While “the energy issue” is rising in the agenda of politics, the awareness that complexity is a main and distinctive feature of energy systems is becoming dominant in the scientific milieu. There is a trend in nature, from the beginning of life to higher organism, that justify the hypothesis that evolution tends to promote higher complexity and higher energy density, throughout higher thermodynamic efficiency. An ever growing energy trend that is perpetuated in human made systems, as society and economy development clearly explain. Some scientist claim this is a universal tendency common to any energy systems. Is therefore the higher efficiency-higher complexity-higher energy consumption an inescapable drift? Can economic growth and develo...
In the last few years the research on networks has taken different directions producing rather unexp...
Both the Lagrangian and Hamiltonian equations of motion can model many physical systems that include...
Nature’s many complex systems—physical, biological, and cultural—are islands of low-entropy order wi...
While “the energy issue” is rising in the agenda of politics, the awareness that complexity is a mai...
The relationship between the energy efficiency, energy density and complexity level of the system is...
The relationship between the energy effi ciency, energy density and complexity level of the system i...
AbstractThe purpose of this paper is to review the application of complexity science methods in unde...
Complex networks theory has been well established as a useful framework for studying and analysing ...
Clarifying the evolution mechanisms of energy systems is related to our understanding of the essence...
One of the great advances of the 20th century was the rise of a formal systems science and systems t...
There is a great interest in understanding how ecosystems organize into structural patterns they ex...
The purpose of this paper is to review the application of complexity science methods in understandin...
htmlabstractThe on-going transition to more sustainable energy production methods means that we are ...
The theory of power systems dynamics has been developed largely from detailed studies of the dynamic...
We briefly describe the toolkit used for studying complex systems: nonlinear dynamics, statistical p...
In the last few years the research on networks has taken different directions producing rather unexp...
Both the Lagrangian and Hamiltonian equations of motion can model many physical systems that include...
Nature’s many complex systems—physical, biological, and cultural—are islands of low-entropy order wi...
While “the energy issue” is rising in the agenda of politics, the awareness that complexity is a mai...
The relationship between the energy efficiency, energy density and complexity level of the system is...
The relationship between the energy effi ciency, energy density and complexity level of the system i...
AbstractThe purpose of this paper is to review the application of complexity science methods in unde...
Complex networks theory has been well established as a useful framework for studying and analysing ...
Clarifying the evolution mechanisms of energy systems is related to our understanding of the essence...
One of the great advances of the 20th century was the rise of a formal systems science and systems t...
There is a great interest in understanding how ecosystems organize into structural patterns they ex...
The purpose of this paper is to review the application of complexity science methods in understandin...
htmlabstractThe on-going transition to more sustainable energy production methods means that we are ...
The theory of power systems dynamics has been developed largely from detailed studies of the dynamic...
We briefly describe the toolkit used for studying complex systems: nonlinear dynamics, statistical p...
In the last few years the research on networks has taken different directions producing rather unexp...
Both the Lagrangian and Hamiltonian equations of motion can model many physical systems that include...
Nature’s many complex systems—physical, biological, and cultural—are islands of low-entropy order wi...