De Villiers, Johan P2010-09-102010-09-102010-06De Villiers, JP. 2010. Comparison of image sharpness metrics and real-time sharpening methods with GPU implementations. 7th International Conference on Computer Graphics, Virtual Reality, Visualisation and Interaction in Africa, Franschhoek, South Africa, 21-23 June 2010, pp 10978-1-4503-0118-3http://hdl.handle.net/10204/43507th International Conference on Computer Graphics, Virtual Reality, Visualisation and Interaction in Africa, Franschhoek, South Africa, 21-23 June 2010.Improving the quality of an image increases the probability, speed and accuracy with which possible objects of interest can be located and identified. Image sharpening, in particular, can correct for soft focus and strengthen the outlines of objects thus improving the identification and segmentation both by automatic means and by man in the loop systems. Output pixel independence is ensured so that a GPU can be used to sharpen the pixels in parallel, achieving processing performance increases of 20-360 folds. This work provides a metric which can quantify the sharpness of an image and shows that the sharpness of live video can easily be doubled in real-time on commercial desktop computers without inducing excessive noise.enImage sharpnessImage sharpeningGPUReal-time sharpeningComputer graphicsVirtual realityConference PresentationDe Villiers, J. P. (2010). Comparison of image sharpness metrics and real-time sharpening methods with GPU implementations. Association for Computing Machinery. http://hdl.handle.net/10204/4350De Villiers, Johan P. "Comparison of image sharpness metrics and real-time sharpening methods with GPU implementations." (2010): http://hdl.handle.net/10204/4350De Villiers JP, Comparison of image sharpness metrics and real-time sharpening methods with GPU implementations; Association for Computing Machinery; 2010. http://hdl.handle.net/10204/4350 .TY - Conference Presentation AU - De Villiers, Johan P AB - Improving the quality of an image increases the probability, speed and accuracy with which possible objects of interest can be located and identified. Image sharpening, in particular, can correct for soft focus and strengthen the outlines of objects thus improving the identification and segmentation both by automatic means and by man in the loop systems. Output pixel independence is ensured so that a GPU can be used to sharpen the pixels in parallel, achieving processing performance increases of 20-360 folds. This work provides a metric which can quantify the sharpness of an image and shows that the sharpness of live video can easily be doubled in real-time on commercial desktop computers without inducing excessive noise. DA - 2010-06 DB - ResearchSpace DP - CSIR KW - Image sharpness KW - Image sharpening KW - GPU KW - Real-time sharpening KW - Computer graphics KW - Virtual reality LK - https://researchspace.csir.co.za PY - 2010 SM - 978-1-4503-0118-3 T1 - Comparison of image sharpness metrics and real-time sharpening methods with GPU implementations TI - Comparison of image sharpness metrics and real-time sharpening methods with GPU implementations UR - http://hdl.handle.net/10204/4350 ER -