With this photo you can see the primary menu screen for the Connecthetics app; from here patients will be able to access the key features of our app including the Chat with a Clinician, Video Tutorials, and Maps pages.
Archive | Computer Applications & Communication
Connecthetics – A way to connect prosthetic users and clinicians
Editing Videos in EasyVSD: A way to edit the lengths of videos in EasyVSD, a video visual scene display application. The Pennsylvania State University
Video Trimming in EasyVSD
Timing and Alert System for Students with Autism Duke University
An interactive program that prompts the student about his need to use the bathroom and alerts the teacher when he indicates that he needs to go.
Shuffle Speller: User Adaptive Spelling *RERC on AAC award
ShuffleSpeller supports accurate letter prediction for users with less-than-trustworthy access methods
Universal Home Automation System (UC Berkeley)
This system allows its users to fully engage with their home’s physical characteristics.
Dexterous Lab : Motion Tracking and Quantitative Analysis for Cerebral Palsy Patients (Rice University)
Our project aims to design and implement a lightweight, portable, and reliable motion path tracking and analyzing device that is accurate enough for clinical use.
HEARD: Handheld Educational Augmentative RFID Device (Purdue University)
HEARD uses functional, reusable, and re-programmable RFID (Radio Frequency Identification) cards that trigger the playback of recorded speech associated with the card and its graphics.
AAC Home Wi-Fi Alert Device (The Pennsylvania State University)
We developed a battery powered Wi-Fi prototype which allows those who rely on AAC to easily and effectively communicate with caretakers, family members, or whomever.
Integrated Head & Eye Tracking for GUI Control (The Pennsylvania State University)
The users will be able to intuitively switch between both tracking methods and utilize a wide range of gestures to interface with the computer.
Adjustable Prototype Electrolarynx Holder with Remote Activation (The Pennsylvania State University)
Our team was tasked with designing and building a prototype harness to hold an electrolarynx for hospital patients who had recently undergone a laryngectomy and specifically had issues with fine motor control which made normal operation of the electrolarynx very difficult for them.