This book presents state-of-the-art computational attention models that have been successfully tested in diverse application areas and can build the foundation for artificial systems to efficiently explore, analyze, and understand natural scenes. It gives a comprehensive overview of the most recent computational attention models for processing visual and acoustic input. It covers the biological background of visual and auditory attention, as well as bottom-up and top-down attentional mechanisms and discusses various applications. In the first part new approaches for bottom-up visual and acoustic saliency models are presented and applied to the task of audio-visual scene exploration of a robot. In the second part the influence of top-down cu...
In multimodal realistic environments, audition and vision are the prominent two sensory modalities t...
In this paper we propose an biologically in-spired attention-based vision system for the JAST intera...
Multimodal attention is a key requirement for humanoid robots in order to navigate in complex enviro...
Robotic systems have limited computational capacities. Hence, computational attention models are imp...
This thesis has presented a computational model for the combination of bottom-up and top-down attent...
Abstract—This paper presents an architecture extending bottom-up visual attention for dynamic scene ...
Abstract. We introduce a computational model of sensor fusion based on the topographic representatio...
UnrestrictedHumans can precisely process and interpret complex scenes in real time despite the treme...
AbstractIn this article we explore the current avenues and future applications of visual attentional...
Abstract—Modeling visual attention—particularly stimulus-driven, saliency-based attention—has been a...
Narayan V, Tscherepanow M, Wrede B. Impact of Real-time Visual Attention on Computer Vision Products...
Visual attention is a crucial skill in human beings in that it allows optimal deployment of visual p...
An adaptive attention mechanism is a requirement when an autonomous robot has to deal with real worl...
Computational auditory scene analysis (CASA) focuses on the problem of building machines able to un...
Although human perception appears to be automatic and unconscious, com-plex sensory mechanisms exist...
In multimodal realistic environments, audition and vision are the prominent two sensory modalities t...
In this paper we propose an biologically in-spired attention-based vision system for the JAST intera...
Multimodal attention is a key requirement for humanoid robots in order to navigate in complex enviro...
Robotic systems have limited computational capacities. Hence, computational attention models are imp...
This thesis has presented a computational model for the combination of bottom-up and top-down attent...
Abstract—This paper presents an architecture extending bottom-up visual attention for dynamic scene ...
Abstract. We introduce a computational model of sensor fusion based on the topographic representatio...
UnrestrictedHumans can precisely process and interpret complex scenes in real time despite the treme...
AbstractIn this article we explore the current avenues and future applications of visual attentional...
Abstract—Modeling visual attention—particularly stimulus-driven, saliency-based attention—has been a...
Narayan V, Tscherepanow M, Wrede B. Impact of Real-time Visual Attention on Computer Vision Products...
Visual attention is a crucial skill in human beings in that it allows optimal deployment of visual p...
An adaptive attention mechanism is a requirement when an autonomous robot has to deal with real worl...
Computational auditory scene analysis (CASA) focuses on the problem of building machines able to un...
Although human perception appears to be automatic and unconscious, com-plex sensory mechanisms exist...
In multimodal realistic environments, audition and vision are the prominent two sensory modalities t...
In this paper we propose an biologically in-spired attention-based vision system for the JAST intera...
Multimodal attention is a key requirement for humanoid robots in order to navigate in complex enviro...