Abstract
As hill jumps are very time-consuming, ski jumping athletes often perform various imitation jumps during training. The performed jumps should be similar to hill jumps, but a direct comparison of the kinetic and kinematic parameters has not been performed yet. Therefore, this study aimed to correlate 11 common parameters during hill jumps (Oberstdorf Germany), squat jumps (wearing indoor shoes), and various imitation jumps (rolling 4°, rolling flat, static; jumping equipment or indoor shoes) on a custom-built instrumented vehicle with a catch by the coach. During the performed jumps, force and video data of the take-off of 10 athletes were measured. The imitation and squat jumps were then ranked. The main difference between the hill jumps and the imitation and squat jumps is the higher maximal force loading rate during the hill jumps. Imitation jumps performed on a rolling platform, on flat ground were the most similar to hill jumps in terms of the force–time, and leg joint kinematic properties. Thus, non-hill jumps with a technical focus should be performed from a rolling platform with a flat inrun with normal indoor shoes or jumping equipment, and high normal force loading rates should be the main focus of imitation training.
Highlights
The goal of the Olympic discipline of ski jumping is to score as many points as possible, with points being awarded for jumping distance and a clean execution
Non-hill jumps with a technical focus should be performed from a rolling platform with a flat inrun with normal indoor shoes or jumping equipment, and high normal force loading rates should be the main focus of imitation training
The aim of this study was to compare hill jumps with imitation jumps from a rolling platform with two different inclination angles, imitation jumps from a fixed platform, and squat jumps
Summary
The goal of the Olympic discipline of ski jumping is to score as many points as possible, with points being awarded for jumping distance and a clean execution. Over the last few years, changes in technique, material and training methods have led to a considerable increase in achieved ski jumping distance (Muller, 2009). As the take-off has been found to be the most important phase in ski jumping (Schwameder, 2008), it is one of the key priorities of the training. As training on the hill is very time-consuming, coaches resort to different training methods such as imitation jumps and various strength exercises for the lower extremities (Ettema, Hooiveld, Braaten, & Bobbert, 2016; Müller, 2012). Thereby, the kinematics as well as the kinetics of the imitation jumps and strength exercises should
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