Briyan Castillo | Mathematical Modeling | Young Scientist Award

Published on by Math Scientist

Young Scientist Award

Bryan Castillo Torres
Universidad Santiago de Cali (USC), Colombia
Bryan Castillo Torres
Affiliation Universidad Santiago de Cali (USC)
Country Colombia
Scopus ID 57226784500
Documents 15+
Citations 120+
h-index 6
Subject Area Structural Engineering, Real-Time Hybrid Simulation, Structural Health Monitoring
Event Math Scientist Awards
ORCID 0009-0005-7782-1162

Bryan Castillo Torres is a Colombian civil engineer and researcher whose academic and experimental contributions have focused on structural dynamics, real-time hybrid simulation (RTHS), structural health monitoring, and human–structure interaction in civil infrastructure systems. His work has contributed to the advancement of resilient structural assessment methodologies through the integration of experimental testing, computational modeling, and multi-axial dynamic analysis. His research activities have involved seismic isolation systems, pedestrian bridge dynamics, vibration control technologies, and hybrid simulation frameworks designed for contemporary infrastructure engineering applications.

Abstract

This article presents an academic overview of Bryan Castillo Torres and his research profile in the field of structural engineering and dynamic infrastructure assessment. His scholarly activities emphasize real-time hybrid simulation methodologies, seismic performance assessment, structural control systems, human–structure interaction, and multi-axial dynamic experimentation. Through publications in internationally indexed journals and collaborative engineering research projects, Castillo Torres has contributed to the development of resilient structural systems and experimental evaluation frameworks for civil engineering applications.[3] His work combines computational mechanics, laboratory experimentation, and vibration analysis techniques to address contemporary engineering challenges associated with seismic resilience and infrastructure performance.[4]

Keywords

Real-Time Hybrid Simulation, Structural Dynamics, Human–Structure Interaction, Seismic Isolation, Structural Health Monitoring, Civil Infrastructure, Dynamic Testing, Structural Control, Resilient Structures, Experimental Mechanics.

Introduction

Research in structural dynamics and resilient infrastructure systems has become increasingly important due to the growing demand for sustainable and earthquake-resistant engineering solutions. Contemporary civil engineering research frequently integrates computational simulation, hybrid experimental methods, and advanced sensing technologies to evaluate the performance of structures under dynamic loading conditions.

Bryan Castillo Torres has participated in several academic and applied research initiatives associated with the Universidad del Valle and related engineering institutions in Colombia. His research interests include real-time hybrid simulations, dynamic assessment of structural control devices, structural health monitoring, and the development of innovative experimental frameworks for infrastructure evaluation.[6] His work has contributed to the integration of laboratory experimentation with computational structural analysis in both seismic and pedestrian-induced dynamic environments.

Research Profile

Castillo Torres completed undergraduate, specialist, master’s, and doctoral studies at Universidad del Valle in Colombia, specializing in civil engineering and solid mechanics. His doctoral research focused on innovative multi-experimental performance assessment of civil infrastructure under dynamic loads using real-time hybrid simulation methodologies.

Throughout his academic career, he has worked as a teaching assistant, research assistant, and structural engineer in industrial extension projects related to structural testing and resilient infrastructure development. His research profile demonstrates interdisciplinary integration between structural mechanics, experimental engineering, and vibration control technologies.

  • Dynamic testing using Real-Time Hybrid Simulation systems.
  • Structural health monitoring and multiaxial sensor evaluation.
  • Human–structure interaction assessment in pedestrian bridges.
  • Experimental seismic isolation and vibration control systems.
  • Development of resilient infrastructure testing frameworks.

Research Contributions

A significant portion of Castillo Torres’s contributions has involved the application of real-time hybrid simulation methodologies to evaluate seismic and dynamic performance in low-rise reinforced concrete structures.[9] His publications explore hybrid semi-active and passive structural control systems, dynamic structural behavior, and the evaluation of seismic isolation devices under experimental conditions.

His research on pedestrian bridge dynamics has examined the influence of human gait and lateral harmonic movement on structural systems. These studies have integrated biomechanical modeling, multiaxial testing frameworks, and dynamic sensing technologies to evaluate structural response characteristics.[10]

In addition to journal publications, Castillo Torres has participated in international engineering conferences and collaborative research projects associated with structural control and experimental mechanics. His work also includes patent-related initiatives concerning isolation devices and dynamic load assessment systems.

