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21	Structure synthesis and preliminary design of a four-input decoder mechanism Haas, Steven Lawrence 05 1900 (has links) No description available. Links and link-motion Machinery, Kinematics of
22	The analytical theory of coplanar motion applied to approximate four-bar straight line mechanisms Tesar, Delbert 08 1900 (has links) No description available. Links and link-motion Machinery, Kinematics of
23	Reduction of Burmester theory to design practice Carlson, Dennis Percy 08 1900 (has links) No description available. Links and link-motion Machinery, Kinematics of
24	Kinematic design, motion/force coordination, and performance analysis of force controlled wheeled vehicles / Choi, Byung Jin, January 1998 (has links) Thesis (Ph. D.)--University of Texas at Austin, 1998. / Vita. Includes bibliographical references (leaves 189-200). Available also in a digital version from Dissertation Abstracts.
25	Algorithms for determining the kinematic loops in mechanisms Phelps, Thomas A. January 1983 (has links) Thesis (M.S.)--University of Wisconsin--Madison, 1983. / Typescript. eContent provider-neutral record in process. Description based on print version record. Includes bibliographical references (leaves 154-156).
26	Impact of system-level factors on planetary gear set behavior Ligata, Haris, January 2007 (has links) Thesis (Ph. D.)--Ohio State University, 2007. / Title from first page of PDF file. Includes bibliographical references (p. 309-316).
27	Motion planning for flexible manipulators Pond, Christopher Burke 10 November 2017 (has links) As robotic manipulators become more prevalent, particularly in hazardous environments or for repetitive tasks, demand continues for increased performance and decreased cost. In some applications, both can be achieved by reducing the weight of the manipulator. However, reduced weight often leads to significant structural flexibility and vibration which, for most tasks, is generally regarded as detrimental to performance. Although there has been a great deal of research in the area of controlling flexible manipulators to follow a desired trajectory, much less work has been directed towards choosing the trajectory itself. The objective of this work is to optimize point-to-point motions in joint space to reduce vibration. This problem is formulated as one of functional optimization and the applicable methods of solution are reviewed. An indirect method is chosen that allows modular software development by preserving the integrity of existing nonlinear dynamics models. Numerical results are compared with trajectories generated by other means and show a significant reduction in vibration possible by optimization, particularly for varying joint paths. Finally, the effectiveness of the trajectory optimization scheme is further evaluated for high-speed, large-angle motions of an experimental nonplanar two-link flexible manipulator. Such results are lacking in the literature, but are very important for assessing the utility of trajectory optimization in the presence of modelling and tracking errors. Again, significant reductions in vibration are demonstrated by using the global optimization approach for trajectory generation. / Graduate Machinery, Kinematics of Manipulators (Mechanism) Robotics
28	Kinematic analysis of legged system locomotion on smooth horizontal surfaces Baek, Yoon Su 30 July 1990 (has links) This thesis presents a model of legged locomotion in which position and velocity of body are directly controlled by positions and velocities of feet. One central relationship between foot acceleration, leg stroke and body velocity is developed. Procedures for determining all parameters of a step sequence including periods of constant body velocity (steady state) and constant linear acceleration of body (transient state) are presented. The following assumptions are used. Symmetrical trapezoidal velocity profiles are used for body and feet. Transient period is longer than or equal to one step time and a multiple of half step time. Step time and duty factor are constant during each locomotion stage. Stepping movements of a pair of legs are 180° out of phase and successive prints of one foot are symmetrically placed relative to the other foot. Starting and stopping occur with feet on a line perpendicular to the direction of body motion. Locomotion starts by lifting one foot and ends with one foot on the ground and the other being placed. When analyzing walking, designing a walking machine or designing a stepping sequence for an existing walking machine, it is important to understand constraints placed on body motion by motion of a single leg. Two dimensionless numbers which describe foot velocity profile are developed. Two additional dimensionless numbers result from constraint of leg workspace by foot acceleration and body velocity during steady state. These numbers provide useful relationships for design procedures. Defining a walking sequence requires transformation of objectives from global to body coordinates and continuously accounting for the relationship between these two systems. The technique described does this when body acceleration is non-zero as well as when body velocity is constant. Relationship between body and global coordinates is tracked for one leg pair using two diagrams: 1) position of feet relative to body versus time; 2) distances moved by feet and body in the global frame. A closed form inverse kinematic solution and an algorithm to find workspace for general three-revolute manipulator are presented. / Graduation date: 1991 Machinery, Kinematics of Animal locomotion Robots -- Motion
29	Design, modeling and control of a compliant parallel XY micro-motion stage with complete decoupling property Huang, Ji Ming January 2011 (has links) University of Macau / Faculty of Science and Technology / Department of Electromechanical Engineering Machinery, Kinematics of
30	Calcul de l'effet des machines en mouvement Petit, Frédéric. January 1900 (has links) Thèse : Mécanique. Astronomie : Paris, Faculté des Sciences : 1835. / Titre provenant de l'écran-titre.

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