Evaluation of a Head-Tongue Controller for Power Wheelchair Driving by People With Quadriplegia.

The head-tongue controller (HTC) is a multimodal alternative controller designed for people with quadriplegia to access complex control capabilities by combining tongue and head tracking to offer both discrete and proportional controls in a single controller. In this human study, 17 patients with quadriplegia and current users of alternative controllers were asked to perform four trials of either simple driving tasks or advanced maneuvers in a custom-designed course. Completion time and accuracy were compared between their personal alternative controller (PAC) and various combinations of driving modalities with the HTC.

A Stand-Alone Intraoral Tongue-Controlled Computer Interface for People With Tetraplegia.

The intraoral Tongue Drive System (iTDS) is an embedded wireless tongue-operated assistive technology developed for people with tetraplegia to provide them a higher level of independence in performing daily living tasks, such as accessing computers, smartphones, and driving wheelchairs. The iTDS was built as an arch-shaped dental retainer hermetically sealed and placed in the buccal shelf area of the mouth, completely hidden from sight. To provide high level of comfort, the iTDS is customized based on the users' oral anatomy to stably fix onto the lower teeth.

Hardware-efficient robust biometric identification from 0.58 second template and 12 features of limb (Lead I) ECG signal using logistic regression classifier.

The electrocardiogram (ECG), widely known as a cardiac diagnostic signal, has recently been proposed for biometric identification of individuals; however reliability and reproducibility are of research interest. In this paper, we propose a template matching technique with 12 features using logistic regression classifier that achieved high reliability and identification accuracy. Non-invasive ECG signals were captured using our custom-built ambulatory EEG/ECG embedded device (NeuroMonitor).

Investigation of electrical stimulus on chitosan film based DDS.

Controlled drug release is crucial for targeted implant smart drug delivery system (DDS). In this work a chitosan film loaded with green food coloring is fabricated to demonstrate the concepts of drug release using electrical stimulus. A simulation model is also developed to explain the physical phenomena of this drug release using finite element method (FEM).