Geometry for modeling biomolecules
Edelsbrunner H. 1998.Geometry for modeling biomolecules. In: Robotics: The Algorithmic Perspective. , 265–277.
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Abstract
Space Filing diagrams are geometric models of molecular conformations in three-dimensional space. Each atom is a location is space and a quantitative expression of influence on the immediate surrounding. This paper surveys the basic types of space filling diagrams with a focus on the dual alpha shape. Properties of those diagrams that relate to questions of connectivity, size, shape and symmetry, and metamorphosis are discussed.
Publishing Year
Date Published
1998-10-01
Book Title
Robotics: The Algorithmic Perspective
Publisher
AK Peters
Page
265 - 277
ISBN
IST-REx-ID
Cite this
Edelsbrunner H. Geometry for modeling biomolecules. In: Robotics: The Algorithmic Perspective. AK Peters; 1998:265-277.
Edelsbrunner, H. (1998). Geometry for modeling biomolecules. In Robotics: The Algorithmic Perspective (pp. 265–277). AK Peters.
Edelsbrunner, Herbert. “Geometry for Modeling Biomolecules.” In Robotics: The Algorithmic Perspective, 265–77. AK Peters, 1998.
H. Edelsbrunner, “Geometry for modeling biomolecules,” in Robotics: The Algorithmic Perspective, AK Peters, 1998, pp. 265–277.
Edelsbrunner H. 1998.Geometry for modeling biomolecules. In: Robotics: The Algorithmic Perspective. , 265–277.
Edelsbrunner, Herbert. “Geometry for Modeling Biomolecules.” Robotics: The Algorithmic Perspective, AK Peters, 1998, pp. 265–77.
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