Описание: Keynote Speeches - Abstracts.- Abstracts of Keynote Speeches, by Clement Gosselin, Marwene Nefzi, Robert Schmitt, Frank Harmeling.- MTM - Mechanisms - analysis and synthesis.- Optimal Design of a Grasping Device through Simplified Pose Synthesis of a Four-Bar Linkage, by Voicu Mesaros-Anghel, Erwin-Christian Lovasz, Corina Gruescu, Cristian Moldovan.- Modified method of the kinematic analysis of planar link mechanism for nonstationary motion modes, by Jуzef Drewniak, Garlicka Paulina, Zawislak Stan, Kopec Jerzy.- A Type Synthesis Method for Parallel Mechanisms Based on SAKCs, by Huiping Shen, Chi-Yu Sun, Dan Zhang, Tingli Yang.- Matlab GUI for SVAJ cam analysis diagrams, by Cristian Pop, Erwin-Christian Lovasz, Florina Pop, Davidescu Arjana, Sanda Margareta Grigorescu.- On the kinematic analysis of sixth class mechanism, by Cristian Moldovan, Perju Dan, Erwin-Christian Lovasz, Karl-Heinz Modler, Inocentiu Maniu.- Zero-free-length Elastic Systems for Static Balancing, by Liviu Ciupitu, Ion Simionescu.- Analytic and FEM study of load distribution on the length of spline joints under pure torque, by Dan Teodor Margineanu, Sticlaru Carmen, Davidescu Arjana, Margineanu Eugenia.- Synthesis of the planar parallel Manipulator using Geared Linkages with linear Actuation as kinematic Chains, by Sanda Margareta Grigorescu, Erwin-Christian Lovasz, Dan Teodor, Margineanu, Cristian Pop, Florina Pop.- MTM - Dynamics of mechanisms and machines.- The Concept of Natural Motion for Pick and Place Operations, by Juan Pablo Barreto, Frederic Schцler, Burkhard Corves.- Structural Synthesis of Planar Geared Linkage Mechanisms as Multibody Systems, by Ion Visa, Mircea Neagoe, Macedon Moldovan.- Dynamics of a Vertical Unbalanced Gyroscopic Rotor with Nonlinear characteristics, by Zharilkassin Iskakov.- MTM - Mechanical Transmissions.- Edge Tooth Addendum Thickness of Hindley Worm, by Yaping Zhao.- A Single Speed (CVT) Transmission, by Konstantin Ivanov, Gani Balbayev.- An approach for modelling harvester head mechanisms dedicated to hardwood stands, by Benjamin Hatton, B. Chedli Bouzgarrou, Jean-Christophe Fauroux, Vincent Gagnol, Grigore Gogu.- Novel Speed Increaser used in Counter-Rotating Wind Turbines, by Mircea Neagoe, Radu Saulescu, Codruta Jaliu, Nadia Cretescu.- MTM - Micromechanisms and Microactuators.- On Application Melnikov Method to Detecting the Edge of Chaos for a Micro-Cantilever, by Jin Xie, S. -H. He, Z.-H. Liu, Y. Chen.- MTM - Computational and Experimental Methods.- Use of the structomatic method to perform the forward kinematic and kinetostatic analyses of a hydraulic excavator, by Maxime Mailloux, Marin Йnй, Ion Simionescu, Iulian Alexandru Tabara.- Application of a Cam Workbench for Education in Mechanical Engineering, by Hu Chen, The Thanh Nga Nguyen, Mario Mьller, Stefan Kurtenbach, C. Pan, Mathias Hьsing, Burkhard Corves.- Kinematic Characterization of the Origami Spring Based on a Spherical 6R Linkage, by Hiroshi Matsuo, Daisuke Matsuura, Yusuke Sugahara, Yukio Takeda.- Scaled Test Stand Simulation for Studying the Behavior of Anti-Lock Brake Systems on Bumpy Roads, by Valentin Ciupe, Dan Teodor Margineanu, Erwin-Christian Lovasz.- MTM - Terminology.- Activities of Russian - Speaking Scientists in Development of MMS Terminology, by Victor Starzhinsky, Evgenii Shalobaev, Mark Kane, Veniamin Goldfarb.- State of Art in Separate Sections of MMS Terminology and Some Proposals, by Evgenii Shalobaev, Serge Shil'ko, Rymantas Tadas Tolocka, Victor Starzhinsky, Galina Iurkova, Dmitry Surikov.- Robotics - Mechanical design of robot architecture.- DesignSolutions to Simplify the Calibration of a Robotic Flexible Manufacturing System, by Ana Maria Stoian, Inocentiu Maniu, Erwin-Christian Lovasz, Corina Gruescu.- Robotics - Mobile robots.- Reconbot: A Reconfigurable Rescue Robot Composed of Serial-Parallel Hybrid Upper Humanoid Body and Track Mobile Platform, by Wan Ding, Tim Detert, Burkhard Corves, Yao Yan-An.- Kinemat
Описание: A printed collection of 55 full-length, peer-reviewed technical papers. Topics include Emissions Control Systems; Instrumentation, Controls, and Hybrids; Numerical Simulation; and Engine Design and Mechanical Development.
Описание: This book gathers the proceedings of the ISRM 2017, the fifth IFToMM International Symposium on Robotics and Mechatronics, which was jointly organised by the School of Computing, Engineering and Mathematics at Western Sydney University, Australia and by the IFToMM Technical Committee on Robotics and Mechatronics.
