Origami and Space Exploration.

Summary

The website content discusses the application of origami techniques in space exploration for efficiently deploying large 3D structures from compact 2D forms, highlighting the historical art of origami and its modern engineering applications.

Abstract

The content explores the intersection of traditional Japanese origami, which dates back to the Edo period, and its innovative use in engineering, particularly for space exploration. It explains how origami principles allow for the compact packaging of materials that can unfold into complex three-dimensional shapes, such as solar panels or antennas, in space. The article emphasizes the structural integrity and efficiency gained from origami-based designs, which are crucial for space applications where storage and deployment are significant challenges. It also provides historical context, showcasing the evolution of origami from an art form to a practical tool in modern technology, and includes multimedia resources such as images and videos to illustrate origami techniques and their practical applications.

Opinions

The author suggests that origami is not only an art form but also a valuable resource for solving complex engineering problems, particularly in space exploration.
There is an emphasis on the efficiency and effectiveness of origami-based engineering solutions, implying that they are superior to traditional methods in certain applications.
The content encourages the appreciation of origami as a historical craft that has transcended its original purpose to become a modern scientific tool.
The inclusion of public domain images and videos indicates the author's support for open access to educational resources, facilitating a broader understanding and application of origami techniques.
The recommendation of an AI service at the end of the article suggests the author's endorsement of technology that offers similar capabilities to high-cost alternatives, promoting accessibility and affordability in AI assistance.

Origami provides insights into new highly efficient ways for deploying large 3d shapes from small 2D packaging.

Cranes made by Origami (Orizuru). The height is 35mm. By Laitche, Public domain, via Wikimedia Commons. This work has been released into the public domain by its author, Laitche.

Origami instructions from the book: Hiden Senbazuru Orikata (Secret to Folding One-thousand Cranes) by author Akisato Ritō, 1797. Woodblock printed book; ink on paper. Origami cranes linked together. Diagram By Shimokōbe Shūsui (Japanese, died 1797) — Publisher = Yoshinoya Tamehachi, The Met Museum https://www.metmuseum.org/art/collection/search/78714, Public Domain, https://commons.wikimedia.org/w/index.php?curid=9890541. This work is in the public domain in its country of origin and other countries and areas where the copyright term is the author’s life plus 100 years or fewer.

Japanese origami practiced since Edo period (1603–1867), Origami is art of paper folding.

Practitioners seek to transform flat square paper to finished sculpture through folding and sculpting techniques, Modern practitioners discourage use of cuts glue and paper markings.

Best known origami model is paper crane, Designs begin with square sheet whose sides may be of different colors prints or patterns.

Origami in Engineering,

Origami-Based engineering applications seek to exploit relationship between structural integrity and shape’s geometry.

Origami based designs give capability to manufacture in 2D (folding sheet of paper) and then deploy on site in final 3D configuration (crane model).

Best shown by viewing these videos.

Origami Videos.

Blessed be.