This paper presents a new force-sensitive surface designedfor playing music. A prototype system has been implemented using a passive capacitive sensor, a commodity multichannel audio interface, and decoding software running ona laptop computer. This setup has been a successful, lowcost route to a number of experiments in intimate musicalcontrol
In this paper we present a novel system for tactile actuation in stylus-based musical interactions. ...
Almost 100 years ago, the thereminvox was the first electronic musical instrument that could be cont...
In this paper we present a highly expressive, robust, and easy-to-build systemthat provides force-fe...
This paper presents a new force-sensitive surface designed for playing music. A prototype system has...
This paper describes a novel music control sensate surface, which enables integration between any mu...
Tangible tabletop musical interfaces allowing for a collabo-rative real-time interaction in live mus...
Multi-touch Tangible User Interfaces (MTUI) offer new possibilities for the control of sound and mus...
In this demo paper, we present the realization of a completely aesthetically driven conductive image...
In this paper, we describe a set of hardware and software tools for creating musical controllers wit...
In this paper, we describe a set of hardware and software tools for creating musical controllers wit...
Flexible sensors can find many useful applications detecting vibrations, contacts and impacts, air a...
This research aims to develop a wearable musical interfacewhich enables to control audio and video s...
This paper explores a rapidly developed, new musical interface involving a touch-screen, 32 pressure...
Several new technologies to capture motion, gesture and forces for musical instrument players' analy...
Abstract—Digital music performance requires a high degree of interaction with input controllers that...
In this paper we present a novel system for tactile actuation in stylus-based musical interactions. ...
Almost 100 years ago, the thereminvox was the first electronic musical instrument that could be cont...
In this paper we present a highly expressive, robust, and easy-to-build systemthat provides force-fe...
This paper presents a new force-sensitive surface designed for playing music. A prototype system has...
This paper describes a novel music control sensate surface, which enables integration between any mu...
Tangible tabletop musical interfaces allowing for a collabo-rative real-time interaction in live mus...
Multi-touch Tangible User Interfaces (MTUI) offer new possibilities for the control of sound and mus...
In this demo paper, we present the realization of a completely aesthetically driven conductive image...
In this paper, we describe a set of hardware and software tools for creating musical controllers wit...
In this paper, we describe a set of hardware and software tools for creating musical controllers wit...
Flexible sensors can find many useful applications detecting vibrations, contacts and impacts, air a...
This research aims to develop a wearable musical interfacewhich enables to control audio and video s...
This paper explores a rapidly developed, new musical interface involving a touch-screen, 32 pressure...
Several new technologies to capture motion, gesture and forces for musical instrument players' analy...
Abstract—Digital music performance requires a high degree of interaction with input controllers that...
In this paper we present a novel system for tactile actuation in stylus-based musical interactions. ...
Almost 100 years ago, the thereminvox was the first electronic musical instrument that could be cont...
In this paper we present a highly expressive, robust, and easy-to-build systemthat provides force-fe...