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This book follows on previous works addressing sustainable development research in the Asia-Pacific region. It mainly focuses on India, a country currently facing immense challenges in the form of climate change, rapid urbanisation, and population pressures in its journey to help achieve the Sustainable Development Goals. Expecting to surpass China in terms of population in the near future, India needs to develop its own solutions in order to uphold its commitments under the Paris Agreement. This book makes a contribution in that direction by presenting case studies on various aspects of the built environment, from education to managing cities, procurement, and considerations for a circular economy. The papers gathered here offer a vital resource for government policymakers, educators, and current and future professionals, equipping them with the knowledge and expertise they need in order to overcome today’s complex challenges in the built environment.
A Triple Helix of university-industry-government interactions is the key to innovation in increasingly knowledge-based societies. As the creation, dissemination, and utilization of knowledge moves from the periphery to the center of industrial production and governance, the concept of innovation, in product and process, is itself being transformed. In its place is a new sense of 'innovation in innovation' - the restructuring and enhancement of the organizational arrangements and incentives that foster innovation. This triple helix intersection of relatively independent institutional spheres generates hybrid organizations such as technology transfer offices in universities, firms, and government research labs and business and financial support institutions such as angel networks and venture capital for new technology-based firms that are increasingly developing around the world. The Triple Helix describes this new innovation model and assists students, researchers, and policymakers in addressing such questions as: How do we enhance the role of universities in regional economic and social development? How can governments, at all levels, encourage citizens to take an active role in promoting innovation in innovation and, conversely, how can citizens so encourage their governments? How can firms collaborate with each other and with universities and government to become more innovative? What are the key elements and challenges to reaching these goals?
Upspeeding technological evolution and globalisation characterise today’s and future lives of engineers. It is vital for all institutions involved in engineering education to keep pace and to anticipate future needs. The herein presented collection of papers results from the Workshop on Global Engineering Education (GEE’3) which took place at Aachen University of Technology, 18 – 20 October 2000. In this meeting more than 150 specialists from 25 countries discussed the topic “Educating the Engineer for the Century”. Which role to attribute to non-technical qualifications? How to integrate ethical aspects in education? Do we have to define international standards in education? What about quality control? What is the potential of new media for knowledge transfer? How to organise lifelong learning for engineers? - These are some of the questions discussed among representatives of industries, educational institutions, politicians and individuals during this meeting. According to the sessions of the workshop, the book is subdivided into chapters covering the areas “Role of the Global Engineer in Meeting the Challenges of Society in the Century”, ”Internationality and Interdisciplinarity”, “Engineering Education in Emerging Economies”, “European Bachelor and Master Programmes”, “Developing Personal Skills to be a Global Engineer”. Three chapters deal with successful practice in engineering education covering the topics “Programmes, Curricula and Evaluation”, “Educational Concepts”, and “University-Industry Partnership, Design Projects”.
This book gathers papers presented at the 11th International Conference on Construction in the 21st Century, held in London in 2019. Bringing together a diverse group of government agencies, academics, professionals, and students, the book addresses issues related to construction safety, innovative technologies, lean and sustainable construction, international construction, improving quality and productivity, and innovative materials in the construction industry. In addition, it highlights international collaborations between various disciplines in the areas of construction, engineering, management, and technology. The book demonstrates that, as the industry moves forward in an ever-complex global economy, multi-national collaboration is crucial, and its future growth will undoubtedly depend on international teamwork and alliances.
Recognizing that a capacity to innovate and commercialize new high-technology products is increasingly a key for the economic growth in the environment of tighter environmental and resource constraints, governments around the world have taken active steps to strengthen their national innovation systems. These steps underscore the belief of these governments that the rising costs and risks associated with new potentially high-payoff technologies, their spillover or externality-generating effects and the growing global competition, require national R&D programs to support the innovations by new and existing high-technology firms within their borders. The National Research Council's Board on Science, Technology, and Economic Policy (STEP) has embarked on a study of selected foreign innovation programs in comparison with major U.S. programs. The "21st Century Innovation Systems for the United States and Japan: Lessons from a Decade of Change" symposium reviewed government programs and initiatives to support the development of small- and medium-sized enterprises, government-university- industry collaboration and consortia, and the impact of the intellectual property regime on innovation. This book brings together the papers presented at the conference and provides a historical context of the issues discussed at the symposium.
