The development and testing of a human machine interface for a mobile medical exoskeleton
KA Strausser, H Kazerooni - 2011 IEEE/RSJ International …, 2011 - ieeexplore.ieee.org
Current advancements in exoskeleton robotics allow those with mobility disorders to walk
again. The user conveys his or her desired motion to the exoskeleton using a Human …
again. The user conveys his or her desired motion to the exoskeleton using a Human …
How autonomy impacts performance and satisfaction: Results from a study with spinal cord injured subjects using an assistive robot
DJ Kim, R Hazlett-Knudsen… - … on Systems, Man …, 2011 - ieeexplore.ieee.org
We report a small dual cohort pilot study with traumatic spinal cord injured (SCI) subjects
designed to investigate the utility of a wheelchair-mounted robotic arm for these subjects …
designed to investigate the utility of a wheelchair-mounted robotic arm for these subjects …
Hands-free accessible digital musical instruments: conceptual framework, challenges, and perspectives
N Davanzo, F Avanzini - IEEE Access, 2020 - ieeexplore.ieee.org
Exponential increases of available computational resources, miniaturization, and sensors,
are enabling the development of digital musical instruments that use non-conventional …
are enabling the development of digital musical instruments that use non-conventional …
The tongue enables computer and wheelchair control for people with spinal cord injury
The Tongue Drive System (TDS) is a wireless and wearable assistive technology, designed
to allow individuals with severe motor impairments such as tetraplegia to access their …
to allow individuals with severe motor impairments such as tetraplegia to access their …
Evaluation of a wireless wearable tongue–computer interface by individuals with high-level spinal cord injuries
X Huo, M Ghovanloo - Journal of neural engineering, 2010 - iopscience.iop.org
The tongue drive system (TDS) is an unobtrusive, minimally invasive, wearable and wireless
tongue–computer interface (TCI), which can infer its users' intentions, represented in their …
tongue–computer interface (TCI), which can infer its users' intentions, represented in their …
The tongue and ear interface: a wearable system for silent speech recognition
We address the problem of performing silent speech recognition where vocalized audio is
not available (eg due to a user's medical condition) or is highly noisy (eg during firefighting …
not available (eg due to a user's medical condition) or is highly noisy (eg during firefighting …
Stick it in your ear: Building an in-ear jaw movement sensor
The human ear seems to be a rigid anatomical part with no apparent activity, yet many facial
and body activity can be measured from it. Research apparatuses and commercial products …
and body activity can be measured from it. Research apparatuses and commercial products …
Novel wearable sensors for biomechanical movement monitoring based on electromagnetic sensing techniques
For many diseases, treatment is more effective in the early stage of a disease; hence
detection of the early signs of a disease is highly significant. Biomechanical motion can be …
detection of the early signs of a disease is highly significant. Biomechanical motion can be …
GKP signal processing using deep CNN and SVM for tongue-machine interface
The tongue is one of the few organs with high mobility in the case of severe spinal cord
injuries. However, most tongue-machine interfaces (TMIs) require the patient to wear …
injuries. However, most tongue-machine interfaces (TMIs) require the patient to wear …
[HTML][HTML] Earable TEMPO: A novel, hands-free input device that uses the movement of the tongue measured with a wearable ear sensor
K Taniguchi, H Kondo, M Kurosawa, A Nishikawa - Sensors, 2018 - mdpi.com
In this study, an earphone-type interface named “earable TEMPO” was developed for hands-
free operation, wherein the user can control the device by simply pushing the tongue against …
free operation, wherein the user can control the device by simply pushing the tongue against …