Dragan, Valentin-StelianPaun, Maria-AlexandraJarcau, MihaelaDumitras, CatalinPlacinta, ConstantinPaun, Vladimir-AlexandruAgop, MaricelPaun, Viorel-PuiuRosu, Iulian-Alin2022-06-202022-06-202022-06-202022-01-01https://infoscience.epfl.ch/handle/20.500.14299/188683WOS:000804160600019Conductive-type dynamics in complex systems in the framework of Scale Relativity Theory are analyzed. Using the Madeling scenario in the description o f complex system dynamics through continuous and nondifferentiable curves (fractal/multifractal curves), three types of conductivity are highlighted differentiable conductivity, nondifferentiable conductivity, and global conductivity. These are reciprocally conditional, implying synchronous and nonsynchronous mechanisms in the conductive-type behaviors.Mathematics, AppliedPhysics, MultidisciplinaryMathematicsPhysicsfractal objectscales spacescale relativity theorymultifractal curvesdifferentiable conductivityfractal analysistext::journal::journal article::research article