SIMULACIONES MECATRONICAS

1. Mechatronic System Simulation. Creating complex automotive communication architectures. http://www.designfax.net/archives/0904/0904mechatronic.asp
2. Advances in Modelling of Mechatronic Systems: The Toolset FASIM_C++ for the Simulation of Vehicle Dynamics. http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0100-73861999000400011
3. Interdisciplinary Modelling of Mechatronic Systems by Coupling Simulation Tools. Abstract − Mechatronic Systems are characterised by interacting subsystems of different types. To model this class of dynamic systems an interdisciplinary approach is required. In this paper a way to model a controlled hydromechanical system using three different kinds of simulation tools is presented. The mechanical system, described in MOBILE, is coupled with a DSH plus model of the hydraulic system and a controller modelled in MATLAB/SIMULINK. This concept is applied to the oscillating boom of a concrete pump. http://citeseerx.ist.psu.edu/viewdoc/download;jsessionid=96EB90E90BEE6532EE31E9EBE580E879?doi=10.1.1.8.8252&rep=rep1&type=pdf Tambien puede desacargarlo AQUI
4. SAMCEf for Machine Tools offers a unique environment for the global design and the detailed mechatronic verification of Machine Tools. It is a Computer Aided Engineering tool completely based on geometries defined locally or imported from well-known CAD Systems. It offers a complete toolbox of components giving for the first time to the designer the possibility to use the same modeling environment during the whole design process from A to Z, i.e. from simple rigid body simulation to check the global kinematics of the Machine Tool to very detailed verification using Finite Element technique of the dynamic behavior of the machine tool. http://www.samcef.com/DB/brochures_files/SAMCEF%20for%20Machine%20Tools.pdf
5. Mechatronics - Integrated Mechanical, Electrical, Control, and Embedded Software Design. Mechatronics is a system-level approach to designing electromechanical systems that merges mechanical, electrical, control system, and embedded software design. It represents an industry-wide effort to improve the design process by integrating the best available development practices and technologies to streamline design, prototyping, and deployment http://www.ni.com/mechatronics/
6. Doctoral Thesis: Design, Modeling, Identification and Control of Mechatronic Systems. Part I. Design Rules and Actuator Modeling for the Optimization of Mechatronic Systems Part II. Identification and Control of Piezoelectric Actuators. http://www.tdr.cesca.es/TESIS_UPC/AVAILABLE/TDX-0713107-100520//01Ogb01de01.pdf