Month: March 2019

Reimagining the mobility ecosystem: A CEO’s guide

Our mental models about mobility—individually owned cars, gas stations, traffic jams, the driver’s license as a rite of passage—are on the verge of disruption. Mobility is about to become cheaper, more convenient, a better experience, safer, and cleaner—not 50 or even 25 years from now, but perhaps within a dozen.

We describe the coming transformation as mobility’s Second Great Inflection Point, because it has the potential to be as profound as the one that put horses to pasture and revolutionized industries and societies worldwide. A defining characteristic of the new world taking shape is that the automotive industry, which has operated for more than a century alongside but decidedly disconnected from other components of what transportation has come to mean, will blend into a more interconnected, customer-centric ecosystem. That shift boosts the odds that the momentous changes afoot will affect your business, even if the closest you currently get to a car is your morning commute.

Source: www.mckinsey.com

An Introduction to Complex Systems – Making Sense of a Changing World​ | Joseph V. Tranquillo | Springer

This textbook explores the interdisciplinary field of complex systems theory and how it relates to practical questions and issues. The text is interspersed with both philosophical and quantitative arguments, and each chapter ends with questions and prompts that help readers make mor

Source: www.springer.com

Molecular Diversity Required for the Formation of Autocatalytic Sets

Systems chemistry deals with the design and study of complex chemical systems. However, such systems are often difficult to investigate experimentally. We provide an example of how theoretical and simulation-based studies can provide useful insights into the properties and dynamics of complex chemical systems, in particular of autocatalytic sets. We investigate the issue of the required molecular diversity for autocatalytic sets to exist in random polymer libraries. Given a fixed probability that an arbitrary polymer catalyzes the formation of other polymers, we calculate this required molecular diversity theoretically for two particular models of chemical reaction systems, and then verify these calculations by computer simulations. We also argue that these results could be relevant to an origin of life scenario proposed recently by Damer and Deamer.

 

Life 2019, 9(1), 23; https://doi.org/10.3390/life9010023
Molecular Diversity Required for the Formation of Autocatalytic Sets
Wim Hordijk, Mike Steel and Stuart A. Kauffman

Source: www.mdpi.com

Evolution of Complex Life – May 15-17, 2019 @GeorgiaTech

The evolution of complex life is an inherently multidisciplinary problem encompassing a wide range of topics, including:

How do new levels of the biological hierarchy evolve?
How do interactions between individual organisms contribute to complex phenotypes and behaviors?
How do social behaviors evolve?
How do evolutionary novelties emerge and evolve?
How do organisms drive geochemical cycles and how do geochemical changes influence evolution?
At this conference we will bring together scientists from different backgrounds to discuss these and other important topics about one of the most salient aspects of life: the evolution of complexity.

Source: eclife.biosci.gatech.edu