Accurate prediction of the three-dimensional trajectories of micro/nano-swimmers is a key element as to achieve high precision motion control in therapeutic applications. Rigid-body kinematics of such robotic systems is dominated by viscous forces. The induced flow field around a two-link swimmer is investigated with a validated computational fluid dynamics (CFD) model. Force-free-swimming constraints are employed in order to simulate motion of bacteria-like swimmers in viscous medium. The fluid resistance exerted on the body of the swimmer is quantified by an improved resistance matrix, which is embedded in a validated resistive force theory (RFT) model, based on complex-impedance approach. Parametric studies confirmed that the hydrodyna...
Both biological micro-organisms and synthetic micro-robots propel through viscous liquids to achieve...
In the hydrodynamic environment of biological microorganisms inertia is irrelevant and all motion is...
Artificial microswimmers are micron-sized devices that can propel in viscous fluids. Their potentia...
Accurate prediction of the three-dimensional trajectories of micro/nano-swimmers is a key element as...
Bio-inspired micro-robots are of great importance as to implement versatile microsystems for a varie...
Autonomous micro-swimming robots can be utilized to perform specialized procedures such as in vitro ...
Microrobots can make a great impact in medical applications such as minimally-invasive surgery, scre...
Experiments are carried out with a cm-scale bio-mimetic swimming robot, which consists of a body and...
Micro swimming robots offer many advantages in biomedical applications, such as delivering potent dr...
Understanding trajectories of natural and artificial helical swimmers under confinement is importan...
Abstract — Microrobots can make a great impact in medical applications such as minimally-invasive su...
Real-time manipulation of objects in micro flows is important due to an ever increasing interest in...
State-of-the-art miniaturisation technologies are now boosting the development of endogenous medical...
Swimming microorganisms are a source of inspiration for small scale robots that are intended to oper...
Untethered swimming microrobots have many advantages for biomedical applications such as targeted dr...
Both biological micro-organisms and synthetic micro-robots propel through viscous liquids to achieve...
In the hydrodynamic environment of biological microorganisms inertia is irrelevant and all motion is...
Artificial microswimmers are micron-sized devices that can propel in viscous fluids. Their potentia...
Accurate prediction of the three-dimensional trajectories of micro/nano-swimmers is a key element as...
Bio-inspired micro-robots are of great importance as to implement versatile microsystems for a varie...
Autonomous micro-swimming robots can be utilized to perform specialized procedures such as in vitro ...
Microrobots can make a great impact in medical applications such as minimally-invasive surgery, scre...
Experiments are carried out with a cm-scale bio-mimetic swimming robot, which consists of a body and...
Micro swimming robots offer many advantages in biomedical applications, such as delivering potent dr...
Understanding trajectories of natural and artificial helical swimmers under confinement is importan...
Abstract — Microrobots can make a great impact in medical applications such as minimally-invasive su...
Real-time manipulation of objects in micro flows is important due to an ever increasing interest in...
State-of-the-art miniaturisation technologies are now boosting the development of endogenous medical...
Swimming microorganisms are a source of inspiration for small scale robots that are intended to oper...
Untethered swimming microrobots have many advantages for biomedical applications such as targeted dr...
Both biological micro-organisms and synthetic micro-robots propel through viscous liquids to achieve...
In the hydrodynamic environment of biological microorganisms inertia is irrelevant and all motion is...
Artificial microswimmers are micron-sized devices that can propel in viscous fluids. Their potentia...