Mariantonieta Gutiérrez Soto

ORCID: 0000-0003-1609-5801
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About
Contact & Profiles
Research Areas
  • Vibration Control and Rheological Fluids
  • Structural Engineering and Vibration Analysis
  • Structural Health Monitoring Techniques
  • Seismic Performance and Analysis
  • Hydraulic and Pneumatic Systems
  • Wind and Air Flow Studies
  • Vibration and Dynamic Analysis
  • Iterative Learning Control Systems
  • 3D Surveying and Cultural Heritage
  • Elevator Systems and Control
  • Real-time simulation and control systems
  • Disaster Management and Resilience
  • Infrastructure Maintenance and Monitoring
  • Concrete Corrosion and Durability
  • Geotechnical Engineering and Soil Stabilization
  • Tropical and Extratropical Cyclones Research
  • Conservation Techniques and Studies
  • Advanced Materials and Mechanics
  • Innovations in Concrete and Construction Materials
  • Infrastructure Resilience and Vulnerability Analysis
  • Modular Robots and Swarm Intelligence
  • Structural Analysis and Optimization
  • Service-Learning and Community Engagement
  • Fluid Dynamics Simulations and Interactions
  • Seismic and Structural Analysis of Tall Buildings

Pennsylvania State University
2021-2025

ORCID
2021-2024

University of Kentucky
2017-2021

The Ohio State University
2012-2020

10.1007/s11831-013-9091-7 article EN Archives of Computational Methods in Engineering 2013-10-18

Abstract Cities that are adopting innovative and technology‐driven solutions to improve the city's efficiency considered smart cities . With increased attention on with self‐driving vehicles, drones, robots, designing infrastructure is only a natural extension. Smart infrastructures aim self‐diagnose, self‐power, self‐adapt, self‐heal during normal extreme operating conditions. Structural vibration control (SVC) structural health monitoring (SHM) technologies, in particular, expected play...

10.1111/exsy.12845 article EN Expert Systems 2021-10-12

Approximately 544 million tonnes of fly ash (FA) are generated annually worldwide, 80% which is disposed in landfills. Thus, using FA as a replacement for cement has turned out to be popular construction industries around the world because its strong properties and crucial role decreasing volume pollutants CO2 produced by production. Meanwhile, use Saudi (SFA) suitable supplemental cementing material partly substitute design SFA-based concrete highly imperative. An extensive experimental...

10.1016/j.rineng.2020.100118 article EN cc-by-nc-nd Results in Engineering 2020-03-28

Abstract This paper presents a state‐of‐the‐art review of recent control algorithms used primarily for vibration smart structures and machines. Control can be divided into open loop, feedback, feedforward, combined feedback feedforward control. Solutions proposed subdivided (a) classical control, (b) optimal (c) robust (d) intelligent (e) self‐sustaining solutions energy harvesting in centralized decentralized configurations. The most research on novel autonomous systems intersects...

10.1111/exsy.12205 article EN Expert Systems 2017-03-14

Developed in the artificial intelligence community, an intelligent agent is autonomous abstract or software entity that observes through sensors and acts upon environment adaptive manner. In a centralized control system, one central controller uses global measurement data collected from all installed structure to make decisions dispatch them devices. The itself represents single point of potential failure. To overcome this shortcoming, decentralized used improve redundancy. This paper...

10.21595/jve.2017.18924 article EN Journal of Vibroengineering 2017-09-30

Tall buildings have become increasingly one-of-a-kind signature structures that are often irregular in plan and elevation with complicated dynamic behavior. Vibration control of highrise building using a recently developed tuned mass dampers (TMD), the bidirectional TMD (BTMD), is investigated. A key issue for effective implementation determination their tuning parameters. Eight different sets equations parameters TMDs investigated 5-story irregularity, 15-story 20-story irregularity...

10.3846/13923730.2014.967287 article EN cc-by Journal of Civil Engineering and Management 2014-10-20

The structural performance of critical infrastructure during extreme events requires testing to understand the complex dynamics. Shake table buildings evaluate integrity is expensive and special facilities that can allow for construction large-scale test specimens. An attractive alternative a cyber-physical technique known as Real-Time Hybrid Simulation (RTHS), where structure decomposed into physical numerical substructures. A transfer system creates interface between challenge occurs when...

10.3389/fbuil.2024.1384235 article EN cc-by Frontiers in Built Environment 2024-05-13

ABSTRACT Real‐time Hybrid Simulation (RTHS) is a cyber‐physical technique that studies the dynamic behavior of system by combining physical and numerical components are coupled through boundary condition enforcer. In structural engineering, subjected to environmental loads become displacements substructure applied an actuator. However, dynamics coupling between complexities lead synchronization challenges affect accuracy simulation. Thus, requiring tracking controllers ensure fidelity This...

10.1002/rnc.7824 article EN cc-by-nc International Journal of Robust and Nonlinear Control 2025-01-25

Structural systems are vulnerable to dynamic loading and need special protection while facing extreme conditions. This study proposes an integrated structural control health monitoring (ISCHM) system enhance the safety performance of building structures subjected seismic loading. The encompasses a semiactive controller based on reinforcement learning (RL) as well real-time damage identification (RTDI) for monitoring. uses Deep Q-Networks (DQNs) operate device suppress vibrations. DQN was...

10.1061/ppscfx.sceng-1455 article EN Practice Periodical on Structural Design and Construction 2024-04-17
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