Modular Product Architecture’s Decisions Support For Remanufacturing-Product Service System Synergy

Remanufacturing is identified as the most viable product end-of-life (EOL) management strategy. However, about 80% of manufactured products currently end up as wastes. Besides other benefits, the product service system (PSS) could curtail the main bottlenecks to remanufacturing namely quantity, quality, recovery time of used product, and negative perception of remanufactured products. Therefore, the integration of PSS and remanufacturing has been increasingly recommended as an enhanced product offering. However, an integration that is informed by mathematical analysis is missing. Meanwhile, the variables that bolster the performance of PSS and remanufacturing are substantially influenced by product development (PD) decisions. Among the PD strategies, modular architecture is a technique that significantly enhances product lifecycle management. Consequently, modular design is a suitable PD approach for an enhanced PSS-remanufacturing enterprise. Furthermore, it is argued that the PSS-remanufacturing initiative is poised to be a sustainable venture due to the sustainability philosophy of PSS. However, the acclaimed sustainability of PSS is flawed if a high environmental impact is associated with the production of the parts that constitute the product which is offered in PSS. Therefore, it is essential to consider the environmental implications of the production of the parts that are contained in the product architecture during PD. This research identifies that cost, core-cleaning, and product serviceability are critical variables for the success of remanufacturing and PSS. The research employs pairwise assessment methodology to evaluate the compatibility of module pairs comprehensively and obtains the modular pair compatibility indices via fuzzy system. Similarly, cost data are obtained. The study develops an optimization model that determines viable modular configuration(s) from among several alternatives in order to realize an enhanced PSS-remanufacturing business. Furthermore, the research performs lifecycle assessment (LCA) of module variants and determine the modular architecture with minimal environmental Impact. Having obtained the optimal architectures with regard to cost, core cleaning, product serviceability and environmental impacts, multi-attribute utility theory (MAUT) is engaged to collectively assess the degree of sustainability of the product architectures. The study offers analytical-based guidance to the original equipment manufacturers (OEMs) in making product architecture decisions in order to realize the sustainable PSS-remanufacturing enterprise

An aesthetic for sustainable interactions in product-service systems?

Copyright @ 2012 Greenleaf PublishingEco-efficient Product-Service System (PSS) innovations represent a promising approach to sustainability. However the application of this concept is still very limited because its implementation and diffusion is hindered by several barriers (cultural, corporate and regulative ones). The paper investigates the barriers that affect the attractiveness and acceptation of eco-efficient PSS alternatives, and opens the debate on the aesthetic of eco-efficient PSS, and the way in which aesthetic could enhance some specific inner qualities of this kinds of innovations. Integrating insights from semiotics, the paper outlines some first research hypothesis on how the aesthetic elements of an eco-efficient PSS could facilitate user attraction, acceptation and satisfaction

Research on cost management methods used in new product development and their relationship to strategic priorities and collaborative competences: A systematic literature review and survey of the German manufacturing industry

This doctoral thesis presents a systematic review in both the management accounting as well as the innovation and operation management literature on 15 different methods for cost management. Subsequently, six antecedents of the adoption of cost management methods are identified and empirically analysed. It was found that the antecedents explaining the adoption of this methods during NPD are cost leadership

Virtual Morphology and Evolutionary Morphometrics in the new millenium.

EDITED VOLUME; abstract N/

Turbulence: A Corporate Perspective on Collaborating for Resilience

The ever tighter coupling of our food, water and energy systems, in the context of a changing climate is leading to increasing turbulence in the world. As a consequence, it becomes ever more crucial to develop cities, regions, and economies with resilience in mind. Because of their global reach, substantial resources, and information-driven leadership structures, multinational corporations can play a major, constructive role in improving our understanding and design of resilient systems. This volume is the product of the Resilience Action Initiative, a collaboration among Dow, DuPont, IBM, McKinsey en Co., Shell, Siemens, Swiss Re, Unilever, and Yara designed to explore possible corporate contributions to global resilience, especially at the nexus of water, food and energy. Aggressively forward-thinking, and consistent with an enlightened self-interest, the ideas considered here represent a corporate perspective on the broad collaborations required for a more resilient world

