CV


FA
Abbas Farjad

Abbas Farjad

Assistant Professor

Faculty: Physical Education and Sport Sciences

Department: Sports Science

Degree: Ph.D

CV
FA
Abbas Farjad

Assistant Professor Abbas Farjad

Faculty: Physical Education and Sport Sciences - Department: Sports Science Degree: Ph.D |

The familiarity factor: How experience with spring surfaces influences joint mechanics during hopping

AuthorsMohammad Yousefi,heydar sadeghi
JournalProceedings of the Institution of Mechanical Engineers, Part P: Journal of Sports Engineering and Technology
Page number1-10
Serial number1
Volume number1
Paper TypeFull Paper
Published At2026
Journal TypeTypographic
Journal CountryIran, Islamic Republic Of
Journal IndexJCR،Scopus
Keywordssurface stiffness, joint stiffness, hopping, hopping training

Abstract

Prior exposure to spring surfaces may shape the biomechanical interactions between the lower limbs and joints during movement. This study investigates how surface-specific training influences joint stiffness and mechanical energy expenditure (MEE) during hopping tasks. Thirty male athletes with relevant training backgrounds participated in controlled trials on both elastic and rigid surfaces, conducted before and after a structured familiarization period. Kinematic and kinetic analyses were employed to evaluate alterations in leg and joint stiffness, alongside changes in MEE. The results indicate that while leg stiffness remained consistent overall, surface-specific training prompted distinct joint-level adaptations. Notably, knee stiffness increased, and hip stiffness decreased across both surface conditions post-training, suggesting a redistribution of mechanical load. Additionally, ankle MEE rose following spring-surface training, signifying heightened energy demands, whereas hip MEE declined, pointing to improved energy efficiency. These outcomes emphasize the importance of familiarity in refining neuromechanical strategies for surface adaptation and highlight the dominant roles of the ankle and knee in regulating stiffness. The findings also underscore the critical need to consider prior exposure when evaluating the biomechanical effects of surface properties on lower limb function

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