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Issue No. 05 - May (1986 vol. 8)
ISSN: 0162-8828
pp: 619-638
Ruud M. Bolle , AI Systems Group, IBM Thomas J. Watson Research Center, P.O. Box 218, Yorktown Heights, NY 10598.
David B. Cooper , Laboratory for Engineering Man-Machine Systems, Division of Engineering, Brown University, Providence, RI 02912.
New asymptotic methods are introduced that permit computationally simple Bayesian recognition and parameter estimation for many large data sets described by a combination of algebraic, geometric, and probabilistic models. The techniques introduced permit controlled decomposition of a large problem into small problems for separate parallel processing where maximum likelihood estimation or Bayesian estimation or recognition can be realized locally. These results can be combined to arrive at globally optimum estimation or recognition. The approach is applied to the maximum likelihood estimation of 3-D complex-object position. To this end, the surface of an object is modeled as a collection of patches of primitive quadrics, i.e., planar, cylindrical, and spherical patches, possibly augmented by boundary segments. The primitive surface-patch models are specified by geometric parameters, reflecting location, orientation, and dimension information. The object-position estimation is based on sets of range data points, each set associated with an object primitive. Probability density functions are introduced that model the generation of range measurement points. This entails the formulation of a noise mechanism in three-space accounting for inaccuracies in the 3-D measurements and possibly for inaccuracies in the 3-D modeling. We develop the necessary techniques for optimal local parameter estimation and primitive boundary or surface type recognition for each small patch of data, and then optimal combining of these inaccurate locally derived parameter estimates in order to arrive at roughly globally optimum object-position estimation.

D. B. Cooper and R. M. Bolle, "On Optimally Combining Pieces of Information, with Application to Estimating 3-D Complex-Object Position from Range Data," in IEEE Transactions on Pattern Analysis & Machine Intelligence, vol. 8, no. , pp. 619-638, 1986.
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