Molecular communications (MC) broadly defines information exchange using (bio-)chemical signals over multiple scales. The research in this area addresses various fields where MC plays an important role. Notable examples include 1) the modeling of living systems, which aims to gain new insights into biological systems; 2) their interface with the outer world, aiming to develop techniques to control biological systems; and 3) synthetic MC, focusing on the design, analysis, and implementation of human-made MC systems at different scales.
Special Issue—Advances in Molecular Communications: Theory, Experiment, and Application
Femminella, MauroConceptualization
;
2021
Abstract
Molecular communications (MC) broadly defines information exchange using (bio-)chemical signals over multiple scales. The research in this area addresses various fields where MC plays an important role. Notable examples include 1) the modeling of living systems, which aims to gain new insights into biological systems; 2) their interface with the outer world, aiming to develop techniques to control biological systems; and 3) synthetic MC, focusing on the design, analysis, and implementation of human-made MC systems at different scales.File in questo prodotto:
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