Chapter 1 :Adding more bite to the origami chomper.- Chapter 2:Quaternion-Based Loop Closure Method for Precise Kinematic Simulation of Rigid Origami.-Chapter 3 :Shape Optimization of Rigid Origami for Approximate Self-foldability under Gravity.- Chapter 4 :When will the existence of a non-trivial state guarantee a continuous motion for a quad-mesh rigid origami?.- Chapter 5 :Nonlinear Kinematics of Recursive Origami Inspired by Spidron.- Chapter 6 :Programmable multistability and rigid flattenability in origami cubes by adding a minimal cut.- Chapter 7 :Isometries of trapezoid-based origami.- Chapter 8 :Higher-order infinitesimal mechanism of rigid origami and polynomial approximation of its folding path.
-Chapter 9 :Modular Origami Approach for Rigid Foldable Steel Load-Bearing Plate Lattices in Arbitrary Sizes.- Chapter 10 :Woven Rigidly Foldable T-hedral Tubes Along Translational Surfaces.- Chapter 11:Amplifying the kinematics of origami mechanisms with spring joints.- Chapter 12 :Rigid-Foldable Hexagon-Twist Origami Patterns.- Chapter 13 :Framework for the fabrication of flat foldable, thick origami structures via non-rigid origami methods.- Chapter 14 :Not So Thick Origami.- Chapter 15 :Regular and Semi-Regular Tessellations of Origami Flashers.-Chapter 16 :Constant-Thickness Accommodation by Pattern Modification for Origami Flashers.
- Chapter 17 :Cyclic Testing of Membrane Hinges for use in Origami-inspired Engineering Design.- Chapter 18 :A lightweight building construction system using curved-crease origami blocks.- Chapter 19 :Designing Curved Folded Structures through Topology Optimisation.-Chapter 20 :Actuating tubes in multilayer curved folding.- Chapter 21 :Slit folding - openings to close along curved foldlines.- Chapter 22 :Rigid-ruling Curved Folding Origami Implemented with Straight Inflated Air Pouches.- Chapter 23 :Kirigami-inspired rectangular iso-area twist tessellations in architecture.- Chapter 24 :Growing kirigami with self-healing and reprogrammable mechanical properties.
-Chapter 25:Fabrication of DCRA using Kiri-origami Structure.- Chapter 26:Auxetic Kirigami Pattern inspired by Indusium in a Dictyophora Indusiate.- Chapter 27:A kirigami-inspired folding configuration for Muira thick panel.- Chapter 28:Rotational Erection System (RES) variations: fractals, tessellation, and interlinkage.- Chapter 29 :Folding Condition of Kirigami and Rigid-foldable Kiri-origami Structure with Periodic Incision on Concentric Circles.- Chapter 30 :Design of morphing and multifunctional shape profiles through cutting tessellations.