| Laws, Language and Life: Howard Pattee's Classic Papers on the Physics of Symbols with Contemporary Commentary 2013 Edition Contributor(s): Pattee, Howard Hunt (Author), Rączaszek-Leonardi, Joanna (Author) |
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ISBN: 9400751605 ISBN-13: 9789400751606 Publisher: Springer OUR PRICE: $284.99 Product Type: Hardcover - Other Formats Published: December 2012 |
| Additional Information |
| BISAC Categories: - Philosophy | Epistemology - Science | Physics - General - Psychology | Cognitive Psychology & Cognition |
| Dewey: 570.14 |
| Series: Biosemiotics |
| Physical Information: 0.81" H x 6.14" W x 9.21" (1.47 lbs) 336 pages |
| Descriptions, Reviews, Etc. |
| Publisher Description: Howard Pattee is a physicist who for many years has taken his own path in studying the physics of symbols, which is now a foundation for biosemiotics. By extending von Neumann's logical requirements for self-replication, to the physical requirements of symbolic instruction at the molecular level, he concludes that a form of quantum measurement is necessary for life. He explains why all non-dynamic symbolic and informational controls act as special (allosteric) constraints on dynamical systems. Pattee also points out that symbols do not exist in isolation but in coordinated symbol systems we call languages. Such insights turn out to be necessary to situate biosemiotics as an objective scientific endeavor. By proposing a way to relate quiescent symbolic constraints to dynamics, Pattee's work builds a bridge between physical, biological, and psychological models that are based on dynamical systems theory. Pattee's work awakes new interest in cognitive scientists, where his recognition of the necessary separation--the epistemic cut--between the subject and object provides a basis for a complementary third way of relating the purely symbolic, computational models of cognition and the purely dynamic, non-representational models. This selection of Pattee's papers also addresses several other fields, including hierarchy theory, artificial life, self-organization, complexity theory, and the complementary epistemologies of the physical and biological sciences. |