We present a scheme for accelerating hybrid continuum-atomistic models in multiscale fluidic systems by using Gaussian process regression as a surrogate model for computationally expensive molecular dynamics simulations. Using Gaussian process regression, we are able to accurately predict atomic-scale information purely by consideration of the macroscopic continuum-model inputs and outputs and judge on the fly whether the uncertainty of our prediction is at an acceptable level, else a new molecular simulation is performed to continually augment the database, which is never required to be complete. This provides a substantial improvement over the current generation of hybrid methods, which often require many similar atomistic simulations to ...
This paper extends the hybrid computational method proposed by Docherty et al. (2014) for simulating...
AbstractWe develop and apply an efficient multiscale method for simulating a large class of low-spee...
Molecular modelling of meso- and nanoscale dynamics is concerned with length and time scales that a...
AbstractWe present a new hybrid method for simulating dense fluid systems that exhibit multiscale be...
We present an internal-flow multiscale method (‘unsteady-IMM’) for compressible, time-varying/unstea...
We present a new hybrid method for simulating dense fluid systems that exhibit multiscale behaviour,...
This paper was presented at the 2nd Micro and Nano Flows Conference (MNF2009), which was held at Bru...
We present a hybrid molecular-continuum method for the simulation of general nanofluidic networks of...
One of the most important developments in the last centuries is the process of miniaturisation and u...
AbstractThis paper extends the hybrid computational method proposed by Docherty et al. (2014) for si...
This work focuses on the review of particle-based multiscale and hybrid methods that have surfaced i...
We present a hybrid molecular-continuum method for the simulation of general nano-fluidic networks, ...
Advances in micro and nanofluidics have influenced technological developments in several areas, incl...
A hybrid multiscale method is developed for simulating micro- and nano-scale fluid flows. The contin...
AbstractNano- and microscale flow phenomena turn out to be highly non-trivial for simulation and req...
This paper extends the hybrid computational method proposed by Docherty et al. (2014) for simulating...
AbstractWe develop and apply an efficient multiscale method for simulating a large class of low-spee...
Molecular modelling of meso- and nanoscale dynamics is concerned with length and time scales that a...
AbstractWe present a new hybrid method for simulating dense fluid systems that exhibit multiscale be...
We present an internal-flow multiscale method (‘unsteady-IMM’) for compressible, time-varying/unstea...
We present a new hybrid method for simulating dense fluid systems that exhibit multiscale behaviour,...
This paper was presented at the 2nd Micro and Nano Flows Conference (MNF2009), which was held at Bru...
We present a hybrid molecular-continuum method for the simulation of general nanofluidic networks of...
One of the most important developments in the last centuries is the process of miniaturisation and u...
AbstractThis paper extends the hybrid computational method proposed by Docherty et al. (2014) for si...
This work focuses on the review of particle-based multiscale and hybrid methods that have surfaced i...
We present a hybrid molecular-continuum method for the simulation of general nano-fluidic networks, ...
Advances in micro and nanofluidics have influenced technological developments in several areas, incl...
A hybrid multiscale method is developed for simulating micro- and nano-scale fluid flows. The contin...
AbstractNano- and microscale flow phenomena turn out to be highly non-trivial for simulation and req...
This paper extends the hybrid computational method proposed by Docherty et al. (2014) for simulating...
AbstractWe develop and apply an efficient multiscale method for simulating a large class of low-spee...
Molecular modelling of meso- and nanoscale dynamics is concerned with length and time scales that a...