Release Notes - 2020A

URL: https://github.com/nihospr01/OpenSpeechPlatform-UCSD/tree/2020a

Transducers

This release includes professionally designed housings for BTE-RICS, comparable to some commercial hearing aids. This new improved design has: 2-piece chassis, 2-piece outer shell, revised strain relief at BTE-RIC, and revised strain relief at the USB connector. These changes along with rigid and flex PCBs from Release 2019b have substantially improved the yield and reliability of BTE-RICs. We have been able to manufacture 12, and 24 BTE-RICs in two batches, respectively.

Hardware

Release 2020a includes new CAD designs that improved overall fit, ruggedness, a cutout to visualize LEDs, ergonomic placement of buttons, and recessed MUTE button to prevent accidental muting. The hardware (electronics) from Release 2019b is feature complete and has been stable in multi-site testing.

Firmware and OS

2020a includes baseline version of libIMU that provides access to raw data from the three IMUs (3-D Accl and 3D-gyro data from left ear, right ear, and processing unit – a total of 18 dimensional vector at 100 Hz sampling) corresponding to physical activity and head motion.

Software

Release 2020a adds two new modules to the signal processing library libOSP. The first is a multi-rate, subband decomposition module comprising 10 bands at audiometric frequencies. This module is plug-in compatible with the 6-band filter bank from previous releases. The second is a frequency warping module (called freping) that expands or compresses content in each band of the filter bank based on the value of freping_alpha (0 is pass through, positive and negative values expand and compress the content, respectively).

Applications

In 2020a, we introduce Node.js and React for extending EWS features. Both are based on JavaScript and expected to improve rapid prototyping capabilities of OSP for audiology research. This release includes (i) researcher app with 10-band and 6-band capability, (ii) researcher control of freping frequency lowering studies, (iii) a new landing page, (iv) demo apps, (v) a way of uploading any custom stimuli to be played through RTMHA, (vi) allowing the use of any app on NodeJS with either Live or Pre Recorded Stimuli.

Guides and Documentation

OSP Getting Started Guide – This guide documents the steps needed to install the OSP, and get it running. Please follow the setup steps in order before proceeding to use the system.

Enbedded Webserver User (EWS) Guide – This guide offers instructions on testing web apps to make sure they are working properly. It also features instructions on customizing web apps for individual needs.

RT-MHA API – This guide provides information about all of the possible functions the real-time sound processing engine is capable of.