Evolution and Development of the Universe
EDU 2011 Theme:
Complexity Transitions in Big History: Transition Definitions, Growth Curve Hypotheses, and Future Scenarios
1. Explore a Variety of Complexity Transition Definitions for Big History: Thermodynamic, Informational-Computational, Evolutionary, Developmental, Integrative, and Systemic
2. Associate these Definitions with a Variety of Tentative Growth Curve Hypotheses: Superexponential, Exponential, Logistic, and Other
3. Consider A Range of Transition and Growth Curve Scenarios Implied by these Hypotheses for the Future of Technological Innovation and Sustainability.
We will seek out and network transition scholars, periodization, and acceleration, multi-level evolution and development scholars, world system modelers, and their critics. Scholars who approach evolutionary transitions from thermodynamic, informational-computational, evolutionary, developmental, integrative, and systemic perspectives are particularly desired. We will seek to compare logistic, exponential, and superexponential models arising from a variety of complexity transition definitions, and finally, explore a range of scenarios these models propose for the future of innovation and sustainability, underscoring the great technical, political, economic, and social value of better scholarship and science in this area.
We are presently developing a proposal to host EDU 2011 at a U.S. venue. We expect to know by mid-2010 which venue will host EDU 2011.