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Your search keyword '"Ricles, James"' showing total 160 results
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160 results on '"Ricles, James"'

1. Physics Informed Recurrent Neural Networks for Seismic Response Evaluation of Nonlinear Systems

Author

Malik, Faisal Nissar, Ricles, James, Yari, Masoud, and Nissar, Malik Arsala

Subjects
Computer Science - Machine Learning
Abstract

Dynamic response evaluation in structural engineering is the process of determining the response of a structure, such as member forces, node displacements, etc when subjected to dynamic loads such as earthquakes, wind, or impact. This is an important aspect of structural analysis, as it enables engineers to assess structural performance under extreme loading conditions and make informed decisions about the design and safety of the structure. Conventional methods for dynamic response evaluation involve numerical simulations using finite element analysis (FEA), where the structure is modeled using finite elements, and the equations of motion are solved numerically. Although effective, this approach can be computationally intensive and may not be suitable for real-time applications. To address these limitations, recent advancements in machine learning, specifically artificial neural networks, have been applied to dynamic response evaluation in structural engineering. These techniques leverage large data sets and sophisticated algorithms to learn the complex relationship between inputs and outputs, making them ideal for such problems. In this paper, a novel approach is proposed for evaluating the dynamic response of multi-degree-of-freedom (MDOF) systems using physics-informed recurrent neural networks. The focus of this paper is to evaluate the seismic (earthquake) response of nonlinear structures. The predicted response will be compared to state-of-the-art methods such as FEA to assess the efficacy of the physics-informed RNN model.

Published
2023

2. Force Limiting Connections to Mitigate Accelerations in Moment Resisting Frames with Pinned-Base Spines

Author

Duncan, Jessica, Astudillo, Bryam, Sause, Richard, Ricles, James, Fahnestock, Larry, Simpson, Barbara, Kurata, Masahiro, Kawamata, Yohsuke, Okazaki, Taichiro, Tao, Zhuoqi, Qie, Yi, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Mazzolani, Federico M., editor, Piluso, Vincenzo, editor, Nastri, Elide, editor, and Formisano, Antonio, editor

Published
2024
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3. Enhanced Seismic Efficiency and Resiliency of Steel-Frame Buildings Using Viscous-Dampers

Author

Ricles, James, Sause, Richard, Dong, Baiping, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Cui, Zhen-Dong, Series Editor, Mazzolani, Federico M., editor, Piluso, Vincenzo, editor, Nastri, Elide, editor, and Formisano, Antonio, editor

Published
2024
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10. Frame-Spine System with Force-Limiting Connections for Low-Damage Seismic-Resilient Buildings

Author

Fahnestock, Larry, Sause, Richard, Ricles, James, Simpson, Barbara, Kurata, Masahiro, Okazaki, Taichiro, Kawamata, Yohsuke, Tao, Zhuoqi, Duke, Jessica, Rivera, David, Astudillo, Bryam, Qie, Yi, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Mazzolani, Federico M., editor, Dubina, Dan, editor, and Stratan, Aurel, editor

Published
2022
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12. Numerical Response Estimations of a Frame-Spine-FLC System Prior to Experimental Dynamic Testing

Author

Astudillo, Bryam, Rivera, David, Simpson, Barbara, Fahnestock, Larry, Sause, Richard, Ricles, James, Kurata, Masahiro, Okazaki, Taichiro, Kawamata, Yohsuke, Tao, Zhuoqi, Duke, Jessica, Qie, Yi, di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, Mazzolani, Federico M., editor, Dubina, Dan, editor, and Stratan, Aurel, editor

Published
2022
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17. Unconditionally Stable Central Difference Dissipative Algorithm for Multi-Directional Real-Time Hybrid Simulations of Large Nonlinear Structural Systems.

Author

Al-Subaihawi, Safwan, Ricles, James M., Quiel, Spencer E., and Marullo, Thomas

Abstract

The central difference is a popular algorithm used to integrate the equations of motion, yet suffers from two drawbacks: (1) it is only conditionally stable and requires a small-time step to maintain numerical stability; (2) it is non-dissipative, and high-frequency spurious oscillations may appear and compromise the accuracy of the solution. These drawbacks are detrimental to applying the algorithm to the real-time hybrid simulation of large, complex nonlinear structural systems. In this paper, the conventional central difference algorithm is modified to overcome these drawbacks, and the modified algorithm is applied to the real-time hybrid simulation of complex structural systems. [ABSTRACT FROM AUTHOR]

