Pragmatic Genetic Programming strategy for the problem of vehicle detection in airborne reconnaissance

Daniel Howard, Simon C. Roberts, Conor Ryan

Research output: Contribution to journalArticlepeer-review

Abstract

A Genetic Programming (GP) method uses multiple runs, data decomposition stages, to evolve a hierarchical set of vehicle detectors for the automated inspection of infrared line scan imagery that has been obtained by a low flying aircraft. The performance on the scheme using two different sets of GP terminals (all are rotationally invariant statistics of pixel data) is compared on 10 images. The discrete Fourier transform set is found to be marginally superior to the simpler statistics set that includes an edge detector. An analysis of detector formulae provides insight on vehicle detection principles. In addition, a promising family of algorithms that take advantage of the GP method's ability to prescribe an advantageous solution architecture is developed as a post-processor. These algorithms selectively reduce false alarms by exploring context, and determine the amount of contextual information that is required for this task.

Original languageEnglish
Pages (from-to)1275-1288
Number of pages14
JournalPattern Recognition Letters
Volume27
Issue number11
DOIs
Publication statusPublished - Aug 2006

Keywords

  • Discrete Fourier transform
  • Genetic Programming
  • Machine vision
  • Method of stages
  • Object detection
  • Reconnaissance
  • Vehicle detection

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