What is the meaning of parametric design?
Parametric design is a design method where features (such as building elements and engineering components) are shaped according to algorithmic processes, in contrast to being designed directly. In this method, parameters and rules determine the relationship between design intent and design response.
What is the meaning of parametric architecture?
Parametric architecture is defined as that design process that is based on a scheme of algorithms, which allows addressing parameters and rules that define and organize the existing relationship between the design requirements and a final design product of this process.
How does parametric design work?
Parametric design is a design process that sets up the structural geometry of a project through parametric modeling techniques. This helps determine both structural form and members. It then proposes various options in structural form so the structural design options can be iterated to architects and clients.
What is a parametric shape?
A parametric shape is a 2D form that is generated by a certain geometric logic and sized by input parameters. A simple but common example of a parametric shape is a circle, which is defined simply by a single parameter, the radius.
Why is parametric design useful?
Parametric design lets you specify the key parameters of your project and make changes interactively, with the model updating automatically. It can be used for architectural showmanship but I believe good engineers will use it to make more efficient designs, explore more options, and optimise buildings.
What is a parametric object?
1. Intelligent object characterized by the presence of parameters which allow storing graphical information, non-graphical information, and documentation of a component and easily modifying and managing it.
What is origami-based design?
Origami-based design represents a possible source of innovative configurations for engineered products, which could meet challenging design situations. FIGURE 4: An origami-adapted design for a backpack is the first design example.
How to model the stiffness and mass of origami?
To model the stiffness and mass of origami, we use a bar and hinge approach that provides insight into the structural behavior of the origami assemblages. It captures three fundamental physical behaviors: bending along fold lines, bending of initially flat panels, and stretching and shearing of panels.
Why are origami sheets flexible?
These systems tend to be flexible because the thin sheets bend and twist easily. We introduce a new method of assembling origami into coupled tubes that can increase the origami stiffness by two orders of magnitude.
What are the benefits of cellular origami?
The structural stiffness and energy absorption properties of cellular origami can be optimized to complement and improve naturally occurring materials. Zipper-coupled tubes can be integrated with aligned or internal coupling to create layered foldable assemblages.