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Handbook of Science and Technology Convergence

Bainbridge William Sims Roco Mihail C.
Innbundet / 2016 / Engelsk

Produktdetaljer

ISBN
9783319070513
Publisert
2016-03-08
Utgiver
Vendor
Springer International Publishing AG
Høyde
235 mm
Bredde
155 mm
Aldersnivå
Research, P, 06
Språk
Product language
Engelsk
Format
Product format
Innbundet

Redaktør
Bainbridge William Sims
Roco Mihail C.

Biographical note

William Sims Bainbridge is an American sociologist and co-director of Human-Centered Computing at the National Science Foundation (NSF). He is the first Senior Fellow to be appointed by the Institute for Ethics and Emerging Technologies and most well-known for his work on the sociology of religion. He has published extensively on the sociology of computer gaming and he has pioneered the use of online virtual worlds for scientific conferences and research proposal review panels. He has previously edited two major reference works, The Berkshire Encyclopedia of Human-Computer Interaction and Leadership in Science and Technology. He has published numerous books with Springer. Mihail C. Roco is the Senior Advisor for Nanotechnology at the National Science Foundation (NSF) and a key architect of the National Nanotechnology Initiative. He is the founding Chair of the U.S. National Science and Technology Council’s Subcommittee on Nano scale Science, Engineering and Technology (NSET) and established the Nanotechnology Group of the International Risk Governance Council. Dr. Roco is a corresponding member of the Swiss Academy of Engineering Sciences and a member of the International Risk Governance Council. His research included experimental and simulation methods to investigate nanosystems. He is a Fellow of ASME, Fellow of AIChE and Fellow of the Institute of Physics and was elected Engineer of the Year by the U.S. Society of Professional Engineers and NSF in 1999 and in 2004. He was honored as recipient of the Carl Duisberg Award in Germany, the 'Burgers Professorship Award' in The Netherlands and the 'University Research Professorship' and Fingerson/TSI awards in the U.S. In addition to being the Editor-in-Chief of Springer’s Journal of Nanoparticle Research, he is credited with thirteen patents and has contributed over two hundred archival articles in sixteen books.  

Handbook of Science and Technology Convergence

Bainbridge William Sims Roco Mihail C.
Innbundet / 2016 / Engelsk
Bainbridge William Sims Roco Mihail C.
Innbundet / 2016 / Engelsk
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Scientists and engineers have long been aware of the tension between narrow specialization and multidisciplinary cooperation, but now a major transformation is in process that will require technical fields to combine far more effectively than formerly in the service of human benefit. This handbook will catalog all the ways this can be accomplished and the reasons it must be. Nature is a single coherent system and diverse methods of scientific and engineering investigations should reflect this interlinked and dynamic unity. Accordingly, general concepts and ideas should be developed systematically in interdependence, with cause-and-effect pathways, for improved outcomes in knowledge, technology and applications. At the same time, industrial and social applications rely on integration of disciplines and unification of knowledge. Thus, convergence is both a fundamental principle of nature and a timely opportunity for human progress. This handbook will represent the culmination of fifteenyears of workshops, conferences and publications that initially explored the connections between nanotechnology, biotechnology, information technology and new technologies based on cognitive science. A constant emphasis on human benefit then drew in the social sciences, even as shared scientific and ethical principles brought in sustainability of the Earth environment and the challenge of equitable economic advancement. The intellectual contributions of literally hundreds of scientists and engineers established a number of research methods and analytical principles that could unite disparate fields. The culmination has been called Convergence of Knowledge and Technology for the benefit of Society (CKTS), defined as the escalating and transformative interactions among seemingly different disciplines, technologies, communities and domains of human activity to achieve mutual compatibility, synergism and integration.  
Les mer
The culmination has been called Convergence of Knowledge and Technology for the benefit of Society (CKTS), defined as the escalating and transformative interactions among seemingly different disciplines, technologies, communities and domains of human activity to achieve mutual compatibility, synergism and integration.
Les mer
1. The Era of Convergence.- 2. Principles and Methods that Facilitate Convergence.- 3. Bio-cognitive Evolution.- 4. Collective Intelligence Systems.- 5. Consilience.- 6. Convergence-Divergence Process.- 7. The Convergence of Curation.- 8. Decision Making in a Convergent Society.- 9. Dimensions of Research.- 10. Modeling and Simulation.- 11. Science and Technology Forecasting.- 12. Self-organization and Emergence of Dynamic Systems.- 13. Systemic Interdependencies.- 14. Visionary Scenario Development of Emerging Fields.- 15. NBIC.- 16. Cognitive Technology.- 17. Complex Biological Systems.- 18. Convergence of Nanotechnology and Biotechnology.- 19. Information Technology Supported Convergence.- 20. Nanotechnology-Neuroscience Convergence.- 21. Neurotechnology-Centered Convergence.- 22. Services Science and Societal Convergence.- 23. Transition from Inert to Living Systems.- 24. Unifying Concepts in Physics, Chemistry and Engineering.- 25. Human-Technology Collaboration.- 26. Citizen Science.- Collaboratories.- 27. Communication Media.- 28. Convergence with the Arts.- 29. Co-Robots: Humans and robots operating as partners.- 30. Distributed Manufacturing.- 31. Human Computation and Convergence.- 32. Open Source Technology Development.- 33. Participation in Convergence Research.- 34. Personalized and Interactive Literature.- 35. Virtual Meetings.- 36. The Earth Scale System.- 37. Astrosociology (Social Science of Space Exploration).- 38. Demographic Transition.- 39. Global Risk Assessment.- 40. Linguistic Convergence.- 41. Network of Cooperation between Science Organizations.- 42. Science and Technology Globalization.- 43. Space Exploration.- 44. Sustainable Global Food Supply.- 45. Socio-Ecological Systems.- 46. Whole-Earth Monitoring.- 47. Twenty-First Century Society.- 48. Boundary Organizations.- 49. Cognitive Society.- 50. Convergence in ethical implications and communication of emerging technologies.- 51. Cultural Science.- 52. Digital Government.- 53. Ethics of Convergence for Enhancement of Cognition.- 54. Human Enhancement in Sports.- 55. Intellectual Property Rights.- 56. Institutional Transformation.- 57. Medical Approach to Wellness.- 58. Polycentric Governance.- 59. Systematizing Global and Regional Creativity.- 60. Technology and Religion.- 61. Unifying Ethical Concepts.- 62. Reconceptualization of Education.- 63. Academic Research Centers: Platforms for Convergence of Science, Technology and Innovation.- 64. Assistive Technology in Education.- 65. Convergence Science and Technology at Seoul National University.- 66. Cyberlearning.- 67. Informal Science Education of Converging Technologies.- 68. Integrative Graduate Education and Research.- 69. Learning in a World of Convergence.- 70. Life-Long Learning.- 71. Norms and Standards of Learning.- 72. Online Courses.- 73. Pre-college Convergence Education. 
Les mer
  
