Real-time auralization of a talker’s own voice in virtual rooms

Abstract

While much has been done in the field of sound auralization in virtual rooms, the problem of hearing one’s own voice in these environments has received less attention. A robust and feasible system for real-time auralization of talkers who are also listeners is needed. To address this requirement, a real-time convolution system (RTCS) was designed with the specific goal of “placing” a talker/listener in virtual acoustic environments. This system necessitated the development of several tools and methods. Oral-binaural room impulse responses were measured and characterized for a variety of room. The RTCS improved on past systems, in part through the derivation and inclusion of compensation filters, which corrected the linear auditory distortions of the RTCS components. Objective measures in the time- and frequency-domains were developed to assess the validity of the system. A jury-based listening study also indicated that RTCS users could speak and listen to their own voices in the virtual acoustic environments in a natural manner.While much has been done in the field of sound auralization in virtual rooms, the problem of hearing one’s own voice in these environments has received less attention. A robust and feasible system for real-time auralization of talkers who are also listeners is needed. To address this requirement, a real-time convolution system (RTCS) was designed with the specific goal of “placing” a talker/listener in virtual acoustic environments. This system necessitated the development of several tools and methods. Oral-binaural room impulse responses were measured and characterized for a variety of room. The RTCS improved on past systems, in part through the derivation and inclusion of compensation filters, which corrected the linear auditory distortions of the RTCS components. Objective measures in the time- and frequency-domains were developed to assess the validity of the system. A jury-based listening study also indicated that RTCS users could speak and listen to their own voices in the virtual acoustic environme...