Abstract
In rowing, rowers need outdoor and indoor training to develop a proficient technique. Although numerous indoor rowing machines have been proposed, none of the devices can realistically render the haptic, visual, and auditory characteristics of an actual rowing scenario. In our laboratory, we developed a simulator to support rowing training indoors. However, rendered forces with the initial rowing model, which was based on a simplified fluid dynamic model that approximated the drag/lift forces, were not perceived realistic enough for indoor training by expert rowers. Therefore, we implemented a new model for the blade–water interaction forces, which incorporates the three-dimensional rotation of the oar and continuously adjusts drag/lift coefficients. Ten expert rowers were asked to evaluate both models for various rowing aspects. In addition, the effect of individualization of model parameters on the perceived realism of rowing forces was elaborated. Based on the answers of the experts, we concluded that the new model rendered realistically resistive forces and ensured a smooth transition of forces within a rowing cycle. Additionally, we found that individualization of parameters significantly improved the perceived realism of the simulator. Equipped with a configurable rowing model, our simulator provides a realistic indoor training platform for rowers.
Highlights
In rowing races, success is determined by the minimum time to complete a pre-defined course track of commonly 2000 m [1]
We propose a novel 3D rowing model to render the interaction forces between the oar blade and water for a rowing simulator
The implemented model was assessed by expert rowers in terms of the realism of the rendered rowing forces
Summary
Success is determined by the minimum time to complete a pre-defined course track of commonly 2000 m [1]. The main performance metric for competitive rowers is the average boat speed to finish the course [2]. Fitness and technique trainings are crucial for competitive rowers [5]. Outdoor rowing training may not always be feasible since performance of rowers can be affected by unpleasant weather conditions [6,7]. Indoor training conducted with rowing machines offers a valuable alternative to outdoor practice [8]. Various rowing machines have been developed to yield a realistic rowing training [9]. The developed machines can be grouped in four categories depending on the technical aspects: indoor rowing tanks, ergometers, ergometer simulators, and virtual reality simulators [10]
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