Publications

  1. “Comprehensive assessment of the seismic performance of an innovative hybrid semi-active and passive state control system for a low-degree-of-freedom structure using Real-Time Hybrid Simulation.” Structural Control and Health Monitoring (2024). DOI:
    https://doi.org/10.1155/2024/9945556
  2. “Seismic performance assessment of a low-rise Reinforced Concrete Thin Wall building with Unconnected Fiber Reinforced Elastomeric Isolators as base isolation system using Real-Time Hybrid Simulations.” Journal of Building Engineering (2024). DOI:
    https://doi.org/10.1016/j.jobe.2024.109303
  3. “Experimental evaluation of pedestrian-induced multiaxial gait loads on footbridges.” Sensors (2024). DOI:
    https://doi.org/10.3390/s24082517
  4. “Assessing spatiotemporal behavior of human gait: a comparative study between smartphone-based mocap and OptiTrack systems.” Experimental Techniques (2024). DOI:
    https://doi.org/10.1007/s40799-024-00716-x

Research Impact

The research activities of Castillo Torres have contributed to the advancement of resilient infrastructure assessment through experimental and computational engineering methodologies. His work on seismic performance evaluation and dynamic testing frameworks has relevance for structural safety, infrastructure sustainability, and vibration mitigation research.

Several of his publications have appeared in peer-reviewed journals specializing in structural control, building engineering, sensors, and applied mechanics. His collaborative research outputs indicate continued engagement in multidisciplinary infrastructure engineering studies involving dynamic simulation, sensing technologies, and experimental validation techniques.

Award Suitability

Bryan Castillo Torres demonstrates a research profile aligned with the objectives of the Best Innovator Award through his interdisciplinary engineering contributions involving experimental structural analysis, hybrid simulation systems, and dynamic infrastructure assessment. His research portfolio combines theoretical modeling, experimental implementation, and practical engineering evaluation frameworks for resilient civil structures.

His academic record includes internationally indexed publications, conference presentations, collaborative research initiatives, and innovation-oriented engineering developments associated with structural testing systems and dynamic evaluation methodologies. Recognition through awards related to structural control and experimental techniques further reflects the academic visibility of his contributions within the field of civil and structural engineering.

Conclusion

Bryan Castillo Torres has established a research trajectory centered on structural dynamics, real-time hybrid simulations, and resilient infrastructure engineering. His work integrates advanced experimental methodologies with practical civil engineering applications, contributing to ongoing developments in structural control, seismic resilience, and human–structure interaction analysis. Through scholarly publications, engineering collaborations, and innovation-driven research activities, he has contributed to contemporary discussions surrounding experimental structural engineering and dynamic infrastructure assessment.

 

References

  1. Castillo, B., Ceron, D., Vides, S., Marulanda, J., & Thomson, P. (2024). Comprehensive assessment of the seismic performance of an innovative hybrid semi-active and passive state control system.
    https://doi.org/10.1155/2024/9945556
  2. Castillo, B., et al. (2024). Seismic performance assessment using Real-Time Hybrid Simulations. Journal of Building Engineering.
    https://doi.org/10.1016/j.jobe.2024.109303
  3. Castillo, B., Artunduaga, E., Marulanda, J., Thomson, P., & Ortiz, A. (2024). Multi-experimental seismic analysis using hybrid simulations.
    https://doi.org/10.1177/13694332241281525
  4. Castillo, B., Marulanda, J., & Thomson, P. (2024). Experimental evaluation of pedestrian-induced multiaxial gait loads on footbridges.
    https://doi.org/10.3390/s24082517

Ioan Stancu-MInasian | Operations Research | Best Researcher Award

Published on by Math Scientist

Prof. Dr. Ioan Stancu-MInasian | Operations Research | Best Researcher Award

Main Research Worker at “Gheorghe Mihoc-Caius Iacob” Institute of Mathematical Statistics and Applied Mathematics of the Romanian Academy, Romania

Prof. Ioan M. Stancu-Minasian was a distinguished Romanian mathematician renowned for his contributions to optimization theory, operations research, and mathematical programming. With a prolific academic career, he authored numerous influential research papers and books that advanced the field of mathematical optimization. His work played a crucial role in developing new methodologies and theoretical frameworks in linear and nonlinear programming, duality theory, and multi-objective optimization. A dedicated educator and researcher, he mentored many students and collaborated with international scholars, significantly impacting the global mathematical community. His research was widely recognized, earning him prestigious accolades and positions in leading mathematical societies. Through his groundbreaking work, Prof. Stancu-Minasian left an enduring legacy that continues to influence modern mathematical research and its applications across various disciplines, including economics, engineering, and decision sciences. His dedication to advancing mathematical knowledge remains an inspiration for future generations of researchers and scholars.

Professional Profile 

ORCID Profile

Education

Prof. Ioan M. Stancu-Minasian received his formal education in mathematics from a prestigious Romanian university, where he developed a strong foundation in mathematical analysis, optimization, and operations research. His academic journey was marked by excellence, earning advanced degrees, including a Ph.D., with a focus on optimization theory and mathematical programming. Throughout his studies, he was deeply influenced by leading mathematicians and engaged in rigorous research that laid the groundwork for his future contributions to the field. His academic training equipped him with the analytical skills and theoretical insights necessary to develop innovative methodologies in optimization. His education was further enriched through international collaborations, awards, and advanced training programs, allowing him to stay at the forefront of mathematical advancements. His commitment to lifelong learning and academic excellence positioned him as a leading expert in optimization theory, setting the stage for a prolific research and teaching career that spanned several decades.

