A Three-Dimensional Parametric Biomechanical Rider Model for Multibody Applications

Bova, Matteo; Massaro, Matteo; Petrone, Nicola

doi:10.3390/app10134509

Cited by 6 publications

(5 citation statements)

References 56 publications

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“…For the inertial data different model where proposed in the literature [6,11,5,8,7]. According to a recent comparison, such models can be considered equivalent [4]. In this work, it is used the Dempster model [6] for its easier implementation.…”

Section: Comparison Of Spatial Model With a Planar Modelmentioning

confidence: 99%

A Spatial Dynamic Model for the Simulation of Human Upper Limb

Dona

Zuccon

Bottin

et al. 2022

Mechanisms and Machine Science

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In many assembly systems, ergonomics can have a great impact on productivity. To evaluate ergonomics, human energy expenditure can be used as an index. In this paper, an energy expenditure spatial arm model is presented and then compared to a reference planar model. For that purpose, it has been developed both a dynamic and metabolic model of a spatial human arm. It will be shown that the spatial model extends the planar one.

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Section: Comparison Of Spatial Model With a Planar Modelmentioning

confidence: 99%

A Spatial Dynamic Model for the Simulation of Human Upper Limb

Dona

Zuccon

Bottin

et al. 2022

Mechanisms and Machine Science

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“…The tyres are modelled using the Magic Formula approach [5], which is included in Adams by default. The inertial properties of the bike were measured in the laboratory of the University of Padova, while the rider inertial properties were estimated using the Zatsiorsky-DeLeva dataset, which is one the most used [9]. The hands are assumed to be off the handlebar [16].…”

Section: Multibody Modelmentioning

confidence: 99%

“…Historically, the rider has been assumed to be rigidly attached to the chassis, with the inertial properties estimated using prediction-regression formulas from biomechanical databases. A number of different sources are available in the literature, with a review of the most used given in [9].…”

Section: Introductionmentioning

confidence: 99%

A Screw-Axis Approach to the Stability of Two-Wheeled Vehicles

Bova

Massaro

2021

Applied Sciences

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The stability of two-wheeled vehicles is predominantly characterized by the well-known weave and wobble vibration modes, which have been extensively investigated in the literature, mainly in terms of their frequencies and damping ratios. In this work the focus is towards their mode shapes, which are investigated using the screw-axis (also called Mozzi-axis), instead of the classic compass diagrams, for a better understanding of their three-dimensional patterns. The analysis is then carried out using the velocity centres for a characterization from the top, rear and side view of the vehicle. The multibody vehicle model employed for the numerical analysis is built in Adams. The dataset resembles that of a 250cc sport motorcycle, and has been derived from laboratory tests. The stability analysis is carried out in the frequency domain. It is found that, depending on the selected plane for the projection of the three-dimensional vibration motion, the trajectories of the velocity centres of the weave and wobble can cross either aft or fore the centre of mass, which has been associated to the under- and over-steering behaviour in the literature.

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“…In this Special Issue, the investigation of the driver-steering interaction is experimentally carried out in [14], with an instrumented steering wheel, while in [15] the effect of the rider's passive vibration on the stability of a two-wheeled vehicle is considered, with a focus on the weave and wobble modes. Finally, in [16], the most used biomechanical models are compared and employed to build a multibody rider model suitable for multibody applications.…”

Section: Man-machine Interactionmentioning

confidence: 99%

“…It is well known that the inertial properties of riders affect the stability of two-wheeled vehicles and that there are different reference biomechanical databases for the estimation of such parameters. A review and a comparison focused on multibody applications is presented in [16].…”

Section: Light Vehiclesmentioning

confidence: 99%