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AAAI
1994
1994
Applying VC-Dimension Analysis To 3D Object Recognition from Perspective Projections
We analyze the amount of information needed to carry out model-based recognition tasks, in the context of a probabilistic data collection model, and independently of the recognition method employed. We consider the very rich class of semi-algebraic 3D objects, and derive an upper bound on the number of data features that (provably) suffice for localizing the object with some pre-specified precision. Our bound is based on analysing the combinatorial complexity of the hypotheses class that one has to choose from, and quantifying it using a VC-dimension parameter. Once this parameter is found, the bounds are obtained by drawing relations between recognition and learning, and using well-known results from computational learning theory. It turns out that this bounds grow logarithmically in the algebraic complexity of the objects.
Real-time TrafficAAAI 1994 | Intelligent Agents | Model-based Recognition Tasks | Probabilistic Data Collection | Semi-algebraic 3D Objects |
Related Content
| Added | 02 Nov 2010 |
| Updated | 02 Nov 2010 |
| Type | Conference |
| Year | 1994 |
| Where | AAAI |
| Authors | Michael Lindenbaum, Shai Ben-David |
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