Add to ORKGThis work harnesses interpretable machine learning methods to address the challenging inverse design problem of origami-inspired systems. We show that a decision tree-random forest method is particularly suitable for fitting origami databases, containing both design features and functional performance, to generate human-understandable decision rules for the inverse design of functional origami. First, the tree method is unique because it can handle complex interactions between categorical features and continuous features, allowing it to compare different origami patterns for a design. Second, this interpretable method can tackle multi-objective problems for designing functional origami with multiple and multi-physical performance targets. F...
ABSTRACT: Origami, which is the construction of an object by folding a single sheet of paper, has be...
Abstract A new paradigm called physical reservoir computing has recently emerged, where the nonlinea...
This paper presents a quantitative framework to analyze the complexity of folding origami structures...
The elegant and simple idea of using origami to create 3D structures from 2D surfaces is suitable fo...
Over the past 20 years, the world of origami has been changed by the introduction of design algorith...
Abstract Origami‐based designs refer to the application of the ancient art of origami to solve engin...
In this paper, we present a series of case studies of origami-like geometries modelled and animated ...
Origami, the ancient art of paper folding, embodies techniques for transforming a flat sheet of pape...
Origami robots are machines whose morphologies and functions are created by folding locally flat she...
Origami has unfolded engineering applications in various fields, such as electrical, civil, aerospac...
While origami is an ancient art form, its application in engineering science has only been populariz...
Abstract Origami tessellations can be folded from a given planar pattern into a three...
Origami structures are a traditional Japanese art that have recently found their way into engineerin...
Origami, an ancient art of paperfolding, has evolved beyond its traditional use for cultural and ent...
Origami shape transformation is dictated by predefined folding patterns and their folding sequence. ...
ABSTRACT: Origami, which is the construction of an object by folding a single sheet of paper, has be...
Abstract A new paradigm called physical reservoir computing has recently emerged, where the nonlinea...
This paper presents a quantitative framework to analyze the complexity of folding origami structures...
The elegant and simple idea of using origami to create 3D structures from 2D surfaces is suitable fo...
Over the past 20 years, the world of origami has been changed by the introduction of design algorith...
Abstract Origami‐based designs refer to the application of the ancient art of origami to solve engin...
In this paper, we present a series of case studies of origami-like geometries modelled and animated ...
Origami, the ancient art of paper folding, embodies techniques for transforming a flat sheet of pape...
Origami robots are machines whose morphologies and functions are created by folding locally flat she...
Origami has unfolded engineering applications in various fields, such as electrical, civil, aerospac...
While origami is an ancient art form, its application in engineering science has only been populariz...
Abstract Origami tessellations can be folded from a given planar pattern into a three...
Origami structures are a traditional Japanese art that have recently found their way into engineerin...
Origami, an ancient art of paperfolding, has evolved beyond its traditional use for cultural and ent...
Origami shape transformation is dictated by predefined folding patterns and their folding sequence. ...
ABSTRACT: Origami, which is the construction of an object by folding a single sheet of paper, has be...
Abstract A new paradigm called physical reservoir computing has recently emerged, where the nonlinea...
This paper presents a quantitative framework to analyze the complexity of folding origami structures...