Microsystems Dynamics
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Microsystems Dynamics
Author: Vytautas Ostasevicius
language: en
Publisher: Springer Science & Business Media
Release Date: 2010-11-01
In recent years microelectromechanical systems (MEMS) have emerged as a new technology with enormous application potential. MEMS manufacturing techniques are essentially the same as those used in the semiconductor industry, therefore they can be produced in large quantities at low cost. The added benefits of lightweight, miniature size and low energy consumption make MEMS commercialization very attractive. Modeling and simulation is an indispensable tool in the process of studying these new dynamic phenomena, development of new microdevices and improvement of the existing designs. MEMS technology is inherently multidisciplinary since operation of microdevices involves interaction of several energy domains of different physical nature, for example, mechanical, fluidic and electric forces. Dynamic behavior of contact-type electrostatic microactuators, such as a microswitches, is determined by nonlinear fluidic-structural, electrostatic-structural and vibro-impact interactions. The latter is particularly important: Therefore it is crucial to develop accurate computational models for numerical analysis of the aforementioned interactions in order to better understand coupled-field effects, study important system dynamic characteristics and thereby formulate guidelines for the development of more reliable microdevices with enhanced performance, reliability and functionality.
Microsystem Dynamics
Discover a comprehensive look at the principles and applications of microsystem dynamics Microsystems or microelectromechanical systems (MEMS) are miniaturized devices with components measured in micrometers that perform micro- to nanometer scale electronic machine functions such as actuations. Since research and industrial production in recent decades has generated considerable knowledge of microsystem dynamics, there is an urgent need for a single guide which combines microsystem theory with practical applications to provide a general framework. Microsystem Dynamics fills this need, with the first single-volume overview of its kind. It presents the fundamental principles of microsystem dynamics in a unified theoretical framework, engineered to govern both analysis and design. Its discussion of applications includes cutting-edge methods for applying non-stationary, stochastic, non-linear dynamics and multi-physics of microsystems. Fully engaged with the latest research, this promises to be the essential single-volume introduction to its subject. Microsystem Dynamics readers will find: Discussion of advanced tools such as nonlinear signal processing, computational intelligence, and nonlinear chaos dynamics An authorial team with extensive experience in both academic and industrial research Analysis of stability and durability factors in dynamical microsystems Microsystem Dynamics is a useful reference for researchers and practitioners working in microscale engineering, as well as graduate students in mechanical, automotive, and electrical engineering.
Microsystem Dynamics: Unveiling Complex Interactions
Author: Pasquale De Marco
language: en
Publisher: Pasquale De Marco
Release Date: 2025-07-20
Embark on a journey into the fascinating world of microsystems, where intricate interactions and phenomena unfold at the micro and nanoscales. This comprehensive book delves into the fundamental concepts, diverse applications, and challenges associated with these remarkable technologies. Microsystems encompass a wide spectrum of disciplines, including microelectronics, micromechanics, microfluidics, and bioengineering. They find applications in numerous fields, revolutionizing industries and transforming everyday life. From miniaturized sensors and actuators to energy harvesting and communication systems, microsystems offer unprecedented control and manipulation of matter, energy, and information at the microscale. The book begins by exploring the fundamental principles underlying microsystem dynamics, revealing the complex and nonlinear behaviors that arise from the interplay of physics, engineering, and biology. It then delves into the fabrication techniques used to create these intricate structures, highlighting the challenges and opportunities associated with miniaturization. Microsensors and microactuators are key components of microsystems, enabling the transduction of physical, chemical, and biological signals into electrical or mechanical outputs. The book provides a detailed overview of these devices, discussing their principles of operation, design considerations, and applications in various fields. Energy harvesting microsystems harness energy from various sources, such as solar, mechanical, thermal, and chemical, to power devices and systems. The book examines the different technologies used for energy harvesting, highlighting their advantages and limitations. It also explores the challenges and opportunities associated with integrating energy harvesting capabilities into microsystems. Communication and networking microsystems enable data transmission and information exchange among devices and systems at the microscale. The book discusses various communication technologies, including wireless communication, optical communication, sensor networks, and molecular communication. It also explores the challenges and opportunities associated with establishing interconnectivity and coordination among microsystem components. Microsystems have revolutionized healthcare, enabling minimally invasive procedures, targeted drug delivery, real-time monitoring, and personalized healthcare solutions. The book provides an overview of microsystems for healthcare applications, including microfluidic devices, biosensors, implantable devices, and tissue engineering scaffolds. It also highlights the challenges and opportunities associated with integrating microsystems into healthcare systems. Microsystems for environmental monitoring play a crucial role in safeguarding our planet. The book discusses the use of microsystems for air, water, and soil quality monitoring, as well as for tracking environmental parameters. It also explores the challenges and opportunities associated with developing and deploying microsystems for environmental monitoring applications. If you like this book, write a review!