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Advances in Architectural Geometry 2010
Kategorie	Beschreibung
036a	XA-AT
037b	eng
077a	328086932 Buchausg. u.d.T.: ‡Advances in architectural geometry 2010
087q	978-3-7091-0308-1
100	Ceccato, Cristiano
104b	Hesselgren, Lars
108b	Pauly, Mark
112b	Pottmann, Helmut
116b	Wallner, Johannes
200b	Advances in Architectural Geometry Conference <2, 2010, Wien>
331	Advances in Architectural Geometry 2010
410	Vienna
412	Springer-Verlag/Vienna
425	2010
425a	2010
433	Online-Ressource (242p. 190 illus. in color, digital)
451b	SpringerLink. Bücher
501	Includes bibliographical references
517	""Title Page ""; ""Copyright Page ""; ""Foreword""; ""Table of Contents ""; ""The Master-Builder-Geometer""; ""Interpreting Physical Sketches as Architectural Models ""; ""1 Introduction ""; ""1.1 Tangible User Interface for Architectural Design ""; ""1.2 Contributions ""; ""1.3 Overview ""; ""2 Related Work ""; ""2.1 Modeling Interfaces for Architectural Design ""; ""2.2 Sketch Recognition ""; ""2.3 Sketch Recognition for Architectural Drawings ""; ""2.4 Gestalt Theory and Sketch Interpretation ""; ""3 Sketch Interpretation Algorithm ""; ""3.1 Image Pre-Processing "". ""3.2 Intended Parallel, Perpendicular, and Collinear Elements """"3.3 Linking Walls to Form Continuous Chains ""; ""3.4 Arrangement of Cells and Enclosure ""; ""3.5 Assigning Interior and Exterior Zones ""; ""3.6 Detecting Inferred Interior Walls and Trimming Unused Walls ""; ""3.7 Post-Processing: Constructing a Watertight Triangle Mesh ""; ""4 Validation of Physical Sketch Interpretation Environment ""; ""4.1 Design Collection Study ""; ""4.2 Re-Interpretation Study to Quantify Design Ambiguities ""; ""4.3 Validation Results: Subjective Feedback "". ""4.4 Quantitative Sketch Interpretation Results """"5 Conclusion and Future Work ""; ""References ""; ""Lamella Flock""; ""1 Non-Linear Processes in Architectural Design""; ""2 Zollinger â€? A Lamella Wood System""; ""3 Free Form Wood Structures and Previous Experience""; ""4 Investigating Freeform Lamella Systems""; ""5 An Outline of Self-Organization""; ""6 The generated lamella system, structure and behaviour""; ""7 A hybrid system""; ""8 Implementation""; ""9 Conclusion""; ""Acknowledgements""; ""References"". ""Case Studies in Cost-Optimized Paneling of Architectural Freeform Surfaces """"1 Introduction""; ""Related Work""; ""2 Panels and Fabrication""; ""3 Paneling Architectural Freeform Surfaces""; ""3.1 Problem Specification""; ""3.2 Paneling Algorithm""; ""4 Extensions""; ""4.1 Sharp Features""; ""4.2 Adaptive Control of Paneling Quality""; ""5 Case Studies""; ""5.1 Facade Design Study""; ""5.2 Skipper Library""; ""5.3 Lissajous Tower""; ""6 Discussion""; ""Acknowledgments""; ""References""; ""Tiling Freeform ShapesWith Straight Panels: Algorithmic Methods. ""; ""1 Introduction"". ""2 The Design of Patterns of Geodesics.""""2.1 Design by Parallel Transport.""; ""2.2 Design by Evolution and by Segmentation""; ""3 Panels from Curve Patterns.""; ""3.1 Panels with Pure Bending: the Tangent Developable Method.""; ""3.2 The Binormal Method.""; ""3.3 Discussion""; ""4 Stress and Strain in Panels.""; ""5 Conclusion.""; ""References""; ""Freeform Rigid-Foldable Structure using Bidirectionally Flat-Foldable Planar Quadrilateral Mesh ""; ""1 Introduction""; ""2 Geometry of Rigid-Foldable Quadrilateral Mesh Disk""; ""2.1 Generalized Miura-ori""; ""2.2 Generalized Eggbox Pattern"". ""2.3 Hybrid Surface: Bidirectionally Flat-foldable Planar Quadrilateral Mesh"". Cover13;Foreword -- Table of Contents13; -- The Master-Builder-Geometer -- Interpreting Physical Sketches as Architectural Models13; -- 1 Introduction13; -- 1.1 Tangible User Interface for Architectural Design13; -- 1.2 Contributions13; -- 1.3 Overview13; -- 2 Related Work13; -- 2.1 Modeling Interfaces for Architectural Design13; -- 2.2 Sketch Recognition13; -- 2.3 Sketch Recognition for Architectural Drawings13; -- 2.4 Gestalt Theory and Sketch Interpretation13; -- 3 Sketch Interpretation Algorithm13; -- 3.1 Image Pre-Processing13; -- 3.2 Intended Parallel, Perpendicular, and