Design and manufacturing of a hip joint motion simulator with a novel modular design approach

Abstract: In vitro motion stimulation of the hip-joint prosthesis helps predict the critical parameters of the products more realistically than in silico investigations. For the joint prosthesis, Wear, the size of debris, fatigue life, and range of motion are some of the essential parameters to investigate. This study designs and develops a hip joint wear simulator using novel approaches. The simulator dynamics were modeled. The forces are calculated from the dynamic loading used for weight optimization, which reduces t… Show more

“…This detailed insight provides practitioners, instructors, and researchers with valuable data to refine alignment, optimize biomechanics, and tailor asanas to individual needs [12]. By elucidating the dynamic interplay between body mechanics and posture execution, Anybody Simulation facilitates a deeper comprehension of the therapeutic benefits and potential risks associated with different yoga practices [13]. Furthermore, this innovative approach opens avenues for enhancing instruction, designing personalized routines, and developing targeted interventions to support individuals in their yoga journey [14].…”

Geometric Co-Ordinate Feature Point Estimation (Gfpe): A Novel Approach to Analyse Of Kinematic Characteristics of Yoga Asanas Based on Anybody Simulation Software

“…This detailed insight provides practitioners, instructors, and researchers with valuable data to refine alignment, optimize biomechanics, and tailor asanas to individual needs [12]. By elucidating the dynamic interplay between body mechanics and posture execution, Anybody Simulation facilitates a deeper comprehension of the therapeutic benefits and potential risks associated with different yoga practices [13]. Furthermore, this innovative approach opens avenues for enhancing instruction, designing personalized routines, and developing targeted interventions to support individuals in their yoga journey [14].…”

Geometric Co-Ordinate Feature Point Estimation (Gfpe): A Novel Approach to Analyse Of Kinematic Characteristics of Yoga Asanas Based on Anybody Simulation Software

Mechanical Structure Design of Wearable Assistive Robot Driven by ADAMS System