Influence of the Hip Joint Modeling Approaches on the Kinematics of Human Gait

Costa, João Pedro; Peixoto, Joaquim Jorge Gomes; Moreira, Pedro; Souto, A. Pedro; Flores, Paulo; Lankarani, Hamid M.

doi:10.1115/1.4031988

Cited by 17 publications

(4 citation statements)

References 58 publications

(74 reference statements)

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“…This procedure adds two extra degrees-of-freedom to the system, being the response of the joint controlled by forces rather than kinematic constraints as in the case of ideal or perfect joints. It is clear that a kinematic joint in a multibody system imposes restrictions at the kinematic level to the adjacent bodies, while an elastic or flexible joint leads to force constraints [87][88][89][90][91][92]. From the operating conditions point of view, it can be observed that for a large value of spring stiffness, the two spring connecting points, C and D, do not separate from each other in a significant manner, and, therefore, the closed loop kinematic structure of the slider-crank mechanism is ensured.…”

Section: Lagrangian Formulation With Elastic Jointsmentioning

confidence: 99%

Examination and comparison of different methods to model closed loop kinematic chains using Lagrangian formulation with cut joint, clearance joint constraint and elastic joint approaches

Marques

Roupa²,

Silva³

et al. 2021

Mechanism and Machine Theory

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Section: Lagrangian Formulation With Elastic Jointsmentioning

confidence: 99%

Examination and comparison of different methods to model closed loop kinematic chains using Lagrangian formulation with cut joint, clearance joint constraint and elastic joint approaches

Marques

Roupa²,

Silva³

et al. 2021

Mechanism and Machine Theory

Self Cite

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“…Casesnoves, and Suzenkov et al, studied Mathematical Models in Biotribology with 2D-3D Erosion Integral-Differential Model and Computational-Optimization / Simulation. [40][41][42][43][44][45][46][47][48][49][50] Mainly they found the 2D or 3D model creation and its applications to the biotribology to improve the performance and estimation of biomaterials' use to the human body parts replacement and its functional performance increase non-linear programming simulation model which can be improved for further recommendation. Huang, Wang, Liu, Wan, and Xue et al, carried out research on vitro assessment of the tribological reaction of Mo-doped graphite-like carbon film in various organic media.…”

Section: Recent Research Of Tribology In Biomedical Engineeringmentioning

confidence: 99%

Tribology in recent biomedical engineering: a review

Alam¹

2021

MSEIJ

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Generally, tribology includes three key topics: friction, wear, and lubrication. As humanity progresses, tribology continues to make vital contributions in addressing the demands for advanced technological developments, resulting in increasing machine durability and improving the quality of life. At the point when organic systems particularly human joints for example knees, hips, and so forth which constantly move concerning each other, tribology moves toward becoming bio-tribology. Various essential bio-tribological testing phenomena can significantly influence the result of wear for the implant design and material selection. The study also found the different types of frictional losses in bio-tribology and prevention of these losses. The application of tribology in dentistry is also a growing and rapidly expanding field. In restorative dentistry, metals and alloys and ceramics and composites are generally applied to restorations and implants. The complex inter-oral environment and biomechanics, make the wear processes of artificial dental materials are very complicated and normally include abrasion, attrition, corrosion, fretting wear, and fatigue. These processes occur in various combinations to cause surface loss of materials in the mouth. Intensive research has been conducted to develop an understanding of bio tribology for the successful design and selection of implants and artificial dental materials. This study is carried out to improve the knowledge about bio-tribology and thereby guide the researchers to get their future research directives.

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“…Costa et al. 41 investigated the influence of the hip joint on the kinematic response of the human gait by considering the joint as the ideal, dry, and lubricated, respectively.…”

Section: Introductionmentioning

confidence: 99%

“…Li et al 40 proposed a novel transition model for the lubricated joint to tackle with the transition between the lubrication statuses and the contact status. Costa et al 41 investigated the influence of the hip joint on the kinematic response of the human gait by considering the joint as the ideal, dry, and lubricated, respectively.…”

Section: Introductionmentioning

confidence: 99%

Dynamics and lubrication analyses of a planar multibody system with multiple lubricated joints

Zhao

Cui

Xie

et al. 2017

Proceedings of the Institution of Mechanical Engineers, Part J:

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In order to ensure the mechanical systems a better performance, most of their joints are designed to operate with lubricant. The differently located lubricated joints interact with each other, influencing the total performances of the system. This study proposes a numerical approach for the multibody system modeling with the consideration of the interactions among the multiple lubricated joints to investigate the dynamics and tribological performances of the mechanism. This approach couples the lubrication model of both translational and revolute joints with the dynamics model of the multibody system, and is performed on a four-stroke gasoline engine with the lubricated piston skirt-liner subsystem and lubricated big-end bearing of the connecting rod. The multibody dynamics model is built with Lagrange’s method. The lubrication models are built based on the average Reynolds equation, and solved with finite element method to derive the hydrodynamic forces according to the motion of the system. The piston skirt profile, pin offset and the effects of surface roughness on the lubrication performances are taken into account. The simulation results reveal that there are obvious interactions between the differently located lubricated joints, and the larger clearance can pronounce the interactions.

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Influence of the Hip Joint Modeling Approaches on the Kinematics of Human Gait

Cited by 17 publications

References 58 publications

Examination and comparison of different methods to model closed loop kinematic chains using Lagrangian formulation with cut joint, clearance joint constraint and elastic joint approaches

Examination and comparison of different methods to model closed loop kinematic chains using Lagrangian formulation with cut joint, clearance joint constraint and elastic joint approaches

Tribology in recent biomedical engineering: a review

Dynamics and lubrication analyses of a planar multibody system with multiple lubricated joints

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