Nicht aus der Schweiz? Besuchen Sie lehmanns.de
New Trends in Nonlinear Dynamics -

New Trends in Nonlinear Dynamics

Proceedings of the First International Nonlinear Dynamics Conference (NODYCON 2019), Volume III
Buch | Softcover
XXIV, 355 Seiten
2021 | 1st ed. 2020
Springer International Publishing (Verlag)
978-3-030-34726-0 (ISBN)
CHF 224,65 inkl. MwSt
  • Versand in 15-20 Tagen
  • Versandkostenfrei
  • Auch auf Rechnung
  • Artikel merken

This third of three volumes from the inaugural NODYCON, held at the University of Rome, in February of 2019, presents papers devoted to New Trends in Nonlinear Dynamics. The collection features both well-established streams of research as well as novel areas and emerging fields of investigation. Topics in Volume III include NEMS/MEMS and nanomaterials: multi-sensors, actuators exploiting nonlinear working principles; adaptive, multifunctional, and meta material structures; nanocomposite structures (e.g., carbon nanotube/polymer composites, composites with functionalized nanoparticles); 0D,1D,2D,3D nanostructures; biomechanics applications, DNA modeling, walking dynamics, heart dynamics, neurodynamics, capsule robots, jellyfish-like robots, nanorobots; cryptography based on chaotic maps; ecosystem dynamics, social media dynamics (user behavior dynamics in multi-messages social hotspots, prediction models), financial engineering, complexity in engineering; and network dynamics(multi-agent systems, leader-follower dynamics, swarm dynamics, biological networks dynamics).

lt;p>Walter Lacarbonara earned his MS in Engineering Mechanics from Virginia Tech and his PhD in Structural Dynamics from Sapienza University of Rome where he is currently a Professor of Structural Mechanics. He works on projects supported by AFOSR, NSF, MIUR, EU. He served as co-Chair of the 2015 ASME IDETC (Boston), Chair of NODYCON 2019 (Rome, Italy), Chair of the ASME Technical Committee Multibody Systems and Nonlinear Dynamics (2017-2019). He is Editor in Chief of Nonlinear Dynamics (Springer Nature). He has published a Springer book entitled "Nonlinear Structural Mechanics. Theory, Modeling, Dynamic Phenomena" (2013), 250 publications, and 3 international patents. His research interests include nonlinear structural dynamics; exact modeling of cables/beams/plates/shells; asymptotics; experimental nonlinear dynamics; nonlinear control of vibrations; carbon nanotube nanocomposites.


Gabor Stepan received his degrees at Budapest University of Technology and Economics and is a professor of Applied Mechanics there. He is member of the Hungarian Academy of Sciences and the Academy of Europe. He is ERC Advanced Grant holder and the recipient of the Thomas K. Caughey Dynamics Award of ASME. He was the head of the Department of Applied Mechanics at BME, served as the dean of the Faculty of Mechanical Engineering. He is an elected member of the Executive Committee of the Congress Committee of IUTAM, and serves as a member in Euromech Council. Research interests include nonlinear vibrations and time-delay systems with applications in mechanical engineering: dynamics of elastic wheels, vibrations of robots, force control, human and robotic balancing, rehabilitation robotics, machine tool vibrations, traffic dynamics, hardware-in-the-loop experiments.

 

Dr. Balachandran received his Ph.D. (Engineering Mechanics) from Virginia Tech.  Currently, he is a Minta Martin Professor of Engineering at the University of Maryland, where he has been since 1993. His research interests include nonlinear phenomena, dynamics and vibrations, and control. The publications that he has authored/co-authored include a Wiley textbook entitled "Applied Nonlinear Dynamics:  Analytical,   Computational,   and   Experimental   Methods"   (1995,   2006),  a Cambridge University Press textbook entitled "Vibrations" (2019), and a co-edited Springer book entitled "Delay Differential Equations: Recent Advances and New Directions" (2009). Currently, he serves as the Editor of the ASME Journal of Computational and Nonlinear Dynamics.  He is a Fellow of ASME and AIAA. 


Jun Ma earned his PhD in Physics from Huazhong Normal University, China. He is currently a Professor in the Department of Physics of Lanzhou University of Technology. His research interests cover topics on nonlinear physics, model setting and computational neuroscience.

