Location
Rochester Institute of Technology
Description
Peripheral biofeedback is an explicit learning tool
that allows for real-time evaluation and control of physiological
proxies by means of computerized signals. Its integration into
health practice allows users to calibrate self-awareness and self regulation
then apply these skills to everyday life. People with
neurodevelopmental differences encounter limitations when
using commercially available clinical biofeedback due to
variation in their autonomic response. Principles of Universal
Design dictate that biofeedback inputs and displays allow
effective access and benefit for as many individuals as possible.
Our Dynamic Feedback Signal Set (DyFSS, nonprovisional
patent-in-process) algorithm adjusts signal processing by
dynamically weighting feedback signals to the best abilities of the
user, increasing the efficacy of biofeedback for the neurodiverse.
The software includes an interactive graphical tutorial and quiz,
a variety of graphical user interfaces to honor individual
preferences and abilities, and a game that can be played by blind
and hard of hearing individuals alike.
Improving the Graphical User Interface (GUI) for the Dynamic Feedback Signal Set (DyFSS): Increasing Accessibility for the Neurodiverse
Rochester Institute of Technology
Peripheral biofeedback is an explicit learning tool
that allows for real-time evaluation and control of physiological
proxies by means of computerized signals. Its integration into
health practice allows users to calibrate self-awareness and self regulation
then apply these skills to everyday life. People with
neurodevelopmental differences encounter limitations when
using commercially available clinical biofeedback due to
variation in their autonomic response. Principles of Universal
Design dictate that biofeedback inputs and displays allow
effective access and benefit for as many individuals as possible.
Our Dynamic Feedback Signal Set (DyFSS, nonprovisional
patent-in-process) algorithm adjusts signal processing by
dynamically weighting feedback signals to the best abilities of the
user, increasing the efficacy of biofeedback for the neurodiverse.
The software includes an interactive graphical tutorial and quiz,
a variety of graphical user interfaces to honor individual
preferences and abilities, and a game that can be played by blind
and hard of hearing individuals alike.