An approach to develop sustainable medical devices

Tese de doutoramento BioengenhariaThe development and commercialization of contemporary Medical Devices is inherently of a multidisciplinary nature. Consequently, they have to undergo a stringent regulatory compliance procedure in conformity with an ever increasingly fierce and competitive business environment. Throughout the product life cycle, medical devices would significantly consume renewable as well as non-renewable resources and as a result exert a substantial social, economic and environmental impact(s). Accordingly, it is imperative to consider the criteria of the aforementioned domains of sustainability in the initial phases of product development. The proposed conceptual multifaceted framework comprehensively explores a broader scope of sustainable product development, mainly from the pragmatic standpoint of systems engineering in comparison to the contemporary evaluation and development approaches. The underpinnings of the proposed framework encompasses the critical role of a decision model titled ‘Multi Criteria Hierarchical Model (MCHM)’ which is in fact an extensive revision of the Analytical Hierarchy Process decision modelling approach. The MCHM contains three tiers of pertinent criteria to attain overall sustainability. The structure of MCHM illustrates the tolerable level of sustainability in Tier 1, which is non-negotiable and compulsory, and the additional degrees of sustainability that increases from Tier 2 to Tier 3. Furthermore, the proposed framework elucidates the active participation of the MCHM in product design and development by conjoining with a wide spectrum of technical and conceptual tools. The research methodologies in the thesis are comprised of interviews, questionnaires and case studies that mainly involved active participatory observation. The objective of incorporating case studies in the thesis is to evaluate the effectiveness of the MCHM in an Industrial environment. In this doctoral research the contemporary medical devices explored during the case studies included a wide spectrum of materials and technologies that range from metal and non-metal prosthesis (external and sometimes internal), instruments, advanced implantable devices and biodegradable scaffolds used in regenerative medicine. The research activities commenced with a thorough literature review that directed the researcher to the need for an exploratory study, accomplished by interviews with experts from academia and industry. These experts provided their feedback on the Sustainability related criteria outlined in the MCHM based on their expertise and knowledge of product development in diverse economic circumstances. The feedback was obtained in the form of assigning numerical scores during pair-wise comparison between two criteria at a time. The scores and recommendations were documented for being incorporated within the case studies. In the case studies, the MCHM was incorporated in the early stage of product development to prioritize bare minimum environmental sustainability and profitability in accordance with regulatory compliance. During the decision making process, the product design was investigated in order to simultaneously accomplish the aforementioned facets by way of incorporating the expert recommendations. Furthermore, these expert recommendations obtained in conjunction with business strategies and technical problem solving techniques, such as Case based Reasoning (CBR), Design by Analogy (DA) and Theory of Inventive Problem Solving (TRIZ) were considered for resolving conflicts between the criteria of Tier 1 and other Tiers. The thesis provides decision makers and the product development teams with a framework to gain a more holistic perspective on sustainable product development with respect to policies, technical/non-technical tools and business strategies. The goal is to enable these product development teams to implement pragmatic solutions for ensuring long-term competitiveness and the welfare of the Stakeholders.O desenvolvimento e comercialização de dispositivos médicos contemporâneos é por inerência de natureza multidisciplinar. Consequentemente, estes dispositivos têm que passar por um procedimento de regulamentação rigoroso, num ambiente de negócios cada vez cada vez mais acirrado e competitivo. Durante o ciclo de vida do produto, os dispositivos médicos consomem recursos renováveis, bem como recursos não-renováveis, o que origina impactos sociais, económicos e ambientais significativos. Assim, é imperativo considerar as diferentes dimensões da sustentabilidade nas fases iniciais de desenvolvimento do produto. O modelo conceptual proposto explora exaustivamente um propósito mais amplo de desenvolvimento de produtos sustentáveis, principalmente do ponto de vista pragmático da engenharia de sistemas, em comparação com a avaliação e abordagem contemporânea de desenvolvimento de novos produtos. A abordagem proposta suporta-se no modelo de apoio à decisão intitulado Multi Criteria Hierarchy Model (MCHM), que é uma extensão do modelo Analytical Hierarchy Process (AHP). O MCHM contém três níveis de critérios relevantes para alcançar a sustentabilidade global. A estrutura do MCHM reflete o que é obrigatório e não negociável no nível 1, e ainda a importância crescente dos critérios de sustentabilidade do nível 2 para o nível 3. Além disso, o modelo proposto demonstra a relevância da inclusão do MCHM no design e desenvolvimento do produto em conjunção com um amplo espectro de ferramentas técnicas e conceptuais. As metodologias de investigação incluem entrevistas, questionários e estudo de casos que envolveram, principalmente, a observação ativa. A realização de estudos de caso teve como objetivo avaliar a adequação do MCHM em ambiente industrial. Os dispositivos médicos considerados durante o estudo de casos incluíram uma diversidade de materiais e tecnologias que vão desde próteses metálicas e não-metálicas (externas e internas), instrumentos, implantes e suportes poliméricos biodegradáveis usados em medicina regenerativa. A revisão bibliográfica identificou a necessidade de desenvolver um estudo exploratório, suportado em entrevistas a peritos académicos e industriais. Estes peritos apresentaram a sua opinião relativa aos critérios considerados no MCHM, de acordo com a sua experiência e conhecimento sobre o desenvolvimento de produtos em circunstâncias económicas diversas. A comparação par a par dos critérios permitiu avaliar a sua importância relativa. Os resultados das entrevistas foram documentados para serem incorporados nos estudos de caso. Nos estudos de caso, o MCHM foi incorporado na fase inicial do desenvolvimento de novos produtos para garantir sustentabilidade ambiental e rentabilidade, em concordância com da regulamentação em vigor. Durante o processo de tomada de decisão, o design do produto foi analisado de modo a cumprir simultaneamente os aspetos acima mencionados e incorporar as recomendações dos peritos. Além disso, estas recomendações foram consideradas em conjunto com as estratégias de negócio e técnicas de resolução de problemas técnicos, tais como o Case Based Reasoning (CBR), Design by Analogy (DA) e Theory of Inventive Problem Solving (TRIZ) para a resolução de conflitos entre os critérios do nível 1 e dos outros níveis. A tese proporciona aos decisores e às equipas de desenvolvimento de novos produtos um modelo para obter uma perspectiva mais holística sobre o desenvolvimento de produtos sustentáveis, relativamente às políticas, ferramentas técnicas/não-técnicas e estratégias de negócio. O objetivo é capacitar essas equipas de desenvolvimento de novos produtos para implementar soluções pragmáticas que assegurem a competitividade a longo prazo e o bem-estar dos stakeholders

