This paper presents a comparison of dierent congurations of a wireless sensor system for capturing human motion. The systems consist of sensor elements which wirelessly transfers motion data to a receiver element. The sensor elements consist of a microcontroller, accelerometer(s) and a radio transceiver. The receiver element consists of a radio receiver connected through a microcontroller to a computer for real time sound synthesis. The wireless transmission between the sensor elements and the receiver element is based on the low rate IEEE 802.15.4/ZigBee standard. A conguration with several accelerometers connected by wire to a wireless sensor element is compared to using multiple wireless sensor elements with only one accelerometer in each. The study shows that it would be feasable to connect 5-6 accelerometers in the given setups. Sensor data processing can be done in either the receiver element or in the sensor element. For various reasons it can be reasonable to implement some sensor data processing in the sensor element. The paper also looks at how much time that typically would be needed for a simple pre-processing task.
[1]
M. Leman,et al.
Musical gestures : sound, movement, and meaning
,
2010
.
[2]
Norbert Schnell,et al.
Wireless sensor interface and gesture-follower for music pedagogy
,
2007,
NIME '07.
[3]
Isabella Poggi,et al.
Gestures in performance
,
2009
.
[4]
Marc Leman,et al.
A roadmap for sound and music computing
,
2007
.
[5]
John Kooker.
Bluetooth , ZigBee , and Wibree : A Comparison of WPAN Technologies
,
2008
.
[6]
Joseph A. Paradiso,et al.
A Mobile Music Environment Using a PD Compiler and Wireless Sensors
,
2008,
NIME.
[7]
Matthew Wright,et al.
Problems and Prospects for Intimate Musical Control of Computers
,
2002,
Computer Music Journal.
[8]
Marc Leman,et al.
The MEGA Project: Analysis and Synthesis of Multisensory Expressive Gesture in Performing Art Applications
,
2005
.
[9]
Eirik Renton.
Collecting Sensor Data for Active Music
,
2009
.