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Conference Agenda

Overview and session details of the ESB2023 congress.
Please select a date or location to view only sessions for that date or location. Please select an individual session for a detailed view (with abstracts where available).
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Session Overview

Session

Import to your local calendar

Poster session I: Sports biomechanics

Time:

Monday, 10/July/2023:

13:15 - 14:15

Location: Expo Hall

Presentations

ID: 472

A KINEMATIC AND KINETIC COMPARISON OF THE COUNTER MOVEMENT JUMJ AND STOP JUMP RECEPTIONS

C. Schwartz¹, J. Paulus¹, J.-F. Kaux²

¹LAM - Motion Lab, University of Liège, Belgium; ²Physical Medicine and Sport Traumatology Department, University and University Hospital of Liège, Belgium

ESB2023__Schwartz_472.pdf

ID: 540

EFFECT OF PEDALLING WORKLOAD ON KNEE JOINT FORCES

E. Martín-Sosa¹, E. Soler-Vizán², J. Mayo¹, J. Ojeda¹

¹Departamento de Ingeniería Mecánica y Fabricación. Universidad de Sevilla, Spain; ²Departamento de Medicina Física y Rehabilitación, Hospital Universitario Virgen de Valme. Sevilla

ESB2023__Martín-Sosa_540.pdf

ID: 480

THE EFFECTS OF RUNNING SHOES ON GROUND REACTION FORCE IN MALE RECREATIONAL RUNNERS

X. Jiang^1,2,3, D. Xu^2,4, I. Bíró^1,3, Y. Gu²

¹Óbuda University, Hungary; ²Ningbo University, China; ³Szeged University, Hungary; ⁴University of Pannonia, Hungary

ESB2023__Jiang_480.pdf

ID: 733

TRIAL-BY-TRIAL ERROR CORRECTION FOR ACCURATE BASEBALL PITCHING

A. Kusafuka, T. Okegawa, R. Yamamoto, K. Miyata, K. Kudo

The University of Tokyo, Japan

ESB2023__Kusafuka_733.pdf

ID: 868

UPPER AND LOWER EXTREMITY REACTION FORCES DURING VERTICAL ROCK WALL CLIMBING

H. M. English¹, M. W. Young², S. K. Lynch¹, N. D. Flaim², A. Lopez³, M. C. Granatosky²

¹New York Institute of Technology College of Osteopathic Medicine, United States of America; ²New York Institute of Technology Department of Anatomy, United States of America; ³New York Institute of Technology Department of Occupational Therapy, United States of America

ESB2023__English_868.pdf

ID: 580

AUTOMATICALLY DETECTING FATIGUE GAIT BASED ON TIME SERIES BILATERAL PLANTAR FORCE DISTRIBUTION USING DEEP LEARNING ALGORITHMS.

Z. Gao^1,2,3, Y. He^1,2,3, L. Xiang⁴, F. Gusztáv¹, K. András², Y. Gu³

¹Savaria Institute of Technology, Hungary; ²University of Pannonia, Hungary; ³Ningbo University, China; ⁴University of Auckland, New Zealand

ESB2023__Gao_580.pdf

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