Skip to main content

Research Repository

Advanced Search

All Outputs (10)

Transfer between two- and three-dimensional representations of faces (2006)
Journal Article
Liu, C. H., Ward, J., & Young, A. W. (2006). Transfer between two- and three-dimensional representations of faces. Visual Cognition, 13(1), 51-64. https://doi.org/10.1080/13506280500143391

Because stereoscopic depth cues are not present in an ordinary photograph, matching a two-dimensional (2-D) photograph to a three-dimensional (3-D) face requires establishing a correspondence between information derived from monocular depth cues and... Read More about Transfer between two- and three-dimensional representations of faces.

Face recognition in pictures is affected by perspective transformation but not by the centre of projection (2006)
Journal Article
Liu, C. H., & Ward, J. (2006). Face recognition in pictures is affected by perspective transformation but not by the centre of projection. Perception, 35(12), 1637-1650. https://doi.org/10.1068/p5545

Recognition of unfamiliar faces is susceptible to image differences caused by angular sizes subtended from the face to the camera. Research on perception of cubes suggests that apparent distortions of a shape due to large camera angle are correctable... Read More about Face recognition in pictures is affected by perspective transformation but not by the centre of projection.

Entanglement transition of randomly branched polymers in the hyperbranched class (2006)
Journal Article
Kunamaneni, S., Buzza, D. M. A., Read, D. J., Parker, D., Kenwright, A. M., Feast, W. J., & Larsen, A. L. (2006). Entanglement transition of randomly branched polymers in the hyperbranched class. Macromolecules, 39(19), 6720-6736. https://doi.org/10.1021/ma0603276

We study the melt rheology of randomly branched polymers in the hyperbranched polymer (HBP) class which are formed by the co-condensation of AB and AB2 type monomers. Specifically, we study the effect of branch length Mx on the entanglement transitio... Read More about Entanglement transition of randomly branched polymers in the hyperbranched class.

MO‐D‐230A‐02: an immersive virtual environment for training of radiotherapy students and developing clinical experience (2006)
Journal Article
Beavis, A., Ward, J., Bridge, P., Appleyard, R., & Phillips, R. (2006). MO‐D‐230A‐02: an immersive virtual environment for training of radiotherapy students and developing clinical experience. Medical physics, 33(6 part 15), 2164-2165. https://doi.org/10.1118/1.2241428

Purpose: Radiotherapy equipment and techniques are rapidly developing and so efficient training is invaluable. However, the demands on clinical systems and the lack of trained personnel make it difficult to achieve. As an alternative approach we have... Read More about MO‐D‐230A‐02: an immersive virtual environment for training of radiotherapy students and developing clinical experience.

The polynomial degree of the Grassmannian G1,n,2 (2006)
Journal Article
Shaw, R., & Gordon, N. A. (2006). The polynomial degree of the Grassmannian G1,n,2. Designs, codes, and cryptography, 39(2), 289-306. https://doi.org/10.1007/s10623-005-4524-4

For a subset ψ of PG(N, 2) a known result states that ψ has polynomial degree ≤ r, r ≤ N, if and only if ψ intersects every r-flat of PG(N, 2) in an odd number of points. Certain refinements of this result are considered, and are then applied in the... Read More about The polynomial degree of the Grassmannian G1,n,2.

Systemic arterial pressure wave reflections during acute hemorrhage (2006)
Journal Article
Dark, P., Little, R., Nirmalan, M., & Purdy, J. (2006). Systemic arterial pressure wave reflections during acute hemorrhage. Critical Care Medicine, 34(5), 1497-1505. https://doi.org/10.1097/01.CCM.0000215451.26971.89

Objective: To determine the effects of hemorrhage on wave-reflection-induced systolic pressure augmentation in the aorta. Design: Randomized, controlled laboratory experiment. Setting. University research laboratory. Subjects: Twenty-five anesthetize... Read More about Systemic arterial pressure wave reflections during acute hemorrhage.