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Full Description
Molecular communication (MC) is a bio-inspired paradigm where the exchange of information is realized through the transmission, propagation, and reception of molecules. This paradigm was first studied in biology, since it is successfully adopted in nature by cells for intracellular and intercellular communication. MC is considered a promising option for communications in nanonetworks, which are defined as the interconnections of intelligent autonomous nanometer-scale devices, or nanomachines.
Thanks to the feasibility of MC in biological environments, MC-based nanonetworks have the potential to be the enabling technology for a wide range of applications, mostly in the biomedical, but also in the industrial and surveillance fields.
Fundamentals of Diffusion-Based Molecular Communication in Nanonetworks analyzes the MC paradigm from the point of view of communication engineering and information theory, and provides solutions to the modeling and design of MC-based nanonetworks.
Contents
1: Introduction 2: Previous Work on Molecular Communication 3: Deterministic Model of a Molecular Communication Link 4: Stochastic Models of the Noise Sources in a Molecular Communication Link 5: Capacity Analysis of a Molecular Communication Link 6: Interference of Multiple Molecular Communication Links in a Nanonetwork 7: Conclusions and Future Work. Acknowledgements. References
