Designing mechanical devices, called linkages, that draw a given plane curve has been a topic that interested engineers and mathematicians for hundreds of years, and recently also computer scientists. Already in 1876, Kempe proposed a procedure for solving the problem in full generality, but his constructions tend to be extremely complicated. We provide a novel algorithm that produces much simpler linkages, but works only for parametric curves. Our approach is to transform the problem into a factorization task over some noncommutative algebra. We show how to compute such a factorization, and how to use it to construct a linkage tracing a given curve.
Planar Linkages Following a Prescribed Motion / Gallet, M; Koutschan, C; Li, Z; Regensburger, G; Schicho, J; Villamizar, N. - In: MATHEMATICS OF COMPUTATION. - ISSN 0025-5718. - 86:(2017), pp. 473-506. [10.1090/mcom/3120]
Planar Linkages Following a Prescribed Motion
Gallet M;
2017-01-01
Abstract
Designing mechanical devices, called linkages, that draw a given plane curve has been a topic that interested engineers and mathematicians for hundreds of years, and recently also computer scientists. Already in 1876, Kempe proposed a procedure for solving the problem in full generality, but his constructions tend to be extremely complicated. We provide a novel algorithm that produces much simpler linkages, but works only for parametric curves. Our approach is to transform the problem into a factorization task over some noncommutative algebra. We show how to compute such a factorization, and how to use it to construct a linkage tracing a given curve.Pubblicazioni consigliate
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