WorldCat Identities

Jing, Xingjian

Overview
Works: 21 works in 39 publications in 1 language and 426 library holdings
Genres: Academic theses  Conference papers and proceedings 
Roles: Author, Editor, Other, htt, Contributor
Classifications: QA402, 620.3
Publication Timeline
.
Most widely held works by Xingjian Jing
Frequency domain analysis and design of nonlinear systems based on Volterra series expansion : a parametric characteristic approach by Xingjian Jing( )

14 editions published between 2015 and 2016 in English and held by 263 WorldCat member libraries worldwide

This book is a systematic summary of some new advances in the area of nonlinear analysis and design in the frequency domain, focusing on the application oriented theory and methods based on the GFRF concept, which is mainly done by the author in the past 8 years. The main results are formulated uniformly with a parametric characteristic approach, which provides a convenient and novel insight into nonlinear influence on system output response in terms of characteristic parameters and thus facilitate nonlinear analysis and design in the frequency domain. The book starts with a brief introduction to the background of nonlinear analysis in the frequency domain, followed by recursive algorithms for computation of GFRFs for different parametric models, and nonlinear output frequency properties. Thereafter the parametric characteristic analysis method is introduced, which leads to the new understanding and formulation of the GFRFs, and nonlinear characteristic output spectrum (nCOS) and the nCOS based analysis and design method. Based on the parametric characteristic approach, nonlinear influence in the frequency domain can be investigated with a novel insight, i.e., alternating series, which is followed by some application results in vibration control. Magnitude bounds of frequency response functions of nonlinear systems can also be studied with a parametric characteristic approach, which result in novel parametric convergence criteria for any given parametric nonlinear model whose input-output relationship allows a convergent Volterra series expansion. This book targets those readers who are working in the areas related to nonlinear analysis and design, nonlinear signal processing, nonlinear system identification, nonlinear vibration control, and so on. It particularly serves as a good reference for those who are studying frequency domain methods for nonlinear systems
Advances in Applied Nonlinear Dynamics, Vibration and Control -2021 The proceedings of 2021 International Conference on Applied Nonlinear Dynamics, Vibration and Control (ICANDVC2021) by Xingjian Jing( )

5 editions published between 2021 and 2022 in English and Undetermined and held by 118 WorldCat member libraries worldwide

This book is to provide readers with up-to-date advances in applied and interdisciplinary engineering science and technologies related to nonlinear dynamics, vibration, control, robotics, and their engineering applications, developed in the most recent years. All the contributed chapters come from active scholars in the area, which cover advanced theory & methods, innovative technologies, benchmark experimental validations and engineering practices. Readers would benefit from this state-of-the-art collection of applied nonlinear dynamics, in-depth vibration engineering theory, cutting-edge control methods and technologies, and definitely find stimulating ideas for their on-going R&D work. This book is intended for graduate students, research staff and scholars in academics, and also provides useful hand-up guidance for professional and engineers in practical engineering missions.
Nonlinear vibration energy harvesting with adjustable stiffness, damping and inertia by Chunchuan Liu( )

1 edition published in 2016 in English and held by 2 WorldCat member libraries worldwide

Vibration energy harvesting with a nonlinear structure by Chunchuan Liu( )

1 edition published in 2016 in English and held by 2 WorldCat member libraries worldwide

A second-order output spectrum approach for fault detection of bolt loosening in a satellite-like structure with a sensor chain by Quankun Li( )

1 edition published in 2017 in English and held by 2 WorldCat member libraries worldwide

Improving low-frequency piezoelectric energy harvesting performance with novel X-structured harvesters by Meng Li( )

1 edition published in 2018 in English and held by 2 WorldCat member libraries worldwide

A 6-DOF passive vibration isolator based on Stewart structure with X-shaped legs by Feizhou Hu( )

1 edition published in 2017 in English and held by 2 WorldCat member libraries worldwide

Nonlinear analysis of a bio-inspired vertically asymmetric isolation system under different structural constraints by Yu Wang( )

1 edition published in 2018 in English and held by 2 WorldCat member libraries worldwide

Nonlinear mechanics of flexible cables in space robotic arms subject to complex physical environment by Yuwang Liu( )

1 edition published in 2018 in English and held by 2 WorldCat member libraries worldwide

A tracked robot with novel bio-inspired passive "legs" by Bo Sun( )

1 edition published in 2017 in English and held by 2 WorldCat member libraries worldwide

