Planar linkages following a prescribed motion

2017

Found Comput Math

Self Cite

Abstract. We prove that every bounded rational space curve of degree d and circularity c can be drawn by a linkage with 9 2 d − 6c + 1 revolute joints. Our proof is based on two ingredients. The first one is the factorization theory of motion polynomials. The second one is the construction of a motion polynomial of minimum degree with given orbit. Our proof also gives the explicit construction of the linkage.

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Kempe’s Universality Theorem for Rational Space Curves

Schicho

2017

Found Comput Math

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“…One example related to a rational version of Kempe's Universality Theorem is depicted in Figure 3. Any rational planar or spatial curve (an ellipse in Figure 3) can be drawn by a scissor like linkage whose number of joints is linear in the curve degree [7,8]. Figure 3.…”

Section: Application In Mechanism Sciencementioning

confidence: 99%

“…The factorization theory of polynomials over division rings has been developed half a century ago in [1,2]. It gained new attention in recent years because relations to mechanism science were unveiled [3,4,5,6,7,8,9,10,11]. Quaternion polynomials parameterize rational spherical motions.…”

Section: Introductionmentioning

confidence: 99%

Factorization results for left polynomials in some associative real algebras: State of the art, applications, and open questions

Scharler

Journal of Computational and Applied Mathematics

2019

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We discuss existence of factorizations with linear factors for (left) polynomials over certain associative real involutive algebras, most notably over Clifford algebras. Because of their relevance to kinematics and mechanism science, we put particular emphasis on factorization results for quaternion, dual quaternion and split quaternion polynomials. A general algorithm ensures existence of a factorization for generic polynomials over division rings but we also consider factorizations for non-division rings. We explain the current state of the art, present some new results and provide examples and counter examples.

“…Assume at first that H 1 is contained in the interior of N . There exists a suitable isometry of hyperbolic geometry that maps H 1 to [1]. Moreover, we pick an initial position of the four-bar linkage where H 2 lies on the line spanned by [i] and [j] and apply a suitable linear re-parametrization that ensures h 2 + h 2 = 0.…”

Section: A Conic and Its Focal Pointsmentioning

confidence: 99%

The Geometry of Quadratic Quaternion Polynomials in Euclidean and Non-euclidean Planes

Schicho

Advances in Intelligent Systems and Computing

2018

Self Cite

We propose a geometric explanation for the observation that generic quadratic polynomials over split quaternions may have up to six different factorizations while generic polynomials over Hamiltonian quaternions only have two. Split quaternion polynomials of degree two are related to the coupler motion of "four-bar linkages" with equal opposite sides in universal hyperbolic geometry. A factorization corresponds to a leg of the four-bar linkage and during the motion the legs intersect in points of a conic whose focal points are the fixed revolute joints. The number of factorizations is related by the number of real focal points which can, indeed, be six in universal hyperbolic geometry.