Crossref Citations
This article has been cited by the following publications. This list is generated based on data provided by
Crossref.
Díaz-Rodríguez, Miguel
Mata, Vicente
Valera, Ángel
and
Page, Álvaro
2010.
A methodology for dynamic parameters identification of 3-DOF parallel robots in terms of relevant parameters.
Mechanism and Machine Theory,
Vol. 45,
Issue. 9,
p.
1337.
Rodríguez, Miguel Díaz
Mata, Vicente
Valera, Ángel
and
Page, Álvaro
2010.
ROMANSY 18 Robot Design, Dynamics and Control.
Vol. 524,
Issue. ,
p.
283.
Saha, Ashesh
and
Wahi, Pankaj
2014.
An analytical study of time-delayed control of friction-induced vibrations in a system with a dynamic friction model.
International Journal of Non-Linear Mechanics,
Vol. 63,
Issue. ,
p.
60.
Saha, Ashesh
Wiercigroch, Marian
Jankowski, Krzysztof
Wahi, Pankaj
and
Stefański, Andrzej
2015.
Investigation of two different friction models from the perspective of friction-induced vibrations.
Tribology International,
Vol. 90,
Issue. ,
p.
185.
Saha, Ashesh
Wahi, Pankaj
Wiercigroch, Marian
and
Stefański, Andrzej
2016.
A modified LuGre friction model for an accurate prediction of friction force in the pure sliding regime.
International Journal of Non-Linear Mechanics,
Vol. 80,
Issue. ,
p.
122.
Saha, Ashesh
Wahi, Pankaj
and
Bhattacharya, Bishakh
2016.
Characterization of friction force and nature of bifurcation from experiments on a single-degree-of-freedom system with friction-induced vibrations.
Tribology International,
Vol. 98,
Issue. ,
p.
220.
Wang, Gangqiang
Li, Chaodong
and
Yuan, Tao
2017.
Design and experiment of a small-scale walking robot employing stick-slip motion principle.
Review of Scientific Instruments,
Vol. 88,
Issue. 11,
Khan, Zulfiqar A.
Chacko, Vivek
and
Nazir, Hammad
2017.
A review of friction models in interacting joints for durability design.
Friction,
Vol. 5,
Issue. 1,
p.
1.
Harlecki, Andrzej
and
Urbaś, Andrzej
2017.
Modelling friction in the dynamics analysis of selected one-DOF spatial linkage mechanisms.
Meccanica,
Vol. 52,
Issue. 1-2,
p.
403.
Shafei, A.M.
and
Shafei, H.R.
2018.
Dynamic modeling of planar closed-chain robotic manipulators in flight and impact phases.
Mechanism and Machine Theory,
Vol. 126,
Issue. ,
p.
141.
Rouillard, V.
Lamb, M.J.
and
Sek, M.A.
2018.
Modelling the Dynamic Behaviour of a Friction-Type Mechanical Shock Indicator.
Experimental Techniques,
Vol. 42,
Issue. 4,
p.
383.
Liu, Tao
Hu, Yuli
Xu, Hui
Wang, Qiankun
and
Du, Weiqiang
2019.
A novel vectored thruster based on 3-RPS parallel manipulator for autonomous underwater vehicles.
Mechanism and Machine Theory,
Vol. 133,
Issue. ,
p.
646.
Laus, L.P.
Simas, H.
and
Martins, D.
2020.
Machine efficiency determined using graph and screw theories with application in robotics.
Mechanism and Machine Theory,
Vol. 148,
Issue. ,
p.
103748.
Hou, Yulei
Zhang, Guoxing
and
Zeng, Daxing
2020.
An efficient method for the dynamic modeling and analysis of Stewart parallel manipulator based on the screw theory.
Proceedings of the Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science,
Vol. 234,
Issue. 3,
p.
808.
Guo, Feng
Cheng, Gang
and
Pang, Yusong
2022.
Explicit dynamic modeling with joint friction and coupling analysis of a 5-DOF hybrid polishing robot.
Mechanism and Machine Theory,
Vol. 167,
Issue. ,
p.
104509.
Nguyen-Thai, Minh-Tuan
2022.
Advances in Asian Mechanism and Machine Science.
Vol. 113,
Issue. ,
p.
531.
Chen, Shibiao
Cheng, Gang
and
Pang, Yusong
2022.
Dynamic Analysis and Trajectory Tracking Control for a Parallel Manipulator with Joint Friction.
Applied Sciences,
Vol. 12,
Issue. 13,
p.
6682.
Yongxu, Hu
Chit Tan, Andy
Cai, Yi
and
Fengming, Li
2023.
Effect analysis of cardan shaft misalignment on dynamic performance of high-speed vehicle.
Engineering Failure Analysis,
Vol. 150,
Issue. ,
p.
107301.
Aivaliotis, P.
Kaliakatsos-Georgopoulos, D.
and
Makris, S.
2023.
Physics-based modelling of robot’s gearbox including non-linear phenomena.
International Journal of Computer Integrated Manufacturing,
Vol. 36,
Issue. 12,
p.
1864.
Zhang, Tie
Chen, Yijie
and
Zou, Yanbiao
2024.
Joint torque estimation method of industrial robot by combining error compensation model based on LSTM and iterative weighted parameter identification.
Proceedings of the Institution of Mechanical Engineers, Part I: Journal of Systems and Control Engineering,