Application of the absolute nodal coordinate formulation to large rotation and large deformation problems AA Shabana, HA Hussien, JL Escalona | 273 | 1998 |
Development of elastic force model for wheel/rail contact problems AA Shabana, KE Zaazaa, JL Escalona, JR Sany Journal of sound and vibration 269 (1-2), 295-325, 2004 | 270 | 2004 |
Application of the absolute nodal co-ordinate formulation to multibody system dynamics JL Escalona, HA Hussien, AA Shabana Journal of Sound and Vibration 214 (5), 833-851, 1998 | 224 | 1998 |
Formulation of three-dimensional joint constraints using the absolute nodal coordinates H Sugiyama, JL Escalona, AA Shabana Nonlinear Dynamics 31, 167-195, 2003 | 171 | 2003 |
Efficient evaluation of the elastic forces and the Jacobian in the absolute nodal coordinate formulation D Garcia-Vallejo, J Mayo, JL Escalona, J Domínguez Nonlinear Dynamics 35, 313-329, 2004 | 149 | 2004 |
A new locking-free shear deformable finite element based on absolute nodal coordinates D García-Vallejo, AM Mikkola, JL Escalona Nonlinear dynamics 50, 249-264, 2007 | 137 | 2007 |
Describing rigid-flexible multibody systems using absolute coordinates D Garcia-Vallejo, JL Escalona, J Mayo, J Domínguez Nonlinear Dynamics 34, 75-94, 2003 | 79 | 2003 |
An arbitrary Lagrangian–Eulerian discretization method for modeling and simulation of reeving systems in multibody dynamics JL Escalona Mechanism and Machine Theory 112, 1-21, 2017 | 69 | 2017 |
Three-dimensional formulation of rigid-flexible multibody systems with flexible beam elements D Garcia-Vallejo, J Mayo, JL Escalona, J Domínguez Multibody System Dynamics 20, 1-28, 2008 | 62 | 2008 |
Multibody model of railway vehicles with weakly coupled vertical and lateral dynamics S Muñoz, JF Aceituno, P Urda, JL Escalona Mechanical Systems and Signal Processing 115, 570-592, 2019 | 61 | 2019 |
A bicycle model for education in multibody dynamics and real-time interactive simulation JL Escalona, AM Recuero Multibody System Dynamics 27, 383-402, 2012 | 57 | 2012 |
Multibody simulation of railway vehicles with contact lookup tables JL Escalona, JF Aceituno International Journal of Mechanical Sciences 155, 571-582, 2019 | 52 | 2019 |
Modelling of structural flexiblity in multibody railroad vehicle systems JL Escalona, H Sugiyama, AA Shabana Vehicle system dynamics 51 (7), 1027-1058, 2013 | 52 | 2013 |
Artificial neural networks applied to the measurement of lateral wheel-rail contact force: A comparison with a harmonic cancellation method P Urda, JF Aceituno, S Muñoz, JL Escalona Mechanism and Machine Theory 153, 103968, 2020 | 50 | 2020 |
Finite-element analysis of unsupported sleepers using three-dimensional wheel–rail contact formulation AM Recuero, JL Escalona, AA Shabana Proceedings of the Institution of Mechanical Engineers, Part K: Journal of …, 2011 | 47 | 2011 |
Wheel-rail contact force measurement using strain gauges and distance lasers on a scaled railway vehicle P Urda, S Muñoz, JF Aceituno, JL Escalona Mechanical Systems and Signal Processing 138, 106555, 2020 | 44 | 2020 |
Efficient and accurate simulation of the rope–sheave interaction in weight-lifting machines U Lugris, JL Escalona, D Dopico, J Cuadrado Proceedings of the Institution of Mechanical Engineers, Part K: Journal of …, 2011 | 44 | 2011 |
Stability analysis of vehicles on circular motions using multibody dynamics JL Escalona, R Chamorro Nonlinear Dynamics 53, 237-250, 2008 | 43 | 2008 |
A track geometry measuring system based on multibody kinematics, inertial sensors and computer vision JL Escalona, P Urda, S Muñoz Sensors 21 (3), 683, 2021 | 31 | 2021 |
Estimation of lateral track irregularity through Kalman filtering techniques S Muñoz, J Ros, P Urda, JL Escalona IEEE Access 9, 60010-60025, 2021 | 29 | 2021 |