Frequency domain theory of nonlinear Volterra systems based on parametric characteristic analysis by Xingjian Jing( Book )

2 editions published in 2008 in English and held by 2 WorldCat member libraries worldwide

The frequency domain methods tor linear systems are well accepted by engineers and have been widely applied in engineering practice because the transfer function of linear systems can always provide a coordinate-free and equivalent description for system characteristics and are convenient to be used for the system analysis and design. Although the analysis and design of linear systems in the frequency domain have been well established and the frequency domain methods for nonlinear systems have aheady been investigated for many years, the frequency domain analysis for nonlinear systems is far from being fully developed
The second-order output spectrum-based method for fault localization in ring type structures by Quankun Li( )

1 edition published in 2019 in English and held by 2 WorldCat member libraries worldwide

Robust finite-time tracking control for nonlinear suspension systems via disturbance compensation( )

1 edition published in 2017 in English and held by 1 WorldCat member library worldwide

Abstract: This paper focuses on the finite-time tracking control with external disturbance for active suspension systems. In order to compensate unknown disturbance efficiently, a disturbance compensator with finite-time convergence property is studied. By analyzing the discontinuous phenomenon of classical disturbance compensation techniques, this study presents a simple approach to construct a continuous compensator satisfying the finite-time disturbance rejection performance. According to the finite-time separation principle, the design procedures of the nominal controller for the suspension system without disturbance and the disturbance compensator can be implemented in a completely independent manner. Therefore, the overall control law for the closed-loop system is continuous, which offers some distinct advantages over the existing discontinuous ones. From the perspective of practical implementation, the continuous controller can avoid effectively the unexpected chattering in active suspension control. Comparative experimental results are presented and discussed to illustrate the advantage and effectiveness of the proposed control strategy. Abstract : Highlights: A simple but effective control strategy for the active suspension system via disturbance compensation. The proposed disturbance compensator is continuous and finite-time convergent. Comparative experimental results have been implemented to evaluate the control system performances. Experimental results validate that the proposed control method can achieve potential benefits to improve ride comfort
A nonlinear vibration isolator achieving high-static-low-dynamic stiffness and tunable anti-resonance frequency band( )

1 edition published in 2016 in English and held by 1 WorldCat member library worldwide

Abstract: This study investigates theoretically and experimentally a vibration isolator constructed by an n-layer Scissor-Like Structure (SLS), focusing on the analysis and design of nonlinear stiffness and damping characteristics for advantageous isolation performance in both orthogonal directions. With the mathematical modeling, the influence incurred by different structural parameters on system isolation performance is studied. It is shown that, (a) nonlinear high-static-low-dynamic stiffness and damping characteristics can be seen such that the system can achieve good isolation performance in both directions, (b) an anti-resonance frequency band exists due to the coupling effect between the linear and nonlinear stiffness in the two orthogonal directions within the structure, and (c) all these performances are designable with several structural parameters. The advantages of the proposed system are shown through comparisons with an existing quasi-zero-stiffness vibration isolator (QZS-VI) and a traditional mass-spring-damper vibration isolator (MSD-VI), and further validated by experimental results. Highlights: A 2-D isolator with n-layer Scissor-Like Structure (SLS) is modeled and studied. The system can achieve good isolation performance in two directions simultaneously. An excellent anti-resonance frequency band can be achieved with tunable properties. Experimental results validate the excellent nonlinear stiffness and damping performance
Frequency Domain Analysis and Design of Nonlinear Systems based on Volterra Series Expansion A Parametric Characteristic Approach by Xingjian Jing( Book )

1 edition published in 2015 in English and held by 1 WorldCat member library worldwide

This book is a systematic summary of some new advances in the area of nonlinear analysis and design in the frequency domain, focusing on the application oriented theory and methods based on the GFRF concept, which is mainly done by the author in the past 8 years. The main results are formulated uniformly with a parametric characteristic approach, which provides a convenient and novel insight into nonlinear influence on system output response in terms of characteristic parameters and thus facilitate nonlinear analysis and design in the frequency domain. The book starts with a brief introduction to the background of nonlinear analysis in the frequency domain, followed by recursive algorithms for computation of GFRFs for different parametric models, and nonlinear output frequency properties. Thereafter the parametric characteristic analysis method is introduced, which leads to the new understanding and formulation of the GFRFs, and nonlinear characteristic output spectrum (nCOS) and the nCOS based analysis and design method. Based on the parametric characteristic approach, nonlinear influence in the frequency domain can be investigated with a novel insight, i.e., alternating series, which is followed by some application results in vibration control. Magnitude bounds of frequency response functions of nonlinear systems can also be studied with a parametric characteristic approach, which result in novel parametric convergence criteria for any given parametric nonlinear model whose input-output relationship allows a convergent Volterra series expansion. This book targets those readers who are working in the areas related to nonlinear analysis and design, nonlinear signal processing, nonlinear system identification, nonlinear vibration control, and so on. It particularly serves as a good reference for those who are studying frequency domain methods for nonlinear systems
Vibration isolation by exploring bio-inspired structural nonlinearity( )

