Add to ORKGThe Multimodal Acoustic Trapping Display (MATD) makes use of ultrasound to trap, quickly move and color a particle, to create volumetric shapes in mid-air. Using the pressure delivered by ultrasound, the MATD can also create high-pressure points that our hands can feel and induce air vibrations that create audible sound
We describe a novel display concept where levitating particles are used to add a dynamic display ele...
Ultrasound manipulation is growing in popularity in the HCI community with applications in haptics, ...
We introduce UltraHaptics, a system designed to provide multi-point haptic feedback above an interac...
Science-fiction movies such as Star Wars portray volumetric systems that not only provide visual but...
Recent advances in high-speed acoustic holography have enabled levitation-based volumetric displays ...
We present a method for creating three-dimensional haptic shapes in mid-air using focused ultrasound...
This demonstration showcases the current state of the art for the levitating particle display from t...
Sound can levitate objects of different sizes and materials through air, water and tissue. This allo...
ACM Ultrasound enables new types of human-computer interfaces, ranging from auditory and haptic disp...
Thesis (Ph.D.)--University of Washington, 2018Acoustic waves can apply radiation forces to trap and ...
Acoustic tweezers use sound radiation forces to manipulate matter without contact. They provide uniq...
Displays have revolutionized the way we work and learn, and thus, the development of display technol...
Acoustic levitation technology is the use of ultrasound to form standing waves. Sound is a form of m...
Ultrasound is beyond the range of human hearing and tactile perception. In the past few years, sever...
Sound can levitate objects of different sizes and materials through air, water and tissue. This allo...
We describe a novel display concept where levitating particles are used to add a dynamic display ele...
Ultrasound manipulation is growing in popularity in the HCI community with applications in haptics, ...
We introduce UltraHaptics, a system designed to provide multi-point haptic feedback above an interac...
Science-fiction movies such as Star Wars portray volumetric systems that not only provide visual but...
Recent advances in high-speed acoustic holography have enabled levitation-based volumetric displays ...
We present a method for creating three-dimensional haptic shapes in mid-air using focused ultrasound...
This demonstration showcases the current state of the art for the levitating particle display from t...
Sound can levitate objects of different sizes and materials through air, water and tissue. This allo...
ACM Ultrasound enables new types of human-computer interfaces, ranging from auditory and haptic disp...
Thesis (Ph.D.)--University of Washington, 2018Acoustic waves can apply radiation forces to trap and ...
Acoustic tweezers use sound radiation forces to manipulate matter without contact. They provide uniq...
Displays have revolutionized the way we work and learn, and thus, the development of display technol...
Acoustic levitation technology is the use of ultrasound to form standing waves. Sound is a form of m...
Ultrasound is beyond the range of human hearing and tactile perception. In the past few years, sever...
Sound can levitate objects of different sizes and materials through air, water and tissue. This allo...
We describe a novel display concept where levitating particles are used to add a dynamic display ele...
Ultrasound manipulation is growing in popularity in the HCI community with applications in haptics, ...
We introduce UltraHaptics, a system designed to provide multi-point haptic feedback above an interac...