May 11, 2023 · This paper makes an important step toward developing computational tools to study spatio-temporal structure formation of bio-nanomachines in three dimensions.
Jun 21, 2023 · We then use the model and conduct simulation experiments to demonstrate that a group of bio-nanomachines forms a three-dimensional cluster that ...
This paper makes an important step toward developing computational tools to study spatio-temporal structure formation of bio-nanomachines in three dimensions.
Modelling and Simulations of Collective Bio-Nanomachine Rotation in 3-D Space ... A model for individual and collective cell movement in Dictyosteliumdiscoideum.
Understanding the process of how bio-nanomachines form spatiotemporal patterns is a key to developing practical applications of molecular communication such ...
Missing: Space. | Show results with:Space.
A simple mobility model is developed based on the observation that chemotaxis plays an important role in how cells migrate and form spatiotemporal patterns ...
Through modeling and simulations, we gain insight into the design and engineering of rotating clusters of bio-nanomachines. This paper demonstrates the ...
Accordingly, we develop a collective rotational motion model of bio-nanomachines based on their chemical and physical interactions. Through modeling and ...
Missing: D Space.
Modelling and Simulations of Collective Bio-Nanomachine Rotation in 3-D Space. J Wang, T Nakano. IEEE Transactions on Molecular, Biological, and Multi-Scale ...
This paper aims to create a large-scale system of bio-nanomachines and proposes a collective rotational motion model to describe their behaviour. The proposed ...
Missing: D Space.