Uses of Package
boofcv.struct.geo
Package
Description
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ClassDescriptionObserved point feature location on the image plane and its 3D position.A 2D point with an index associated with it
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ClassDescriptionContains a set of three observations of the same point feature in three different views.Creates a single hypothesis for the parameters in a model a set of sample points/observations.Creates multiple hypotheses for the parameters in a model a set of sample points/observations.
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ClassDescriptionThe observed location of a point feature in two camera views.The observed location of a feature in two camera views.Creates a single hypothesis for the parameters in a model a set of sample points/observations.Creates multiple hypotheses for the parameters in a model a set of sample points/observations.
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ClassDescriptionThe observed location of a point feature in two camera views.Observed point feature location on the image plane and its 3D position.
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ClassDescriptionThe observed location of a point feature in two camera views.Creates a single hypothesis for the parameters in a model a set of sample points/observations.
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ClassDescriptionCreates a single hypothesis for the parameters in a model a set of sample points/observations.Creates multiple hypotheses for the parameters in a model a set of sample points/observations.Observed point feature location on the image plane and its 3D position.Observed point feature location on the image plane and its 3D homogenous position.
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ClassDescriptionContains a set of three observations of the same point feature in three different views.
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ClassDescriptionContains a set of three observations of the same point feature in three different views.Creates a single hypothesis for the parameters in a model a set of sample points/observations.The trifocal tensor describes the projective relationship between three different camera views and is analogous to the Fundamental matrix for two views.
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ClassDescriptionThe observed location of a point feature in two camera views.A 2D point with an index associated with it
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ClassDescriptionObserved point feature location on the image plane and its 3D position.A 2D point with an index associated with it
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ClassDescriptionObserved point feature location on the image plane and its 3D position.A 2D point with an index associated with it
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ClassDescriptionThe observed location of a point feature in two camera views.Contains a set of three observations of the same point feature in three different views.Interface for arbitrary number of matched 2D featuresA pair of line observations found in two different images.The trifocal tensor describes the projective relationship between three different camera views and is analogous to the Fundamental matrix for two views.
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ClassDescriptionThe observed location of a point feature in two camera views.The observed location of a feature in two camera views.
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ClassDescriptionThe observed location of a point feature in two camera views.The observed location of a feature in two camera views.The observed location of a conic feature in two camera views.A pair of line observations found in two different images.
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ClassDescriptionThe observed location of a point feature in two camera views.Creates a single hypothesis for the parameters in a model a set of sample points/observations.Creates multiple hypotheses for the parameters in a model a set of sample points/observations.Observed point feature location on the image plane and its 3D position.
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ClassDescriptionThe observed location of a point feature in two camera views.The observed location of a feature in two camera views.Contains a set of three observations of the same point feature in three different views.Observed point feature location on the image plane and its 3D position.Motion model for scale and translation: (x',y') = (x,y)*scale + (tranX , tranY)Motion model for scale, translation, and rotation: (x',y') = (x,y)*R*scale + (tranX , tranY) R is rotation matrix.The trifocal tensor describes the projective relationship between three different camera views and is analogous to the Fundamental matrix for two views.
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ClassDescriptionThe observed location of a point feature in two camera views.Contains a set of three observations of the same point feature in three different views.Interface for arbitrary number of matched 2D features
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ClassDescriptionContains a set of three observations of the same point feature in three different views.The trifocal tensor describes the projective relationship between three different camera views and is analogous to the Fundamental matrix for two views.
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ClassDescriptionBase class for all PointIndex implementations.A 3D point with an index associated with itA 4D point with an index associated with it
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ClassDescriptionThe observed location of a point feature in two camera views.Contains a set of three observations of the same point feature in three different views.The trifocal tensor describes the projective relationship between three different camera views and is analogous to the Fundamental matrix for two views.
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ClassDescriptionContains a set of three observations of the same point feature in three different views.Observed point feature location on the image plane and its 3D position.
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ClassDescriptionThe observed location of a point feature in two camera views.Motion model for scale and translation: (x',y') = (x,y)*scale + (tranX , tranY)
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ClassDescriptionThe observed location of a point feature in two camera views.The observed location of a feature in two camera views.Contains a set of three observations of the same point feature in three different views.Creates a single hypothesis for the parameters in a model a set of sample points/observations.Observed point feature location on the image plane and its 3D position.The trifocal tensor describes the projective relationship between three different camera views and is analogous to the Fundamental matrix for two views.
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ClassDescriptionThe observed location of a point feature in two camera views.Contains a set of three observations of the same point feature in three different views.
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ClassDescriptionThe observed location of a point feature in two camera views.The observed location of a feature in two camera views.The observed location of a conic feature in two camera views.Contains a set of three observations of the same point feature in three different views.Interface for arbitrary number of matched 2D featuresGeographic coordinate consisting of latitude (north-south coordinate) and longitude (west-east) .Geographic coordinate consisting of latitude (north-south coordinate) and longitude (west-east) .A pair of line observations found in two different images.Observed point feature location on the image plane and its 3D position.Observed point feature location on the image plane and its 3D homogenous position.Base class for all PointIndex implementations.A 2D point with an index associated with itA 2D point with an index associated with itA 3D point with an index associated with itA 3D point with an index associated with itA 4D point with an index associated with itA 4D point with an index associated with itMotion model for scale and translation: (x',y') = (x,y)*scale + (tranX , tranY)Motion model for scale, translation, and rotation: (x',y') = (x,y)*R*scale + (tranX , tranY) R is rotation matrix.The trifocal tensor describes the projective relationship between three different camera views and is analogous to the Fundamental matrix for two views.
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