Master‐Slave Composite Vibration Control of a Mobile Flexible Manipulator via Synchronization Optimization of Observation and Feedback

Ju, Jinyong; Liu, Yuanyuan; Kan, H. K. Alan; Zhang, Chunrui

doi:10.1155/2019/5347460

Cited by 2 publications

(2 citation statements)

References 38 publications

(41 reference statements)

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“…2,7 Li et al 8 proposed a hybrid controller combining input shaping technology with adaptive active disturbance rejection controller. Ju et al 9 introduced the full-state feedback controller on the basis of the ZV input shaper to control the elastic vibration of a flexible manipulator with variable loads. However, the design of the input shaper needs to obtain the natural frequency and damping ratio of the system in advance, and the effect of the shaper mainly depends on whether the modal parameters of the system can be accurately identified.…”

Section: Introductionmentioning

confidence: 99%

Fast luffing control of flexible boom of mobile elevated work platform with uncertain control input gain

Fang

Zhang

et al. 2023

Advances in Mechanical Engineering

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In this paper, the dynamic model between input electric signal of hydraulic valve and boom luffing angle is established, and luffing control of flexible boom of mobile elevated work platform (MEWP) is studied. The control input gain for the luffing motion of the MEWP is extremely difficult to solve and varies with boom length, work platform load, and luffing angle. For the variable control input gain, all low-order state quantities, rigid-flexible coupling quantity, and control input are included as the “total disturbance” to be observed. Based on the third-order linear tracking differentiator and the first-order ordinary differential linear equation, an active disturbance rejection controller without control input gain is proposed. With the bandwidth-based parameter settings, the controller only needs to adjust two parameters. As a comparison, this paper analyzes in detail the proposed controllers, the fixed input gain active disturbance rejection controller and the PID controller in terms of tracking error, overshoot, setting time, tracking stability, and robustness.

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Section: Introductionmentioning

confidence: 99%

Fast luffing control of flexible boom of mobile elevated work platform with uncertain control input gain

Fang

Zhang

et al. 2023

Advances in Mechanical Engineering

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“…Ke et al [20] illustrated the wave propagation with the properties varying exponentially in an inhomogeneous fluid saturated porous layered half-space, Ghorai et al [21] examined the effect of gravity on the Love waves propagation in a fluid-saturated porous layer under a rigid boundary and lying over an elastic half-space, Chen et al [22] theoretically analyzed the wave propagation an unsaturated porous medium, Kumar and Rajeev [23] studied analysis of wave motion at the boundary surface of orthotropic thermoelastic material with voids and isotropic elastic half-space, Gupta et al [24] identified the possibility of Love wave propagation in a porous layer under the effect of linearly varying directional rigidities, Vaishnav et al [25] studied about the rectangular irregularity in propagation of Love-type wave in porous medium over an orthotropic semi-infinite medium, Manna et al [26] clearly defined the effect of reinforcement and inhomogeneity on the propagation of Love wave, Saha et al [27] exposed the torsional surface waves in an initially stressed porous layer sandwiched between two nonhomogeneous half-spaces with irregularity, and Kumhar et al [28] proposed an Earth model for Love waves in fluid saturated porous viscoelastic medium resting over an exponentially graded inhomogeneous half-space influenced by gravity. Li et al [29] and Ju et al [30] discussed the cognition on earthquake and vibration control of a mobile flexible manipulator via synchronization optimization of observation and feedback. e Earth's surface is irregular in nature which really affects the propagation of seismic waves by all means.…”

Section: Introductionmentioning

confidence: 99%

Analysis of Phase Velocity of Love Waves in Rigid and Soft Mountain Surfaces: Exponential Law Model

et al. 2021

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Irregularity may occur on the earth’s surface in the form of mountains due to the imperfection of the earth’s crust. To explore the influence of horizontally polarized shear waves on mountains, we considered the fluid-saturated porous medium (superficial layer) over an orthotropic semi-infinite medium with rigid (Model-I) and soft (Model-II) mountain surfaces for wave propagation. The mountain surface is defined mathematically as a periodic function of the time domain. The physical interpretation of materials’ structure has been explained in rectangular Cartesian coordinate system originated at the contact interface of layer and half-space. The displacement of the mountains has been derived by solving energy equations analytically. The influence of rigid and soft mountain surfaces on the phase velocity of shear waves has been demonstrated graphically (we used MATLAB software for graphical representations).

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Master‐Slave Composite Vibration Control of a Mobile Flexible Manipulator via Synchronization Optimization of Observation and Feedback

Cited by 2 publications

References 38 publications

Fast luffing control of flexible boom of mobile elevated work platform with uncertain control input gain

Fast luffing control of flexible boom of mobile elevated work platform with uncertain control input gain

Analysis of Phase Velocity of Love Waves in Rigid and Soft Mountain Surfaces: Exponential Law Model

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