Stane is a hand-held interaction device controlled by tactile input: scratching or rubbing textured surfaces and tapping. The system has a range of sensors, including contact microphones, capacitive sensing and inertial sensing, and provides audio and vibrotactile feedback. The surface textures vary around the device, providing perceivably different textures to the user. We demonstrate that the vibration signals generated by stroking and scratching these surfaces can be reliably classified, and can be used as a very cheap to manufacture way to control different aspects of interaction. The system is demonstrated as a control for a music player, and in a mobile spatial interaction scenario
Hermann T, Kõiva R. Supplementary Material for "tacTiles for Ambient Intelligence and Interactive So...
International audienceThis paper describes the implementation and initial evaluation of active-type ...
International audienceFriction reduction based tactile devices use an ultrasonic vibration to create...
Stane is a hand-held interaction device controlled by tactile input: scratching or rubbing textured...
The audio feedback resulting from object interaction provides information about the material of the ...
Touch screens have become the most popular computer interface in our daily life. Although they respo...
International audienceIn the recent years, a great interest has emerged to utilize tactile interface...
International audienceThis article presents the design of a new tactile stimulator which is able to ...
Recognizing how a person actually touches a surface has generated a strong interest within the inter...
This paper investigates three kinds of interactions for a friction based virtual music instrument. T...
We present TapSense, an enhancement to touch interaction that allows conventional surfaces to identi...
This thesis proposes a unique approach to haptic feedback, based on a hand-worn electronic device th...
We can touch things, and our senses tell us when our hands are touching something. But most computer...
International audienceThis paper presents a method for controlling the vibration amplitude of a tact...
The touchscreen, as an alternative user interface for applications that normally require mice and ke...
Hermann T, Kõiva R. Supplementary Material for "tacTiles for Ambient Intelligence and Interactive So...
International audienceThis paper describes the implementation and initial evaluation of active-type ...
International audienceFriction reduction based tactile devices use an ultrasonic vibration to create...
Stane is a hand-held interaction device controlled by tactile input: scratching or rubbing textured...
The audio feedback resulting from object interaction provides information about the material of the ...
Touch screens have become the most popular computer interface in our daily life. Although they respo...
International audienceIn the recent years, a great interest has emerged to utilize tactile interface...
International audienceThis article presents the design of a new tactile stimulator which is able to ...
Recognizing how a person actually touches a surface has generated a strong interest within the inter...
This paper investigates three kinds of interactions for a friction based virtual music instrument. T...
We present TapSense, an enhancement to touch interaction that allows conventional surfaces to identi...
This thesis proposes a unique approach to haptic feedback, based on a hand-worn electronic device th...
We can touch things, and our senses tell us when our hands are touching something. But most computer...
International audienceThis paper presents a method for controlling the vibration amplitude of a tact...
The touchscreen, as an alternative user interface for applications that normally require mice and ke...
Hermann T, Kõiva R. Supplementary Material for "tacTiles for Ambient Intelligence and Interactive So...
International audienceThis paper describes the implementation and initial evaluation of active-type ...
International audienceFriction reduction based tactile devices use an ultrasonic vibration to create...