Electromechanics has always been an integral part of technological advances since the genesis of electricity, and over time, the sophistication of these devices has been augmented drastically. They seamlessly integrate mechanical and electrical components, typified by motors, generators, or advanced micro-electromechanical elements (MEMs). Moreover, there is a considerable interdependence where multiple elements converge to form complex electromechanical systems—for instance, robots, machine tools, or conveyor belts.
The objective of this Research Topic is to serve as an interactive platform for discussing, testing, and advocating techniques pertaining to modelling, computing, experimental validation, and development of novel electromechanical devices and systems. We're greatly interested in work that demonstrates improvement in technical, economic, and environmental aspects of these systems and extends their academic and industrial usage boundaries. The aspiration is not only to facilitate a better understanding of electromechanics principles and concepts but also to amplify their applications.
For this Research Topic we particularly welcome submissions focusing on but not limited to:
• Dynamics of oscillations in Electromechanical Systems including bursting and similar phenomena
• Dynamic properties of Electromechanical Oscillations in Power Systems
• Bifurcation Mechanisms in Electromechanical Systems
• Delays, Synchronization, Oscillators Networks
• Nonlinear Couplings and Energy Transfers in Micro and Nano-mechanical Resonators
• Methods for Dynamically Characterizing and Monitoring Electromechanical Oscillations
• Studies of Biosignals in Electromechanical Systems
• Hemodynamics of Electromechanical Circulatory Support
• Chaos in Electromechanical Systems
• Control in Electromechanical Systems.
This volume aims to showcase papers that pave the way for emerging engineering applications and explore new horizons in electromechanical systems, oscillations, synchronization, chaos, control, MEMS, and nonlinear dynamics.
All submissions will undergo a rigorous peer-review process under the banner of Frontiers in Mechanical Engineering, ensuring high standards. Authors are encouraged to meticulously follow the "Guide for Authors" and submit their manuscripts via the journal's online submission system.
We prioritize papers that haven't been previously published or are not being considered for publication elsewhere. The manuscripts must be composed in good English.
We eagerly invite you to contribute to this special issue by submitting your insightful work.
Keywords:
oscillations, eletromechanical systems, synchronization, Chaos, Control, MEMS, nonlinear dynamics
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.
Electromechanics has always been an integral part of technological advances since the genesis of electricity, and over time, the sophistication of these devices has been augmented drastically. They seamlessly integrate mechanical and electrical components, typified by motors, generators, or advanced micro-electromechanical elements (MEMs). Moreover, there is a considerable interdependence where multiple elements converge to form complex electromechanical systems—for instance, robots, machine tools, or conveyor belts.
The objective of this Research Topic is to serve as an interactive platform for discussing, testing, and advocating techniques pertaining to modelling, computing, experimental validation, and development of novel electromechanical devices and systems. We're greatly interested in work that demonstrates improvement in technical, economic, and environmental aspects of these systems and extends their academic and industrial usage boundaries. The aspiration is not only to facilitate a better understanding of electromechanics principles and concepts but also to amplify their applications.
For this Research Topic we particularly welcome submissions focusing on but not limited to:
• Dynamics of oscillations in Electromechanical Systems including bursting and similar phenomena
• Dynamic properties of Electromechanical Oscillations in Power Systems
• Bifurcation Mechanisms in Electromechanical Systems
• Delays, Synchronization, Oscillators Networks
• Nonlinear Couplings and Energy Transfers in Micro and Nano-mechanical Resonators
• Methods for Dynamically Characterizing and Monitoring Electromechanical Oscillations
• Studies of Biosignals in Electromechanical Systems
• Hemodynamics of Electromechanical Circulatory Support
• Chaos in Electromechanical Systems
• Control in Electromechanical Systems.
This volume aims to showcase papers that pave the way for emerging engineering applications and explore new horizons in electromechanical systems, oscillations, synchronization, chaos, control, MEMS, and nonlinear dynamics.
All submissions will undergo a rigorous peer-review process under the banner of Frontiers in Mechanical Engineering, ensuring high standards. Authors are encouraged to meticulously follow the "Guide for Authors" and submit their manuscripts via the journal's online submission system.
We prioritize papers that haven't been previously published or are not being considered for publication elsewhere. The manuscripts must be composed in good English.
We eagerly invite you to contribute to this special issue by submitting your insightful work.
Keywords:
oscillations, eletromechanical systems, synchronization, Chaos, Control, MEMS, nonlinear dynamics
Important Note:
All contributions to this Research Topic must be within the scope of the section and journal to which they are submitted, as defined in their mission statements. Frontiers reserves the right to guide an out-of-scope manuscript to a more suitable section or journal at any stage of peer review.