Visual Analytics of Video Data

Visual Analytics of Video Data

RTEmagicC_structure.png

 

Scalable Visual Analytics for Video Data” is a project funded by the Deutsche Forschungsgemeinschaft (German Research Foundation) in the context of the priority program “Scalable Visual Analytics: Interactive Visual Analysis Systems of Complex Information Spaces” (1335) and started in the middle of 2008. The project is a collaboration of the Visualization Research Center, Universität Stuttgart and the Intelligent Systems Group of the University of Stuttgart.


A substantial amount of electronic data that is acquired on a regular basis is in the form of video data. A typical example is the continuous data input from closed circuit television (CCTV) cameras. The current practice of directly viewing video footage does not scale well with the amount of video because it permanently requires user attention even for, in most parts, uninteresting video material. The main goal of this project is to support users in the interactive analysis of video data in order to efficiently identify and understand regular and irregular behavior in video recordings. One challenge is that irregular behavior cannot be completely defined beforehand and, therefore, fully automatic computer vision techniques cannot provide a complete analysis. Another challenge is the difficulty of interpreting image data of complex scenarios that is often affected by noise and that contains only partial image information due to occlusion. Our strategy is to combine partially automatic image analysis with visualization and interaction: in this way, ambiguities and uncertainties in computer-based video analysis can be resolved by the human users with their excellent capabilities of interpreting image data and identifying structure. By integrating the applicants’ expertise in computer vision, visualization, perception oriented graphics, and interactive systems, this project has the goal of a scalable visual analytics tool for video which allows for video analysis on various levels of abstraction and which supports single camera and multiple camera CCTV setups.

 

 

Supplementary Material

SABS: Stuttgart Artificial Background Subtraction Dataset
Interactive Schematic Summaries
Fast-Forward Video Visualization and Adaptive Fast-Forward Techniques
IEEE VAST Challenge 2009: Video Analysis & Grand Challenge
Interactive Auditory Display to Support Situational Awareness in Video Surveillance
Inter-active Learning of Ad-Hoc Classifiers for Video Visual Analytics

 

To the top of the page