C. Schauer
Papers
5
Total Citations
101
H-Index
4
About
C. Schauer is a researcher whose work sits at the intersection of computational neuroscience, sensor fusion, and human-robot interaction. Drawing inspiration from neurophysiological principles, Schauer has made notable contributions to the development of biologically motivated perceptual systems for intelligent machines, with a particular focus on auditory and visual processing. Schauer's most recognized work, "An Approach to Multi-Modal Human–Machine Interaction for Intelligent Service Robots" (2003), has garnered 74 citations, reflecting its significance in advancing how robots perceive and respond to human presence. This research laid important groundwork for robust, multimodal interaction in service robotics — a field of growing practical relevance. Complementing this, Schauer developed computational models for early auditory-visual integration, including Amari neural field-based approaches to sensor fusion using microphone-camera configurations. These models aim to replicate the brain's ability to fuse spatial information across sensory modalities, enabling reliable attention mechanisms in artificial systems. Earlier work on binaural sound localization — achieving full 360-degree horizontal object detection — demonstrates Schauer's sustained commitment to biologically inspired engineering solutions. Across this body of work, Schauer has contributed a cohesive research vision: grounding robotic perception in neuroscience to create more naturalistic and effective human-machine systems.
Research Focus
Key Achievements
Top Papers
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- 3A Computational Model of Early Auditory-Visual Integration9 citations · 2003
- 4Model and application of a binaural 360° sound localization system6 citations · 2002
- 5