Add to ORKGWe study the swimming strategies that maximize the speed of the three-sphere swimmer using reinforcement learning methods. First of all, we ensure that for a simple model with few actions, the Q-learning method converges. However, this latter method does not fit a more complex framework (for instance the presence of boundary) where states or actions have to be continuous to obtain all directions in the swimmer's reachable set. To overcome this issue, we investigate another method from reinforcement learning which uses function approximation, and benchmark its results in absence of walls
International audienceWe discuss a reduced model to compute the motion of slender swimmerswhich prop...
One of the simplest model swimmers at low Reynolds number is the three-sphere swimmer by Najafi and ...
We consider a swimmer consisting of a collinear assembly of three spheres connected by two slender r...
We study the swimming strategies that maximize the speed of the three-sphere swimmer using reinforce...
18 pages, 14 figuresThis work aims at finding optimal navigation policies for thin, deformable micro...
We apply a reinforcement learning algorithm to show how smart particles can learn approximately opti...
This dissertation summarizes computational results from applying reinforcement learning and deep neu...
There are growing interests in the development of artificial microscopic machines that can perform c...
As the length scales of the smallest technology continue to advance beyond the micron scale it becom...
Smart active particles can acquire some limited knowledge of the fluid environment from simple mecha...
Swimming, i.e., being able to advance in the absence of external forces by performing cyclic shape c...
Swimming, i.e., being able to advance in the absence of external forces by performing cyclic shape c...
This work presents a numerical study of the collective motion of two freely-swimming swimmers by a h...
In this thesis, we focus on two problems relevant to the swimming of slender bodies at low Reynolds ...
For decades, people have been seeking for fishlike flapping motions that can realize underwater prop...
International audienceWe discuss a reduced model to compute the motion of slender swimmerswhich prop...
One of the simplest model swimmers at low Reynolds number is the three-sphere swimmer by Najafi and ...
We consider a swimmer consisting of a collinear assembly of three spheres connected by two slender r...
We study the swimming strategies that maximize the speed of the three-sphere swimmer using reinforce...
18 pages, 14 figuresThis work aims at finding optimal navigation policies for thin, deformable micro...
We apply a reinforcement learning algorithm to show how smart particles can learn approximately opti...
This dissertation summarizes computational results from applying reinforcement learning and deep neu...
There are growing interests in the development of artificial microscopic machines that can perform c...
As the length scales of the smallest technology continue to advance beyond the micron scale it becom...
Smart active particles can acquire some limited knowledge of the fluid environment from simple mecha...
Swimming, i.e., being able to advance in the absence of external forces by performing cyclic shape c...
Swimming, i.e., being able to advance in the absence of external forces by performing cyclic shape c...
This work presents a numerical study of the collective motion of two freely-swimming swimmers by a h...
In this thesis, we focus on two problems relevant to the swimming of slender bodies at low Reynolds ...
For decades, people have been seeking for fishlike flapping motions that can realize underwater prop...
International audienceWe discuss a reduced model to compute the motion of slender swimmerswhich prop...
One of the simplest model swimmers at low Reynolds number is the three-sphere swimmer by Najafi and ...
We consider a swimmer consisting of a collinear assembly of three spheres connected by two slender r...