These four volumes of proceedings contain 126 papers contributed to the 8th International Meeting on Origami Science, Mathematics and Education (8OSME), held on 16-18 July 2024 at Swinburne University of Technology in Melbourne, Australia. The papers represent current work in different disciplines of origami and they are grouped into four subject themes, Volume 1 - Engineering I, Volume 2 - Engineering II, Volume 3 - Mathematics, Computation, History and Mental Health, and Volume 4 - Design and Education.
We witness increasing interests in origami from researchers, practitioners and artists. Of a special note is the rapidly growing research in origami engineering, a distinctive field with fundamental concepts and applications related to space, mechanical, material, medical and structural engineering etc.
Participants of 8OSME should find great passion and opportunity of collaborations across disciplines of origami. We hope these four volumes will inspire not just currently active researchers and artists, but also the next generation of origami scientists, mathematicians, engineers, designers, historians, and teachers.
Chapters 1 and 13 are available open access under a Creative Commons Attribution 4.0 International License via link.springer.com.
Chapter 1.Fold Sensing origami gestures - a case study with Kresling
kinematics-Chapter 2:Design and development of a foldable and transformable
hemispherical enclosure for robotic manufacturing.
Chapter 3:Chiral origami
robot with wheeled and quadcopter modes.
Chapter4:A robotic origami folder
for paper cranes.
Chapter 5:Miura-Bot: Modular Origami Robots for
Self-Folding Miura-Ori Tessellations.- Chapter 6: Adaptive Stiffness and
Shape Control of a Modular Origami-Inspired Robot.
Chapter 7:Re-programmable
Matter by Folding: Magnetically-Controlled Origami that Self-Folds,
Self-Unfolds, and Self-Reconfigures On-Demand.
Chapter 8:Origami Cellular
Material Switching Between Single and Multiple DOF Modes.Chapter 9:A
flat-foldable, transformable metamaterial from octahedral origami unit
cells.
Chapter 10:Kresling-Inspired Constant Size
Magnetically-Reconfigurable Metamaterials.
Chapter 11:Reconfigurable
Mechanical Logic Module.
Chapter 12:A Flat Foldable Solid Consisting of
Rhombitruncated Cuboctahedra and Regular Octagonal Prisms.
Chapter 13:Making
origami musical instruments.
Chapter 14:Fahrenheit 1832: Folding for Fire
Protection.
Chapter 15:Topological manifold based parametric design of
chiral origami mechanisms.
Chapter 16:Symmetric self-folding of N-gon hypar
origami.
Chapter 17:Theoretical Analysis on the Deformation of the Miura-Ori
Patterned Sheet.
Chapter 18:Parametric Study of the Porous Origami-based
Mechanical Metamaterials with Curvatures.
Chapter 19:Deformable Origami
Structure Design Based on Two-Dimensional Geometric Face Shape Collocation.-
Chapter 20:Earwig Fan Inspired Deployable Structures.
Chapter
21:Out-of-plane impact and energy absorption of origami honeycombs in Truck
Mounted Attenuator.
Chapter 22:Research on construction of double cubic core
and its application.
Chapter 23:Tessellation Manufacture by Sequential
Quasi-Isometric Gradual Folding.
Chapter 24:New Kresling Origami Geometry:
The Offset Cell.
Chapter 25:Kinematic Modeling of Cylindrical Origami
Tessellations for Programmable Local Motion Control.
Chapter 26:Geometric
Constructions of Bifoldable Polyhedral Complexes.
Chapter 27:From Flexagon
to Flexahedron Infinitely Turning Objects.
Chapter 28:Kinematics analysis
of Rubiks Magic puzzle and beyond.
Chapter 29:Motion analysis of Flexible
Modular Origami: A Finite Particle Method Investigation.
Chapter 30:Cut
design of pop-up origami with fixed planar substrate.
Chapter 31:Programming
Origami Instabilities via Topology Optimization.
Michael Assis is a mathematical physicist and origami artist. He received his PhD from Stony Brook University in the area of statistical mechanics, with applications in combinatorics and computational mathematics. He has exhibited his original origami models in conferences in several countries, and actively contributes to research in origami mathematics. He is currently based at the University of Melbourne, working in medical research in the area of paediatric oncofertility.
Guoxing Lu is a Qiushi Chair Professor in the Department of Engineering Mechanics, Zhejiang University, China. Prior to that, he was a University Distinguished Professor and Founding Director of the Impact Engineering Laboratory, Swinburne University of Technology, Australia. He held academic positions at Nanyang Technological University, Singapore. In 1989, he obtained his PhD in Structural Mechanics from the University of Cambridge.
Zhong You is a professor of Engineering Science at the University of Oxford. His research encompasses the fields of folding and origami structures, with a particular focus on the development of a systematic approach to the creation of large deployable assemblies. He served as the chairperson for 7OSME, which was held in Oxford in 2018. He obtained his PhD in structural engineering from the University of Cambridge.
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