How Nature Works
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Otto E. Rössler has a background in electronics (due to his radio-amateur experience during his teenage years) and got a first doctorate in medicine. Then he progressively turned to theoretical chemistry after two post-doc positions in behavioral biology (with Konrad Lorenz in Seewiesen) and in theoretical biology (with Robert Rosen at Buffalo).
He started his career in performing numerical simulations of chemical reaction models with the help of an analog computer. He spent nearly a decade focusing on chaotic attractors. He proposed the so-called Rössler system and introduced the concept of hyperchaos.
The Rössler system is today the second-most quoted system in chaos theory (after the Lorenz one). This program more or less ended with his proposition for a hierarchy of chaos, for which he proposed many different examples of various types of chaos.
With his numerous contributions, he largely contributed to construct the paradigm of chaos, insisting on the qualitative approach inherited from Henri Poincaré.
This book, written in the early 1980s, is a kind of review of his views on this topic. He then switched to researches in biogenesis, endophysics, cryodynamics, etc. He wrote many hundreds of scientific papers.
With Robert Gilmore (Drexel University, U.S.A.) he investigated the role of symmetries in dynamical systems.
Together with Luis Aguirre (Universidade Federal de Minas Gerais, Brazil), he developed the observability coefficients for assessing the quality of information contained in a measured variable.
For 20 years, he also collaborated with physicians to transfer techniques from chaos theory towards clinical applications in mechanical ventilation, heart variability and oncology.
With Fabrice Denis, he developed a clinical follow-up method for patients who were treated for lung cancer.
Since 15 years he teaches a course in history of science and wrote a book, entitled Chaos in Nature, exploring how chaos emerged in the 20th century.