Ride comfort enhancement for passenger vehicles using the structure-immittance approach

Zhang, S. Y.; Zhu, Ming; Li, Yuan; Jiang, Jason Zheng; Ficca, Riccardo; Czechowicz, Maciej Pawel; Neilson, Richard David; Neild, Simon A; Herrmann, Guido

doi:10.1080/00423114.2019.1694158

Cited by 21 publications

(16 citation statements)

References 32 publications

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“…is the power spectra density (PSD) of the road velocity, as detailed in [16,37]. Note that the road velocity and displacement PSDs are transformable, and both can be used as the exotic excitation.…”

Section: Indices Formulation In the H 2 Normmentioning

confidence: 99%

“…Note that the road velocity and displacement PSDs are transformable, and both can be used as the exotic excitation. The velocity PSD is selected for derivation here (also in [16]) because it is constant regardless of the frequency, which can simplify the theoretical derivation. In this study, we select V = 25 m/s and κ = 5×10 -7 m 3 /cycle, in line with [37].…”

Section: Indices Formulation In the H 2 Normmentioning

confidence: 99%

“…All the dynamic performance and control requirements have been expressed in the form of H 2 norm which will now be analytically calculated using the Lyapunov equation. An analytical expression of a stable transfer function H(s) in the H 2 -norm form can be computed from a minimal state-space realization (16) where the matrix L is the unique solution of the following Lyapunov equation…”

Section: Analytical Expressions For Indices In the H 2 Normmentioning

confidence: 99%

“…It completes the electrical and mechanical analogy and enables all the positive-real admittances to be realized passively. Since its introduction, many inerter-based layouts with low complexity have been proposed [12][13][14][15] and potential improvements across a wide range of application areas have been identified, such as automobiles [16], railway vehicles [17,18], wind turbines [19], landing gear [20] and civil engineering [21,22].…”

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Using an inerter to enhance an active-passive-combined vehicle suspension system

Jiang

et al. 2021

International Journal of Mechanical Sciences

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Section: Indices Formulation In the H 2 Normmentioning

confidence: 99%

Section: Indices Formulation In the H 2 Normmentioning

confidence: 99%

Section: Analytical Expressions For Indices In the H 2 Normmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Using an inerter to enhance an active-passive-combined vehicle suspension system

Jiang

et al. 2021

International Journal of Mechanical Sciences

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“…With the introduction of the inerter, all positive-real immittance functions can be realised by passive networks consisting of inerters, dampers and springs. Performance benefits from employing inerters have been identified for various mechanical systems, including motorcycle steering systems [32], passenger vehicle suspensions [33,34], train suspensions [35][36][37], buildings [38][39][40], landing gear [41], wind turbines [42] and cables [43].…”

Section: Introductionmentioning

confidence: 99%

Enhancing pantograph-catenary dynamic performance using an inertance-integrated damping system

Zhu

Zhang

Jiang

et al. 2021

Vehicle System Dynamics

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For modern electrical rail systems, the pantograph-catenary dynamic performance is one of the most critical challenges. Too much fluctuation in contact forces leads to either accelerated wear of the contacting components or losses of contact and, consequently, arcing. In this work, inertance-integrated pantograph damping systems are investigated with the objective of reducing the contact force standard deviation. Firstly, a multibody pantograph model is developed with its accuracy compared with experimental data. The model is improved through the calibration of the pantograph head suspension parameters and the introduction of both non-ideal joint and flexibility effects. Using the calibrated model, beneficial inertance-integrated damping systems are identified for the pantograph suspension. The results show that the configuration with one inerter provides the best performance among other candidate layouts and contends a 40% reduction of the maximum standard deviation of the contact force over the whole operating speed range in the numerical modelling scenario analysed. Considering the identified configuration, time-domain analysis and modal analysis are investigated. It has been shown that the achieved improvement is due to the fact that with the beneficial inertance-integrated damping system, the first resonance frequency of the pantograph system coincides with the natural frequency of the catenary system.

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Minimal seven‐element series‐parallel realizability of a certain positive‐real biquadratic impedance

Wang

Chen

Liu

2023

Circuit Theory & Apps

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SummaryThe minimal complexity realization of low‐order positive‐real immittances as resistor–inductor–capacitor (RLC) (or damper‐spring‐inerter) networks is an essential unsolved problem in the theory of network synthesis, and the results can be directly applied to the inerter‐based mechanical systems control. This paper solves the realizability problem of a certain class of biquadratic impedances as any seven‐element series‐parallel RLC network, where the impedance contains a repeated zero and pole of multiplicity two. In contrast to the previous results of this problem, the work in this paper considers the general case and removes the restrictions on the network structures and the number of reactive elements. The final results present a necessary and sufficient condition for the realizability of such an impedance as any seven‐element series‐parallel RLC network. A network synthesis example in suspension control design is presented to illustrate the results of this paper and the applications in inerter‐based mechanical control.

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Ride comfort enhancement for passenger vehicles using the structure-immittance approach

Cited by 21 publications

References 32 publications

Using an inerter to enhance an active-passive-combined vehicle suspension system

Using an inerter to enhance an active-passive-combined vehicle suspension system

Enhancing pantograph-catenary dynamic performance using an inertance-integrated damping system

Minimal seven‐element series‐parallel realizability of a certain positive‐real biquadratic impedance

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