Table of Contents

• Blind Image Quality Assessment Using Multiscale Local Binary PatternsPedro Garcia Freitas, Welington Y. L. Akamine, Mylène C. Q. Farias. 7-14 [doi]
• Dimension reduction-based attributes selection in no-reference learning-based image quality algorithmsChristophe Charrier, Abdelhakim Saadane, Christine Fernandez-Maloigne. 15-20 [doi]
• GPGPU based implementation of a high performing No Reference (NR) - IQA algorithm, BLIINDS-IIAman Yadav, Sohum Sohoni, Damon M. Chandler. 21-25 [doi]
• No-reference image contrast assessment based on just-noticeable-differenceMinsub Kim, Ki-Sun Song, Moon Gi Kang. 26-29 [doi]
• MS-UNIQUE: Multi-model and Sharpness-weighted Unsupervised Image Quality EstimationMohit Prabhushankar, Dogancan Temel, Ghassan Alregib. 30-35 [doi]
• Microarchitectural analysis of a GPU implementation of the Most Apparent Distortion image quality assessment algorithmVignesh Kannan, Joshua Holloway, Sohum Sohoni, Damon M. Chandler. 36-41 [doi]
• Image Quality Assessment by Comparing CNN Features between ImagesSeyed Ali Amirshahi, Marius Pedersen, Stella X. Yu. 42-51 [doi]
• Potential Contrast - A New Image Quality MeasureArie Shaus, Shira Faigenbaum-Golovin, Barak Sober, Eli Turkel. 52-58 [doi]
• Observer Calibrator for Color Vision ResearchZhen Zhou, Ben Grotton, Kevin Kruse, Alex Skinner, Antonio DoVale, Susan Farnand, Mark D. Fairchild. 59-63 [doi]
• Knowledge-based Taxonomic Scheme for Full-Reference Objective Image Quality Measurement ModelsAtidel Lahoulou, Mohamed-Chaker Larabi, Azeddine Beghdadi, Emmanuel Viennet, Ahmed Bouridane. 64-78 [doi]
• A RGB/NIR Data Set For Evaluating Dehazing AlgorithmsJulia Lüthen, Julian Wörmann, Martin Kleinsteuber, Johannes Steurer. 79-87 [doi]
• Towards the Development of the IEEE P1858 CPIQ Standard - A validation studyElaine W. Jin, Jonathan B. Phillips, Susan Farnand, Margaret Belska, Vinh Tran, Ed Chang, Yixuan Wang, Benjamin Tseng. 88-94 [doi]
• A methodology for perceptual image quality assessment of smartphone cameras - color qualitySusan Farnand, Young Jang, Lark Kwon Choi, Chuck Han. 95-99 [doi]
• Assessing the Ability of Simulated Laboratory Scenes to Predict the Image Quality Performance of HDR Captures (and Rendering) of Exterior Scenes Using Mobile Phone CamerasAmelia Spooner, Ashley Solter, Fernando Voltolini de Azambuja, Nitin Sampat, J. A. Stephen Viggiano, Brian G. Rodricks, Cheng Lu. 100-104 [doi]
• Reverse-Projection Method for Measuring Camera MTFStan Birchfield. 105-112 [doi]
• Texture MTF from images of natural scenesRiccardo Branca, Sophie Triantaphillidou, Peter D. Burns. 113-120 [doi]
• The Effects of misregistration on the dead leaves crosscorrelation texture blur analysisRobert C. Sumner, Ranga Burada, Noah Kram. 121-129 [doi]
• Towards a quantitative evaluation of multi-imaging systemsMartin Renaudin, Anna-Cecilia Vlachomitrou, Gabriele Facciolo, Wolf Hauser, Clement Sommelet, Clément Viard, Frédéric Guichard. 130-140 [doi]
• Resolution enhancement through superimposition of projected images - How to evaluate the quality?Svein Arne Jervell Hansen, Jon Yngve Hardeberg, Muhammad Nadeem Akram. 141-146 [doi]
• Evaluation of Major Factors Affecting Spatial Resolution of Gamma-Rays CameraHongwei Xie, Jinchuan Chen, Qiang Yi, Faqiang Zhang, Linbo Li. 147-151 [doi]
• Development and Image Quality Evaluation of 8K High Dynamic Range Cameras with Hybrid Log-GammaRyohei Funatsu, Kazuya Kitamura, Toshio Yasue, Daiichi Koide, Hiroshi Shimamoto. 152-158 [doi]
• Detection of streaks caused by dust in the sheetfed scannersDaulet Kenzhebalin, Xing Liu, Ni Yan, Peter Bauer, Jerry Wagner, Jan P. Allebach. 159-165 [doi]
• Feature ranking and selection used in a machine learning framework for predicting uniformity of printed pagesMinh Q. Nguyen, Jan P. Allebach. 166-173 [doi]
• Real-Time Print Quality DiagnosticsZuguang Xiao, Minh Nguyen, Eric Maggard, Mark Q. Shaw, Jan P. Allebach, Amy Reibman. 174-179 [doi]
• UHD Quality Analyses at Various Viewing ConditionsChulhee Lee, Sangwook Baek, S. Youn, Seongyoun Woo, J. Baek. 180-185 [doi]
• Image Quality Assessment for Holographic DisplayWontaek Seo, Hoon Song, Jungkwuen An, Juwon Seo, Geeyoung Sung, Yun-Tae Kim, Chil-Sung Choi, Sunil Kim, Hojung Kim, Yongkyu Kim, Young Kim, Yunhee Kim, Hong-Seok Lee, SungWoo Hwang. 186-190 [doi]
• Subjective viewer preference model for automatic HDR down conversionL. Lenzen, M. Christmann. 191-197 [doi]
• Towards Foveated Just Noticeable Difference Modeling for Virtual RealityYuqiao Deng, Yingxue Zhang, Daiqin Yang, Zhenzhong Chen. 198-201 [doi]
• A Framework for Auto-exposure Subjective ComparisonSeungseok Oh, Clayton Passmore, Bobby Gold, Taylor Skilling, Sean Pieper, Taek Kim, Margaret Belska. 202-208 [doi]
• Autofocus measurement for imaging devicesPierre Robisson, Jean-Benoit Jourdain, Wolf Hauser, Clément Viard, Frédéric Guichard. 209-218 [doi]
• Auto Focus Performance -What can we expect from todays cameras?Uwe Artmann. 219-226 [doi]
• Autofocus Analysis: Latency and SharpnessKatrina Passarella, Brett Frymire, Ed Chang. 227-230 [doi]
• Optical aberration correction of scanning holographic displayHyun-Eui Kim, Minsik Park, Hyon-Gon Choo, Jinwoong Kim. 231-234 [doi]
• Solid-Mottle Method for Measuring in Laser-PrintersDae-Gun Ko, Su-Han Song, Ki-Youn Lee, You-Sun Bang, Ki-Min Kang, Seong Wook Han. 235-240 [doi]