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Interactive Ray Tracing of Distance Fields
"... Distance field is a flexible surface representation used in many applications. We study the algorithms for direct rendering of distance field surfaces representation via ray tracing in interactive frame rates. To accelerate the ray tracing we represent the distance fields by sparse block grid data s ..."
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Distance field is a flexible surface representation used in many applications. We study the algorithms for direct rendering of distance field surfaces representation via ray tracing in interactive frame rates. To accelerate the ray tracing we represent the distance fields by sparse block grid data
Adaptively Represented Complete Distance Fields
"... Distance fields are an important volume representation. A high quality distance field facilitates accurate surface characterization and gradient estimation. However, due to Nyquist’s Law, no existing volumetric methods based on the linear sampling theory can fully capture surface details, such as co ..."
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Cited by 2 (0 self)
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Distance fields are an important volume representation. A high quality distance field facilitates accurate surface characterization and gradient estimation. However, due to Nyquist’s Law, no existing volumetric methods based on the linear sampling theory can fully capture surface details
Distance Field Compression
, 2016
"... All intext references underlined in blue are linked to publications on ResearchGate, letting you access and read them immediately. ..."
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All intext references underlined in blue are linked to publications on ResearchGate, letting you access and read them immediately.
Signed Lpdistance Fields
"... We introduce and study a family of generalized doublelayer potentials which are used to build smooth and accurate approximants for the signed distance function. Given a surface, the value of an approximant at a given point is a power mean of distances from the point to the surface points parameteri ..."
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Cited by 1 (0 self)
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We introduce and study a family of generalized doublelayer potentials which are used to build smooth and accurate approximants for the signed distance function. Given a surface, the value of an approximant at a given point is a power mean of distances from the point to the surface points
SignedLpdistance Fields
"... We introduce and study a family of generalized doublelayer potentials which are used to build smooth and accurate approximants for the signed distance function. Given a surface, the value of an approximant at a given point is a power mean of distances from the point to the surface points parameteri ..."
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We introduce and study a family of generalized doublelayer potentials which are used to build smooth and accurate approximants for the signed distance function. Given a surface, the value of an approximant at a given point is a power mean of distances from the point to the surface points
Distance Fields Applied To Character Animation
, 2002
"... A general hybrid geometricphysical method that is useful for animating characters with skin, clothing and a MPEG4 compatible face is presented. This method uses an approximation to the underlying musculoskeletal structure of the body and face to generate a distance field, used for collision det ..."
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A general hybrid geometricphysical method that is useful for animating characters with skin, clothing and a MPEG4 compatible face is presented. This method uses an approximation to the underlying musculoskeletal structure of the body and face to generate a distance field, used for collision
Using distance fields for object representation and rendering
 In Proc. 19th Ann. Conf. of Eurographics (UK Chapter
, 2001
"... Distance fields are a two or threedimensional array of values, where each value is the minimum distance to the encoded object. Usually distance fields are signed, such that negative values signify the point is inside the object, and positive are outside. Distance fields are becoming a popular res ..."
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Cited by 9 (0 self)
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Distance fields are a two or threedimensional array of values, where each value is the minimum distance to the encoded object. Usually distance fields are signed, such that negative values signify the point is inside the object, and positive are outside. Distance fields are becoming a popular
Voronoï Diagrams of Algebraic Distance Fields
"... We design and implement an efficient and certified algorithm for the computation of Voronoï Diagrams (VD’s) constrained to a given domain. Our framework is general and applicable to any VDtype where the distance field is given explicitly or implicitly by a polynomial, notably the anisotropic VD or ..."
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Cited by 3 (0 self)
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We design and implement an efficient and certified algorithm for the computation of Voronoï Diagrams (VD’s) constrained to a given domain. Our framework is general and applicable to any VDtype where the distance field is given explicitly or implicitly by a polynomial, notably the anisotropic VD
Heterogeneous Material Modeling with Distance Fields
 Computer Aided Geometric Design
, 2004
"... We propose a universal approach to the problem of computer modeling of shapes with continuously varying material properties satisfying prescribed material conditions on a finite collection of material features and global constraints. The central notion is a parameterization of space by distances f ..."
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Cited by 33 (1 self)
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We propose a universal approach to the problem of computer modeling of shapes with continuously varying material properties satisfying prescribed material conditions on a finite collection of material features and global constraints. The central notion is a parameterization of space by distances
The hierarchy problem and new dimensions at a millimeter
, 2008
"... We propose a new framework for solving the hierarchy problem which does not rely on either supersymmetry or technicolor. In this framework, the gravitational and gauge interactions become united at the weak scale, which we take as the only fundamental short distance scale in nature. The observed wea ..."
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Cited by 660 (5 self)
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We propose a new framework for solving the hierarchy problem which does not rely on either supersymmetry or technicolor. In this framework, the gravitational and gauge interactions become united at the weak scale, which we take as the only fundamental short distance scale in nature. The observed
Results 11  20
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1,291,332