Open Access
Open access
AIMS Biophysics, volume 9, issue 1, pages 56-60

Interplay and multiscale modeling of complex biological systems

Carlo Bianca 1
1
 
Laboratoire Quartz EA 7393, École Supérieure d'Ingénieurs en Génie Électrique, Productique et Management Industriel, 13 Boulevard de l'Hautil, 95092 Cergy Pontoise Cedex, France
Publication typeJournal Article
Publication date2022-03-03
Journal: AIMS Biophysics
scimago Q4
SJR0.220
CiteScore2.4
Impact factor1.1
ISSN23779098
Biochemistry
Molecular Biology
Structural Biology
Biophysics
Abstract
<abstract> <p>Recently the understanding of complex biological systems has been increased considering the important interplay among different scholars coming from different applied sciences such as mathematics, physics and information sciences. As known, the modeling of a complex system requires the analysis of the different interactions occurring among the different components of the system. Moreover, the analysis of a complex system can be performed at different scales; usually the microscopic, the mesoscopic and the macroscopic scales are the most representation scales. However, a multiscale approach is required. A unified approach that takes into account the different phenomena occurring at each observation scale is the desire of this century. This editorial article deals with the topic of this special issue, which is devoted to the new developments in the multiscale modeling of complex biological systems with special attention to the interplay between different scholars.</p> </abstract>
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