A novel numerical integrator for velocity and position estimation

Thenozhi, Suresh; Yu, Wen; Garrido, R.

doi:10.1177/0142331213476987

Cited by 33 publications

(21 citation statements)

References 17 publications

(27 reference statements)

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“…The ground acceleration is then subtracted from the top floor acceleration to get the relative acceleration. The relative velocity and position data are then estimated using the numerical integrator proposed in Thenozhi, Yu, and Garrido (2013). The proposed SMC with fuzzy sliding surface and gain adaptation is compared with the classic proportionalintegral-derivative (PID) controller and standard SMC.…”

Section: Resultsmentioning

confidence: 99%

Sliding mode control of wind-induced vibrations using fuzzy sliding surface and gain adaptation

Thenozhi

2014

International Journal of Systems Science

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Although fuzzy/adaptive sliding mode control can reduce the chattering problem in structural vibration control applications, they require the equivalent control and the upper bounds of the system uncertainties. In this paper, we used fuzzy logic to approximate the standard sliding surface and designed a dead-zone adaptive law for tuning the switching gain of the sliding mode control. The stability of the proposed controller is established using Lyapunov stability theory. A six-storey building prototype equipped with an active mass damper has been used to demonstrate the effectiveness of the proposed controller towards the wind-induced vibrations.

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Section: Resultsmentioning

confidence: 99%

Sliding mode control of wind-induced vibrations using fuzzy sliding surface and gain adaptation

Thenozhi

2014

International Journal of Systems Science

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“…x(t) = x(0) + t 0 v(0)dt = x(0) + v(0)t + t 0 a(t)dt (2) where v(t) is the velocity, a(t) is the acceleration and x(t) displacement at time t, so, assuming that both initial displacement and velocity are known, the position and velocity of an object would be obtained at any time from the measurement of the acceleration. This strategy of indirect measurement of displacement has been exploited in several fields of engineering.…”

Section: Research Overviewmentioning

confidence: 99%

“…The estimation of velocity and position is also necessary for the proportional-integral-derivative (PID) control of mechanical devices [2]. The existence of noise in both low and high frequencies would cause a drift in the velocity and position reconstruction process.…”

Section: Research Overviewmentioning

confidence: 99%

“…An usual strategy for noise suppression is the use of some filters incorporated in the transfer function for the reconstruction of displacement from the acceleration in the frequency domain [21][22][23][24]. Thenozhi [2] proposed a method for the cancellation of decentering (Bias) by adjusting the baseline of the acceleration data. Boore [7] proposed a method of suppression of Analog to Digital Conversion (ADC) error by dithering technique (adding a small random noise signal).…”

Section: Accelerometers Fundamentalsmentioning

confidence: 99%

“…where: is the cross correlation coeficient, CCC [x] defined for the displacement measurement x ( ) is the covariance between ( ) and ( ) is the standard deviation of Thus, a gain (K), obtained from a proper calibration, is applied to the resulting lecture in order to obtain the acceleration. Finally, the velocity and displacements are obtained from single and double integration, as described in Equations 1and (2). The simulation using the bond graph technique is carried out using the simulation software 20-sim © version 4.2.7 developed by the company Controllab Products B.V. (Enschede, the Netherlands).…”

Section: Quality Indicatorsmentioning

confidence: 99%

See 2 more Smart Citations

Bond Graph Simulation of Error Propagation in Position Estimation of a Hydraulic Cylinder Using Low Cost Accelerometers

2018

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The indirect calculation from acceleration of transversal displacement of the piston inside the body of a double effect linear hydraulic cylinder during its operating cycle is assessed. Currently an extensive effort exists in the improvement of the mechanical and electronic design of the highly sophisticated MEMS accelerometers. Nevertheless, the predictable presence of measurement errors in the current commercial accelerometers is the main origin of velocity and displacement measurement deviations during integration of the acceleration. A bond graph numerical simulation model of the electromechanical system has been developed in order to forecast the effect of several measurement errors in the use of low cost two axes accelerometers. The level of influence is assessed using quality indicators and visual signal evaluation, for both simulations and experimental results. The obtained displacements results are highly influenced by the diverse dynamic characteristics of each measuring axis. The small measuring errors of a simulated extremely high performance sensor generate only moderate effects in longitudinal displacement but deep deviations in the reconstruction of piston transversal movements. The bias error has been identified as the source of the higher deviations of displacement results; although, its consequences can be easily corrected.

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Structural Strength Monitoring System Practices Using Machine Learning

Rao

Chaparala

2021

Algorithms for Intelligent Systems

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A novel numerical integrator for velocity and position estimation

Cited by 33 publications

References 17 publications

Sliding mode control of wind-induced vibrations using fuzzy sliding surface and gain adaptation

Sliding mode control of wind-induced vibrations using fuzzy sliding surface and gain adaptation

Bond Graph Simulation of Error Propagation in Position Estimation of a Hydraulic Cylinder Using Low Cost Accelerometers

Structural Strength Monitoring System Practices Using Machine Learning

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