Title :
Comparison of Kalman and least squares filters for locating autonomous very low frequency acoustic sensors
Author :
Culver, Richard L. ; Hodgkiss, William S., Jr.
Author_Institution :
Scripps Inst. of Oceanogr., California Univ., San Diego, CA, USA
fDate :
10/1/1988 12:00:00 AM
Abstract :
The Marine Physical Laboratory has designed, fabricated, and taken to sea self-contained, freely drifting acoustic sensors which can measure signal propagation and ambient ocean noise in the 1-20-Hz band for up to 25-hour periods. The deployment of several freely drifting floats forms an array of sensors whose outputs can be combined after the experiment with a beamformer. A Kalman filter and a least-squares estimator have been developed to estimate float positions from travel-time measurements. Computer simulation is used to compare filter performance-under several deployment scenarios. Results show that the Kalman filter performs better than the least-squares filter when the floats are subjected to small-magnitude accelerations between measurements. Neither filter was sensitive to relatively major changes in deployment geometry as long as the sound-speed profile is known exactly
Keywords :
acoustic signal processing; hydrophones; underwater sound; 1 to 20 Hz; Kalman filter; ambient ocean noise; autonomous very low frequency acoustic sensors; beamformer; hydrophones; least squares filters; least-squares estimator; signal propagation; sound-speed profile; travel-time measurements; underwater sound; Acoustic measurements; Acoustic propagation; Acoustic sensors; Kalman filters; Laboratories; Least squares methods; Noise measurement; Sea measurements; Sensor arrays; Signal design;
Journal_Title :
Oceanic Engineering, IEEE Journal of