Collinear Elements13; -- 3.3 Linking Walls to Form Continuous Chains13; -- 3.4 Arrangement of Cells and Enclosure13; -- 3.5 Assigning Interior and Exterior Zones13; -- 3.6 Detecting Inferred Interior Walls and Trimming Unused Walls13; -- 3.7 Post-Processing: Constructing a Watertight Triangle Mesh13; -- 4 Validation of Physical Sketch Interpretation Environment13; -- 4.1 Design Collection Study13; -- 4.2 Re-Interpretation Study to Quantify Design Ambiguities13; -- 4.3 Validation Results: Subjective Feedback13; -- 4.4 Quantitative Sketch Interpretation Results13; -- 5 Conclusion and Future Work13; -- References13; -- Lamella Flock -- 1 Non-Linear Processes in Architectural Design -- 2 Zollinger 8211; A Lamella Wood System -- 3 Free Form Wood Structures and Previous Experience -- 4 Investigating Freeform Lamella Systems -- 5 An Outline of Self-Organization -- 6 The generated lamella system, structure and behaviour -- 7 A hybrid system -- 8 Implementation -- 9 Conclusion -- Acknowledgements -- References -- Case Studies in Cost-Optimized Paneling of Architectural Freeform Surfaces13; -- 1 Introduction -- Related Work -- 2 Panels and Fabrication -- 3 Paneling Architectural Freeform Surfaces -- 3.1 Problem Specification -- 3.2 Paneling Algorithm -- 4 Extensions -- 4.1 Sharp Features -- 4.2 Adaptive Control of Paneling Quality -- 5 Case Studies -- 5.1 Facade Design Study -- 5.2 Skipper Library -- 5.3 Lissajous Tower -- 6 Discussion -- Acknowledgments -- References -- Tiling Freeform ShapesWith Straight Panels: Algorithmic Methods. 13; -- 1 Introduction -- 2 The Design of Patterns of Geodesics. -- 2.1 Design by Parallel Transport. -- 2.2 Design by Evolution and by Segmentation -- 3 Panels from Curve Patterns. -- 3.1 Panels with Pure Bending: the Tangent Developable Method. -- 3.2 The Binormal Method. -- 3.3 Discussion -- 4 Stress and Strain in Panels. -- 5 Conclusion. -- References -- Freeform Rigid-Foldable Structure using Bidirectionally Flat-Foldable Planar Quadrilateral Mesh13; -- 1 Introduction -- 2 Geometry of Rigid-Foldable Quadrilateral Mesh Disk -- 2.1 Generalized Miura-ori -- 2.2 Generalized Eggbox Pattern -- 2.3 Hybrid Surface: Bidirectionally Flat-foldable Planar Quadrilateral Mesh -- 3 Design Variations of Rigid Foldable Surface -- 4 Rigid Foldable Cylinder -- 5 Materialization -- 6 Conclusion -- References -- The Sphere Project -- Negotiate geometrical representations from design to production13; -- 1 Introduction -- 2 Geometry generation -- 2.1 Geometric principles -- 2.2 Fitness criteria for the evolutionary process -- 3 Geometry refinement for fabrication -- 4 Conclusion -- Ack.
527	Buchausg. u.d.T.: ‡Advances in architectural geometry 2010
540a	ISBN 978-3-7091-0309-8
700	\|AMC
700	\|ARC009000
700b	\|729
700b	\|720.1
700c	\|NA2543.B84
700g	1271341085 ZH 3500
750	Geometry lies at the core of the architectural design process. It is omnipresent, from the initial determination of form to the final construction. Modern geometric computing provides a variety of tools for the efficient design, analysis, and manufacturing of complex shapes. On the one hand this opens up new horizons for architecture. On the other, the architectural context also poses new problems for geometry. The research area of architectural geometry, situated at the border of applied geometry and architecture, is emerging to address these problems. This volume, presenting the papers accepted at the 2010 Advances in Architectural Geometry conference in Vienna, reflects the substantial progress made in this field. The interdisciplinary nature of architectural geometry is reflected in the diversity of backgrounds of the contributing authors. Renowned architects, engineers, mathematicians, and computer scientists present novel research ideas and cutting-edge solutions at the interface of geometry processing and architectural design.
902s	208848975 Architektur
902s	208932496 Geometrie
902f	00000057 Kongress
012	337801134
081	Ceccato, Cristiano: Advances in Architectural Geometry 2010
100	Springer E-Book
125a	Elektronischer Volltext - Campuslizenz
655e	$uhttp://dx.doi.org/10.1007/978-3-7091-0309-8