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Microkinetic modelling of catalytic processes

In our projects, in this area we employ quantum chemistry, molecular dynamics, laboratory experiment and kinetic modelling to produce fundamental, validated mechanisms. We employ th more...

Supervisor(s): Montoya, Alejandro (Dr)

Nano-Rheology and Nano-Tribology: Atomistic Simulation of Boundary Lubrication

 This research seeks to find practical ways to reduce friction in boundary lubrication regime by a novel virtual nano-tribometer/ nano-rheometer. more...

Supervisor(s): Jabbarzadeh, Ahmad (Dr)

Tribological properties of biopolymers in human joints

In this project we will use advanced molecular simulation techniques to model the lubrication process in synovial joints to shed light on these puzzles. more...

Supervisor(s): Jabbarzadeh, Ahmad (Dr)

Polymer Crystallization

Using advanced molecular simulation techniques the project seeks to establish the relationship between molecular structure and complex interplay of thermodynamic and processing para more...

Supervisor(s): Jabbarzadeh, Ahmad (Dr)

High performance computational nanotechnology

This project seeks to develop these techniques for molecular simulations of liquid and solid states using parallel computational techniques. The developed algorithms will be used on more...

Supervisor(s): Jabbarzadeh, Ahmad (Dr)

Intelligent Multimodality Molecular Image Segmentation

Automated segmentation of major structures, tissues, and volume of interest (VOI) from PET/CT images new knowledge from information technologies. more...

Supervisor(s): Feng, David (Professor)

Geodesic SOM: a spherical Self-Organizing Map

The investigation of new data structures and learning algorithms to improve a Self-Organizing Map for the purpose of Visual Analytics. more...

Supervisor(s): Takatsuka, Masahiro (Associate Professor)

n-Dimensional path planning using the Self-Organizing Maps

This project investigates an application of the Distance Transformation method to the n-dimensional path planning problem. more...

Supervisor(s): Takatsuka, Masahiro (Associate Professor)

Computer Vision-based direct interaction with a large display

This project investigates a natural Human-Computer Interaction system to support direct interaction with a large display system. more...

Supervisor(s): Takatsuka, Masahiro (Associate Professor)

Interactive Volumetric Rendering method using Contour Tree Simplification

This project investigates new methods to efficiently render volumetric data based on the region of interests. more...

Supervisor(s): Takatsuka, Masahiro (Associate Professor)