Title :
Maximum likelihood detection of unresolved moving targets
Author :
Sanders-Reed, J.N.
Author_Institution :
SVS R&D Syst. Inc., Cedar Crest, NM, USA
fDate :
7/1/1998 12:00:00 AM
Abstract :
Maximum likelihood estimation and decision theory is applied to the problem of detecting unresolved moving targets with a particular emphasis on space surveillance applications. A general formulation is derived which accounts for fluctuating targets, extended optical point spread functions (PSFs), and long frame integration times such that target images can form streaks within a single image. Probability of false alarm and of detection curves are generated from field data and simulations and compared with theoretical predictions
Keywords :
clutter; decision theory; maximum likelihood detection; maximum likelihood estimation; probability; target tracking; decision theory; detection curves; extended optical point spread functions; false alarm; field data; fluctuating targets; long frame integration times; maximum likelihood detection; maximum likelihood estimation; moving targets; probability; simulations; space surveillance; streaks; target detection data model; target images; theoretical predictions; unresolved moving targets; Aerospace control; Face detection; Integrated optics; Maximum likelihood detection; Maximum likelihood estimation; Object detection; Optical filters; Optical sensors; Research and development; Sensor arrays;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
