Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Liu, X-J
Wang, J
and
Zheng, H
2003.
Workspace atlases for the computer aided design of the Delta robot.
Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science,
Vol. 217,
Issue. 8,
p.
861.
Arshad, M.
Khan, T.M.
and
Choudhry, M.A.
2005.
Solution of forward kinematics model of six degrees of freedom parallel robot manipulator.
p.
393.
Liu, X.-J.
and
Kim, J.
2005.
A New Spatial Three-DoF Parallel Manipulator With High Rotational Capability.
IEEE/ASME Transactions on Mechatronics,
Vol. 10,
Issue. 5,
p.
502.
Liu, Xin-Jun
Wang, Jinsong
and
Kim, Jongwon
2006.
Determination of the Link Lengths for a Spatial 3-DOF Parallel Manipulator.
Journal of Mechanical Design,
Vol. 128,
Issue. 2,
p.
365.
Liu, Xin-Jun
and
Wang, Jinsong
2007.
A new methodology for optimal kinematic design of parallel mechanisms.
Mechanism and Machine Theory,
Vol. 42,
Issue. 9,
p.
1210.
Zhu, Dachang
Zhu, Jianwu
and
Fang, Yuefa
2009.
Analysis of a novel parallel manipulator for Rotary Humanoid Wrist based on screw theory.
p.
983.
Zhang, Guoxin
Zhu, Song
Zhu, Dachang
and
Wu, Cui
2009.
A Novel Parallel Manipulator for Rotary Humanoid Wrist Based on Screw Theory.
p.
816.
Yu, Lingtao
Zhang, Lixun
Zhang, Nan
Yang, Shuo
and
Wang, Daoming
2010.
Kinematics simulation and analysis of 3-RPS parallel robot on SimMechanics.
p.
2363.
Asif, Umar
and
Iqbal, Javaid
2011.
A Robotic System with a Hybrid Motion Cueing Controller for Inertia Tensor Approximation in Micro-Manipulations.
International Journal of Advanced Robotic Systems,
Vol. 8,
Issue. 4,
Asif, Umar
and
Iqbal, Javaid
2011.
Modeling, Simulation and Motion Cues Visualization of a Six-DOF Motion Platform for Micro-Manipulations.
International Journal of Intelligent Mechatronics and Robotics,
Vol. 1,
Issue. 3,
p.
1.
Asif, Umar
and
Iqbal, Javaid
2013.
Advanced Engineering and Computational Methodologies for Intelligent Mechatronics and Robotics.
p.
137.
Meng, Xiangdun
Gao, Feng
Wu, Shengfu
and
Ge, Qiaode Jeffery
2014.
Type synthesis of parallel robotic mechanisms: Framework and brief review.
Mechanism and Machine Theory,
Vol. 78,
Issue. ,
p.
177.
Liu, Xin-Jun
and
Wang, Jinsong
2014.
Parallel Kinematics.
p.
239.
Filipovic, Mirjana
Djuric, Ana
and
Kevac, Ljubinko
2015.
The significance of adopted Lagrange’s principle of virtual work used for modeling aerial robots.
Applied Mathematical Modelling,
Vol. 39,
Issue. 7,
p.
1804.
Cisneros-Limon, Rafael
Vazquez-Gonzalez, Jose Luis
and
Mendoza-Vazquez, Jose Rafael
2015.
Workspace analysis of a 6-RSS parallel robot considering non-ideal spherical joints.
p.
3176.
Kaloorazi, Mohammad Hadi Farzaneh
Masouleh, Mehdi Tale
and
Caro, Stéphane
2016.
Determining the maximal singularity-free circle or sphere of parallel mechanisms using interval analysis.
Robotica,
Vol. 34,
Issue. 1,
p.
135.
Mirshekari, Erfan
Ghanbarzadeh, Afshin
and
Shirazia, Kourosh Heidari
2016.
Structure Comparison and Optimal Design of 6-RUS Parallel Manipulator Based on Kinematic and Dynamic Performances.
Latin American Journal of Solids and Structures,
Vol. 13,
Issue. 13,
p.
2414.
Mohan, Santhakumar
and
Corves, Burkhard
2017.
Inverse dynamics and trajectory tracking control of a new six degrees of freedom spatial 3-RPRS parallel manipulator.
Mechanical Sciences,
Vol. 8,
Issue. 2,
p.
235.
Dumlu, Ahmet
Erentürk, Köksal
Kaleli, Alirıza
and
Ayten, Kağan Koray
2017.
A comparative study of two model-based control techniques for the industrial manipulator.
Robotica,
Vol. 35,
Issue. 10,
p.
2036.
Zheng, He
Xiao-yu, Sun
Xuan, Gu
Ju, Liu
and
Chun-Ying, Yang
2018.
Analysis of the Flow Field in the Process of Rotorcraft Taking off and Landing on the Platforms of Ships.
Journal of Coastal Research,
Vol. 82,
Issue. ,
p.
126.