This paper revisits the classical envelope theory in plane, which deals with two planar curves in a point contact moving in relative roll-slide motion. The well known result about the centers of curvature of the generating curve and the envelope curve behaving as coordinated centers, is shown to be valid even if the instantaneous relative angular velocity is zero. The analytical approach uses the contact kinematics equations and does not require the existence of finitely accessible velocity pole and polodes of the relative motion. An example of equivalent mechanisms demonstrates the extended applicability of the theorem on coordinated centers of enveloping curves. (C) 2016 Elsevier Ltd. All rights reserved
This paper adopts a coordinate-free approach to investigate the kinematics of rigid bodies with roll...
Intuitively, an envelope of a family of curves is a curve that is tangent to a member of the family ...
In a planar free-hand drawing of an ellipse, the speed of movement is proportional to the -1/3 power...
This paper revisits the classical envelope theory in plane, which deals with two planar curves in a ...
In a recent paper F. Freudenstein and E. Soylemez investigate the motion of the centers of spheres i...
It is herein addressed the generation of planar curves by means of circles envelopes. The theoretica...
summary:A two-parametric system of close planar curves is defined in the introduction of the present...
The main focus of this paper is on higher-order curvature analysis of curve envelopes generated by p...
[[abstract]]We study a free boundary problem associated with the curvature dependent motion of plana...
The swept volume of a moving object (generator) can be constructed from the envelope surfaces of its...
A circular cubic curve called a center-point curve is central to kinematic synthesis of a planar 4R ...
We give a complete answer to the question of when two curves in two different Riemannian manifolds c...
The adjoint approach has proven effective in studying the properties and distribution of coupler cur...
AbstractFor an infinitesimal motion of a given planar mechanisms we can consider a relative motion c...
This paper presents a simple second-order, curvature based mobility analysis of planar curves in con...
This paper adopts a coordinate-free approach to investigate the kinematics of rigid bodies with roll...
Intuitively, an envelope of a family of curves is a curve that is tangent to a member of the family ...
In a planar free-hand drawing of an ellipse, the speed of movement is proportional to the -1/3 power...
This paper revisits the classical envelope theory in plane, which deals with two planar curves in a ...
In a recent paper F. Freudenstein and E. Soylemez investigate the motion of the centers of spheres i...
It is herein addressed the generation of planar curves by means of circles envelopes. The theoretica...
summary:A two-parametric system of close planar curves is defined in the introduction of the present...
The main focus of this paper is on higher-order curvature analysis of curve envelopes generated by p...
[[abstract]]We study a free boundary problem associated with the curvature dependent motion of plana...
The swept volume of a moving object (generator) can be constructed from the envelope surfaces of its...
A circular cubic curve called a center-point curve is central to kinematic synthesis of a planar 4R ...
We give a complete answer to the question of when two curves in two different Riemannian manifolds c...
The adjoint approach has proven effective in studying the properties and distribution of coupler cur...
AbstractFor an infinitesimal motion of a given planar mechanisms we can consider a relative motion c...
This paper presents a simple second-order, curvature based mobility analysis of planar curves in con...
This paper adopts a coordinate-free approach to investigate the kinematics of rigid bodies with roll...
Intuitively, an envelope of a family of curves is a curve that is tangent to a member of the family ...
In a planar free-hand drawing of an ellipse, the speed of movement is proportional to the -1/3 power...