Lean manufacturing e ergonomia na industria metalúrgica: uma abordagem integrada para a melhoria de desempenho

Due to an increasingly competive market, most companies can only survive through continuous improvement, by increasing their productivity and reducing costs. The Lean Production System (SPL) is more and more often used for this purpose.However, the workers' well-being is often neglected, leading to musculoskeletal problems and other occupational diseases. Several authors have identified a gap in the literature regarding the identification of the best practices in the integration of the prevention of musculoskeletal diseases in an SPL. The main objective of this thesis is to clarify the relationship between Ergonomics and LPS and provide the necessary tools for practitioners to implement an ergonomic LPS in their production areas. To achieve this objective, a systematic review was performed and case studies were conducted in four production areas in a metallurgical company using Lean concepts, ergonomic analysis and simulation. From the results found in the literature, which were validated by the four case studies, we can conclude that the integration of Ergonomics during an SPL implementation has the potential to result in gains in productivity and simultaneously improve working conditions. To potentiate these results, several components must be taken into account, namely: the integration of ergonomics in the design of the workstation, the tools for monitoring and evaluation, training and the automation of the manual tasks. Beyond the results obtained and the lessons learned from the case studies, two important tools were developed and validated which were a great support to the implementation of future studies in different areas or sectors: the methodology flowchart and ErgoSafeCI (a tool to evaluate and monitor the LPS implementation while taking into account the ergonomic and safety aspects of a production area). This work offers a valuable contribution for researchers and professionals because it demonstrates how the integration of ergonomics into an SPL increases productivity by providing the necessary tools which make it possible to replicate the procedure in other production areas or sectors.Atualmente, devido ao mercado cada vez mais competitivo, a maioria das empresas só sobrevive através da melhoria contínua, aumentando a produtividade e diminuindo os custos. O Sistema de Produção Lean (SPL) é cada vez mais usado com esse objetivo. No entanto, o bem estar dos trabalhadores é muitas vezes negligenciado, levando a problemas músculoesqueléticos e a outras doenças profissionais. Diversos autores identificam uma falha na literatura quanto à identificação das melhores práticas na integração da prevenção das doenças músculoesqueléticas num SPL. O objetivo principal desta tese é clarificar a relação entre a Ergonomia e um SPL e desenvolver as ferramentas necessárias para ajudar os profissionais na implementação de um SPL ergonómico nas suas áreas produtivas. Para atingir esse objetivo foi realizada uma revisão sistemática à literatura e foram desenvolvidos casos de estudo em quatro áreas produtivas numa empresa metalúrgica onde foram usados vários conceitos Lean, análises ergonómicas e a simulação. Através dos resultados encontrados na literatura e validados nos casos de estudo, concluímos que a integração da ergonomia durante a implementação de um SPL resulta em ganhos de produtividade e simultaneamente melhora as condições de trabalho. Para potenciar estes resultados, diversos fatores devem ser considerados, nomeadamente: a integração da ergonomia no desenho do posto trabalho, nas ferramentas de monitorização e avaliação, na formação e a automatização das tarefas manuais. Para além dos resultados obtidos através dos casos de estudo, e da identificação de algumas “best practices” através das lições aprendidas ao longo deste trabalho, foram ainda desenvolvidas e validadas duas ferramentas importantes no apoio à implementação de futuros estudos em diferentes áreas produtivas e setores: a ErgoSafeCI (ferramenta para avaliar e monitorizar a implementação de um SPL considerando os aspetos ergonómicos e de segurança numa área produtiva) e uma proposta de metodologia geral para abordar a questão da integração das práticas Lean com as práticas de ergonomia. Este trabalho apresenta um contributo, que se espera valioso, para investigadores e profissionais por demonstrar como a integração da ergonomia num SPL potencia a produtividade fornecendo as ferramentas necessárias para a replicação da metodologia proposta noutras áreas produtivas.Programa Doutoral em Engenharia e Gestão Industria

Towards Digital Twin Implementation for Assessing Production Line Performance and Balancing

