Open AccessProgress Toward Sonifying Napoleon’s March and Fluid Flow Simulations Through Binaural Horizons
Author(s) -
Peter Coppin,
Richard C. Windeyer,
Daniel E. MacDonald,
David A. Steinman
Publication year - 2017
Language(s) - English
Resource type - Conference proceedings
DOI - 10.21785/icad2017.042
Subject(s) - computer science , binaural recording , plane (geometry) , horizontal plane , modal , sonification , translation (biology) , acoustics , sound localization , human–computer interaction , flow (mathematics) , analytics , speech recognition , artificial intelligence , computer vision , data science , engineering , mechanical engineering , physics , mathematics , biochemistry , chemistry , geometry , messenger rna , polymer chemistry , gene , mechanics
Cross-modal data analytics—that can be rendered for experience through vision, hearing, and touch—poses a fundamental challenge to designers. Non-linguistic sonification is a well-researched means for non-visual pattern recognition but higher density datasets pose a challenge. Because human hearing is optimized for detecting locations on a horizontal plane, our approach recruits this optimization by employing an immersive binaural horizontal plane using auditory icons. Two case studies demonstrate our approach: A sonic translation of a map and a sonic translation of a computational fluid dynamics simulation.
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