5OSME Program

5OSME Conference Schedule (Tuesday 13 July - Thursday 15 July)

Tuesday 13 July 2010

5OSME kicks off with an evening reception at 1800 for conference participants.

Wednesday 14 July 2010

The exhibition and free folding area will be open from 9 am to 6 pm. Late night folding starts from 6 pm onwards.

0830 - 0900	Registration
0900 - 0930	Welcome and opening remarks
0930 - 1030	Keynote Lecture 1 Computational Origami from Science to Sculpture Professor Erik D. Demaine
1030 - 1100	Break
1100 - 1300	Science, Engineering, Technology 1	Mathematics 1	Education 1
1300 - 1400	Lunch
1400 - 1630	Design 1	Mathematics 2	Education 2
1630 - 1645	Break
1645 - 1830	Screening of "Between the Folds", winner of a 2010 Peabody Award

The conference banquet will be held at 1930.

Thursday 15 July 2010

The exhibition and free folding area will be open from 9 am to 6 pm. Late night folding starts from 6 pm onwards.

0900 - 1000	Keynote Lecture 2: Mathematical Origami: Transforming Flapping Birds into Space Telescopes Dr Robert Lang
1000 - 1030	Break
1030 - 1230	Science, Engineering, Technology 2	Mathematics 3	Education 3
1230 - 1330	Lunch
1330 - 1530	Science, Engineering, Technology 3	Mathematics 4	Design 2
1530 - 1600	Break
1600 - 1800	Design 3	Mathematics 5	Education 4

Detailed Schedule

Wednesday 14 July 2010

1100 – 1300 Science, Engineering, Technology 1

Klett, Yves and Drechsler, Klaus	Institute of Aircraft Design, Universitat Stuttgart, Germany	Technical Tessellations - Hidden Beauties
Ma, Jiayao and You, Zhong	University of Oxford	The Origami Crash Box
Gray¹, Steven, Zeichner², Nathan, Kumar¹, Vijay, and Yim¹, Mark	¹Mechanical Engineering and Applied Mechanics Dept., ²Digital Media Design, University of Pennsylvania	A Simulator for Origami-Inspired Self-Reconfigurable Robots
Nuzzo, Ralph G.	University of Illinois at Urbana-Champaign	Functional 3D Materials Integration by Folding and Assembly

1100 – 1300 Mathematics 1

Lang¹, Robert and Bateman², Alex	¹Langorigami.com, ²The Wellcome Trust Sanger Institute	Every Spider Web has a Simple Flat Twist Tessellation
Maekawa, Jun	National Astronomical Observatory of Japan	A Study on Knots of Tapes
Demaine¹, Erik D., Fekete², Sandor P., Lang³, Robert J.	¹MIT Computer Science and Artificial Intelligence Laborary, ²Dept. of Computer Science, Braunschweig Institute of Technology, Germany, ³Langorigami.com	On the Complexity of Origami Design
Uehara, Ryuhei	Japan Advanced Institute of Science and Technology (JAIST)	Computational Complexity of Pleat Folding

1100 – 1300 Education 1

Hatori, Koshiro	----	History of Origami in the East and the West before Interfusion
Fiol¹, Maria Lluisa, Dasquens², Neus, and Prat¹, Montserrat	¹Universitat Autñnoma de Barcelona, ²Escola Font de l'Alba, Terrassa	Origami at School: Imagination, Emotion and Geometry
Morrow, Charlene and Morrow, James	Mount Holyoke College	Connecting Origami Skills with Mathematical Tools
Lam¹, Tung Ken and ²Pope, Sue	¹University of Cumbria, England, ²---	Origami and Learning Mathematics

1400 – 1630 Design 1

Wang, Junfeng and Chen, Yan	Nanyang Technological University, Singapore	Rigid Origami to Fold a Flat Paper into a Patterned Cylinder
Hudson, Andrew	---	Aperiodic grids and polygon symmetry systems
Burczyk¹, Krystyna and Burczyk², Wojciech	¹Association of Mathematics Teachers, working group Origami and Mathematics, ²--	A Systematics Approach to Twirls Design
Fuse¹, Tomoko and Kuribayashi², Kaori	¹Origami artist, ²University of Tokyo, Institute of Industrial Science (IIS), Center for International Research on Micromechatronics	Twisting Origami Lamp
Strobl, Heinz	---	Extending Special to General Snapology

1400 – 1630 Mathematics 2

Ghourabi, Fadoua and Ida, Tetsuo	University of Tsukuba	A Programming Language for Origami Construction and Theorem Proving
Alperin, Roger C.	San Jose State University	Mathematical Origami in the Hyperbolic Plane
Tramuns-Figueras, Eulalia	Universitat Politècnica de Catalunya, Spain	The speed of origami constructions versus other construction tools
Haga, Kazuo	Haga’s Laboratory for Science Education	Precise Division of Rectangular Paper into an Odd Number of Equal Parts without Tools
Kawasaki, Toshikazu	Anan College of Technology, Japan	A study about the axiomatic system of spherical origami construction

1400 – 1630 Education 2

Kwan, Shi-Pui	Hong Kong Institute of Education	My Favorite Origamics Lesson on Volume of Solids
Golan, Miri	Israeli Origami Center	The Art of Origami as a Means to Improve Geometric Understanding
Morrow, James and Morrow, Charlene	Mount Holyoke College	Close Observation and Reverse Engineering of Origami
Baxter¹, Jonathan and Gribben², Hugh	¹OrigamiNZ, ²Auckland University Maths Education Section	Getting Dirty with Maths Down Under

