Closed-Form Solutions to the Direct Kinematics of a Family of 3-XPS Parallel Mechanisms

Yannick Cianyi; Ilian A. Bonev; Zhaoheng Liu; Henri Champliaud

doi:10.1115/1.4071064

Closed-Form Solutions to the Direct Kinematics of a Family of 3-XPS Parallel Mechanisms

École de technologie supérieure

Research output: Contribution to journal › Journal Article › peer-review

Abstract

We derive closed-form solutions to the direct-kinematics problem of a family of three and six degrees-of-freedom 3-X_PS parallel manipulators. In this class, the direct kinematics reduces to the classical “three-points-on-three-lines” problem, where the three lines have direction vectors that are mutually separated by 120 deg and are all horizontal. In some earlier works, the problem was reduced to solving a univariate polynomial of degree 4. Here, we use both ZYZ Euler angles and quaternions to derive two alternative solutions, each involving only simple trigonometric or quadratic equations. These new formulations provide insight into the separation of the four assembly modes and the robot’s singular configurations.

Original language	English
Article number	041007
Journal	Journal of Mechanisms and Robotics
Volume	18
Issue number	4
DOIs	https://doi.org/10.1115/1.4071064
Publication status	Published - 1 Apr 2026

!!!Keywords

direct kinematics
parallel robots
quaternions
singularities
three-points-on-three-lines problem

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10.1115/1.4071064

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title = "Closed-Form Solutions to the Direct Kinematics of a Family of 3-XPS Parallel Mechanisms",

abstract = "We derive closed-form solutions to the direct-kinematics problem of a family of three and six degrees-of-freedom 3-X\_PS parallel manipulators. In this class, the direct kinematics reduces to the classical “three-points-on-three-lines” problem, where the three lines have direction vectors that are mutually separated by 120 deg and are all horizontal. In some earlier works, the problem was reduced to solving a univariate polynomial of degree 4. Here, we use both ZYZ Euler angles and quaternions to derive two alternative solutions, each involving only simple trigonometric or quadratic equations. These new formulations provide insight into the separation of the four assembly modes and the robot{\textquoteright}s singular configurations.",

keywords = "direct kinematics, parallel robots, quaternions, singularities, three-points-on-three-lines problem",

author = "Yannick Cianyi and Bonev, \{Ilian A.\} and Zhaoheng Liu and Henri Champliaud",

note = "Publisher Copyright: Copyright {\textcopyright} 2026 by ASME.",

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doi = "10.1115/1.4071064",

language = "English",

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TY - JOUR

T1 - Closed-Form Solutions to the Direct Kinematics of a Family of 3-XPS Parallel Mechanisms

AU - Cianyi, Yannick

AU - Bonev, Ilian A.

AU - Liu, Zhaoheng

AU - Champliaud, Henri

PY - 2026/4/1

Y1 - 2026/4/1

N2 - We derive closed-form solutions to the direct-kinematics problem of a family of three and six degrees-of-freedom 3-X_PS parallel manipulators. In this class, the direct kinematics reduces to the classical “three-points-on-three-lines” problem, where the three lines have direction vectors that are mutually separated by 120 deg and are all horizontal. In some earlier works, the problem was reduced to solving a univariate polynomial of degree 4. Here, we use both ZYZ Euler angles and quaternions to derive two alternative solutions, each involving only simple trigonometric or quadratic equations. These new formulations provide insight into the separation of the four assembly modes and the robot’s singular configurations.

AB - We derive closed-form solutions to the direct-kinematics problem of a family of three and six degrees-of-freedom 3-X_PS parallel manipulators. In this class, the direct kinematics reduces to the classical “three-points-on-three-lines” problem, where the three lines have direction vectors that are mutually separated by 120 deg and are all horizontal. In some earlier works, the problem was reduced to solving a univariate polynomial of degree 4. Here, we use both ZYZ Euler angles and quaternions to derive two alternative solutions, each involving only simple trigonometric or quadratic equations. These new formulations provide insight into the separation of the four assembly modes and the robot’s singular configurations.

KW - direct kinematics

KW - parallel robots

KW - quaternions

KW - singularities

KW - three-points-on-three-lines problem

UR - https://www.scopus.com/pages/publications/105033969109

U2 - 10.1115/1.4071064

DO - 10.1115/1.4071064

M3 - Journal Article

AN - SCOPUS:105033969109

SN - 1942-4302

VL - 18

JO - Journal of Mechanisms and Robotics

JF - Journal of Mechanisms and Robotics

IS - 4

M1 - 041007

ER -

Closed-Form Solutions to the Direct Kinematics of a Family of 3-XPS Parallel Mechanisms

Abstract

!!!Keywords

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