Search results for "contact force"

showing 9 items of 19 documents

A study on the effect of contact pressure during physical activity on photoplethysmographic heart rate measurements

2020

Heart rate (HR) as an important physiological indicator could properly describe global subject&rsquo

Future studies0206 medical engineeringheart rate (HR)Physical activityPhysical exercise02 engineering and technologylcsh:Chemical technology01 natural sciencesBiochemistrySignalContact force Contact pressure Heart rate (HR) Heart rate reliability Heart rate signal Photoplethysmography (PPG) PPG accuracy PPG sensor WearablesArticleAnalytical ChemistryPPG accuracysymbols.namesakeWearable Electronic Devicesphotoplethysmography (PPG)Heart RateHeart rateSettore ING-IND/12 - Misure Meccaniche E TermicheMedicineheart rate reliabilityHumanslcsh:TP1-1185Electrical and Electronic EngineeringPhotoplethysmographyInstrumentationExercisecontact pressureheart rate signalbusiness.industry010401 analytical chemistrySignal Processing Computer-Assisted020601 biomedical engineeringAtomic and Molecular Physics and OpticsPearson product-moment correlation coefficient0104 chemical sciencesIntensity (physics)PPG sensorwearablessymbolssense organsbusinesscontact forceContact pressureBiomedical engineering
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Interactive simulation of one-dimensional flexible parts

2006

Computer simulations play an ever growing role for the development of automotive products. Assembly simulation, as well as many other processes, are used systematically even before the first physical prototype of a vehicle is built in order to check whether particular components can be assembled easily or whether another part is in the way. Usually, this kind of simulation is limited to rigid bodies. However, a vehicle contains a multitude of flexible parts of various types: cables, hoses, carpets, seat surfaces, insulations, weatherstrips... Since most of the problems using these simulations concern one-dimensional components and since an intuitive tool for cable routing is still needed, w…

Hessian matrixEngineeringBending (metalworking)Computer scienceCoordinate systemStructure (category theory)Automotive industryMechanical engineeringVirtual realityTopologyIndustrial and Manufacturing EngineeringContact forcelaw.inventionsymbols.namesakeSoftwarelawCartesian coordinate systemQuaternionSimulationOrientation (computer vision)business.industryTorsion (mechanics)Frame rateComputer Graphics and Computer-Aided DesignComputer Science ApplicationssymbolsRouting (electronic design automation)businessProceedings of the 2006 ACM symposium on Solid and physical modeling
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2015

In everyday life, one of the most frequent activities involves accelerating and decelerating an object held in precision grip. In many contexts, humans scale and synchronize their grip force, normal to the finger/object contact, in anticipation of the expected tangential load force, resulting from the combination of the gravitational and the inertial forces. In many contexts, grip force and load force are linearly coupled. A few studies have examined how we adjust the parameters - gain and offset - of this linear relationship. However, the question remains open as to how the brain adjusts grip force regardless of whether load force is generated by different combinations of weight and inerti…

Offset (computer science)Normal forceCognitive Neurosciencemedia_common.quotation_subjectMotor controlInertiaSensory SystemsGravitationCellular and Molecular NeuroscienceEquilibrant ForceNon-contact forceControl theoryFictitious forceSimulationmedia_commonMathematicsFrontiers in Integrative Neuroscience
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Nonlinear rocking of rigid blocks on flexible foundation: Analysis and experiments

2017

Abstract Primarily, two models are commonly used to describe rocking of rigid bodies; the Housner model, and the Winkler foundation model. The first deals with the motion of a rigid block rocking about its base corners on a rigid foundation. The second deals with the motion of a rigid block rocking and bouncing on a flexible foundation of distributed linear springs and dashpots (Winkler foundation). These models are two-dimensional and can capture some of the features of the physics of the problem. Clearly, there are additional aspects of the problem which may be captured by an enhanced nonlinear model for the base-foundation interaction. In this regard, what it is adopted in this paper is …

Physics021110 strategic defence & security studiesbusiness.industry0211 other engineering and technologiesFoundation (engineering)Flexible foundationEquations of motion020101 civil engineeringContext (language use)02 engineering and technologyGeneral MedicineStructural engineeringDashpot0201 civil engineeringDamperContact forceNonlinear systemRocking motionEngineeringNonlinear contact modelImpactFlexible foundation; Nonlinear contact model; Rocking motion; EngineeringSettore ICAR/08 - Scienza Delle Costruzionibusiness
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Short-range fundamental forces

2011

Abstract We consider theoretical motivations to search for extra short-range fundamental forces as well as experiments constraining their parameters. The forces could be of two types: 1) spin-independent forces; 2) spin-dependent axion-like forces. Different experimental techniques are sensitive in respective ranges of characteristic distances. The techniques include measurements of gravity at short distances, searches for extra interactions on top of the Casimir force, precision atomic and neutron experiments. We focus on neutron constraints, thus the range of characteristic distances considered here corresponds to the range accessible for neutron experiments.

