Tolerance: Challenge, Perception, and Social Stigmas Defined through Visual Communications.

Bryant, Ursula Moore

05 May 2007

My explorations and journey through life have led me to discover a connection in my work and responsibility as a visual communicator. My objective of communicating challenge, perception, and social stigmas through informed stories of individual lives is to provoke questions and spark moments of awareness in viewers. With this supporting manuscript, I hope to inform about my motivations through time including my personal, artistic, and historical influences. I will define graphic design as a fine art through the evaluation of artistic movements. I also intend to discuss design as a language and build a case for social awareness. Evaluating the process of my work will enlighten the technical aspects of my unique aesthetic and prove the success of my intention.

Social Issues

Social Awareness

Social Stigmas

Photography

Typography

Graphic Design

Fine Art

Art

Visual Communications

Art and Design

Arts and Humanities

Fine Arts

Graphic Design

Photography

SSIM-Inspired Quality Assessment, Compression, and Processing for Visual Communications

Rehman, Abdul

January 2013

Objective Image and Video Quality Assessment (I/VQA) measures predict image/video quality as perceived by human beings - the ultimate consumers of visual data. Existing research in the area is mainly limited to benchmarking and monitoring of visual data. The use of I/VQA measures in the design and optimization of image/video processing algorithms and systems is more desirable, challenging and fruitful but has not been well explored. Among the recently proposed objective I/VQA approaches, the structural similarity (SSIM) index and its variants have emerged as promising measures that show superior performance as compared to the widely used mean squared error (MSE) and are computationally simple compared with other state-of-the-art perceptual quality measures. In addition, SSIM has a number of desirable mathematical properties for optimization tasks. The goal of this research is to break the tradition of using MSE as the optimization criterion for image and video processing algorithms. We tackle several important problems in visual communication applications by exploiting SSIM-inspired design and optimization to achieve significantly better performance. Firstly, the original SSIM is a Full-Reference IQA (FR-IQA) measure that requires access to the original reference image, making it impractical in many visual communication applications. We propose a general purpose Reduced-Reference IQA (RR-IQA) method that can estimate SSIM with high accuracy with the help of a small number of RR features extracted from the original image. Furthermore, we introduce and demonstrate the novel idea of partially repairing an image using RR features. Secondly, image processing algorithms such as image de-noising and image super-resolution are required at various stages of visual communication systems, starting from image acquisition to image display at the receiver. We incorporate SSIM into the framework of sparse signal representation and non-local means methods and demonstrate improved performance in image de-noising and super-resolution. Thirdly, we incorporate SSIM into the framework of perceptual video compression. We propose an SSIM-based rate-distortion optimization scheme and an SSIM-inspired divisive optimization method that transforms the DCT domain frame residuals to a perceptually uniform space. Both approaches demonstrate the potential to largely improve the rate-distortion performance of state-of-the-art video codecs. Finally, in real-world visual communications, it is a common experience that end-users receive video with significantly time-varying quality due to the variations in video content/complexity, codec configuration, and network conditions. How human visual quality of experience (QoE) changes with such time-varying video quality is not yet well-understood. We propose a quality adaptation model that is asymmetrically tuned to increasing and decreasing quality. The model improves upon the direct SSIM approach in predicting subjective perceptual experience of time-varying video quality.

Structural Similarity

Image Quality Assessment

Video Coding

Video Quality Assessment

Image Processing

Image Denoising

Video Compression

Image Restoration

Perceptual Quality Optimization

Visual Communications

Electrical and Computer Engineering

SSIM-Inspired Quality Assessment, Compression, and Processing for Visual Communications

