Advances in Mechanical Systems Dynamics 2020

The fundamentals of mechanical system dynamics were established before the beginning of the industrial era. The 18th century was a very important time for science and was characterized by the development of classical mechanics. This development progressed in the 19th century, and new, important appl...

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Publicado em: MDPI - Multidisciplinary Digital Publishing Institute 2022
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collection Directory of Open Access Books
description The fundamentals of mechanical system dynamics were established before the beginning of the industrial era. The 18th century was a very important time for science and was characterized by the development of classical mechanics. This development progressed in the 19th century, and new, important applications related to industrialization were found and studied. The development of computers in the 20th century revolutionized mechanical system dynamics owing to the development of numerical simulation. We are now in the presence of the fourth industrial revolution. Mechanical systems are increasingly integrated with electrical, fluidic, and electronic systems, and the industrial environment has become characterized by the cyber-physical systems of industry 4.0. Within this framework, the status-of-the-art has become represented by integrated mechanical systems and supported by accurate dynamic models able to predict their dynamic behavior. Therefore, mechanical systems dynamics will play a central role in forthcoming years. This Special Issue aims to disseminate the latest research findings and ideas in the field of mechanical systems dynamics, with particular emphasis on novel trends and applications.
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language eng
publishDate 2022
publishDateRange 2022
publishDateSort 2022
publisher MDPI - Multidisciplinary Digital Publishing Institute
publisherStr MDPI - Multidisciplinary Digital Publishing Institute
record_format ojs
spelling doab-20.500.12854ir-787222024-04-11T15:11:24Z Advances in Mechanical Systems Dynamics 2020 Doria, Alberto Boschetti, Giovanni Massaro, Matteo tire model tire temperature FSAE vehicle rolling bearing rigid rotor internal radial clearance number of rolling elements vibration varying compliance vibration ball passage frequency load trucks handling stability lightweight taper-leaf spring suspension step steer motorcycle tires thermal modeling performance optimization real-time simulations conveyor friction rolling non-linear simulation fractal derivative viscoelastic models polymers bicycle mountain bike tire tread pattern force and moment e-bike tyre dynamics active rear axle independent steering (ARIS) system hierarchical synchronization control virtual coupling control linear active disturbance rejection control (LADRC) computational fluid dynamics fluid sloshing table cart method zero moment point rider body segment inertial parameters biomechanics human body motorcycle multibody robot compliance machining modes of vibration impulsive testing dynamic parameter identification dynamic parameters parallel kinematics parallel robot parallel manipulator varying friction valve train coupled approach NVH vibration energy control multi-physics mechanism theory non-linear stiffness isolation hydraulic system magnetic spring articulated vehicle hydraulic steering system directional stability deformable soil tracked vehicle contact model two-wheeler vehicle dynamic modelling wobble weave fork bending compliance rider influence ADAS driver model load cell steering wheel cable robots motion planning cable failure recovery strategy roller chain chain efficiency sliding friction lateral offset damping force n/a thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology The fundamentals of mechanical system dynamics were established before the beginning of the industrial era. The 18th century was a very important time for science and was characterized by the development of classical mechanics. This development progressed in the 19th century, and new, important applications related to industrialization were found and studied. The development of computers in the 20th century revolutionized mechanical system dynamics owing to the development of numerical simulation. We are now in the presence of the fourth industrial revolution. Mechanical systems are increasingly integrated with electrical, fluidic, and electronic systems, and the industrial environment has become characterized by the cyber-physical systems of industry 4.0. Within this framework, the status-of-the-art has become represented by integrated mechanical systems and supported by accurate dynamic models able to predict their dynamic behavior. Therefore, mechanical systems dynamics will play a central role in forthcoming years. This Special Issue aims to disseminate the latest research findings and ideas in the field of mechanical systems dynamics, with particular emphasis on novel trends and applications. 2022-02-24T10:34:12Z 2022-02-24T10:34:12Z 2022 book ONIX_20220224_9783036528717_20 9783036528717 9783036528700 https://directory.doabooks.org/handle/20.500.12854/78722 eng image/jpeg Attribution 4.0 International https://mdpi.com/books/pdfview/book/4813 https://mdpi.com/books/pdfview/book/4813 MDPI - Multidisciplinary Digital Publishing Institute 10.3390/books978-3-0365-2871-7 10.3390/books978-3-0365-2871-7 46cabcaa-dd94-4bfe-87b4-55023c1b36d0 9783036528717 9783036528700 410 Basel open access
