2022
DOI: 10.3390/s22155768
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Validation of a Sensor-Based Dynamic Ski Deflection Measurement in the Lab and Proof-of-Concept Field Investigation

Abstract: Introduction: Ski deflection is a performance-relevant factor in alpine skiing and the segmental and temporal curvature characteristics (m−1) along the ski have lately received particular attention. Recently, we introduced a PyzoFlex® ski deflection measurement prototype that demonstrated high reliability and validity in a quasi-static setting. The aim of the present work is to test the performance of an enhanced version of the prototype in a dynamic setting both in a skiing-like bending simulation as well as … Show more

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Cited by 6 publications
(10 citation statements)
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References 27 publications
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“…In contrast, during a parallel ski steering turn, a point along the edge does not follow the path of the proceeding ski but slides laterally across the slope [4,[7][8][9]. For practical reasons, the majority of the literature refers to parallel ski steering or carving, but these processes are not dichotomous; rather, both can occur simultaneously in different segments along the ski, depending on the so-called angle of attack [4,10]. To ensure that the angle of attack is as small as possible, the vector of the skier's translational velocity must always point in the direction of the orientation of the ski [4,7].…”
Section: Skiing Techniquesmentioning
confidence: 99%
See 1 more Smart Citation
“…In contrast, during a parallel ski steering turn, a point along the edge does not follow the path of the proceeding ski but slides laterally across the slope [4,[7][8][9]. For practical reasons, the majority of the literature refers to parallel ski steering or carving, but these processes are not dichotomous; rather, both can occur simultaneously in different segments along the ski, depending on the so-called angle of attack [4,10]. To ensure that the angle of attack is as small as possible, the vector of the skier's translational velocity must always point in the direction of the orientation of the ski [4,7].…”
Section: Skiing Techniquesmentioning
confidence: 99%
“…Equation ( 1) presents a generalized representation of the ski's deformation, as the ski's bending characteristics are not homogeneous but rather exhibit variations in segmental curvature along its length [10,13]. Thus, to represent the inhomogeneous deflection pattern, it would be an oversimplification to fit a circle with a constant radius to the ski's bending line.…”
Section: The Science Of Ski Turnsmentioning
confidence: 99%
“…Current technology trends require a higher presence of pressure sensors integrated into their surroundings with the aim to increase the degree of automation or to enable condition monitoring [ 1 , 2 , 3 ]. Be it for medical applications [ 4 ], industrial environments [ 1 ], positional tracking [ 2 , 5 , 6 , 7 ], or other fields [ 8 , 9 ], pressure sensors have become ubiquitous. In smart building/home environments, pressure sensitive floor tiles open new possibilities of movement, occupancy, and event detection without the need of privacy-violating video surveillance, which is especially relevant in non-public areas, where video surveillance is forbidden.…”
Section: Introductionmentioning
confidence: 99%
“…It consists of ten papers related to all kinds of sensors that are currently being used for monitoring different sports. The topics vary from dancing to winter sports such as figure skating, alpine and cross-country skiing with para-athletic and able-bodied skiers, to summer sports such as football and kayaking.The aim of the first article [1] in this Special Issue was to test the performance of an enhanced version of a prototype in a dynamic skiing-like bending simulation as well as in a proof-of-concept field measurement. It was concluded that combined with the high laboratory-based reliability and validity of the PyzoFlex® prototype, it can be a potential candidate for smart ski equipment.In [2], a system for detecting and visualizing the very important dance motions known as stops was introduced.…”
mentioning
confidence: 99%
“…The aim of the first article [ 1 ] in this Special Issue was to test the performance of an enhanced version of a prototype in a dynamic skiing-like bending simulation as well as in a proof-of-concept field measurement. It was concluded that combined with the high laboratory-based reliability and validity of the PyzoFlex ® prototype, it can be a potential candidate for smart ski equipment.…”
mentioning
confidence: 99%