Описание: This book gathers the latest advances, innovations and applications in the field of robotics and mechatronics, as presented by leading international researchers and engineers at the 6th IFToMM International Symposium on Robotics and Mechatronics (ISRM), held in Taipei, Taiwan, on October 28-30, 2019.
Описание: The book reports on advanced topics in the areas of wearable robotics research and practice. It focuses on new technologies, including neural interfaces, soft wearable robots, sensors and actuators technologies, and discusses important regulatory challenges, as well as clinical and ethical issues.
Описание: Following Surgical Trajectories with Concentric Tube Robots via Nearest-Neighbor Graphs.- Design and Analysis of a Bidirectional NotchJoint for a Robotic Pediatric Neuroendoscope.- A Collaborative Aerial-Ground Robotic Systemfor Fast Exploration.
Mechatronic Systems consist of components and/or sub-systems which are from different engineering domains. For example, a solenoid valve has three domains that work in a synergistic fashion: electrical, magnetic, and mechanical (translation). Over the last few decades, engineering systems have become more and more mechatronic. Automobiles are transforming from being gasoline-powered mechanical devices to electric, hybrid electric and even autonomous. This kind of evolution has been possible through the synergistic integration of technology that is derived from different disciplines. Understanding and designing mechatronic systems needs to be a vital component of today's engineering education. Typical engineering programs, however, mostly continue to train students in academic silos (otherwise known as majors) such as mechanical, electrical, or computer engineering. Some universities have started offering one or more courses on this subject and a few have even started full programs around the theme of Mechatronics. Modeling the behavior of Mechatronic systems is an important step for analysis, synthesis, and optimal design of such systems. One key training necessary for developing this expertise is to have comfort and understanding of the basic physics of different domains. A second need is a suitable software tool that implements these laws with appropriate flexibility and is easy to learn.
This short text addresses the two needs: it is written for an audience who will likely have good knowledge and comfort in one of the several domains that we will consider, but not necessarily all; the book will also serve as a guide for the students to learn how to develop mechatronic system models with Simscape (a MATLAB tool box). The book uses many examples from different engineering domains to demonstrate how to develop mechatronic system models and what type of information can be obtained from the analyses.
Описание: Advanced research in the field of mechatronics and robotics represents a unifying interdisciplinary and intelligent engineering science paradigm. It is a holistic, concurrent, and interdisciplinary engineering science that identifies novel possibilities of synergizing and fusing different disciplines.
The Handbook of Research on Advanced Mechatronic Systems and Intelligent Robotics is a collection of innovative research on the methods and applications of knowledge in both theoretical and practical skills of intelligent robotics and mechatronics. While highlighting topics including green technology, machine learning, and virtual manufacturing, this book is ideally designed for researchers, students, engineers, and computer practitioners seeking current research on developing innovative ideas for intelligent robotics and autonomous and smart interdisciplinary mechatronic products.
Mechatronic Systems consist of components and/or sub-systems which are from different engineering domains. For example, a solenoid valve has three domains that work in a synergistic fashion: electrical, magnetic, and mechanical (translation). Over the last few decades, engineering systems have become more and more mechatronic. Automobiles are transforming from being gasoline-powered mechanical devices to electric, hybrid electric and even autonomous. This kind of evolution has been possible through the synergistic integration of technology that is derived from different disciplines. Understanding and designing mechatronic systems needs to be a vital component of today's engineering education. Typical engineering programs, however, mostly continue to train students in academic silos (otherwise known as majors) such as mechanical, electrical, or computer engineering. Some universities have started offering one or more courses on this subject and a few have even started full programs around the theme of Mechatronics. Modeling the behavior of Mechatronic systems is an important step for analysis, synthesis, and optimal design of such systems. One key training necessary for developing this expertise is to have comfort and understanding of the basic physics of different domains. A second need is a suitable software tool that implements these laws with appropriate flexibility and is easy to learn.
This short text addresses the two needs: it is written for an audience who will likely have good knowledge and comfort in one of the several domains that we will consider, but not necessarily all; the book will also serve as a guide for the students to learn how to develop mechatronic system models with Simscape (a MATLAB tool box). The book uses many examples from different engineering domains to demonstrate how to develop mechatronic system models and what type of information can be obtained from the analyses.
Описание: This book features selected papers presented at the 15th International Conference on Electromechanics and Robotics "Zavalishin`s Readings" - ER(ZR) 2020, held in Ufa, Russia, on 15-18 April 2020.
Описание: FLINS, an acronym introduced in 1994 and originally for Fuzzy Logic and Intelligent Technologies in Nuclear Science, is now extended into a well-established international research forum to advance the foundations and applications of computational intelligence for applied research in general and for complex engineering and decision support systems.The principal mission of FLINS is bridging the gap between machine intelligence and real complex systems via joint research between universities and international research institutions, encouraging interdisciplinary research and bringing multidiscipline researchers together.FLINS 2020 is the fourteenth in a series of conferences on computational intelligence systems.
Описание: The book Intelligent Systems and Applications - Proceedings of the 2020 Intelligent Systems Conference is a remarkable collection of chapters covering a wider range of topics in areas of intelligent systems and artificial intelligence and their applications to the real world.
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