Thursday, 15 July 2010

1030 – 1230 Science, Engineering, Technology 2

Barbastathis^1,2, George, Arora³, Will, Shaar¹, Nader S., Yang¹, Se Young, Livermore¹, Carol, and Smith^1,4, H.I.	¹MIT Mechanical Engineering Dept., ²Singapore-MIT Alliance for Research and Technology (SMART) Center, Singapore, ³MC10, Inc., Wlatham, MA, ⁴MIT Electrical Engr. And Comp. Sci., Dept.,	Nanostructured Origami
Weina, Wu and You, Zhong	University of Oxford	Energy absorption of thin-walled tubes with origami patterns
Schenk, Mark and Guest, S.D.	Cambridge University Engineering Department	Origami Folding and Foldability: a Structural Engineering Approach

1030 – 1230 Mathematics 3

Benbernou, Nadia M., Demaine, Erik D., Demaine, Martin L., Ovadya, Aviv	MIT Computer Science and Artificial Intelligence Laboratory	Universal Hinge Patterns to Fold Orthogonal Shapes
Cheng, Herng Yi	NUS High School of Mathematics and Science	Folding Prismatoids with 3D Origami
Mitani, Jun	University of Tsukuba	A design method for axial symmetrical curved origami with triangular prism protrusions
Garron, Lucas	Stanford University	4D Origami Folds: Generalizing the Axioms to Higher Dimensions

1030 – 1230 Education 3

Edison, Christine	---	Narratives of Success: Teaching Origami in Low-Income/Urban Communities
Goldman, Faye	---	Using the Snapology Technique to Teach Convex Polyhedra
Iyer^1,2, Shrikant and Katz¹, Rachel	¹OrigamiUSA, ²Stonybrook University	Origami: An Interdisciplinary Approach Using Storigami
Wolf, Kathrin, Winckler, Michael and Bock, Hans Georg	MINTmachen Project, Heidelberg University	Using Origami to Teach Geometry to High School Students

1330 – 1530 Science, Engineering, Technology 3

Tsuruta, Naoya, Mitani, Jun, Kanamori, Yoshihiro, Fukui, Yukio	University of Tsukuba	A CAD system for diagramming origami with a prediction of folding processes
Akitaya, Hugo Alves, Castro, Mathens Ribeiro, Ralha, Jose Carlos, and Koike, Carla Cavalcante	Computer Science Department, University of Brasilia	Development of an Intuitive Algorithm for Diagramming and 3D Animated Tutorial for Folding Crease Patterns
Kuribayashi, Kaori, Onoe, Hiroaki, and Takeuchi, Shoji	University of Tokyo, Institute of Industrial Science (IIS), Center for International Research on Micromechatronics	Folding Origami by Cell Forces
Demaine, Erik D., Demaine, Martin L., and Ku, Jason	MIT Computer Science and Artificial Intelligence Laboratory	Folding Any Orthogonal Maze (D)

1330 – 1530 Mathematics 4

Tachi, Tomohiro	University of Tokyo	Rigid-Foldable Thick Origami
Watanabe, Naohiko	National Maritime Research Institute	Extension of the Method for Judging Rigid Foldability
Jones, Charles	---	Single Fold Multiple-Layer Origami Axioms and Their Completeness
Kawasaki, Hidefumi and Ohno, Haruki	Kyushu University	Rigorous Proof of Flat Foldability Theorem of One-dimensional Origami

1330 – 1530 Design 2

Hudson, Andrew	---	Origami Design and Music Composition: an extended comparison
Edison, Christine	---	Compression and Rotational Limitations of Curved Corrugations Based on Curve Measurements
Gardiner, Matthew	-----	Oribotics
Kawamura¹, Miyuki and Moriwaki², Hiroyuki	¹---, ²Tama Art University	New Collaboration on Modular Origami and LED

1600 – 1800 Design 3

Leong, Cheng Chit	---	Folding simulation of non-zero Gaussian Curvature by Mountain and Valley Intrinsic Straight and Curved Crease Couplets
Eisner, Dirk	---	Folding harmony - Polyhedra and compounds from edge modules
Tateishi, Koichi	Kobe College	Deictic properties of Origami Technical Terms and Translatability: Cross-Linguistic Differences
Demaine¹, Erik D., Demaine¹, Martin L., and Koschitz², Duks	¹MIT Computer Science and Artificial Intelligence Laborary, ²MIT Design and Computation	Reconstructing David Huffman’s Legacy in Curved-Crease Origami

1600 – 1800 Mathematics 5

Breda¹, A.M. d’Azevedo and Ribeiro², Patricia S.	¹Dept. Mathematics, University of Aveiro, Portugal, ²Dept Mathematics, E.S.T. Setubal, Portugal	Properties of a Class of Dihedral f-Tilings of the Sphere by Isosceles Triangles
Tachi¹, Tomohiro and Demaine², Erik D.	¹University of Tokyo, ²MIT Computer Science and Artificial Intelligence Laboratory	Degenerative Coordinates in 22.5 degrees Grid System
Frigerio, Emma	University of Milan	Variations on a Theorem of Haga
Ida, Tetsuo and Ghourabi, Fadoua	University of Tsukuba	Graphs of Origami

1600 – 1800 Education 4

Boakes, Norma J.	Richard Stockton College of NJ	Origami Mathematics Lessons' Influence on Spatial Skills of College Age Students
Tubis¹, Arnold and Mills², Crystal Elaine	¹Dept. Physics (retired), Purdue University and BioCircuits Institute, UCSD, San Diego, CA, ²California Mathematics Council ComMuniCator, Clayton, CA	Betsy Ross Revisited: General Fold and One-Cut Regular and Star Polygons
Orndorff, Robert	---	Math in a Box
Foreman-Takano, Deborah	Doshisha University, Kyoto, Japan	Origami and Paraphrasing in EFL: Implications of Grammar Theory