# Nonlinear Dynamics

Nonlinear Dynamics > 2017 > 90 > 1 > 271-285

Nonlinear Dynamics > 2017 > 90 > 1 > 257-269

Nonlinear Dynamics > 2017 > 90 > 1 > 287-299

Nonlinear Dynamics > 2017 > 90 > 1 > 317-323

*T*is the delay. For $$T=0$$ T = 0 , this system is conservative and exhibits no limit cycles. For $$T>0$$ T > 0 , no matter how small

*T*is, an infinite number...

Nonlinear Dynamics > 2017 > 90 > 1 > 683-695

Nonlinear Dynamics > 2017 > 90 > 1 > 19-41

Nonlinear Dynamics > 2017 > 90 > 1 > 549-560

Nonlinear Dynamics > 2017 > 90 > 1 > 479-492

Nonlinear Dynamics > 2017 > 90 > 1 > 535-548

Nonlinear Dynamics > 2017 > 90 > 1 > 581-597

Nonlinear Dynamics > 2017 > 90 > 1 > 697-715

Nonlinear Dynamics > 2017 > 90 > 1 > 391-403

Nonlinear Dynamics > 2017 > 90 > 1 > 425-442

Nonlinear Dynamics > 2017 > 90 > 1 > 405-423

__P__RR parallel mechanism by considering joint clearances. A concise method based on Newton–Euler equations is presented for the planar multibody system, and the root mean square error (RMSE) of the angular...

Nonlinear Dynamics > 2017 > 90 > 1 > 203-221

Nonlinear Dynamics > 2017 > 90 > 1 > 137-170

Nonlinear Dynamics > 2017 > 90 > 1 > 65-81

Nonlinear Dynamics > 2017 > 90 > 1 > 95-104

Nonlinear Dynamics > 2017 > 90 > 1 > 171-183

Nonlinear Dynamics > 2017 > 90 > 1 > 617-647