For a practical computer implementation of part embedding in shapes that is also true to their continuous character and the shape grammar formalism, shapes and their boundaries are handled together in composite shape and label algebras. Temporary representations of shapes, termed 'overcomplete graphs', comprise boundary elements of shapes and how they are assembled, and are utilized in a two-phase algorithm that systematically searches for embedded parts. The associated implementation is developed to receive user-defined constraints for an interactive search. In particular, the user-defined reference shape extends the search to nondeterministic cases
Shape grammars are a generative formalism in which dynamic changes to shape structure plays a vital ...
Shape analysis concerns the problem of determining \shape invariants" for programs that perform...
A shape rule a -> |3 applies to a labelled shape 7 whenever there is a transformation r that makes o...
We propose and describe a working computer implementation for shape grammars that handles embedding ...
Computational modeling of part relations of shapes is a challenging problem that has been addressed ...
A unified algebraic foundation for shape computation is presented wherein the description of a shape...
Application of a shape grammar involves the repetitive task of matching and replacing subshapes of a...
We describe a 2D shape abstraction system that aims to clarify the structure without loss of the exp...
This thesis investigates a new representation scheme for geometric modelling, based on an algebraic ...
We describe a 2D shape abstraction system that aims to clarify the structure without loss of the exp...
Shape computations recognise parts and create new shapes through transformations. These elementary c...
Shape computations recognise parts and create new shapes through transformations. These elementary c...
Computer-aided design systems enable the creation of digital product definitions that are widely use...
The encoding of shape information from spatially separate items was investigated in 3 experiments. I...
Humans have an amazing ability to localize and recognize object shapes from natural images with vari...
Shape grammars are a generative formalism in which dynamic changes to shape structure plays a vital ...
Shape analysis concerns the problem of determining \shape invariants" for programs that perform...
A shape rule a -> |3 applies to a labelled shape 7 whenever there is a transformation r that makes o...
We propose and describe a working computer implementation for shape grammars that handles embedding ...
Computational modeling of part relations of shapes is a challenging problem that has been addressed ...
A unified algebraic foundation for shape computation is presented wherein the description of a shape...
Application of a shape grammar involves the repetitive task of matching and replacing subshapes of a...
We describe a 2D shape abstraction system that aims to clarify the structure without loss of the exp...
This thesis investigates a new representation scheme for geometric modelling, based on an algebraic ...
We describe a 2D shape abstraction system that aims to clarify the structure without loss of the exp...
Shape computations recognise parts and create new shapes through transformations. These elementary c...
Shape computations recognise parts and create new shapes through transformations. These elementary c...
Computer-aided design systems enable the creation of digital product definitions that are widely use...
The encoding of shape information from spatially separate items was investigated in 3 experiments. I...
Humans have an amazing ability to localize and recognize object shapes from natural images with vari...
Shape grammars are a generative formalism in which dynamic changes to shape structure plays a vital ...
Shape analysis concerns the problem of determining \shape invariants" for programs that perform...
A shape rule a -> |3 applies to a labelled shape 7 whenever there is a transformation r that makes o...