PhysicsGravity (chemistry)010308 nuclear & particles physicsGeneral EngineeringEnergy Engineering and Power TechnologyMechanics01 natural sciencesFundamental interactionContact forceCasimir effectClassical mechanics0103 physical sciencesRange (statistics)Neutron010306 general physicsFocus (optics)Interaction rangeComptes Rendus Physique
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Crumpling of a stiff tethered membrane.

2003

first-principles numerical simulation model for crumpling of a stiff tethered membrane is introduced. In our model membranes, wrinkles, ridge formation, ridge collapse, as well as the initiation of stiffness divergence, are observed. The ratio of the amplitude and wave length of the wrinkles, and the scaling exponent of the stiffness divergence, are consistent with both theory and experiment. We observe that close to the stiffness divergence there appears a crossover beyond which the elastic behavior of a tethered membrane becomes similar to that of dry granular media. This suggests that ridge formation in membranes and force-chain network formation in granular packings are different manife…

Physicsgeographygeography.geographical_feature_categoryanimal structuresStatistical Mechanics (cond-mat.stat-mech)General Physics and AstronomyStiffnessFOS: Physical sciencesMechanicsCondensed Matter - Soft Condensed MatterContact forceQuantitative Biology::Subcellular ProcessesCondensed Matter::Soft Condensed MatterWavelengthAmplitudeClassical mechanicsBucklingRidgemedicineSoft Condensed Matter (cond-mat.soft)medicine.symptomDivergence (statistics)ScalingCondensed Matter - Statistical MechanicsPhysical review letters
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On the vibrations of a mechanically based non-local beam model

2012

The vibration problem of a Timoshenko non-local beam is addressed. The beam model involves assuming that the equilibrium of each volume element is attained due to contact forces and long-range body forces exerted, respectively, by adjacent and non-adjacent volume elements. The contact forces result in the classical Cauchy stress tensor while the long-range forces are taken as depending on the product of the interacting volume elements and on their relative displacement through a material-dependent distance-decaying function. To derive the motion equations and the related mechanical boundary conditions, the Hamilton's principle is applied The vibration problem of a Timoshenko non-local beam …

Timoshenko beam theoryBody forceNon-local elasticityGeneral Computer ScienceGeneral Physics and AstronomyContact forceLong-range interactionsymbols.namesakeFree vibrations; Hamilton's principle; Long-range interactions; Non-local elasticity; Timoshenko beam theoryGeneral Materials ScienceHamilton's principleVolume elementPhysicsCauchy stress tensorEquations of motionFree vibrationGeneral ChemistryMechanicsComputational MathematicsTimoshenko beam theoryClassical mechanicsHamilton's principleMechanics of MaterialssymbolsSettore ICAR/08 - Scienza Delle CostruzioniBeam (structure)Computational Materials Science
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A mechanically based approach to non-local beam theories

2011

A mechanically based non-local beam theory is proposed. The key idea is that the equilibrium of each beam volume element is attained due to contact forces and long-range body forces exerted, respectively, by adjacent and non-adjacent volume elements. The contact forces result in the classical Cauchy stress tensor while the long-range forces are modeled as depending on the product of the interacting volume elements, their relative displacement and a material-dependent distance-decaying function. To derive the beam equilibrium equations and the pertinent mechanical boundary conditions, the total elastic potential energy functional is used based on the Timoshenko beam theory. In this manner, t…

Timoshenko beam theoryPhysicsBody forceNon-local elasticityCauchy stress tensorMechanical EngineeringElastic energyTotal elastic potential energy functionalCondensed Matter PhysicsContact forceLong-range interactionTimoshenko beam theoryClassical mechanicsMechanics of MaterialsMechanics of MaterialGeneral Materials ScienceMaterials Science (all)Boundary value problemVolume elementBeam (structure)Civil and Structural EngineeringInternational Journal of Mechanical Sciences
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Factors related to excessive patellofemoral loading in rearfoot running

2015

Running is recognized as one of the most popular exercise methods. Furthermore, running related injuries have been under the scope for the last few decades. Synchronous function between the segments of the lower limbs is necessary for efficient locomotion. Patellofemoral pain syndrome is a common exercise related syndrome and multifactorial in nature. The purpose of this study was to measure contact forces and frontal plane moments to detect the factors that are associated with atypically high patellofemoral joint loading in rearfoot striking (RFS) running pattern, and moreover, which could possibly contribute to development of the patellofemoral pain syndrome. 39 team sport female athletes…

body regionsmusculoskeletal diseasesknee flexion anglerearfoot striking pattern (RFS)polvetkipuforefoot striking pattern (FFS)biomekaniikkaPatellofemoral pain syndromepatellofemoral contact forceknee abduction momentjuoksu
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