1 edition published in 2015 in English and held by 1 WorldCat member library worldwide

Abstract: Inspired by the limb structures of animals/insects in motion vibration control, a bio-inspired limb-like structure (LLS) is systematically studied for understanding and exploring its advantageous nonlinear function in passive vibration isolation. The bio-inspired system consists of asymmetric articulations (of different rod lengths) with inside vertical and horizontal springs (as animal muscle) of different linear stiffness. Mathematical modeling and analysis of the proposed LLS reveal that, (a) the system has very beneficial nonlinear stiffness which can provide flexible quasi-zero, zero and/or negative stiffness, and these nonlinear stiffness properties are adjustable or designable with structure parameters; (b) the asymmetric rod-length ratio and spring-stiffness ratio present very beneficial factors for tuning system equivalent stiffness; (c) the system loading capacity is also adjustable with the structure parameters which presents another flexible benefit in application. Experiments and comparisons with existing quasi-zero-stiffness isolators validate the advantageous features above, and some discussions are also given about how to select structural parameters for practical applications. The results would provide an innovative bio-inspired solution to passive vibration control in various engineering practice
Recent advances in micro-vibration isolation( )

1 edition published in 2015 in English and held by 1 WorldCat member library worldwide

Abstract: Micro-vibration caused by disturbance sources onboard spacecraft can severely degrade the working environment of sensitive payloads. Some notable vibration control methods have been developed particularly for the suppression or isolation of micro-vibration over recent decades. Usually, passive isolation techniques are deployed in aerospace engineering. Active isolators, however, are often proposed to deal with the low frequency vibration that is common in spacecraft. Active/passive hybrid isolation has also been effectively used in some spacecraft structures for a number of years. In semi-active isolation systems, the inherent structural performance can be adjusted to deal with variation in the aerospace environment. This latter approach is potentially one of the most practical isolation techniques for micro-vibration isolation tasks. Some emerging advanced vibration isolation methods that exploit the benefits of nonlinearity have also been reported in the literature. This represents an interesting and highly promising approach for solving some challenging problems in the area. This paper serves as a state-of-the-art review of the vibration isolation theory and/or methods which were developed, mainly over the last decade, specifically for or potentially could be used for, micro-vibration control
Vibration signal-based fault diagnosis in complex structures: A beam-like structure approach( )

in English and held by 1 WorldCat member library worldwide

Sensor network-based data-driven fault diagnosis in complex structures using limited prior knowledge is an interesting and hot topic in the literature. In this study, an integrated feature characterization and fuzzy decision method is developed based on a novel beam-like structure approach for fault diagnosis using available limited prior knowledge. Complex structures embedded with vibration sensors can be regarded as some virtual beam-like structures by considering the vibration transmission path from vibration sources to each sensor. The dynamic response of the structures in this vibration transmission path can demonstrate obvious fault features if there is a fault (typically, for example, cracks in connecting rods or around bolts, and bolt-loosening). These fault features can be effectively characterized and efficiently captured and utilized for fault diagnosis with a fuzzy decision method based on the virtual beam-like structure concept. This novel virtual beam-like structure approach needs only limited prior knowledge of the faults and does not require stationary response data. It is also not with respect to a specific structure design and is easy to implement within a sensor network. The effectiveness of the proposed method is well validated in the experiments for fault diagnosis including loosening bolts or cracks around bolts of complex structures such as bolted-base hanging structures in satellites
 
moreShow More Titles
fewerShow Fewer Titles
Audience Level
0
Audience Level
1
  General Special  
Audience level: 0.00 (from 0.00 for Frequency ... to 0.00 for Frequency ...)

Frequency domain analysis and design of nonlinear systems based on Volterra series expansion : a parametric characteristic approach
Covers
Languages
English (37)