Title :
Real time reconstruction of the vortex wind field based on the sound wave travel time data using small number of facing array elements
Author :
Haiyue Li ; Hirasawa, T. ; Yamada, Akimasa
Author_Institution :
Grad. Sch. Bioapplicat. & Syst. Eng., Tokyo Univ. of Agric. & Technol., Koganei, Japan
Abstract :
Based on the measurements of ultrasonic propagation time of ultrasonic sensors installed on both sides of the multichannel monitoring area, sound tomography imaging system for the quasi real time wind flow monitoring was investigated. In order to realize the simultaneous transmittance to reduce the data collection time, pseudo noise (PN) sequence modulated signals were used. In the usual analysis, however, to calculate the propagation time lag, number of measurement data becomes very large and takes long time. For the resolution of the problem, Graphics Processing Unit (GPU) was introduced and its performance for the vortex wind velocity reconstruction was investigated to verify the real time measurement capability of the proposed system.
Keywords :
atmospheric acoustics; atmospheric measuring apparatus; graphics processing units; real-time systems; ultrasonic propagation; vortices; wind; data collection time; facing array elements; graphics processing unit; measurement data; multichannel monitoring area; propagation time lag; pseudonoise sequence modulated signals; quasireal time wind flow monitoring; real time measurement; simultaneous transmittance; sound tomography imaging system; sound wave travel time data; ultrasonic propagation time measurements; ultrasonic sensors; usual analysis; vortex wind velocity reconstruction; Monitoring; Receivers; Transmitters; Acoustic travel time tomography; Monitoring of strong wind gust; Multichannel array signal processing; Ultrasound fluid velocity measurement; Vortex airflow imaging;
Conference_Titel :
Ultrasonics Symposium (IUS), 2012 IEEE International
Conference_Location :
Dresden
Print_ISBN :
978-1-4673-4561-3
DOI :
10.1109/ULTSYM.2012.0358
