This manuscript presents a topology-based analysis and visualization framework that enables the effective exploration of feature evolution in large-scale simulations. Such simulations pose additional challenges to the already complex task of feature tracking and visualization, since the vast number of features and the size of the simulation data make it infeasible to naively identify, track, analyze, render, store, and interact with data. The presented methodology addresses these issues via three core contributions. First, the manuscript defines a novel topological abstraction, called the Nested Tracking Graph (NTG), that records the temporal evolution of features that exhibit a nesting hierarchy, such as superlevel set components for multi...
International audienceThis paper presents a topology-based representation dedicated to complex indoo...
Scientists studying the dynamics of objects can use these visualization techniques to extract object...
Simulations of dynamic bi-stable spatial systems usually generate large and complex data that are ha...
Large-scale simulations are increasingly being used to study complex scientific and engineering phen...
This work describes an approach for the interactive visual analysis of large-scale simulations, wher...
Tracking graphs are a well established tool in topological analysis to visualize the evolution of co...
Understanding the temporal evolution of topological features by means of tracking graphs is a common...
Recent development in the design of multi-dimensional transfer functions allows us to automatically ...
Defining high-level features, detecting them, tracking them and deriving quantities based on them is...
The temporal evolution of real world systems can mathematically be described by dynamical systems. G...
This thesis is about visualizing a kind of data that is trivial to process by computers but difficul...
textData visualization techniques use computational modeling and rendering methods to aid scientifi...
This system paper presents the Topology ToolKit (TTK), a software platform designed for the topologi...
Exploring and analyzing the temporal evolution of features in large-scale time-varying datasets is a...
This thesis discusses several applications of computational topology to the visualization of scalar...
International audienceThis paper presents a topology-based representation dedicated to complex indoo...
Scientists studying the dynamics of objects can use these visualization techniques to extract object...
Simulations of dynamic bi-stable spatial systems usually generate large and complex data that are ha...
Large-scale simulations are increasingly being used to study complex scientific and engineering phen...
This work describes an approach for the interactive visual analysis of large-scale simulations, wher...
Tracking graphs are a well established tool in topological analysis to visualize the evolution of co...
Understanding the temporal evolution of topological features by means of tracking graphs is a common...
Recent development in the design of multi-dimensional transfer functions allows us to automatically ...
Defining high-level features, detecting them, tracking them and deriving quantities based on them is...
The temporal evolution of real world systems can mathematically be described by dynamical systems. G...
This thesis is about visualizing a kind of data that is trivial to process by computers but difficul...
textData visualization techniques use computational modeling and rendering methods to aid scientifi...
This system paper presents the Topology ToolKit (TTK), a software platform designed for the topologi...
Exploring and analyzing the temporal evolution of features in large-scale time-varying datasets is a...
This thesis discusses several applications of computational topology to the visualization of scalar...
International audienceThis paper presents a topology-based representation dedicated to complex indoo...
Scientists studying the dynamics of objects can use these visualization techniques to extract object...
Simulations of dynamic bi-stable spatial systems usually generate large and complex data that are ha...