Add to ORKGA technique for analysis of second order properties of planar two-degree-of-freedom mechanisms has been proposed. Analytical and graphical representations of the properties have been used to study the relative influence of input velocities and accelerations on the acceleration of the end point. It has been shown that best control on end point acceleration is available at and in the vicinity of the isotropic point. 1
AbstractFor an infinitesimal motion of a given planar mechanisms we can consider a relative motion c...
The second order kinematic constraint (acceleration constraint) between two rigid bodies that are r...
Computer programs have been developed for the kinematic and dynamic analyses of cascades of planar f...
In single-degree-of-freedom (DOF)mechanisms, velocity coefficients (VCs)and their 1st derivative wit...
In the literature, velocity coefficients (VCs) and acceleration coefficients (ACs) were substantiall...
This paper presents a study on restraining the motion of planar mechanisms using point contacts betw...
The paper develops a general procedure for the dynamic analysis of planar mechanisms with multiple c...
This paper proposes an analytical solution of the Inverse Kinematics (IK) problem at dead point conf...
In this paper the dynamic equivalence of planar mechanisms is investigated by decomposition of inert...
The second volume of Rigid Body Dynamics of Mechanisms covers applications via a systematic method f...
In single-degree-of-freedom (DOF) mechanisms, velocity coeffi-cients (VCs) and their 1st derivative ...
The study is focused on determining the errors in output kinematic parameters (position, velocity, a...
The complex planar multilink mechanisms are in increasingly wide use at light industry process equip...
Some didactic issues associated with the computation of degrees-of-freedom (d.o.f) are herein discus...
We analyze the two-dimensional motion of a rigid body due to a constant torque generated by a force ...
AbstractFor an infinitesimal motion of a given planar mechanisms we can consider a relative motion c...
The second order kinematic constraint (acceleration constraint) between two rigid bodies that are r...
Computer programs have been developed for the kinematic and dynamic analyses of cascades of planar f...
In single-degree-of-freedom (DOF)mechanisms, velocity coefficients (VCs)and their 1st derivative wit...
In the literature, velocity coefficients (VCs) and acceleration coefficients (ACs) were substantiall...
This paper presents a study on restraining the motion of planar mechanisms using point contacts betw...
The paper develops a general procedure for the dynamic analysis of planar mechanisms with multiple c...
This paper proposes an analytical solution of the Inverse Kinematics (IK) problem at dead point conf...
In this paper the dynamic equivalence of planar mechanisms is investigated by decomposition of inert...
The second volume of Rigid Body Dynamics of Mechanisms covers applications via a systematic method f...
In single-degree-of-freedom (DOF) mechanisms, velocity coeffi-cients (VCs) and their 1st derivative ...
The study is focused on determining the errors in output kinematic parameters (position, velocity, a...
The complex planar multilink mechanisms are in increasingly wide use at light industry process equip...
Some didactic issues associated with the computation of degrees-of-freedom (d.o.f) are herein discus...
We analyze the two-dimensional motion of a rigid body due to a constant torque generated by a force ...
AbstractFor an infinitesimal motion of a given planar mechanisms we can consider a relative motion c...
The second order kinematic constraint (acceleration constraint) between two rigid bodies that are r...
Computer programs have been developed for the kinematic and dynamic analyses of cascades of planar f...