Hierarchical testing designs for pattern recognition
成果类型:
Article
署名作者:
Blanchard, G; Geman, D
署名单位:
Centre National de la Recherche Scientifique (CNRS); Fraunhofer Gesellschaft; Fraunhofer Germany; Fraunhofer Institute Center Schloss Birlinghoven; Johns Hopkins University
刊物名称:
ANNALS OF STATISTICS
ISSN/ISSBN:
0090-5364
DOI:
10.1214/009053605000000174
发表日期:
2005
页码:
1155-1202
关键词:
divide-and-conquer
face
MODEL
摘要:
We explore the theoretical foundations of a twenty questions approach to pattern recognition. The object of the analysis is the computational process itself rather than probability distributions (Bayesian inference) or decision boundaries (statistical learning). Our formulation is motivated by applications to scene interpretation in which there are a great many possible explanations for the data, one (background) is statistically dominant, and it is imperative to restrict intensive computation to genuinely ambiguous regions. The focus here is then on pattern filtering: Given a large set Y of possible patterns or explanations, narrow down the true one Y to a small (random) subset (Y) over cap subset of Y of detected patterns to be subjected to further, more intense, processing. To this end, we consider a family of hypothesis tests for Y is an element of A versus the nonspecific alternatives Y is an element of A(c). Each test has null type I error and the candidate sets A subset of Y are arranged in a hierarchy of nested partitions. These tests are then characterized by scope (vertical bar A vertical bar), power (or type II error) and algorithmic cost. We consider sequential testing strategies in which decisions are made iteratively, based on past outcomes, about which test to perform next and when to stop testing. The set (Y) over cap is then taken to be the set of patterns that have not been ruled out by the tests performed. The total cost of a strategy is the sum of the testing cost and the postprocessing cost (proportional to vertical bar(Y) over cap vertical bar) and the corresponding optimization problem is analyzed. As might be expected, under mild assumptions good designs for sequential testing strategies exhibit a steady progression from broad scope coupled with low power to high power coupled with dedication to specific explanations. In the assumptions ensuring this property a key role is played by the ratio cost/power. These ideas are illustrated in the context of detecting rectangles amidst clutter.
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