Add to ORKGThere are numerous ways to control objects in the Stokes regime, with microscale examples ranging from the use of optical tweezers to the application of external magnetic fields. In contrast, there are relatively few explorations of theoretical controllability, which investigate whether or not refined and precise control is indeed possible in a given system. In this work, seeking to highlight the utility and broad applicability of such rigorous analysis, we recount and illustrate key concepts of geometric control theory in the context of multiple particles in Stokesian fluids interacting with each other, such that they may be readily and widely applied in this largely unexplored fluid-dynamical setting. Motivated both by experimental and ab...
In this thesis, we show how to combine microfluidics and feedback control to independently steer mul...
AbstractWe study classical multiparticle system (e.g. Toda lattice) on the line whose dynamics will ...
International audienceWe derive macroscopic dynamics for self-propelled particles in a fluid. The st...
There are numerous ways to control objects in the Stokes regime, with microscale examples ranging fr...
Manipulation of particles suspended in fluids is crucial for many applications, such as precision ma...
The ability to trap and control single particles in free solution has led to major advances in scien...
In this paper we study, from a control theoretic view point, a 1D model of fluid-particle interactio...
In the Eulerian approach, the motion of an incompressible fluid is usually described by the velocity...
The interception of two spherical particles with arbitrary size in an infinite linear ambient Stokes...
Remotely actuated microscale swimming robots have the potential to revolutionize many aspects of bio...
We establish a result concerning the so-called Lagrangian controllability of the Euler equation for ...
Abstract — Recent work in the study of interacting particles has demonstrated the effectiveness of g...
AbstractWe give some negative and positive results on the approximate controllability of the Stokes ...
We propose a new fluid control technique that uses scale-dependent force control to preserve small-s...
Comprehensive understanding of particle motion in microfluidic devices is essential to unlock additi...
In this thesis, we show how to combine microfluidics and feedback control to independently steer mul...
AbstractWe study classical multiparticle system (e.g. Toda lattice) on the line whose dynamics will ...
International audienceWe derive macroscopic dynamics for self-propelled particles in a fluid. The st...
There are numerous ways to control objects in the Stokes regime, with microscale examples ranging fr...
Manipulation of particles suspended in fluids is crucial for many applications, such as precision ma...
The ability to trap and control single particles in free solution has led to major advances in scien...
In this paper we study, from a control theoretic view point, a 1D model of fluid-particle interactio...
In the Eulerian approach, the motion of an incompressible fluid is usually described by the velocity...
The interception of two spherical particles with arbitrary size in an infinite linear ambient Stokes...
Remotely actuated microscale swimming robots have the potential to revolutionize many aspects of bio...
We establish a result concerning the so-called Lagrangian controllability of the Euler equation for ...
Abstract — Recent work in the study of interacting particles has demonstrated the effectiveness of g...
AbstractWe give some negative and positive results on the approximate controllability of the Stokes ...
We propose a new fluid control technique that uses scale-dependent force control to preserve small-s...
Comprehensive understanding of particle motion in microfluidic devices is essential to unlock additi...
In this thesis, we show how to combine microfluidics and feedback control to independently steer mul...
AbstractWe study classical multiparticle system (e.g. Toda lattice) on the line whose dynamics will ...
International audienceWe derive macroscopic dynamics for self-propelled particles in a fluid. The st...