Professional Experience

Prof. Ioan M. Stancu-Minasian had a distinguished professional career, serving as a professor and researcher in esteemed academic institutions. His tenure included positions at top Romanian universities and research institutes, where he played a pivotal role in advancing the study of optimization and operations research. He contributed significantly to curriculum development, mentoring students, and fostering research collaborations both nationally and internationally. Beyond academia, he actively participated in mathematical societies, editorial boards of prestigious journals, and international awards, where he shared his expertise and insights. His professional engagements also included collaborative projects with industry and government agencies, applying mathematical optimization techniques to solve real-world problems in economics, engineering, and decision sciences. As a visiting professor and guest lecturer, he enriched the academic community globally, influencing scholars and researchers worldwide. His unwavering dedication to the mathematical sciences cemented his reputation as a leader in the field, shaping future generations of mathematicians.

Research Interest

Prof. Ioan M. Stancu-Minasian’s research interests were centered on optimization theory, operations research, and mathematical programming. His work encompassed linear and nonlinear programming, duality theory, and multi-objective optimization, contributing to both theoretical advancements and practical applications. He was particularly interested in the development of new optimization models that addressed complex decision-making problems in economics, engineering, and applied sciences. His research extended to fractional programming, stochastic optimization, and parametric programming, where he introduced novel methodologies that influenced contemporary mathematical studies. A prolific author, he published extensively in high-impact journals and authored several books that became fundamental resources for researchers and students alike. His interdisciplinary approach allowed him to collaborate with experts from diverse fields, broadening the scope and impact of his work. His research not only advanced mathematical theory but also provided practical solutions to real-world optimization challenges, making a lasting contribution to the global scientific community.

Awards and Honors

Prof. Ioan M. Stancu-Minasian received numerous awards and honors in recognition of his outstanding contributions to mathematics and optimization theory. His groundbreaking research earned him accolades from prestigious mathematical societies, research institutions, and academic organizations. He was honored with distinguished awards for his work in mathematical programming and operations research, highlighting his influence in advancing the field. His contributions were recognized through honorary memberships in scientific academies, invitations to deliver keynote lectures at international awards, and editorial positions in leading mathematical journals. His achievements also included prestigious research grants and fellowships that supported his pioneering work. The recognition he received reflected not only his individual accomplishments but also his broader impact on mathematical sciences and applied research. His legacy continues to be celebrated through citations of his work, academic honors, and the ongoing influence of his research in optimization theory and its applications in various domains.

Conclusion

Prof. Ioan M. Stancu-Minasian was a visionary mathematician whose contributions to optimization theory and operations research left an indelible mark on the field. Through his extensive research, influential publications, and dedication to education, he shaped the study of mathematical programming and inspired countless students and researchers. His interdisciplinary approach and commitment to solving real-world optimization problems cemented his reputation as a leading expert in applied mathematics. His legacy extends beyond his academic achievements, as his work continues to be referenced and built upon by future generations. His dedication to fostering mathematical knowledge and international collaboration strengthened the global research community, making his influence enduring and far-reaching. Prof. Stancu-Minasian’s lifetime of contributions serves as an inspiration, reminding us of the profound impact that mathematical research can have on science, technology, and society. His work remains a cornerstone in optimization theory, ensuring his place among the most respected figures in the mathematical sciences.

Publications Top Noted

  1. Fractional Programming

    • Authors: I.M. Stancu-Minasian
    • Year: 1997
    • Publisher: Springer Netherlands
    • ISBN: 9789401065047
    • Source:
      scholargps.com

  2. Fractional Programming: Theory, Methods and Applications

    • Authors: I.M. Stancu-Minasian
    • Year: 2012
    • Publisher: Springer Science & Business Media
    • Source:
      scholar.google.com

Selected Articles:

  1. Stochastic Multiobjective Optimization: Sample Average Approximation and Applications

    • Authors: Neelima Shekhawat, Ioan Stancu-Minasian, Vivek Singh
    • Year: 2025
    • Journal: Journal of Multi-Criteria Decision Analysis
    • Source:
      Wiley Online Library

  2. A Compromise Solution Method for the Multiobjective Minimum Risk Problem

    • Authors: Fatima Bellahcene, Philippe Marthon
    • Year: 2021
    • Journal: Operational Research
    • Source:
      RePEc Ideas

  3. On Interval-Valued Vector Variational-Like Inequalities and Vector Optimization Problems

    • Authors: Balendu Bhooshan Upadhyay, Ioan Stancu-Minasian, Subham Poddar, Priyanka Mishra
    • Year: 2023
    • Journal: Mathematical Foundations of Computing
    • Source:
      aimsciences.org