Abstract—An automatic compression strategy proposed by Gergel et al. is a near-optimal lossy compression scheme for a given collection of similar images whose inter-image relationships are unknown. That algorithm uses the root mean square error (RMSE) as a measure of the similarity between two images. Since RMSE is a metric, provable guarantees on the quality of the decompressed images can be made. However, it is well known that the RMSE does not correspond well to the human visual system. Recently, Brunet et al. introduced a metric based on structural similarity (SSIM). In this work, we show that the application of a SSIM-based metric instead of RMSE in the lossy image set compression scheme give improvements on some types of image sets
Abstract—In this paper we examine the problem of bit allocation in lossy image set compression. Inst...
The structural similarity (SSIM) metric and its multi-scale ex-tension (MS-SSIM) evaluate visual qua...
In this work, the concept of structural encoding will be explained. A classification of different st...
The Mean Square Error (MSE) has shown its strength when applied in deep generative models such as Au...
Image data compression depends on the data complexity. We describe how to derive a similarity measur...
This paper focuses on an entropy based formalism to speed up the evaluation of the Structural SIMila...
Abstract. We derive mathematically a class of metrics for signals and images, considered as elements...
Abstract—A number of image set compression algorithms have been proposed in the literature. A key co...
Abstract. In this paper, we propose a novel image quality assessment (IQA) based on an Improved Stru...
Purpose To propose good practices for using the structural similarity metric (SSIM) and reporting i...
The structural similarity (SSIM) index has been shown to be a good perceptual image quality predicto...
This paper investigates the usefulness of the normalized compression distance (NCD) for image simila...
International audienceA crucial step in the assessment of an image compression method is the evaluat...
Abstract—Since its introduction in 2004, the structural simi-larity (SSIM) index has gained widespre...
With wide spread availability of digital cameras, smart phones and other imaging devices, large amou...
Abstract—In this paper we examine the problem of bit allocation in lossy image set compression. Inst...
The structural similarity (SSIM) metric and its multi-scale ex-tension (MS-SSIM) evaluate visual qua...
In this work, the concept of structural encoding will be explained. A classification of different st...
The Mean Square Error (MSE) has shown its strength when applied in deep generative models such as Au...
Image data compression depends on the data complexity. We describe how to derive a similarity measur...
This paper focuses on an entropy based formalism to speed up the evaluation of the Structural SIMila...
Abstract. We derive mathematically a class of metrics for signals and images, considered as elements...
Abstract—A number of image set compression algorithms have been proposed in the literature. A key co...
Abstract. In this paper, we propose a novel image quality assessment (IQA) based on an Improved Stru...
Purpose To propose good practices for using the structural similarity metric (SSIM) and reporting i...
The structural similarity (SSIM) index has been shown to be a good perceptual image quality predicto...
This paper investigates the usefulness of the normalized compression distance (NCD) for image simila...
International audienceA crucial step in the assessment of an image compression method is the evaluat...
Abstract—Since its introduction in 2004, the structural simi-larity (SSIM) index has gained widespre...
With wide spread availability of digital cameras, smart phones and other imaging devices, large amou...
Abstract—In this paper we examine the problem of bit allocation in lossy image set compression. Inst...
The structural similarity (SSIM) metric and its multi-scale ex-tension (MS-SSIM) evaluate visual qua...
In this work, the concept of structural encoding will be explained. A classification of different st...