Taipei, Monday, Dec 18, 2017, 09:10

Technology Front

World’s First Stereo-AEC Linear Far-field Voice Kit for Smart Devices

Published: Dec 04,2017

186 Read

XMOS announced the XVF3500 voice processor which supports stereo-AEC, along with the world’s first stereo AEC far-field linear microphone array solution, the VocalFusion Stereo Evaluation Kit (XK-VF3500-L33).

The XVF3500 voice processor delivers 2-channel full duplex acoustic echo cancellation (AEC). The solution is designed for developers working in the growing voice-enabled smart TV, soundbar, set-top box, and digital media adapter markets, all of which require stereo-AEC support for “across the room” voice-interface solutions.

Uniquely, the solution also supports configurable AEC latency, where the AEC reference signals can be accurately calibrated, and the latency adjusted, to enable after-market far-field voice accessories for existing consumer electronics products.

Commenting on the announcement, Mark Lippett, President and CEO at XMOS said, “This device and evaluation kit will fuel further growth in the integration of embedded voice controlled devices at the edges of our rooms, particularly those used for high quality music and TV control. We are looking forward to showing this solution at CES in Las Vegas next month. We already have the most comprehensive portfolio of far-field voice capture solutions, and this announcement further consolidates that position.”

As with all other XMOS voice solutions, commands are accurately captured from across the room for processing by a cloud-based speech recognition system, even in complex acoustic environments. The XVF3500 voice processor delivers sophisticated voice digital signal processing (DSP) including a full duplex acoustic echo canceller (AEC) with barge-in capability that enables users to interrupt or pause a device that’s playing music, and an adaptive beamformer that follows a speaker. Additional sophisticated dereverberation, automatic gain control, and noise suppression provide crystal clear voice interaction experiences even in noisy environments.

comments powered by Disqus