  
Analyses the convergence of technology and science for the benefit of society in an innovative, highly useful reference work Explores the connections between nano-, bio-, information- and new-technologies based on cognitive and social sciences Offers scientists and engineers practical advice on how to cooperate with other scientific fields Advises on the socio-technical environment in which inventions and discoveries will benefit humanity Includes supplementary material: sn.pub/extras
Les mer

Relaterte produkter

Scientists and engineers have long been aware of the tension between narrow specialization and multidisciplinary cooperation, but now a major transformation is in process that will require technical fields to combine far more effectively than formerly in the service of human benefit. This handbook will catalog all the ways this can be accomplished and the reasons it must be. Nature is a single coherent system and diverse methods of scientific and engineering investigations should reflect this interlinked and dynamic unity. Accordingly, general concepts and ideas should be developed systematically in interdependence, with cause-and-effect pathways, for improved outcomes in knowledge, technology and applications. At the same time, industrial and social applications rely on integration of disciplines and unification of knowledge. Thus, convergence is both a fundamental principle of nature and a timely opportunity for human progress. This handbook will represent the culmination of fifteenyears of workshops, conferences and publications that initially explored the connections between nanotechnology, biotechnology, information technology and new technologies based on cognitive science. A constant emphasis on human benefit then drew in the social sciences, even as shared scientific and ethical principles brought in sustainability of the Earth environment and the challenge of equitable economic advancement. The intellectual contributions of literally hundreds of scientists and engineers established a number of research methods and analytical principles that could unite disparate fields. The culmination has been called Convergence of Knowledge and Technology for the benefit of Society (CKTS), defined as the escalating and transformative interactions among seemingly different disciplines, technologies, communities and domains of human activity to achieve mutual compatibility, synergism and integration.  
Les mer
The culmination has been called Convergence of Knowledge and Technology for the benefit of Society (CKTS), defined as the escalating and transformative interactions among seemingly different disciplines, technologies, communities and domains of human activity to achieve mutual compatibility, synergism and integration.
Les mer
1. The Era of Convergence.- 2. Principles and Methods that Facilitate Convergence.- 3. Bio-cognitive Evolution.- 4. Collective Intelligence Systems.- 5. Consilience.- 6. Convergence-Divergence Process.- 7. The Convergence of Curation.- 8. Decision Making in a Convergent Society.- 9. Dimensions of Research.- 10. Modeling and Simulation.- 11. Science and Technology Forecasting.- 12. Self-organization and Emergence of Dynamic Systems.- 13. Systemic Interdependencies.- 14. Visionary Scenario Development of Emerging Fields.- 15. NBIC.- 16. Cognitive Technology.- 17. Complex Biological Systems.- 18. Convergence of Nanotechnology and Biotechnology.- 19. Information Technology Supported Convergence.- 20. Nanotechnology-Neuroscience Convergence.- 21. Neurotechnology-Centered Convergence.- 22. Services Science and Societal Convergence.- 23. Transition from Inert to Living Systems.- 24. Unifying Concepts in Physics, Chemistry and Engineering.- 25. Human-Technology Collaboration.- 26. Citizen Science.- Collaboratories.- 27. Communication Media.- 28. Convergence with the Arts.- 29. Co-Robots: Humans and robots operating as partners.- 30. Distributed Manufacturing.- 31. Human Computation and Convergence.- 32. Open Source Technology Development.- 33. Participation in Convergence Research.- 34. Personalized and Interactive Literature.- 35. Virtual Meetings.- 36. The Earth Scale System.