanced computer technology, a number of new manufacturing and management strategies (e.g., Lean production, Just in time, Kaizen, Concurrent Engineering (CE), Cellular Manufacturing (CM), Agile manufacturing, Business process re-engineering (BPR), Agent-based systems (ABS), Computer Integrated Manufacturing (CIM), virtual manufacturing system have emerged for the innovation of manufacturing industries. The developments in organizational concepts created new concepts such as Smart organizations, Centers of excellence, Intelligent enterprises, Integrated enterprises, Virtual enterprises, Virtual enterprises networks, Dynamic enterprises, Extended enterprises, Agile enterprises, Lean enterprises, Process-driven organizations, e-enterprises, Borderless enterprises, Complicated or complex manufacturing systems, Flat structures and others. These terms have been used by researchers to describe various aspects of enterprises and its operational aspects. Although they have different definitions and scopes, there are several common issues: integration of enterprise functions; integration of enterprise resources; and collaboration. In addition Various vendors produced software applications such as Materials Requirement Planning (MRP), Manufacturing Resource Planning (MRP II), Enterprise Resource Planning (ERP),CAD/CAM systems, Manufacturing Execution System (MES), Advanced Planning & Scheduling System (APS), Supply Chain Execution (SCE), Customer Relationship Management (CRM), Advanced Order Management (AOM), Warehouse Management Systems (WMS), Transport Management System (TMS) and others. This paper proposes a Reference Model and vision for Manufacturing System for 2030 and discussed various aspects of future manufacturing enterprise..It supports the inter-enterprise functions/resources integration and collaboration over the networked environment.

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Study on Distributed Architecture, Information Integration and Access Control of Manufacturing Execution System

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.734-737.3207 ◽

2013 ◽

Vol 734-737 ◽

pp. 3207-3213 ◽

Cited By ~ 1

Author(s):

Ling Liu ◽

Guang Rong Yan ◽

Yi Lei

Keyword(s):

Access Control ◽

Information Integration ◽

Integration Method ◽

Control Model ◽

Role Based Access Control ◽

Manufacturing Execution System ◽

Distributed Architecture ◽

Access Control Model ◽

Role Based ◽

Manufacturing Execution

This paper focus on issues of distributed architecture, information integration and access control of manufacturing execution system (MES). A conceptual model of distributed MES is introduced to cover the shortages of traditional MES in this paper, and it is a promising solution for traditional MES to achieve flexibility, integration and interoperability. Information integration method of MES and other information systems based on Web service and ontology is defined and investigated, and an implementation process of integration with MES and ERP via application integration service management system is presented to demonstrate the feasibility and validity of the proposed information integration method. Fuzzy trustworthiness-involved role based access control model (FT-RBAC) was proposed for access control of MES. Formalization expression for fuzzy trustworthiness-involved role based access control model is analyzed in detail. An algorithm of fuzzy trustworthiness-involved role based access control is developed to implement fine-grained security management and access control of MES. Fuzzy trustworthiness-involved role based access control model proposed in this paper not only can solve the problem of uncertainty, risk and vulnerability coming from authorization, but also has high flexibility and security.

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S-CIMS: Towards Integrated and Environmentally Conscious Manufacturing Systems

Volume 1: 21st Computers and Information in Engineering Conference ◽

10.1115/detc2001/cie-21232 ◽

2001 ◽

Author(s):

Genbao Zhang ◽

Ying Liu ◽

Wei Tan ◽

Zhongquan Huang

Keyword(s):

Information Management ◽

Information Integration ◽

Material Flow ◽

Manufacturing Systems ◽

Life Cycle Management ◽

Information Management System ◽

Cleaner Production ◽

Computer Integrated Manufacturing ◽

Environmentally Conscious ◽

Environmentally Conscious Manufacturing

Abstract This paper proposes to introduce the concept of sustainable development into computer integrated manufacturing systems, known as sustainable CIMS (S-CIMS), which can realize an integrated and environmentally conscious manufacturing. After the concepts of CIMS and cleaner production are briefly presented, the concept of S-CIMS is put forward. Then the information flow, which is the foundation of information integration, and the material flow in S-CIMS are discussed. The cleaner production subsystem is a new subsystem added to S-CIMS and therefore we give it a brief description. Finally, an environmental information management system supporting life cycle management developed by the authors is presented.

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