Sunday, March 27, 2011

Biomedical Computing

Biomedical Computing



Author: Joseph A. November
Edition: 1
Publisher: The Johns Hopkins University Press
Binding: Hardcover
ISBN: 1421404680



Biomedical Computing: Digitizing Life in the United States (The Johns Hopkins University Studies in Historical and Political Science)


Imagine biology and medicine today without computers. Medical books Biomedical Computing. What would laboratory work be like if electronic databases and statistical software did not exist? Would disciplines like genomics even be feasible if we lacked the means to manage and manipulate huge volumes of digital data? How would patients fare in a world absent CT scans, programmable pacemakers, and computerized medical records?

Today, computers are a critical component of almost all research in biology and medicine. Yet, just fifty years ago, the study of life was by far the least digitized field of science, its living subject matter thought too complex and dynamic to be meaningfully analyzed by logic-driven computers. In this long-overdue study, historian Joseph November explores the early attempts, in the 1950s and 1960s, to computerize biomedical research in the United States.

Computers and biomedical research are now so intimately connected that it is difficult to imagine when such critical work was offline Medical books Visualization in Biomedical Computing: 4th International Conference, VBC '96, Hamburg, Germany, September 22 - 25, 1996, Proceedings. Visualization in Biomedical Computing: 4th International Conference, VBC '96, Hamburg, Germany, September 22 - 25, 1996, Proceedings: Karl H. H?hne, Ron Kikinis

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Download link for Intelligent Algorithms in Ambient and Biomedical Computing

Visualization in Biomedical Computing: 4th International Conference, VBC '96, Hamburg, Germany, September 22 - 25, 1996, Proceedings: Karl H. H?hne, Ron Kikinis

"This book is the outcome of a series of discussions at the Philips Symposium on Intelligent Algorithms, held in Eindhoven in December 2004. It offers exciting and practical examples of the use of intelligent algorithms in ambient and biomedical computing. It contains topics such as bioscience computing, database design, machine consciousness, scheduling, video summarization, audio classification, semantic reasoning, machine learning, tracking and localization, secure computing, and communication.File Size: 4441 KBPrint Length: 340 pagesPublisher: Springer; 1 edition (September 14, 2006) Sold

"This book is the outcome of a series of discussions at the Philips Symposium on Intelligent Algorithms, held in Eindhoven in December 2004. It offers exciting and practical examples of the use of intelligent algorithms in ambient and biomedical computing. It contains topics such as bioscience computing, database design, machine consciousness, scheduling, video summarization, audio classification, semantic reasoning, machine learning, tracking and localization, secure computing, and communication.File Size: 4441 KBPrint Length: 340 pagesPublisher: Springer; 1 edition (September 14, 2006) Sold

This book is the outcome of a series of discussions at the Philips Symposium on Intelligent Algorithms, held in Eindhoven in December 2004. It offers exciting and practical examples of the use of intelligent algorithms in ambient and biomedical computing. It contains topics such as bioscience computing, database design, machine consciousness, scheduling, video summarization, audio classification, semantic reasoning, machine learning, tracking and localization, secure computing, and communication.



Medical Book Biomedical Computing



What would laboratory work be like if electronic databases and statistical software did not exist? Would disciplines like genomics even be feasible if we lacked the means to manage and manipulate huge volumes of digital data? How would patients fare in a world absent CT scans, programmable pacemakers, and computerized medical records?

Today, computers are a critical component of almost all research in biology and medicine. Yet, just fifty years ago, the study of life was by far the least digitized field of science, its living subject matter thought too complex and dynamic to be meaningfully analyzed by logic-driven computers. In this long-overdue study, historian Joseph November explores the early attempts, in the 1950s and 1960s, to computerize biomedical research in the United States.

Computers and biomedical research are now so intimately connected that it is difficult to imagine when such critical work was offline. Biomedical Computing transports readers back to such a time and investigates how computers first appeared in the research lab and doctor's office. November examines the conditions that made possible the computerization of biology—including strong technological, institutional, and political support from the National Institutes of Health—and shows not only how digital technology transformed the life sciences but also how the intersection of the two led to important developments in computer architecture and software design.

The history of this phenomenon has been only vaguely understood. November's thoroughly researched and lively study makes clear for readers the motives behind computerizing the study of life and how that technology profoundly affects biomedical research today.



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