Spheroidal Molecular Communication via Diffusion: Signaling Between Homogeneous Cell Aggregates
Recent molecular communication (MC) research has integrated more detailed
computational models to capture the dynamics of practical biophysical systems. This paper …
computational models to capture the dynamics of practical biophysical systems. This paper …
[PDF][PDF] 3D cell cultures amplify diffusion signals
Biophysical models can predict the behavior of cell cultures including 3D cell cultures
(3DCCs), thereby reducing the need for costly and time-consuming experiments …
(3DCCs), thereby reducing the need for costly and time-consuming experiments …
3D cell aggregates amplify diffusion signals
Biophysical models can predict the behavior of cell cultures including 3D cell aggregates
(3DCAs), thereby reducing the need for costly and time-consuming experiments …
(3DCAs), thereby reducing the need for costly and time-consuming experiments …
[PDF][PDF] Bi-Directional Spheroidal Molecular Communication in Flowing Media
Molecular communication is an emerging field that explores communication processes at
the nano-scale, drawing inspiration from biological systems. As the development of …
the nano-scale, drawing inspiration from biological systems. As the development of …
[PDF][PDF] Organ (oid)-on-Chip Amplifies Diffusion Signals
Realistic models of the components and processes are required for molecular
communication (MC) systems. In this abstract, a spheroidal receiver structure is proposed for …
communication (MC) systems. In this abstract, a spheroidal receiver structure is proposed for …
[PDF][PDF] Spheroidal Receiver with Non-Uniform Porosity
AN Mitra Rezaei - molecularcommunications.org
Spheroids are 3-D cell aggregates with many thousands of cells and are commonly used in
biomedical experiments. Molecular communication (MC) can be applied to model …
biomedical experiments. Molecular communication (MC) can be applied to model …