Problematika použití Motion control v digitální kinematografii / The Matters Of Motion Control Use in Digital CinematographyMoulis, Ladislav January 2014 (has links)
This Master´s Thesis deals with the principle of the work and wide range of use of the Motion Control rigs use. It familiarizes readers with the types of rigs and their technical aspects which might affect any shooting. In this work I try to explain my all gathered experiences from my six months working internship in London at the world leading motion control company Mark Roberts Motion Control Ltd. This company (althought it is not the only one motion control rig company in the world) has given me the wide view due to its complex production starting with the motion control rigs and ending with its software. Thanks to being on quite a lot of filming sets where these righ were used I try to explain and recapitulate all my practical experiences from this specialized and technical challengingly part of cinematography which is not quite usual.
Development of a laser-based automated mechanical mobility measurement system for one-dimensional experimental modal analysis /Agee, Barry L., January 1992 (has links)
Thesis (M.S.)--Virginia Polytechnic Institute and State University, 1992. / Vita. Abstract. Includes bibliographical references (leaves 153-154). Also available via the Internet.
Cavazza, M., Earnshaw, Rae A., Magnenat-Thalmann, N., Thalmann, D.
No / The article surveys virtual humans and techniques to control the face and body. It also covers higher level interfaces for direct speech input and issues of real-time control.
Some theoretical and experimental aspects of neuro-muscular based control of a novel contraction actuatorRodrigues, Marcos Aurelio January 1991 (has links)
No description available.
Vila Cano, Roger
This thesis presents an overview and realization of several steps towards system integration and the control design for the robot arm LWA4D by Schunk using MATLAB/Simulink blocks through the adopted hardware and software from dSpace company. The dynamical equations for the manipulator using three and seven degrees-of-freedom will be derived and implemented using MATLAB/Simulink blocks. Moreover, the implementation of model-based controllers based on the system dynamics is implemented and tested both in ideal conditions and under the delays related to CAN communication protocol. In addition, in order to visualize the motion of the manipulator under the model-based controllers, SimMechanics is used alongside plots showing the end-effector position and the generated torques. Information regarding the first steps on how the hardware and software should be set up in order to establish communication between the manipulator and the Simulink blocks is provided as well. Finally, the problems that appeared during the implementation steps and the results obtained are discussed in the last section.
09 July 2002
The thesis will be established as prototype of DSP-Based motion control card with USB2.0 interface. The whole system is composed of three subsystems: 1. Windows AP¡]Application Program¡^, 2.USB2.0 development tools, and 3.DSP development tools. Many motion control commands can be transmitted from friendly AP, through USB2.0 development board, to DSP development board, for example, position, velocity and acceleration. DSP will parse and execute these commands immediately; furthermore, the course and result of processing can be sent back to host by the same route. Then AP can display the data received from target with high readability. In a word, proved by experiment, the thesis achieved the expected goal: accomplish the prototype research and development of DSP-Based motion control card with USB2.0 interface.
M. Tech. Electrical Engineering.
Thesis (M.S.)--Ohio University, November, 2000. / Title from PDF t.p.
Thesis (M.Phil.)--Hong Kong University of Science and Technology, 2007. / Includes bibliographical references (leaves 84-88). Also available in electronic version.
19 November 2008
M.Ing. / This study describes a new class of mechanism to provide leg like motion, for use in a new type of walking machine, that is larger and simpler than electromechanical machines that are currently available. The mechanism is located in a historic context, and current technology in this area is reviewed. The problem of calculating the geometry of the complex mechanism is solved using an innovative solution based on coordinate geometry, which may be extended to solve other planar mechanisms of either greater or lesser complexity. All assumptions have been detailed. The analysis covers both the motion and the power requirements required to make the mechanism move. Structural aspects, which may affect any practical walking machine, are covered. A software implementation has been developed, providing output to demonstrate that the model developed reflects reality, within the limits of the assumptions made.
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