HoverTap™ MD
Hovertap™ MD is a Sensor in a frame fitted around a screen which represents touchless technology designed for surgeons to seamlessly interact with monitors during surgeries, reducing scrub-in times and enabling precision with gloves on. My role in this 5-year-old project was to ensure surgeons could use the system effortlessly across a range of touch interactions, from low-fidelity prototyping to mid and high-fidelity iterations, while providing real-time feedback for every action.
TIPSO™Air Pad
TIPSO™ AirPad offers a palm-sized, portable touchless solution for intuitive control of image navigation within the sterile field. My UI-UX design process focused on designing seamless touchless interactions through low, mid, and high-fidelity prototyping, ensuring real-time feedback and accessibility for surgeons.
Touchless Elevator
HoverTap™ Lift introduces touchless elevator technology, providing a safe and intuitive interface for users. My UI-UX design process focused on creating seamless hand-wave and finger-point interactions, powered by AI and electric field sensing, to ensure a touchless and efficient elevator experience.
Touchless Kiosk
Touchless kiosks provide a safe and intuitive solution for high-traffic areas like airports. My UI-UX design process focused on creating seamless hand gestures and touchless interactions, ensuring a smooth user experience that eliminates physical contact while maintaining efficiency and accessibility.
Touchless Screens for Military
This touchless technology provides a seamless solution for military use in extreme cold environments, where traditional screens become difficult to interact with while wearing gloves. My UI-UX design process focused on integrating advanced AI and touchless sensor technology, ensuring reliable and accurate interactions even under minus-degree weather.
Wearable Technology
This project was born when I was a student at Simon Fraser University, I designed an adjustable and interactive high heel. The heels feature a simple mechanism to switch between 2.5-inch and 5-inch heights, along with sensors that vibrate after two hours of wear to encourage a more comfortable experience and prevent foot discomfort.
