Large-Deflection Nonlinear Mechanics of Curved Cantilevers Under Contact Point Loading

Garcia, Geoffrey A.; Wakumoto, Kody M.; Brown, Joseph J.

doi:10.1115/1.4052000

Cited by 3 publications

(1 citation statement)

References 16 publications

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“…In the paper [15] the material can be improved in elasticity properties by special treatment both chemically and mechanically, although this study only used springs made of springs and has not applied material variations in spring constant trials for material variations. In [16,17] the elasticity properties of objects affect the characteristics and constants of materials. The spring constant indicates the force required or exerted to produce a change in length equal to one unit of length in meters.…”

Section: Literature Review and Problem Statementmentioning

confidence: 99%

Implementation of Kalman filter algorithm to optimize the calculation of ultrasonic sensor distance value in Hooke law props system

Pratiwi,

Fadli,

Cahyanto

et al. 2024

EEJET

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The Kalman filter algorithm is very important as a recursive algorithm method to optimize sensor output from physical parameter measurement systems, especially physics practicum demonstration systems. One of the distance parameter measurement demonstration systems used in Hooke’s law demonstration system is applied in physics practicum, the system has problems related to fluctuating or unstable sensor output. This research implements the Kalman filter algorithm on the Arduino IDE sketch to reduce noise that appears at the ultrasonic sensor output. The methodology used in this study includes the application of the Kalman filter algorithm to the Arduino IDE sketch with the variable value of the Kalman filter algorithm equation modified with a value of R=10, H=1, and Q=1, and returns the filtered Kalman out value. The Arduino output results are exported to Ms. Excel for further analysis and generate a filtered ultrasonic sensor output signal graph compared without using the Kalman filter. The ultrasonic sensor output noise filtration effectively reduces noise by showing a decrease in the mean squared error (MSE) value and obtaining the best performance of up to 89.23 %. The accuracy of Kalman filter filtration results can be seen from the calculation that the spring constant of filtered metal materials is smaller than the conventional measurement spring constant. Accurate and effective results with the implementation of the Kalman filter algorithm can be developed for the variation values of distance parameters and Kalman filter algorithm variables (R, Q, and H) with other value variations, especially variables that produce filtering curves close to straight lines. It was concluded that the Kalman filter algorithm was able to improve the performance of Hooke’s law prop system

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Section: Literature Review and Problem Statementmentioning

confidence: 99%

Implementation of Kalman filter algorithm to optimize the calculation of ultrasonic sensor distance value in Hooke law props system

Pratiwi,

Fadli,

Cahyanto

et al. 2024

EEJET

View full text Add to dashboard Cite

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Investigation of the friction reduction and anisotropy of seta structure with large deflection cantilever beam model

Cheng

Yang

Jiang

et al. 2022

Tribology International

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Tunable Three-Dimensional Vibrational Structures for Concurrent Determination of Thin Film Modulus and Density

Wang

Chen

Zhang

et al. 2021

Journal of Applied Mechanics

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The real-time characterization of thin film properties can provide insights into the behavior of film material during process such as phase-transition, hydration and chemical reaction. The shift of reasonant frequency in structural vibration serves as the basis of an effective approach to determine film properties, but encounters the difficulty that multiple to-be-determined quantites (e.g. film modulus and density) are often related to the resonant frequency simultaneously and therefore cannot be determined by a structure with fixed shape and vibration mode. Determinsitic mechanical buckling provides an effective route for the vibrational structure to rapidly switch between designed shapes and vibration modes. Here, we adopt a ribbon structure in the flat state and buckled state to yield two distinct vibration modes. Theoretical models of the natural frequencies are established for first-order out-of-plane modes of the ribbon with patterned thin films in these two states, respectively. The model suggests that with optimized film pattern the sensitivity of the natural frequencies to the film modulus and density can be partially decoupled. The results lead to a simple and effective method based on tunable vibration to characterize the thin film modulus and density at small scale.

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Large-Deflection Nonlinear Mechanics of Curved Cantilevers Under Contact Point Loading

Cited by 3 publications

References 16 publications

Implementation of Kalman filter algorithm to optimize the calculation of ultrasonic sensor distance value in Hooke law props system

Implementation of Kalman filter algorithm to optimize the calculation of ultrasonic sensor distance value in Hooke law props system

Investigation of the friction reduction and anisotropy of seta structure with large deflection cantilever beam model

Tunable Three-Dimensional Vibrational Structures for Concurrent Determination of Thin Film Modulus and Density

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