GSCM theaters a dynamic role in persuading the total environment effect of any industry involved in supply chain actions and backing to sustainable performance development. GSCM is evolved from SCM. In the 1990s, as competition build up, the enhanced cognizance of green practices has caused firms to act in a morally and generally accountable method in the supply chains. In 1995, GSCM fascinated significant academic interest. In 2010, GSCM received uppermost attention. With GSCM practices in concentration, firms advance in environmental managing policies in reaction to the alterations of ecological necessities and their influences on supply chain processes.
Various Multiple Criteria Decision-Making (MCDM) techniques in one book: 13 MCDM techniques have been applied, namely, WSM, WPM, WASPAS, GRA, SMART, CRITIC, ENTROPY, EDAS, MOORA, AHP, TOPSIS, VIKOR, and new tools: MDEMATEL, Fuzzy MDEMATEL, Modified Fuzzy TOPSIS and Modified Fuzzy VIKOR. To date, no other book possesses this many tools. Various quantitative techniques: Different quantitative techniques have been applied, namely, Cronbach alpha, Chi-square and ANOVA (for demographic analysis), Percent Point Score and Central Tendency (response analysis), Factor Analysis, Correlation and Regression. To date, no other book possesses this many tools. Interpretive Structural Modelling: ISM has been applied for verifying MCDM results through MICMAC analysis and ISM model thus paving the way for model through SEM. Structural Equation Modelling: SEM using AMOS in PASW has been applied for model development. New MCDM techniques developed: In the process during qualitative analysis, new tools have been developed and their results have been compared with other existing MCDM tools and the results are encouraging. The new techniques are MDEMATEL, Fuzzy MDEMATEL, Modified Fuzzy TOPSIS and Modified Fuzzy VIKOR. Qualitative Model Developed: As the title says, Sustainable Green Development and Manufacturing Performance through Modern Production Techniques. It is a need-of-the-hour topic, as industries must maintain their performance (sustainable development) and, while sustaining, they have to keep in mind green issues (that is, environment-related issues, especially during the COVID-19 pandemic) and adopt advanced manufacturing and maintenance techniques. A model for this has been developed which will be helpful to both academicians and industrialists. Real-time Case Studies: Case studies in two industries of differing origins, different manufacturing sectors, different products, and comparing their units in the country of their origin and India. Dr. Chandan Deep Singh is an assistant professor in the Department of Mechanical Engineering, Punjabi University, Patiala, Punjab (India). He is a co-author of Adolescents, Family and Consumer Behaviour (Routledge, 2020) and of Manufacturing Competency and Strategic Success in the Automobile Industry (CRC Press, 2019). Dr. Harleen Kaur is a manager (HR) at DELBREC Industries, Pvt. Ltd., Chandigarh. She co-authored Adolescents, Family and Consumer Behaviour (Routledge, 2020).
Securing a sustainable supply chain is crucial for business and the future of humanity. Intending to lower waste and carbon emissions, businesses are investing more money in sustainability efforts. However, sustainability measures that might save costs, improve forecasting, and optimize business operations are frequently disregarded, especially during the post-pandemic era. The Handbook of Research on Designing Sustainable Supply Chains to Achieve a Circular Economy analyzes various approaches and strategies for developing sustainable supply chain capabilities to achieve circular economies; builds and develops models, frameworks, and theoretical concepts by focusing on the role of a sustainable supply chain leading to a circular economy; and provides a platform where new concepts and plans for managing sustainable supply chains in the post-pandemic era with the aid of Industry 4.0 as enablers are discussed. Covering key topics such as tourism, healthcare, transportation, and governance, this major reference work is ideal for industry professionals, government officials, business owners, managers, entrepreneurs, policymakers, scholars, researchers, academicians, instructors, and students.
This edited collection collates the most up-to-date and important research within the area of operations and logistics management. Boasting the combined expertise of one of the largest logistics and operations management academic teams in Europe, it provides both depth and diversity in a balanced portfolio. The first two sections are concerned with key contemporary issues in the subject area, providing a current and up-to-date overview of the field. Section three presents a selection of important cross-cutting themes that impinge upon and inform teaching, research and practice, while the final section includes a celebration of research highlights and showcases cutting-edge applications from leaders in the field. Invaluable to students, researchers and academics alike, this book is compulsory reading for those active within operations and logistics research.