The optimization of production processes has always been one of the cornerstones for manufacturing companies, aimed to increase their productivity, minimizing the related costs. In the Industry 4.0 era, some innovative technologies, perceived as far away until a few years ago, have become reachable by everyone. The massive introduction of these technologies directly in the factories allows interconnecting the resources (machines and humans) and the entire production chain to be kept under control, thanks to the collection and the analyses of real production data, supporting the decision making process. This article aims to propose a methodological framework that, thanks to the use of Industrial Internet of Things—IoT devices, in particular the wearable sensors, and simulation tools, supports the analyses of production line performance parameters, by considering both experimental and numerical data, allowing a continuous monitoring of the line balancing and performance at varying of the production demand. A case study, regarding a manual task of a real manufacturing production line, is presented to demonstrate the applicability and the effectiveness of the proposed procedure

Advanced and natural interaction system for motion-impaired users

Human-computer interaction is an important area that searches for better and more comfortable systems to promote communication between humans and machines. Vision-based interfaces can offer a more natural and appealing way of communication. Moreover, it can help in the e-accessibility component of the e-inclusion. The aim is to develop a usable system, that is, the end-user must consider the use of this device effective, efficient and satisfactory. The research's main contribution is SINA, a hands-free interface based on computer vision techniques for motion impaired users. This interface does not require the user to use his upper body limbs, as only nose motion is considered. Besides the technical aspect, user's satisfaction when using an interface is a critical issue. The approach that we have adopted is to integrate usability evaluation at relevant points of the software developmen

Digital Twins in Industry

Digital Twins in Industry is a compilation of works by authors with specific emphasis on industrial applications. Much of the research on digital twins has been conducted by the academia in both theoretical considerations and laboratory-based prototypes. Industry, while taking the lead on larger scale implementations of Digital Twins (DT) using sophisticated software, is concentrating on dedicated solutions that are not within the reach of the average-sized industries. This book covers 11 chapters of various implementations of DT. It provides an insight for companies who are contemplating the adaption of the DT technology, as well as researchers and senior students in exploring the potential of DT and its associated technologies

Human Machine Interaction

In this book, the reader will find a set of papers divided into two sections. The first section presents different proposals focused on the human-machine interaction development process. The second section is devoted to different aspects of interaction, with a special emphasis on the physical interaction

Digital Twin for Monitoring Ergonomics during Manufacturing Production

Within the era of smart factories, concerning the ergonomics related to production processes, the Digital Twin (DT) is the key to set up novel models for monitoring the performance of manual work activities, which are able to provide results in near real time and to support the decision-making process for improving the working conditions. This paper aims to propose a methodological framework that, by implementing a human DT, and supports the monitoring and the decision making regarding the ergonomics performances of manual production lines. A case study, carried out in a laboratory, is presented for demonstrating the applicability and the effectiveness of the proposed framework. The results show how it is possible to identify the operational issues of a manual workstation and how it is possible to propose and test improving solutions

Lean and Ergonomics decision support tool assessment in a plastic packaging company

30th International Conference on Flexible Automation and Intelligent Manufacturing (FAIM2021) 15-18 June 2021, Athens, GreeceThis paper intends to apply and improve a workstation assessment tool called ErgoSafeCI. Lean manufacturing methods and guidelines, together with safety and ergonomics aspects, were thoroughly researched with the ultimate objective of finding a way to improve the workplace by considering the efficiency and well-being of workers. The assessment tool was applied in the plastics packaging sector, in a process which relied on both practical and theoretical ideas. This tool originates in the notion that for a successful Lean implementation, managers should start the Lean process with a Lean assessment which is then repeated on a regular basis. In addition, it is also important to integrate ergonomic conditions in this journey because ergonomic risks can sometimes result in Lean wastes and vice versa, so workplace ergonomics and Lean manufacturing are to a great extent inter-related. This tool aids practitioners in the assessment of the implementation of Lean principles and safety matters in their processes.We acknowledge the financial support of CIDEM, R&D unit funded by the FCT – Portuguese Foundation for the Development of Science and Technology, Ministry of Science, Technology and Higher Education, under the Project UID/EMS/0615/2016.info:eu-repo/semantics/publishedVersio