Published
2024
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20. Construction of a Real-Time Hybrid Simulation Testing Facility and Validation for Offshore Wind Turbine System Behavior under Realistic Wind and Wave Loading Conditions

Author

Abu-Kassab, Qasim, primary, Suleiman, Muhannad T., additional, Al-Subaihawi, Safwan, additional, Ricles, James M., additional, Marullo, Thomas, additional, Sause, Richard, additional, Wyckoff, Kevin, additional, Magargal, Liam, additional, Banerjee, Arindam, additional, Jaworski, Justin W., additional, and Mekkawy, Mohamed, additional

Published
2024
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25. A hybrid self-centering seismic damper: Finite element modeling and parametric analysis.

Author

Cao, Sasa, Shi, Fei, Cao, Liang, Ricles, James, and Ozbulut, Osman E

Subjects
FINITE element method, PARAMETRIC modeling, ENERGY dissipation, TEMPERATURE effect
Abstract

This study presents a finite element model for a hybrid self-centering damper considering the rate and temperature effects and explores the effects of different design parameters on the damper response. The damper, called as superelastic friction damper (SFD), consists of superelastic shape memory alloy (SMA) cables and a frictional energy dissipation mechanism. The experimental response of the SMA cables, frictional unit and overall damper at different loading frequencies and temperature are used to develop numerical model of the damper. Once a validated numerical model is obtained, parametric studies are carried out to evaluate force-displacement response of the damper when the design parameters are altered. The effects of damper design parameters on the equivalent stiffness, dissipated energy, equivalent viscous damping and self-centering capabilities of the damper are analyzed. Based on the findings, the recommendations for the design of the damper are presented. [ABSTRACT FROM AUTHOR]

Published
2024
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29. Modeling uncertainty of specimens employing spines and force‐limiting connections tested at E‐defense shake table

Author

Astudillo, Bryam, primary, Rivera, David, additional, Duke, Jessica, additional, Simpson, Barbara, additional, Fahnestock, Larry A., additional, Sause, Richard, additional, Ricles, James, additional, Kurata, Masahiro, additional, Okazaki, Taichiro, additional, Kawamata, Yohsuke, additional, Tao, Zhuoqi, additional, and Qie, Yi, additional

Published
2023
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30. Experimental Response and Damage of SC-CLT Shear Walls under Multidirectional Cyclic Lateral Loading.

Author

Amer, Alia, Sause, Richard, and Ricles, James

Subjects
LATERAL loads, CYCLIC loads, SHEAR walls, WALLS, WALL panels
Abstract

This paper presents an experimental study on the multidirectional cyclic lateral-load response of post-tensioned self-centering (SC) cross-laminated timber (CLT) shear walls. SC-CLT shear wall damage states are introduced and qualitatively defined in terms of the repairs needed to restore the lateral-load response of the SC-CLT wall. A comparison between SC-CLT wall damage states under unidirectional (in-plane) and multidirectional (in-plane and out-of-plane) lateral loading is presented. The experimental results show that the initiation of SC-CLT wall damage occurs at smaller story drifts under multidirectional loading compared to unidirectional loading. Engineering demand parameters (EDPs) are used to quantify the SC-CLT wall damage states. Uncertainty in the EDP value when a damage state occurs is considered and quantified. Using the experimental results, component (i.e., a CLT wall panel corner) and system (i.e., an entire SC-CLT wall) fragility functions are developed and presented. [ABSTRACT FROM AUTHOR]

Published
2024
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45. Response to Chang, Veerarajan and Wu's Discussion of "Improved Explicit Integration Algorithms for Structural Dynamic Analysis with Unconditional Stability and Controllable Numerical Dissipation" [Journal of Earthquake Engineering 23 (2019) 771–792]

Author

Kolay, Chinmoy and Ricles, James M.

Subjects
*EARTHQUAKE engineering, *NUMERICAL functions, *STRUCTURAL engineering
Abstract

The reciprocal of the condition number of the stiffness matrix was determined to be Graph HT rcond(K)=6.25×10-10 ht . The authors have conducted the same analysis and found that I the result for the MKR- i Graph HT ht I method in Figure 1(c) of the discussion paper is wrong i . The authors have conducted the same analysis and found that I the results for the MKR- i Graph HT ht I method in Figure 3 of the discussion paper are again wrong i . [Extracted from the article]

Published
2021
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