Clarity in Motion: A Motion-Tolerant Aid for Selectively Hearing Acoustic Sources
Speech Technology/Applied Research Corp., Bedford MA
Investigators
Linked publications, trials & patents
Abstract
Noisy rooms with multiple moving sound sources create problems for hearing-impaired listeners. Unwanted masking sounds reduce the intelligibility of speech and other sounds listeners want to hear. âSource Separationâ signal processing methods are known that extract important sources and âscrubâ unwanted noise, but these methods typically require the acoustic sensors (microphones) and sources they process to be fixed in spaceâthe optimal separation solutions computed by such methods are position dependent. Movement degrades the quality of separation (QoS) of the computed separation solutions, and reconvergence following a change of position takes timeâoften tens of seconds. This constraint limits the practical utility of traditional separation methods. We propose a novel assistive listening system called CIM (âClarity in Motionâ) which is capable of maintaining an optimal separation of acoustic sources in real-world environments changing at âhumanâ speeds. CIM dramatically shortens the time required to reconverge separation solutions. CIM is designed for integration into NIHâs Open Speech Platform (OSP) initiative for hearing aids and personal audio devices. CIM leverages STARâs Multiple Algorithm Source Separation (MASS) application framework of âpluggableâ acoustic separation modules. MASS is compatible with OSP and is publicly available on GitHub. CIM is room-centric, sensor image-based, and listener-specific. Important system components are embedded in the room itself, rather than in the userâs ear (e.g. hearing aid). CIM delivers listener-specific audio to one or more users through their smartphones. CIM employs multiple microphones distributed around a room and connected to a CIM Room Server (a signal processing device) supporting all listeners. This Server pro- cesses the audio signals from these shared Room Mics to scrub unwanted sounds from private Listener Mics, which are typically hearing aid, cochlear implant, or other head-mounted mics specific to each listener. Each listener uses a CIM mobile device app to register their Listener Mic and specify which acoustic sources to scrub. The Room Server computes an individualized scrubbed audio stream for each listener and transmits it wirelessly to their Listener App. The Listener App outputs this stream to the listenerâs hearing aid, cochlear implant, or earbuds as a standard line level or current loop audio signal. The heart of CIMâs innovation resides in two separate proprietary techniques, described herein, for reducing the separation solution deconvergence (ÎQ) associated with source or sensor movements. In Phase I, we will characterize the relationship between ÎQ and relevant objective parameters of acoustic scenes; implement and quantitatively evaluate the contribution of our novel methods for reducing motion-induced deconvergence; and carry out a perceptual study of the relationship between movement- induced solution deconvergence and both listening effort and intelligibility judgements. The CIM system will help hearing-impaired listeners hear clearly in noisy rooms with moving sources.
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