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Advances in Mechanical Systems Dynamics

Advances in Mechanical Systems Dynamics

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Modern dynamics was established many centuries ago by Galileo and Newton before the beginning of the industrial era. Presently, we are in the presence of the fourth industrial revolution, and mechanical systems are increasingly being integrated with electronic, electrical, and fluidic systems. This trend is present not only in the industrial environment, which will soon be characterized by the cyber-physical systems of industry 4.0, but also in other environments like mobility, health and bio-engineering, food and natural resources, safety, and sustainable living. In this context, purely mechanical systems with quasi-static behavior will become less common and the state-of-the-art will soon be represented by integrated mechanical systems, which need accurate dynamic models to predict their behavior. Therefore, mechanical system dynamics are going to play an increasingly central role. Significant research efforts are needed to improve the identification of the mechanical properties of systems in order to develop models that take non-linearity into account, and to develop efficient simulation tools. This Special Issue aims at disseminating the latest research achievements, findings, and ideas in mechanical systems dynamics, with particular emphasis on applications that are strongly integrated with other systems and require a multi-physical approach.

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Keywords

  • active tilting
  • adjustable hydraulic volume
  • balancing
  • bladed disc’s rotation
  • chatter-free
  • compositive motion
  • cyclic-symmetric systems dynamics
  • damper force
  • detached-eddy simulation
  • driving mechanism
  • dynamic characteristics
  • dynamical characteristic
  • Dynamics
  • emergency extension
  • Energy Efficiency
  • energy saving
  • forced response
  • ground-based laser communication turntable
  • high-speed locomotion
  • inner wheel lifting
  • landing gear
  • leg trajectory planning
  • low-speed stability
  • lumped parameters model
  • Mathematical model
  • mesh stiffness
  • Method of Multiple Time-Scales
  • mixture of models
  • motion capture sensor
  • motorcycle dynamics
  • multi-physics modelling
  • n/a
  • natural dynamics
  • natural motion
  • obstacle avoidance
  • optimization
  • personal mobility vehicle
  • pitch angle
  • quadruped robots
  • quasi-sliding mode domain (QSMD)
  • reaching law
  • relative displacement
  • reliability sensitivity analysis
  • rider control
  • Robotic System
  • seeder dynamics
  • separation flow
  • simulation
  • simulation model
  • sliding mode control (SMC)
  • switched reluctance motor
  • time-variant parameters
  • trajectory planning
  • trot gait
  • under-platform damper
  • unsteady flow control
  • variable compression ratio
  • vibration prediction
  • vortex dynamics

Links

DOI: 10.3390/books978-3-03928-189-3

Editions

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