spellingShingle tire model
tire temperature
FSAE vehicle
rolling bearing
rigid rotor
internal radial clearance
number of rolling elements
vibration
varying compliance vibration
ball passage frequency
load
trucks
handling stability
lightweight
taper-leaf spring
suspension
step steer
motorcycle tires
thermal modeling
performance optimization
real-time simulations
conveyor
friction
rolling
non-linear simulation
fractal derivative
viscoelastic models
polymers
bicycle
mountain bike
tire tread pattern
force and moment
e-bike
tyre
dynamics
active rear axle independent steering (ARIS) system
hierarchical synchronization control
virtual coupling control
linear active disturbance rejection control (LADRC)
computational fluid dynamics
fluid sloshing
table cart method
zero moment point
rider
body segment inertial parameters
biomechanics
human body
motorcycle
multibody
robot
compliance
machining
modes of vibration
impulsive testing
dynamic parameter identification
dynamic parameters
parallel kinematics
parallel robot
parallel manipulator
varying friction
valve train
coupled approach
NVH
vibration energy control
multi-physics mechanism theory
non-linear stiffness
isolation
hydraulic system
magnetic spring
articulated vehicle
hydraulic steering system
directional stability
deformable soil
tracked vehicle
contact model
two-wheeler
vehicle dynamic modelling
wobble
weave
fork bending compliance
rider influence
ADAS
driver model
load cell
steering wheel
cable robots
motion planning
cable failure
recovery strategy
roller chain
chain efficiency
sliding friction
lateral offset
damping force
n/a
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
Advances in Mechanical Systems Dynamics 2020
title Advances in Mechanical Systems Dynamics 2020
title_full Advances in Mechanical Systems Dynamics 2020
title_fullStr Advances in Mechanical Systems Dynamics 2020
title_full_unstemmed Advances in Mechanical Systems Dynamics 2020
title_short Advances in Mechanical Systems Dynamics 2020
title_sort advances in mechanical systems dynamics 2020
topic tire model
tire temperature
FSAE vehicle
rolling bearing
rigid rotor
internal radial clearance
number of rolling elements
vibration
varying compliance vibration
ball passage frequency
load
trucks
handling stability
lightweight
taper-leaf spring
suspension
step steer
motorcycle tires
thermal modeling
performance optimization
real-time simulations
conveyor
friction
rolling
non-linear simulation
fractal derivative
viscoelastic models
polymers
bicycle
mountain bike
tire tread pattern
force and moment
e-bike
tyre
dynamics
active rear axle independent steering (ARIS) system
hierarchical synchronization control
virtual coupling control
linear active disturbance rejection control (LADRC)
computational fluid dynamics
fluid sloshing
table cart method
zero moment point
rider
body segment inertial parameters
biomechanics
human body
motorcycle
multibody
robot
compliance
machining
modes of vibration
impulsive testing
dynamic parameter identification
dynamic parameters
parallel kinematics
parallel robot
parallel manipulator
varying friction
valve train
coupled approach
NVH
vibration energy control
multi-physics mechanism theory
non-linear stiffness
isolation
hydraulic system
magnetic spring
articulated vehicle
hydraulic steering system
directional stability
deformable soil
tracked vehicle
contact model
two-wheeler
vehicle dynamic modelling
wobble
weave
fork bending compliance
rider influence
ADAS
driver model
load cell
steering wheel
cable robots
motion planning
cable failure
recovery strategy
roller chain
chain efficiency
sliding friction
lateral offset
damping force
n/a
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
topic_facet tire model
tire temperature
FSAE vehicle
rolling bearing
rigid rotor
internal radial clearance
number of rolling elements
vibration
varying compliance vibration
ball passage frequency
load
trucks
handling stability
lightweight
taper-leaf spring
suspension
step steer
motorcycle tires
thermal modeling
performance optimization
real-time simulations
conveyor
friction
rolling
non-linear simulation
fractal derivative
viscoelastic models
polymers
bicycle
mountain bike
tire tread pattern
force and moment
e-bike
tyre
dynamics
active rear axle independent steering (ARIS) system
hierarchical synchronization control
virtual coupling control
linear active disturbance rejection control (LADRC)
computational fluid dynamics
fluid sloshing
table cart method
zero moment point
rider
body segment inertial parameters
biomechanics
human body
motorcycle
multibody
robot
compliance
machining
modes of vibration
impulsive testing
dynamic parameter identification
dynamic parameters
parallel kinematics
parallel robot
parallel manipulator
varying friction
valve train
coupled approach
NVH
vibration energy control
multi-physics mechanism theory
non-linear stiffness
isolation
hydraulic system
magnetic spring
articulated vehicle
hydraulic steering system
directional stability
deformable soil
tracked vehicle
contact model
two-wheeler
vehicle dynamic modelling
wobble
weave
fork bending compliance
rider influence
ADAS
driver model
load cell
steering wheel
cable robots
motion planning
cable failure
recovery strategy
roller chain
chain efficiency
sliding friction
lateral offset
damping force
n/a
thema EDItEUR::T Technology, Engineering, Agriculture, Industrial processes::TB Technology: general issues::TBX History of engineering and technology
url ONIX_20220224_9783036528717_20