![aad algorithms-aided design aad algorithms-aided design](https://images-na.ssl-images-amazon.com/images/I/41iCIFpQeQL.jpg)
It also features case studies and contributions by researchers and designers from world's most influential universities and leading architecture firms." - Publisher's description The book provides computational techniques to develop and control complex geometries, covering parametric modeling, digital fabrication techniques, form-finding strategies, environmental analysis and structural optimization.
#Aad algorithms aided design software
Summary: "The book "Algorithms-Aided Design" presents design methods based on the use of Grasshopper, a visual algorithm editor tightly integrated with Rhinoceros, the 3D modeling software by McNeel & Associates allowing users to explore accurate freeform shapes.
![aad algorithms-aided design aad algorithms-aided design](https://architosh.com/wp-content/uploads/2020/03/1700x2200_insider_issue_03.jpg)
#Aad algorithms aided design how to
Introduction : AAD_Algorithms-Added Design: from traditional drawings to the parametric diagram - Algorithmic modeling with Grasshopper : Prerequisites and installation Grasshopper user interface Components and data Save and bake Display and control Grasshopper flow Basic concepts and operations - Data: how to manage data in Grasshopper : Filters Numerical sequences Mathematical functions Conditions Remapping numbers, attractors - Control: curves and surfaces in Grasshopper : NURBS curves Parametric representation of a curve Analysis of curves in Grasshopper Notion of curvature for planar curves Parametric representation of a surface Surface creation Analysis of surfaces using Grasshopper Notion of curvature for surfaces - Transformations : Vectors Euclidean transformations Affine transformations Other transformations: Box Morph - Skins: advanced data management : Manipulating the Data Tree Skins Sorting strategies using Data Tree - Smoothness : NURBS and polygon meshes Polygon meshes Creating meshes in Grasshopper SubD in Grasshopper: Weaverbird plug-in Subdivision of triangular meshes: loop algorithm Subdivision of quadrangular meshes: Catmull-Clark algorithm - Digital informing creativity - Loops : Loops in Grasshopper: HoopSnake component Fractals Loops in Grasshopper: loop component - Digital fabrication: make ideas come true : Fabrication techniques Modeling printable objects Modeling objects for cutting based operations NU:S installation Large-scale objects Over the material, past the digital: back to cities (Digital) form-finding - Digital simulation: particle-spring systems : Kangaroo plug-in Kangaroo workflow Cable simulation Elastic behavior: Hooke's law - Catenary simulation Membrane simulation Shell behavior Form as unknown: computational methodology and material form generation in the AA Rome Visiting School Workshops Evolutive structures: Topology optimization : Shape optimization Topology Topology optimization Works Examples Optimization: finding solutions with Grasshopper - Environmental analysis : Tools GECO and Ecotect About GECO's components Solar diagram and shadows Exporting geometries and importing data Insolation analysis Analysis grids Light control - Afterword : Post digital strategies: pragmatic computation in Grasshopper - Appendix : I am city, we are city Parametric urbanism: a new frontier for smart cities Tools and methods for parametric urbanism Playful computation: how Grasshopper3D & its plugins increased my creativity with five project examples The CloudBridge.