 

J. A. Tenreiro Machado was born in 1957. He graduated with 'Licenciatura' (1980), PhD. (1989) and 'Habilitation' (1995), in Electrical and Computer Engineering at the University of Porto. Between 1980 and 1998 he worked at the Dept. of Electrical and Computer Engineering of the University of Porto. Since 1998 he has been working at the Institute of Engineering, Polytechnic Institute of Porto. Presently he is Principal Coordinator Professor at the Dept. of Electrical Engineering. His research interests include: complex systems, nonlinear dynamics, fractional calculus, entropy, control, data series analysis, biomathematics, evolutionary computing, genomics, and robotics and mechatronics.

Part A:Smart materials, metamaterials, composite and nanocomposite materials and structures.- Tunable Bleustein-Gulyaev permittivity sensors.- Nonlinear metamaterials with multiple local mechanical resonators: analytical and numerical analyses.- Nonlinear vibration analysis of metamaterial honeycomb sandwich structures with negative Poisson's ratio.- Wave propagation phenomena in nonlinear elastic metamaterials.- Numerical simulations in nonlinear elastic metamaterials with nonlocal interaction.- Nonlinear dynamic response of nanocomposite cantilever beams.- A numerical strategy for multi-stable nanocomposite shells.- Parametric vibrations of functionally graded sandwich plates with complex form.- Nonlinear oscillation of a FG cylindrical shell on a discontinuous elastic foundation.- Nonlinear fracture dynamic analysis of double cantilever beam sandwich specimens.- Nonlinear vibration analysis of a sandwich beam and assessment of the dynamic behavior.- Dynamic buckling of FGM cylindrical shells under torsional impact loads.- Part B: MEMS/NEMS and energy harvesters.- Nonlinear dynamic modeling for high temperature superconductivity in nanocluster topological structures on solid surface.- Nonlinear dynamic processes in laser-induced transitions to low dimensional carbon nanostructures in bulk graphite unit.- Electro-mechanical characterization of an electrospun piezoelectric microfiber.- On modeling of Springless Electromagnetic Energy Harvesters.- Part C: Nonlinear phenomena in bio- and eco-systems dynamics.- Critical behaviors of regular pattern selection in neuronal networks with chemical synapses.- Dynamics of a homeostatically regulated neural system with delayed connectivity.- Autapse-induced complicated oscillations of a ring FHN neuronal network with multiple delayed couplings.- A time-delay nonlinear model of dopamine-modulated prefrontal-limbic interactions in schizophrenia.- Wilson-Cowan neuronal interaction models with distributed delays.- Nonlinearhydrodynamics and numerical analysis  for a series of catastrophic floods/debris (2011-2017):  the tectonic wave processes possible impact on surface water and groundwater flows.- Refined weighted-permutation entropy: A complexity measure for human gait and physiologic signals with outliers and noise.- Simultaneous multi-parametric analysis of bone cell population model.- Nonlinear dynamics of RRc Lyrae stars.- Part D: Chaos in electronic systems.- Multijump resonance with Chua's circuit.- Experimental observation of robust chaos in a 3D electronic circuit.- Homogenous multistability in memristive system.- Part E: Fractional order systems.- Numerical study of nonlinear vibrations of fractionally damped cylindrical shells under the additive combinational internal resonance.- Stability of Caputo-type fractional variable-order biquadratic difference equations.- Stability of systems of fractional-order difference equations and applications to a Rulkov-type neuronal model.- Independent fractional type modes of free and forced vibrations of discrete continuum hybrid systems of fractional type with multi-deformable bodies.- Non-smooth bifurcation in two fractional-order memristive circuits.- Index.

Erscheinungsdatum
Zusatzinfo XXIV, 355 p. 153 illus., 131 illus. in color.
Verlagsort Cham
Sprache englisch
Maße 155 x 235 mm
Gewicht 581 g
Themenwelt Naturwissenschaften Physik / Astronomie Elektrodynamik
Naturwissenschaften Physik / Astronomie Optik
Schlagworte Complexity • computational dynamics • conference proceedings • Experimental dynamics • MEMS/NMES • NODYCON • Noise • Nonlinear Control • Nonlinear Dynamics • Nonlinear structural dynamics • nonsmooth systems • System Identification • wave propagation
ISBN-10 3-030-34726-5 / 3030347265
ISBN-13 978-3-030-34726-0 / 9783030347260
Zustand Neuware
Haben Sie eine Frage zum Produkt?
Mehr entdecken
aus dem Bereich
Theoretische Physik II

von Peter Reineker; Michael Schulz; Beatrix M. Schulz …

Buch | Softcover (2022)
Wiley-VCH (Verlag)
CHF 76,85