This paper introduces a novel method supporting the interactive exploration of volumetric subsurface data. To facilitate better insights into the datasets we propose the application of focus and context visualization metaphors. Using these metaphors users can emphasize arbitrary parts of a dataset or remove occluding information interactively to focus on the region of interest. In addition to these visualization issues we will explain how the focus and context metaphors can be combined with VR-based interaction techniques to allow the efficient exploration within more immersive VR environments. In particular, we will discuss how to control the focus and context metaphor to highlight the region of interest in combination with the usage of vi...
Focus+context visualization is well-known from information visualization: cer-tain data subsets of s...
Hierarchical embeddings, such as HSNE, address critical visual and computational scalability issues ...
For the past few years, a multidisciplinary team of computer and earth scientists at Lawrence Berkel...
This paper introduces a novel method supporting the interactive exploration of volumetric subsurface...
Abstract. This paper presents a technique for fast and intuitive visual-ization and exploration of u...
International audienceIn this paper we evaluate one interaction method and four display techniques f...
Spatial scientific datasets are all around us, and 3D visualization is a powerful tool to explore de...
Illustrative techniques are a new and exciting direction in visualization research. Traditional tech...
During real-time medical data exploration using volume rendering, it is often difficult to enhance a...
Many traditional techniques for “looking inside ” volumetric data involve removing portions of the d...
International audienceIn the context of the IEEE VR 2022 3DUI Contest entitled “Arts,Science, Inform...
Abstract—The growing sizes of volumetric data sets pose a great challenge for interactive visualizat...
Information visualization (info vis) deals with how to increase the bandwidth of effective communica...
The growing sizes of volumetric data sets pose a great challenge for interactive visualization. In t...
Visualization applications are an increasingly significant component in the field of 3D geo-informat...
Focus+context visualization is well-known from information visualization: cer-tain data subsets of s...
Hierarchical embeddings, such as HSNE, address critical visual and computational scalability issues ...
For the past few years, a multidisciplinary team of computer and earth scientists at Lawrence Berkel...
This paper introduces a novel method supporting the interactive exploration of volumetric subsurface...
Abstract. This paper presents a technique for fast and intuitive visual-ization and exploration of u...
International audienceIn this paper we evaluate one interaction method and four display techniques f...
Spatial scientific datasets are all around us, and 3D visualization is a powerful tool to explore de...
Illustrative techniques are a new and exciting direction in visualization research. Traditional tech...
During real-time medical data exploration using volume rendering, it is often difficult to enhance a...
Many traditional techniques for “looking inside ” volumetric data involve removing portions of the d...
International audienceIn the context of the IEEE VR 2022 3DUI Contest entitled “Arts,Science, Inform...
Abstract—The growing sizes of volumetric data sets pose a great challenge for interactive visualizat...
Information visualization (info vis) deals with how to increase the bandwidth of effective communica...
The growing sizes of volumetric data sets pose a great challenge for interactive visualization. In t...
Visualization applications are an increasingly significant component in the field of 3D geo-informat...
Focus+context visualization is well-known from information visualization: cer-tain data subsets of s...
Hierarchical embeddings, such as HSNE, address critical visual and computational scalability issues ...
For the past few years, a multidisciplinary team of computer and earth scientists at Lawrence Berkel...