University Academic Fellow in Affective Design Technologies
0113 343 3702
Clothworkers' Building South 2.07
Dr Kaida Xiao received his PhD from Colour and Imaging Institute, University of Derby, working in colour appearance modelling. He worked in Samsung Advanced Institute of Technology in Korea, at Tru-Colour Ltd., the University of Sheffield, the University of Liverpool and is now a University Academic Fellow in the University of Leeds and a Visiting Professor in the University of Science and Technology Liaoning, China. His research interests are related to 3D colour image reproduction, 3D colour printing, medical image capture and analysis, colour appearance modelling and image quality enhancement.
(2017) “Improved computation of the adaptation coefficient in the CIE system of mesopic photometry”, Optics Express. 25.15: 18365-18377.
DOI: 10.1364/OE.25.018365, Repository URL: http://eprints.whiterose.ac.uk/119719/
(2017) “Gamut Volume Index: A color preference metric based on meta-analysis and optimized colour samples”, Optics Express. 25.14: 16378-16391.
DOI: 10.1364/OE.25.016378, Repository URL: http://eprints.whiterose.ac.uk/118634/
(2017) “A comprehensive model of colour appearance for related and unrelated colours of varying size viewed under mesopic to photopic conditions”, Color Research and Application. 42.3: 293-304.
DOI: 10.1002/col.22078, Repository URL: http://eprints.whiterose.ac.uk/104254/
(2017) “Light dominates colour preference when correlated colour temperature differs”, Lighting Research and Technology.
DOI: 10.1177/1477153517713542, Repository URL: http://eprints.whiterose.ac.uk/117933/
(2017) “Characterising the variations in ethnic skin colours: a new calibrated data base for human skin”, Skin Research and Technology. 23.1: 21-29.
DOI: 10.1111/srt.12295, Repository URL: http://eprints.whiterose.ac.uk/100718/
(2015) “Unique hue data for colour appearance models. Part III: Comparison with NCS unique hues”, Color Research and Application. 40.3: 256-263.
(2014) “The achromatic locus: Effect of navigation direction in color space”, Journal of Vision. 14.1
(2014) “Developing a 3D colour image reproduction system for additive manufacturing of facial prostheses”, International Journal of Advanced Manufacturing Technology. 70.9-12: 2043-2049.
(2013) “Color reproduction for advanced manufacture of soft tissue prostheses”, Journal of Dentistry. 41.SUPPL.5
(2013) “Unique hue data for colour appearance models. Part II: Chromatic adaptation transform”, Color Research and Application. 38.1: 22-29.
(2012) “Colour management system for displaying microscope images”, Displays. 33.4-5: 214-220.
(2012) “Investigation of Chinese skin colour and appearance for skin colour reproduction”, Chinese Optics Letters. 10.8
(2012) “Colour size effect modelling”, Color Research and Application. 37.1: 4-12.
(2012) “Blue-green color categorization in Mandarin-English speakers”, Journal of the Optical Society of America A: Optics and Image Science, and Vision. 29.2
(2011) “Unique hue data for colour appearance models. Part I: Loci of unique hues and hue uniformity”, Color Research and Application. 36.5: 316-323.
(2011) “Investigation of colour size effect for colour appearance assessment”, Color Research and Application. 36.3: 201-209.
(2011) “Investigation of unique hue setting changes with ageing”, Chinese Optics Letters. 9.5
(2011) “Visual gamma correction for LCD displays”, Displays. 32.1: 17-23.
(2010) “Colour-opponent mechanisms are not affected by age-related chromatic sensitivity changes”, Ophthalmic and Physiological Optics. 30.5: 653-659.
(2010) “Colour appearance of room colours”, Color Research and Application. 35.4: 284-293.
(2016) “Colour Image Reproduction for 3D Printing Facial Prostheses”, In: Shishkovsky IV (eds.) New Trends in 3D Printing. InTech. 89-109
DOI: 10.5772/63339, Repository URL: http://eprints.whiterose.ac.uk/102504/
(2015) “Color Vision, Opponent Theory”, In: luo M (eds.) Encyclopedia of Color Science and Technology. Springer.
(2002) “A Topographic Gamut Mapping Algorithm”, In: MacDonlad LW; luo MR (eds.) Colour Image Science Exploiting Digital Media. Wiley.
(2016) The colour shifting of measuring human skin colour use different instruments. Proceedings: Lecture Notes in Electrical Engineering 369: 9-15.
(2016) Measuring human skin colour. Proceedings: Final Program and Proceedings - IS and T/SID Color Imaging Conference 2015-January.1 of 1: 230-234.
Repository URL: http://eprints.whiterose.ac.uk/91398/
(2016) SKIN COLOUR MEASUREMENT BY USING NON-CONTACT METHODS. Proceedings: PROCEEDINGS OF CIE 2016 LIGHTING QUALITY AND ENERGY EFFICIENCY : 487-492.
(2015) Measuring human skin colour. Proceedings: Final Program and Proceedings - IS and T/SID Color Imaging Conference 2015-January.1 of 1: 230-234.
(2014) Principal component analysis for skin reflectance reconstruction. Proceedings: Final Program and Proceedings - IS and T/SID Color Imaging Conference 2014-January.January: 146-150.
(2013) Developing a 3D colour reproduction system for additive manufacturing of facial prostheses. Proceedings: Final Program and Proceedings - IS and T/SID Color Imaging Conference : 206-209.
(2011) Locating unique hues under mixed illumination conditions in CIECAM02. Proceedings: Final Program and Proceedings - IS and T/SID Color Imaging Conference : 94-97.
(2008) Investigation of image immersive enhancement. Proceedings: Society for Imaging Science and Technology - 4th European Conference on Colour in Graphics, Imaging, and Vision and 10th International Symposium on Multispectral Colour Science, CGIV 2008/MCS'08 : 158-161.
(2006) Colour characterisation for digital microscope. Proceedings: CGIV 2006 - 3rd European Conference on Colour in Graphics, Imaging, and Vision, Final Program and Proceedings : 172-175.
(2004) Colour appearance for dissimilar sizes. Proceedings: CGIV 2004 - Second European Conference on Color in Graphics, Imaging, and Vision and Sixth International Symposium on Multispectral Color Science : 12-16.
(2003) Specifying the Colour Appearance of a Real Room. Proceedings: Final Program and Proceedings - IS and T/SID Color Imaging Conference : 308-312.
(2001) Evaluation of colour gamut mapping algorithms. Proceedings: Proceedings of SPIE - The International Society for Optical Engineering 4421: 890-893.
(2000) A topographic gamut mapping algorithm based on experimental observer data. Proceedings: Final Program and Proceedings - IS and T/SID Color Imaging Conference : 311-317.
Research Projects & Grants
2017, Clothworkers Innovation Fund, Proof of Market, Life like skin colour chart, £9921
- National representative of Great Britain for CIE Division 8, Image Technology
- Chair of CIE Technique Committee TC 8-17: Methods for Evaluating Colour Difference between 3D Colour Objects
- Chair of CIE Technique Committee TC 1-92: Skin Colour Database,
- Project coordinator of activity in International Color Consortium: Medical Imaging Workgroup – Imaging and reproduction of skin
- Editorial Board Color Research and Application