Throughout much of its history, the United States was predominantly a rural society. The need to provide sustenance resulted in many people settling in areas where food could be raised for their families. Over the past century, however, a quiet shift from a rural to an urban society occurred, such that by 1920, for the first time, more members of our society lived in urban regions than in rural ones. This was made possible by changing agricultural practices. No longer must individuals raise their own food, and the number of person-hours and acreage required to produce food has steadily been decreasing because of technological advances, according to Roundtable member James Merchant of the University of Iowa. The Institute of Medicine's Roundtable on Environmental Health Science, Research, and Medicine held a regional workshop at the University of Iowa on November 29 and 30, 2004, to look at rural environmental health issues. Iowa, with its expanse of rural land area, growing agribusiness, aging population, and increasing immigrant population, provided an opportunity to explore environmental health in a region of the country that is not as densely populated. As many workshop participants agreed, the shifting agricultural practices as the country progresses from family operations to large-scale corporate farms will have impacts on environmental health. This report describes and summarizes the participants' presentations to the Roundtable members and the discussions that the members had with the presenters and participants at the workshop.
This book will provide readers with an understanding of the employability concept and develop an employability skills improvement model to enhance the employability of built environment graduates to foster economic development. The developed model determines the influence of generic skills, discipline specific skills, work-integrated learning, emotional intelligence, university-industry collaboration outcomes and 4IR knowledge in predicting the outcomes of improved graduate employability. The model is developed with a theoretical lens on existing frameworks of employability and skills development. Whilst drawing comparisons with countries such as the UK, USA, Australia and Canada, the authors present the results of a two-stage Delphi survey in South Africa as a case study on the current state of skills development and on the skills of the future. The case study is presented in line with the South Africa’s long-term National Development Plan (NDP) aimed at developing the key capabilities and skills of its citizens by ensuring quality education on a broader scale by 2030. As automation continues to rapidly advance, the pressures on universities to revamp and restructure their curricula have become increasingly necessary. This book recommends that higher education institutions urgently need to intensify their efforts by introducing significant modifications to the science and technology curriculum to enable students to develop and acquire competencies in the rapidly emerging areas of artificial intelligence, data science, robotics, advanced simulation, data communication, system automation, real-time inventory operations, cloud computing, and information technologies. This implies that universities’ curriculum should be infused with 4IR thinking within the conventional primary sciences of biology, chemistry, and physics, with greater emphasis on digital literacy to boost 4IR understanding amongst the graduates. The book is therefore of interest to researchers and policy makers in the built environment that are placed in academia, the construction industry or at consultancy levels, it provides significant recommendations for universities as they intensify their efforts to develop graduates for the future.
Building Information Modelling (BIM) in Design, Construction, and Operations contains the proceedings of the first in a planned series of conferences dealing with design coordination, construction, maintenance, operation and decommissioning. The book gives details of how BIM tools and techniques have fundamentally altered the manner in which modern construction teams operate, the processes through which designs are evolved, and the relationships between conceptual, detail, construction and life cycle stages. The papers contributed by experts from industry, practice and academia, debate key topics, develop innovative solutions, and predict future trends. The interdisciplinary nature of the contents and the collaborative practices discussed, so important within the built environment, will appeal to those engaged in design, surveying, visualisation, infrastructure, real estate, construction law, insurance, and facilities management. Topics covered include: BIM in design coordination; BIM in construction operations, BIM in building operation and maintenance; BIM and sustainability; BIM and collaborative working and practices; BIM health and safety and BIM-facilities management integration, among others.