Produktinformationen zu „Brain-Computer Interfaces “
This study gathered information on global status and trends in brain-computer interface (BCI) research to disseminate to government decision makers and the research community. It provides a worldwide snapshot of current research and development trends in BCI.
Klappentext zu „Brain-Computer Interfaces “
We have come to know that our ability to survive and grow as a nation to a very large degree depends upon our scientific progress. Moreover, it is not enough simply to keep 1 abreast of the rest of the world in scientific matters. We must maintain our leadership. President Harry Truman spoke those words in 1950, in the aftermath of World War II and in the midst of the Cold War. Indeed, the scientific and engineering leadership of the United States and its allies in the twentieth century played key roles in the successful outcomes of both World War II and the Cold War, sparing the world the twin horrors of fascism and totalitarian communism, and fueling the economic prosperity that followed. Today, as the United States and its allies once again find themselves at war, President Truman's words ring as true as they did a half-century ago. The goal set out in the Truman Administration of maintaining leadership in science has remained the policy of the U. S. Government to this day: Dr. John Marburger, the Director of the Office of Science and Technology (OSTP) in the Executive Office of the President, made remarks to that effect during his 2 confirmation hearings in October 2001. The United States needs metrics for measuring its success in meeting this goal of maintaining leadership in science and technology. That is one of the reasons that the National Science Foundation (NSF) and many other agencies of the U. S.
Inhaltsverzeichnis zu „Brain-Computer Interfaces “
Foreword, Preface, List of Figures, List of Tables, Executive Summary1. Introduction. Theodore W. Berger: Background and Scope, Methodology, Overview of the Report2. Sensor Technology. Greg A. Gerhardt and Patrick A. Tresco: Introduction, BCI Sensor World Overview, Major Types of Sensors for BCI Technology, Major Challenges for Producing BCI Sensors, Summary and Conclusions, References3. The Biotic-Abiotic Interface. Patrick A. Tresco and Greg A. Gerhardt: Introduction, BCI Abiotic-Biotic Interface World Overview, Strategies under Development to Improve Electrode Performance, Summary and Conclusions, References4. BMI/BCI Modeling and Signal Processing. José C. Principe and Dennis J. McFarland: Introduction, Multimicroelectrode Array Techniques, EEG/ECoG Recordings, Summary and Conclusions, References5. Hardware Implementation. John K. Chapin: Introduction: Restoring Movement in Paralysis Patients, Different Approaches to BCI Research Worldwide, Original Feasibility Demonstrations for Brain-Controlled Robotics, Brain Control of Multiple-Output Functions, Biomimetic Robot Research at the Scuola Superiore Sant'Anna, References6. Functional Electrical Stimulation and Rehabilitation Applications of BCIs. Dawn M. Taylor: Overview of Functional Electrical Stimulation, FES Applications of BCI Technology Around the World, How Different Types of BCI Command Signals can be Applied to FES, Application Areas of BCI-controlled FES Systems, Practical Considerations, References7. Noninvasive Communication Systems. Dennis J. McFarland: Introduction, Slow Cortical Potentials, Steady-State Evoked Potentials, Online Evaluations, Prospects for Practical BCI Communication Systems, Summary and Conclusions, References8. Cognitive and Emotional Neuroprostheses. Walid V. Soussou and Theodore W. Berger: Introduction, Volitional Prostheses, Emotional Computers and Robots, Memory Prostheses, Neurofeedback, Summary and Conclusions, References9. ResearchOrganization-Funding,
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Translation-Commercialization, and Education-Training Issues. Theodore W. Berger: BCI Research Organization and Funding, Funding and Funding Mechanisms, Translation-Commercialization, Training-Education, ReferencesAppendix A. Biographies of Panelists and Delegation Members Appendix B. Site Reports-Europe Appendix C. Site Reports-Asia Appendix D. Glossary
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Autoren-Porträt von Theodore W. Berger, John K. Chapin, Greg A. Gerhardt
Dr. Theodore W. Berger (Panel Chair) is the David Packard Professor of Engineering, Professor of Biomedical Engineering and Neuroscience, and Director of the Center for Neural Engineering at the University of Southern California. He received his PhD from Harvard University in 1976; his thesis work received the James McKeen Cattell Award from the New York Academy of Sciences. He conducted postdoctoral research at the University of California, Irvine, from 1977-1978 and was an Alfred P. Sloan Foundation Fellow at the Salk Institute from 1978-1979. Dr. Berger joined the Departments of Neuroscience and Psychiatry at the University of Pittsburgh in 1979, being promoted to full professor in 1987. During that time, he received a McKnight Foundation Scholar Award, twice received an NIMH Research Scientist Development Award, and was elected a Fellow of the American Association for the Advancement of Science. Since 1992, he has been Professor of Biomedical Engineering and Neurobiology at the University of Southern California, and was appointed the David Packard Chair of Engineering in 2003.
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