- 37. Astrosociology (Social Science of Space Exploration).- 38. Demographic Transition.- 39. Global Risk Assessment.- 40. Linguistic Convergence.- 41. Network of Cooperation between Science Organizations.- 42. Science and Technology Globalization.- 43. Space Exploration.- 44. Sustainable Global Food Supply.- 45. Socio-Ecological Systems.- 46. Whole-Earth Monitoring.- 47. Twenty-First Century Society.- 48. Boundary Organizations.- 49. Cognitive Society.- 50. Convergence in ethical implications and communication of emerging technologies.- 51. Cultural Science.- 52. Digital Government.- 53. Ethics of Convergence for Enhancement of Cognition.- 54. Human Enhancement in Sports.- 55. Intellectual Property Rights.- 56. Institutional Transformation.- 57. Medical Approach to Wellness.- 58. Polycentric Governance.- 59. Systematizing Global and Regional Creativity.- 60. Technology and Religion.- 61. Unifying Ethical Concepts.- 62. Reconceptualization of Education.- 63. Academic Research Centers: Platforms for Convergence of Science, Technology and Innovation.- 64. Assistive Technology in Education.- 65. Convergence Science and Technology at Seoul National University.- 66. Cyberlearning.- 67. Informal Science Education of Converging Technologies.- 68. Integrative Graduate Education and Research.- 69. Learning in a World of Convergence.- 70. Life-Long Learning.- 71. Norms and Standards of Learning.- 72. Online Courses.- 73. Pre-college Convergence Education. 
Les mer
  
  
Analyses the convergence of technology and science for the benefit of society in an innovative, highly useful reference work Explores the connections between nano-, bio-, information- and new-technologies based on cognitive and social sciences Offers scientists and engineers practical advice on how to cooperate with other scientific fields Advises on the socio-technical environment in which inventions and discoveries will benefit humanity Includes supplementary material: sn.pub/extras
Les mer

Produktdetaljer

ISBN
9783319070513
Publisert
2016-03-08
Utgiver
Vendor
Springer International Publishing AG
Høyde
235 mm
Bredde
155 mm
Aldersnivå
Research, P, 06
Språk
Product language
Engelsk
Format
Product format
Innbundet

Redaktør
Bainbridge William Sims
Roco Mihail C.

Biographical note

William Sims Bainbridge is an American sociologist and co-director of Human-Centered Computing at the National Science Foundation (NSF). He is the first Senior Fellow to be appointed by the Institute for Ethics and Emerging Technologies and most well-known for his work on the sociology of religion. He has published extensively on the sociology of computer gaming and he has pioneered the use of online virtual worlds for scientific conferences and research proposal review panels. He has previously edited two major reference works, The Berkshire Encyclopedia of Human-Computer Interaction and Leadership in Science and Technology. He has published numerous books with Springer. Mihail C. Roco is the Senior Advisor for Nanotechnology at the National Science Foundation (NSF) and a key architect of the National Nanotechnology Initiative. He is the founding Chair of the U.S. National Science and Technology Council’s Subcommittee on Nano scale Science, Engineering and Technology (NSET) and established the Nanotechnology Group of the International Risk Governance Council. Dr. Roco is a corresponding member of the Swiss Academy of Engineering Sciences and a member of the International Risk Governance Council. His research included experimental and simulation methods to investigate nanosystems. He is a Fellow of ASME, Fellow of AIChE and Fellow of the Institute of Physics and was elected Engineer of the Year by the U.S. Society of Professional Engineers and NSF in 1999 and in 2004. He was honored as recipient of the Carl Duisberg Award in Germany, the 'Burgers Professorship Award' in The Netherlands and the 'University Research Professorship' and Fingerson/TSI awards in the U.S. In addition to being the Editor-in-Chief of Springer’s Journal of Nanoparticle Research, he is credited with thirteen patents and has contributed over two hundred archival articles in sixteen books.  

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