Presentation	2003/10/14 Application of the Highly Optimized Tolerance Model to Determining the Optimal Arrangement of Hypothetical Biosensors Takaya MIYANO, Miyuki YAMAKOSHI,
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Abstract(in English)	The highly optimized tolerance model, introduced by Carlson and Doyle, is applied to a toy problem of determining the optimal arrangement of hypothetical biosensors in a hypothetical airport terminal where a source of pathogenic virus or bacteria would be planted. The hallmark of robust design for the arrangement is obtained, providing a power law in the probability of occurrence of infection as a function of the number of persons infected.
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Keyword(in English)	HOT / complex systems / optimization / systems design / risk aversion
Paper #	NLP2003-95
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Conference Information
Committee	NLP
Conference Date	2003/10/14(1days)
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Paper Information
Registration To	Nonlinear Problems (NLP)
Language	JPN
Title (in Japanese)	(See Japanese page)
Sub Title (in Japanese)	(See Japanese page)
Title (in English)	Application of the Highly Optimized Tolerance Model to Determining the Optimal Arrangement of Hypothetical Biosensors
Sub Title (in English)
Keyword(1)	HOT
Keyword(2)	complex systems
Keyword(3)	optimization
Keyword(4)	systems design
Keyword(5)	risk aversion
1st Author's Name	Takaya MIYANO
1st Author's Affiliation	Center for Promotion of the COE Program, Ritsumeikan University()
2nd Author's Name	Miyuki YAMAKOSHI
2nd Author's Affiliation	Graduate School of Engineering, Hokkaido University
Date	2003/10/14
Paper #	NLP2003-95
Volume (vol)	vol.103
Number (no)	375
Page	pp.pp.-
#Pages	6
Date of Issue