Title :
Detection and range/Doppler estimation for colocated sensors
Author :
Hilands, Thomas W. ; Thomopoulos, Stelios C A
Author_Institution :
Appl. Res. Lab., Pennsylvania State Univ., University Park, PA, USA
fDate :
7/1/1997 12:00:00 AM
Abstract :
The problem of multisensor detection and high resolution signal state estimation using joint maximum a posteriori detection and high order nonlinear filtering techniques is addressed. The model-based fusion approach offers the potential for increased target resolution in range/Doppler/azimuth space. The approach employs joint detection/estimation filters (JDEF) for target detection and localization. The JDEF approach segments the aggregate nonlinear model over the entire target resolution space into a number of localized nonlinear models by partitioning the resolution space into a number of resolution subcells. This partitioning leads to extremely accurate state estimation. The proposed JDEF approach has a built-in capability for automatic data alignment from multiple sensors, and can be used for centralized, decentralized, and distributed data fusion.
Keywords :
Doppler radar; adaptive signal detection; adaptive signal processing; direction-of-arrival estimation; nonlinear filters; radar signal processing; radar tracking; sensor fusion; signal resolution; sonar signal processing; sonar tracking; state estimation; target tracking; adaptive signal processor; aggregate nonlinear model; automatic data alignment; built-in capability; centralized data fusion; colocated sensors; decentralized data fusion; distributed data fusion; high order nonlinear filtering; high resolution signal state estimation; increased target resolution; joint detection/estimation filters; joint maximum a posteriori detection; localized nonlinear models; model-based fusion approach; multisensor detection; partitioning; range/Doppler estimation; range/Doppler/azimuth space; resolution subcells; target detection; target localization; time delay estimation; Azimuth; Delay effects; Delay estimation; Filters; Maximum likelihood estimation; Object detection; Sensor fusion; Signal resolution; Spatial resolution; State estimation;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
