Nonlinear aeroelastic analysis of aircraft with high-aspect-ratio wings

Ubiquitous (pervasive) computing is a term for a synergetic use of sensing, communication and computing. Pervasive use of computing has seen a rapid increase in the current decade. This development has propagated in applied sport science and everyday life. The work presents a survey of recent developments in sport and leisure with emphasis on technology and computational techniques. A detailed analysis on new technological developments is performed. Sensors for position and motion detection, and such for equipment and physiological monitoring are discussed. Aspects of novel trends in communication technologies and data processing are outlined. Computational advancements have started a new trend - development of smart and intelligent systems for a wide range of applications - from model-based posture recognition to context awareness algorithms for nutrition monitoring. Examples particular to coaching and training are discussed. Selected tools for monitoring rules' compliance and automatic decision-making are outlined. Finally, applications in leisure and entertainment are presented, from systems supporting physical activity to systems providing motivation. It is concluded that the emphasis in future will shift from technologies to intelligent systems that allow for enhanced social interaction as efforts need to be made to improve user-friendliness and standardisation of measurement and transmission protocols.

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Deformation and Stress Analysis of Supported Buttock Contact

Dabnichki

Crocombe

Hughes

1994

Proc Inst Mech Eng H

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Non-linear finite element analysis has been used to investigate the contact problem between a buttock and a cushion of varying properties. The buttock tissue has been modelled on the macroscale by assuming it to be a hyperelastic (rubber-like) material with properties that correspond to the overall buttock response. Both rigid and $exible cushions have been considered. The contact between the cushion and the buttock has been modelled assuming both friction and friction-jiree conditions. The effect of these parameters on the buttock-cushion deformation and the tissue compressive and shear stress distributions have been presented. This study forms part of work towards the development of body segment simulatorsfor use in investigations of seating and other support surfaces.

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On hydrodynamics of drag and lift of the human arm

Gardano

Dabnichki

2006

Journal of Biomechanics

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Improved accuracy and reliability of sweepback angle, pitch angle and hand velocity calculations in swimming

Lauder

Dabnichki

Bartlett

2001

Journal of Biomechanics

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Distinguishing Different Stages of Parkinson’s Disease Using Composite Index of Speed and Pen-Pressure of Sketching a Spiral

et al. 2017

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The speed and pen-pressure while sketching a spiral are lower among Parkinson’s disease (PD) patients with higher severity of the disease. However, the correlation between these features and the severity level (SL) of PD has been reported to be 0.4. There is a need for identifying parameters with a stronger correlation for considering this for accurate diagnosis of the disease. This study has proposed the use of the Composite Index of Speed and Pen-pressure (CISP) of sketching as a feature for analyzing the severity of PD. A total of 28 control group (CG) and 27 PD patients (total 55 participants) were recruited and assessed for Unified Parkinson’s Disease Rating Scale (UPDRS). They drew guided Archimedean spiral on an A3 sheet. Speed, pen-pressure, and CISP were computed and analyzed to obtain their correlation with severity of the disease. The correlation of speed, pen-pressure, and CISP with the severity of PD was −0.415, −0.584, and −0.641, respectively. Mann–Whitney U test confirmed that CISP was suitable to distinguish between PD and CG, while non-parametric k-sample Kruskal–Wallis test confirmed that it was significantly different for PD SL-1 and PD SL-3. This shows that CISP during spiral sketching may be used to differentiate between CG and PD and between PD SL-1 and PD SL-3 but not SL-2.

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Unsteady panel method for flapping foil

Mantia

Dabnichki

2009

Engineering Analysis with Boundary Elements

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Influence of the postion of crew members on aerodynamics performance of two-man bobsleigh

Dabnichki

Avital

2006

Journal of Biomechanics

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Peter Dabnichki

A three-dimensional biomechanical comparison between turning strategies during the stance phase of walking

Ubiquitous computing in sports: A review and analysis

Deformation and Stress Analysis of Supported Buttock Contact

On hydrodynamics of drag and lift of the human arm

Improved accuracy and reliability of sweepback angle, pitch angle and hand velocity calculations in swimming

Distinguishing Different Stages of Parkinson’s Disease Using Composite Index of Speed and Pen-Pressure of Sketching a Spiral

Unsteady panel method for flapping foil

Influence of the postion of crew members on aerodynamics performance of two-man bobsleigh

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