This book presents the select proceedings of the International Conference on Evolution in Manufacturing (ICEM 2020), and examines a range of areas including evolution in manufacturing, intelligent networks, bio-Inspired models and algorithms, internet-of-things, and cyber manufacturing. This book intends to provide a contribution to the domain of collaborative and intelligent networks and systems to fill the gap in theories and practical applications through suitable methods and solutions applicable to a wide range of instances. Various topics covered include broad range of research challenges in the fields of artificial intelligence and addressing current and future trends in industry 4.0 oriented scenario, data analytics and big data, operation and manufacturing management. The book will be a valuable reference for beginners, researchers and professionals interested in artificial intelligence in engineering and production management and allied fields.
This book focuses on the need to develop sustainable supply chains - economically, environmentally and socially. This book is not about a wish list of impractical choices, but the reality of decisions faced by all those involved in supply chain management today. Our definition of sustainable supply chains is not restricted to so-called "green" supply chains, but recognises that in order to be truly sustainable, supply chains must operate within a realistic financial structure, as well as contribute value to our society. Supply chains are not sustainable unless they are realistically funded and valued. Thus, a real definition of sustainable supply chain management must take account of all relevant economic, social and environmental issues. This book contains examples from a wide range of real-life case studies, and synthesizes the learnings from these many different situations to provide the fundamental building blocks at the centre of successful logistics and supply chain management.
Green engineering involves the designing, innovation, and commercialization of products and processes which promote sustainability without eliminating both efficiency and economic viability. This handbook focuses on sustainable development through green engineering and technology. It is intended to address the applications and issues involved in their practical implementation. A new range of renewable-energy technologies, modified to provide green engineering, will be described in this handbook. It will explore all green technologies required to provide green engineering for the future.These include, but are not limited to, green smart buildings, fuel-efficient transportation, paperless offices, and many more energy-efficient measures. Handbook of Sustainable Development through Green Engineering and Technology acts as a comprehensive reference book to use when identifying development for programs and sustainable initiatives within the current legislative framework. It aims to be of great interest to researchers, faculty members, and students across the globe.
This book comprises the select proceedings of the 2nd International Conference on Future Learning Aspects of Mechanical Engineering (FLAME) 2020. In particular, this volume discusses different topics of industrial and production engineering such as sustainable manufacturing processes, logistics, Industry 4.0 practices, circular economy, lean six sigma, agile manufacturing, additive manufacturing, IoT and Big Data in manufacturing, 3D printing, simulation, manufacturing management and automation, surface roughness, multi-objective optimization and modelling for production processes, developments in casting, welding, machining, and machine tools. The contents of this book will be useful for researchers as well as industry professionals.
This book crtitically examines the reciprocal relationship between creativity and the built environment and features leading voices from across the world in a debate on originating, learning, modifying, and plagiarizing creativities within the built environment. The Companion includes contributions from architecture, design, planning, construction, real estate, economics, urban studies, geography, sociology, and public policies. Contributors review the current field and proposes new conceptual frameworks, research methodologies, and directions for research, policy, and practice. Chapters are organised into five sections, each drawing on cross-disciplinary insights and debates: Section I connects creativity, productivity, and economic growth and examines how our built environment stimulates or intimidates human imaginations. Section II addresses how hard environments are fabricated with social, cultural, and institutional meanings, and how these evolve in different times and settings. Section III discusses activities that directly and indirectly shape the material development of a built environment, its environmental sustainability, space utility, and place identity. Section IV illustrates how technologies and innovations are used in building and strengthening an intelligent, real-time, responsive urban agenda. Section V examines governance opportunities and challenges at the interface between creativity and built environment. An important resource for scholars and students in the fields of urban planning and development, urban studies, environmental sustainability, human geography, sociology, and public policy.
