TY - JOUR
T1 - Wireless Interactive Sonification of Large Water Waves to Demonstrate the Facilities of a Large-Scale Research Wave Tank
AU - Kirke, Alexis
AU - Freeman, Samuel
AU - Miranda, Eduardo Reck
PY - 2015/9
Y1 - 2015/9
N2 - Interactive sonification can provide a platform for demonstration and education as well as for monitoring and investigation. We present a system designed to demonstrate the facilities of the UK's most advanced large-scale research wave tank. The interactive sonification of water waves in the “ocean basin” wave tank at Plymouth University consisted of a number of elements: generation of ocean waves, acquisition and sonification of ocean-wave measurement data, and gesture-controlled pitch and amplitude of sonifications. The generated water waves were linked in real time to sonic features via depth monitors and motion tracking of a floating buoy. Types of water-wave patterns, varying in shape and size, were selected and triggered using wireless motion detectors attached to the demonstrator's arms. The system was implemented on a network of five computers utilizing Max/MSP alongside specialist marine research software, and was demonstrated live in a public performance for the formal opening of the Marine Institute building.
AB - Interactive sonification can provide a platform for demonstration and education as well as for monitoring and investigation. We present a system designed to demonstrate the facilities of the UK's most advanced large-scale research wave tank. The interactive sonification of water waves in the “ocean basin” wave tank at Plymouth University consisted of a number of elements: generation of ocean waves, acquisition and sonification of ocean-wave measurement data, and gesture-controlled pitch and amplitude of sonifications. The generated water waves were linked in real time to sonic features via depth monitors and motion tracking of a floating buoy. Types of water-wave patterns, varying in shape and size, were selected and triggered using wireless motion detectors attached to the demonstrator's arms. The system was implemented on a network of five computers utilizing Max/MSP alongside specialist marine research software, and was demonstrated live in a public performance for the formal opening of the Marine Institute building.
UR - https://pearl.plymouth.ac.uk/context/ada-research/article/1028/viewcontent/Interactive_20Sonification_20of_20Large_20Water_20Waves_20to_20Demonstrate_20the_20Facilities_20of_20a_20Large_Scale_20Research_20Wave_20Tank_MinorChanges_EditorialChanges_Final.pdf
U2 - 10.1162/comj_a_00315
DO - 10.1162/comj_a_00315
M3 - Article
SN - 0148-9267
VL - 39
SP - 59
EP - 70
JO - Computer Music Journal
JF - Computer Music Journal
IS - 3
ER -