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Technological innovation is essential to the future well-being of the United States. The ability of the nation to sustain economic growth, increase its standard of living, and improve human health and the environment depends, in many ways, on its success in developing and commercializing new products, processes, and services. The growing capabilities of competitors in Europe, Asia, and elsewhere around the world increasingly challenge the ability of U.S. firms to convert the nation's science and technology base into a competitive advantage. Such concerns have prompted much debate about the proper role of government in encouraging innovation and the commercialization of new technologies. To date, however, the debate has been hampered by an incomplete understanding of the ways in which firms develop and market new products, processes, and services and the barriers they must overcome in the process.
Technological innovation is essential to the future well-being of the United States. The ability of the nation to sustain economic growth, increase its standard of living, and improve human health and the environment depends, in many ways, on its success in developing and commercializing new products, processes, and services. The growing capabilities of competitors in Europe, Asia, and elsewhere around the world increasingly challenge the ability of U.S. firms to convert the nation's science and technology base into a competitive advantage. Such concerns have prompted much debate about the proper role of government in encouraging innovation and the commercialization of new technologies. To date, however, the debate has been hampered by an incomplete understanding of the ways in which firms develop and market new products, processes, and services and the barriers they must overcome in the process.
Commercializing Innovation: Turning Technology Breakthroughs into Products shows how to turn ideas from R&D labs, universities, patent offices, and inventors into commercially successful products and services. Commercializing technology has never been easy, and it's getting tougher all the time. All the decisions you need to make are complicated by today's breakneck rates of change in enabling technology and by competitive pressures disseminated globally at the speed of the internet: Where to get ideas? Which to pursue? Whom to hire? Where to manufacture? How to fund? Create a startup or license to another? To answer these questions adequately and bring sophisticated products and services successfully to market, you need to deploy the systematic methods detailed in this book. Jerry Schaufeld--serial technology entrepreneur, angel investor, and distinguished professor of entrepreneurship--presents in detail his proven step-by-step commercialization process, beginning with technology assessment and culminating with the successful launch of viable products into the global market. Using case studies, models, and practical tips culled from his entrepreneurial career, he shows readers of Commercializing Innovation how to Source technology that can be turned into products Recognize an opportunity to create a viable product Perform feasibility analyses before sinking too much money into a project Find the right method and means to introduce the product to market Plan the project down to the last detail Execute the project in ways that improve chances of its success Comply with government regulation without crippling your project Decide whether offshore manufacturing is your best option Compete globally with globally sourced ideas and funding
As we move further into the 21st century, increasing emphasis is being placed on the importance of technology transfer. Through new research and practices, scholars, practitioners and policymakers have made great strides in broadening our understanding and ability to implement technology transfer and commercialization processes. The fruit of that research is collected in this timely volume. Technology transfer is a dynamic area of study that examines traditional topics such as intellectual property management, the management of risk, market identification, the role of public and private labs, and the role of universities. This volume reflects on how government, business and academia influence technology transfer in different countries and how the infrastructure of a country enhances technology and contributes to each country s overall economy. Interpreting and adopting the processes of technology transfer and commercialization or, building innovative ecosystems is critical to seeing success in this digital age. Those leading the surge toward building innovative ecosystems for technology transfer are the fellows of the Institute for Innovation Creativity and Capital (IC2 Institute) at The University of Texas at Austin. Global in its scope of solving market economy problems, for this volume the Institute has focused its lens on accelerated knowledge-based development. Here, scholars from 13 countries come together to critique technology transfer from each of their respective nations. The results of their contributions lend innovative insight to exactly how different nations are working to maximize technology transfer and commercialization in uncertain times. Those with an interest in commercialization and technology transfer, from students to scholars, practitioners to policymakers, will find this important collection of great value.
This collection of papers—by American and Russian specialists—addresses a variety of legal, regulatory, institutional, and financial issues that can promote or hinder technology commercialization. The book is the result of a series of workshops organized by the National Research Council with the Russian Academy of Sciences on commercialization of technologies, particularly those developed at research and educational institutions. Technology Commercialization concludes with a list of actions, programs, and policies which warrant further consideration as Russia tries to improve the success of technology commercialization. This book will be of interest to those concerned with small-business development in post-communist states, university technology management, and comparative technology commercialization.
Physical implementation of the memristor at industrial scale sparked the interest from various disciplines, ranging from physics, nanotechnology, electrical engineering, neuroscience, to intelligent robotics. As any promising new technology, it has raised hopes and questions; it is an extremely challenging task to live up to the high expectations and to devise revolutionary and feasible future applications for memristive devices. The possibility of gathering prominent scientists in the heart of the Silicon Valley given by the 2011 International Joint Conference on Neural Networks held in San Jose, CA, has offered us the unique opportunity of organizing a series of special events on the present status and future perspectives in neuromorphic memristor science. This book presents a selection of the remarkable contributions given by the leaders of the field and it may serve as inspiration and future reference to all researchers that want to explore the extraordinary possibilities given by this revolutionary concept.
The National Nanotechnology Initiative (NNI) is a multiagency, multidisciplinary federal initiative comprising a collection of research programs and other activities funded by the participating agencies and linked by the vision of "a future in which the ability to understand and control matter at the nanoscale leads to a revolution in technology and industry that benefits society." As first stated in the 2004 NNI strategic plan, the participating agencies intend to make progress in realizing that vision by working toward four goals. Planning, coordination, and management of the NNI are carried out by the interagency Nanoscale Science, Engineering, and Technology (NSET) Subcommittee of the National Science and Technology Council (NSTC) Committee on Technology (CoT) with support from the National Nanotechnology Coordination Office (NNCO). Triennial Review of the National Nanotechnology Initiative is the latest National Research Council review of the NNI, an assessment called for by the 21st Century Nanotechnology Research and Development Act of 2003. The overall objective of the review is to make recommendations to the NSET Subcommittee and the NNCO that will improve the NNI's value for basic and applied research and for development of applications in nanotechnology that will provide economic, societal, and national security benefits to the United States. In its assessment, the committee found it important to understand in some detail-and to describe in its report-the NNI's structure and organization; how the NNI fits within the larger federal research enterprise, as well as how it can and should be organized for management purposes; and the initiative's various stakeholders and their roles with respect to research. Because technology transfer, one of the four NNI goals, is dependent on management and coordination, the committee chose to address the topic of technology transfer last, following its discussion of definitions of success and metrics for assessing progress toward achieving the four goals and management and coordination. Addressing its tasks in this order would, the committee hoped, better reflect the logic of its approach to review of the NNI. Triennial Review of the National Nanotechnology Initiative also provides concluding remarks in the last chapter.
Accelerating the transition of new technologies into systems and products will be crucial to the Department of Defenses development of a lighter, more flexible fighting force. Current long transition times-ten years or more is now typical-are attributed to the complexity of the process. To help meet these challenges, the Department of Defense asked the National Research Council to examine lessons learned from rapid technology applications by integrated design and manufacturing groups. This report presents the results of that study, which was based on a workshop held to explore these successful cases. Three key areas emerged: creating a culture for innovation and rapid technology transition; methodologies and approaches; and enabling tools and databases.