The relationship between the energy effi ciency, energy density and complexity level of the system is here addressed from both thermodynamic and evolutionary perspectives. A case study from economic systems is presented to show that, contrary to widespread opinion, energy effi ciency is responsible for energy growth and the complexity leap. This article further examines to what extent complexity, on a historical time scale, may evolve to counterbalance conservative effects brought about by energy effi ciency. We analyze structural com-plexity growth by four different paradigms. An evolutionary pattern is then proposed that may encompass the broad dynamics underlying complexity growth. This evolutionary pattern rests on the hypothesis that t...
The preceding chapters of this book focus on complexity, evolution and life. Relatively little atten...
The rebound effect presents a major flaw in to energy conservation policies that aim to reduce energ...
Work, by dissipative structures (DS), imposes delay on energy gradientdegradation. It diverts energy...
The relationship between the energy efficiency, energy density and complexity level of the system is...
Clarifying the evolution mechanisms of energy systems is related to our understanding of the essence...
Is complexity growth the result of a continuous process or a sudden breakthrough? An increased energ...
While “the energy issue” is rising in the agenda of politics, the awareness that complexity is a mai...
Appraisal of the concept of energy rate density continues, as both a potential quantitative metric f...
The proposition that complexity generally increases with evolution seems indisputable. Both developm...
International audienceWe introduce the concept of product complexity in an endogenous growth model w...
We introduce the concept of product complexity in an endogenous growth model with re- newable energy...
The proposition that complexity generally increases with evolution seems indisputable. Both developm...
It is often stated that the macroevolution of life is driven toward increased Complexity, and indeed...
Thermodynamic theory predicts that the universe develops towards maximum energy dispersal. Meanwhile...
Nature’s many complex systems—physical, biological, and cultural—are islands of low-entropy order wi...
The preceding chapters of this book focus on complexity, evolution and life. Relatively little atten...
The rebound effect presents a major flaw in to energy conservation policies that aim to reduce energ...
Work, by dissipative structures (DS), imposes delay on energy gradientdegradation. It diverts energy...
The relationship between the energy efficiency, energy density and complexity level of the system is...
Clarifying the evolution mechanisms of energy systems is related to our understanding of the essence...
Is complexity growth the result of a continuous process or a sudden breakthrough? An increased energ...
While “the energy issue” is rising in the agenda of politics, the awareness that complexity is a mai...
Appraisal of the concept of energy rate density continues, as both a potential quantitative metric f...
The proposition that complexity generally increases with evolution seems indisputable. Both developm...
International audienceWe introduce the concept of product complexity in an endogenous growth model w...
We introduce the concept of product complexity in an endogenous growth model with re- newable energy...
The proposition that complexity generally increases with evolution seems indisputable. Both developm...
It is often stated that the macroevolution of life is driven toward increased Complexity, and indeed...
Thermodynamic theory predicts that the universe develops towards maximum energy dispersal. Meanwhile...
Nature’s many complex systems—physical, biological, and cultural—are islands of low-entropy order wi...
The preceding chapters of this book focus on complexity, evolution and life. Relatively little atten...
The rebound effect presents a major flaw in to energy conservation policies that aim to reduce energ...
Work, by dissipative structures (DS), imposes delay on energy gradientdegradation. It diverts energy...