Rehman, Abdul

January 2013

Objective Image and Video Quality Assessment (I/VQA) measures predict image/video quality as perceived by human beings - the ultimate consumers of visual data. Existing research in the area is mainly limited to benchmarking and monitoring of visual data. The use of I/VQA measures in the design and optimization of image/video processing algorithms and systems is more desirable, challenging and fruitful but has not been well explored. Among the recently proposed objective I/VQA approaches, the structural similarity (SSIM) index and its variants have emerged as promising measures that show superior performance as compared to the widely used mean squared error (MSE) and are computationally simple compared with other state-of-the-art perceptual quality measures. In addition, SSIM has a number of desirable mathematical properties for optimization tasks. The goal of this research is to break the tradition of using MSE as the optimization criterion for image and video processing algorithms. We tackle several important problems in visual communication applications by exploiting SSIM-inspired design and optimization to achieve significantly better performance. Firstly, the original SSIM is a Full-Reference IQA (FR-IQA) measure that requires access to the original reference image, making it impractical in many visual communication applications. We propose a general purpose Reduced-Reference IQA (RR-IQA) method that can estimate SSIM with high accuracy with the help of a small number of RR features extracted from the original image. Furthermore, we introduce and demonstrate the novel idea of partially repairing an image using RR features. Secondly, image processing algorithms such as image de-noising and image super-resolution are required at various stages of visual communication systems, starting from image acquisition to image display at the receiver. We incorporate SSIM into the framework of sparse signal representation and non-local means methods and demonstrate improved performance in image de-noising and super-resolution. Thirdly, we incorporate SSIM into the framework of perceptual video compression. We propose an SSIM-based rate-distortion optimization scheme and an SSIM-inspired divisive optimization method that transforms the DCT domain frame residuals to a perceptually uniform space. Both approaches demonstrate the potential to largely improve the rate-distortion performance of state-of-the-art video codecs. Finally, in real-world visual communications, it is a common experience that end-users receive video with significantly time-varying quality due to the variations in video content/complexity, codec configuration, and network conditions. How human visual quality of experience (QoE) changes with such time-varying video quality is not yet well-understood. We propose a quality adaptation model that is asymmetrically tuned to increasing and decreasing quality. The model improves upon the direct SSIM approach in predicting subjective perceptual experience of time-varying video quality.

Structural Similarity

Image Quality Assessment

Video Coding

Video Quality Assessment

Image Processing

Image Denoising

Video Compression

Image Restoration

Perceptual Quality Optimization

Visual Communications

Electrical and Computer Engineering

La figure de l’atome, paradigme de la vulgarisation scientifique

Casanova, Hugo L.

11 1900

Un cadre d’analyse des figures utilisées dans la vulgarisation de la connaissance scientifique est développé suivant la sémiotique de Charles S. Peirce et la méthode archéologique de Michel Foucault. Ce cadre est appliqué spécifiquement à l’analyse de figures de l’atome recensées systématiquement dans deux revues de science populaires. Des recommandations découlant de notre analyse sont faites. / An analytical framework for the study of images used in the popularization of scientific knowledge is developped from the semiotics of Charles S. Peirce and the archeological method of Michel Foucault. This framework is applied specifically to figures of the atom found in a systematic study of two popular science magazines. Recommendations emerging from our analysis are offered.

Charles S. Peirce

Michel Foucault

vulgarisation

figure

atome

communication visuelle

représentation

paradigme

sémiotique

popularization

visual communications

semiotic

paradigm

atom

La figure de l’atome, paradigme de la vulgarisation scientifique

Casanova, Hugo L.

11 1900

Un cadre d’analyse des figures utilisées dans la vulgarisation de la connaissance scientifique est développé suivant la sémiotique de Charles S. Peirce et la méthode archéologique de Michel Foucault. Ce cadre est appliqué spécifiquement à l’analyse de figures de l’atome recensées systématiquement dans deux revues de science populaires. Des recommandations découlant de notre analyse sont faites. / An analytical framework for the study of images used in the popularization of scientific knowledge is developped from the semiotics of Charles S. Peirce and the archeological method of Michel Foucault. This framework is applied specifically to figures of the atom found in a systematic study of two popular science magazines. Recommendations emerging from our analysis are offered.

Charles S. Peirce

Michel Foucault

vulgarisation

figure

atome

communication visuelle

représentation

paradigme

sémiotique

popularization

visual communications

semiotic

paradigm

atom