Towards a Sustainable Future - Life Cycle Management

This open access book includes a selection of contributions from the Life Cycle Management 2019 Conference (LCM) held in Poznań, Poland, and presents different examples of scientific and practical contributions, showing an incorporation of life cycle approach into the decision processes on strategic and operational level. Special attention is drawn to applications of LCM to target, organize, analyze and manage product-related information and activities towards continuous improvement, along the different products life cycle. The selection of case studies presents LCM as a business management approach that can be used by all types of businesses and organizations in order to improve their sustainability performance. This book provides a cross-sectoral, current picture of LCM issues. The structure of the book is based on five-theme lines. The themes represent different objects that are focused on sustainability and LCM practices mainly related to: products, technologies, organizations, markets and policy issues as well as methodological solutions. The book brings together presentations from the world of science and the world of enterprises as well as institutions supporting economic development

Craniofacial integration, plasticity and biomechanics in the mouse masticatory system

The craniomandibular skeleton is a complex, dynamic structure, housing many vital tissues and required to perform critical functions. This region is however subject to substantial morphological change during development, and required to adapt to its environment and individual variance. The capacity of this region to maintain correlated form and appropriate functional performance despite these challenges is not fully understood. The sample consists of three strains of mice; a wild-type strain and two mutant strains from the same genetic background strain. Both mutations selectively affect chondrocranial growth, and thus influence of both are limited to the crania. The brachymorph mutant phenotype is characterised by a shortened cranium, while the pten is elongated. This sample therefore allows exploration of a potential plastic response in terms of the mandible, the masticatory lever system, and in turn mechanical advantage, when cranial length and the out-lever are varied. Three dimensional landmarks were applied to micro-CT scans and partial-least-squares analysis carried out to determine covariance between crania and mandibles. Mechanical advantage was calculated as a ratio of muscle in-lever and jaw out-lever for three key masticatory muscles. A common pattern of both variance and covariance was found among all three strains, with mandibular morphology in each strain covarying with cranial phenotypes. Jaw out-lever lengths were found to be significantly different in all three strains, and yet little significant difference between strains was found in mechanical advantage for any muscles. This maintenance of mechanical advantage is attributed to plastic adaptation in regions influencing muscle in-lever length, the latter which were found to be significantly different in the three strains. These results show the potential of the craniomandibular complex to plastically adapt to maintain both correlated form and functionality when variation occurs in one region, and thus these results have significant implications for the evolvability of the complex