Compared with conventional color images, light field images (LFIs) contain richer scene information, which allows a wide range of interesting applications. However, such additional information is obtained at the cost of generating substantially more data, which poses challenges to both data storage and transmission. In this paper, we propose a new hybrid framework for effective compression of LFIs. The proposed framework takes the particular characteristics of LFIs into account so that the inter-and intra-view correlations of LFIs can be more efficiently exploited to produce better compression performance. Specifically, the proposed scheme partitions sub-Aperture images (SAIs) of an LFI into two groups, namely, key SAIs and non-key SAIs. Bi...
Light field cameras (or plenoptic cameras) made it possible to not only capture information about th...
International audienceLight fields (LFs) enable increasing the degree of realism and immersion of vi...
Light field acquisition technologies capture angular and spatial information ofthe scene. The spatia...
Light field (LF) acquisition technologies capture the spatial and angular information present in sce...
The acquisition of the spatial and angular information of a scene using light eld (LF) technologies ...
Over the years, the pursuit of capturing the precise visual information of a scenehas resulted in va...
Light field (LF) acquisition devices capture spatial and angular information of a scene. In contrast...
With the advent of light field acquisition technologies, the captured information of the scene is en...
International audienceLight field (LF) images provide rich visual information enabling amazing appli...
Recent imaging technologies are rapidly evolving for sampling richer and more immersive representati...
The massive amount of data usage for light field (LF) information poses grand challenges for efficie...
This paper proposes a novel efficient light field coding approach based on a hybrid data representat...
This paper proposes a novel light field image compression approach with viewpoint scalability and ra...
© 2019 Optical Society of America under the terms of the OSA Open Access Publishing Agreement. Advan...
Light field cameras (or plenoptic cameras) made it possible to not only capture information about th...
International audienceLight fields (LFs) enable increasing the degree of realism and immersion of vi...
Light field acquisition technologies capture angular and spatial information ofthe scene. The spatia...
Light field (LF) acquisition technologies capture the spatial and angular information present in sce...
The acquisition of the spatial and angular information of a scene using light eld (LF) technologies ...
Over the years, the pursuit of capturing the precise visual information of a scenehas resulted in va...
Light field (LF) acquisition devices capture spatial and angular information of a scene. In contrast...
With the advent of light field acquisition technologies, the captured information of the scene is en...
International audienceLight field (LF) images provide rich visual information enabling amazing appli...
Recent imaging technologies are rapidly evolving for sampling richer and more immersive representati...
The massive amount of data usage for light field (LF) information poses grand challenges for efficie...
This paper proposes a novel efficient light field coding approach based on a hybrid data representat...
This paper proposes a novel light field image compression approach with viewpoint scalability and ra...
© 2019 Optical Society of America under the terms of the OSA Open Access Publishing Agreement. Advan...
Light field cameras (or plenoptic cameras) made it possible to not only capture information about th...
International audienceLight fields (LFs) enable increasing the degree of realism and immersion of vi...
Light field acquisition technologies capture angular and spatial information ofthe scene. The spatia...