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Eduardo Bayo is a professor in the Department of Structural Design and Analysis at the University of Navarra. He graduated with honors in civil engineering from the Polytechnic University of Madrid in 1976. After 2 years of consulting as a structural engineer with Gibbs & Hill, he attended U.C. Berkeley receiving his master's degree in Engineering in June 1980 and his PhD in January 1983, in the field of structural mechanics. He specialized in structural analysis, finite element technology and computational dynamics. After completing his PhD he led a research group at INITEC, one of the largest engineering-consulting firms in Spain, responsible for the solution of specialized problems in structural analysis and design. [1] [2]
He initiated his academic career as assistant professor of structural mechanics and computational dynamics at the Mechanical Engineering Department of the University of California, Santa Barbara (UCSB), in January 1986. He became Associate Professor in 1989 and Full Professor in 1994. While at UCSB his research contributions focused on the dynamics and the control of flexible multi-body systems and articulated structures. His ideas on the non-causal inversion (inverse dynamics) of non-linear non-minimum-phase systems have had a growing influence in robotics and in non-linear control theory. The influence of Professor Bayo's inverse dynamics work in flexible multi-body systems has grown and continues to be evident in ongoing research at NASA-JPL, and within Medicine, Automation and Robotics to name just a few. [3] [4]
Since 1995 he has been a professor at the University of Navarra, where he leads a research team working on the analysis and design of steel and composite structures, steel connections, stability analysis, nonlinear behavior and plastic structural steel design. He received the Arcelor-Mittal endowed Chair granted to the University of Navarra from 2003 to 2008.
He is a member of the ECCS (European Convention for Constructional Steelwork) Committee TC-10 on Steel Connections, the Spanish Committee in charge of the Structural Steel Code, and the AEN/CTN140/SC3 Committee Eurocode 3: Structural Steel Design. He provides technical review to the Journal of Engineering Structures, Journal of Constructional Steel Research, Journal of Nonlinear Dynamics and Computer Methods in Applied Mechanics and Engineering. He is a charter member of the ASCE Structural Engineering Institute.
He has participated in the analysis and design of different civil works and building projects, has developed new methods of analysis and contributed to the creation of state of the art finite element computer codes. He has been a consultant to several American as well as European engineering companies. He is married and lives with his family in Navarra, Spain.
Mechanical engineering is the study of physical machines that may involve force and movement. It is an engineering branch that combines engineering physics and mathematics principles with materials science, to design, analyze, manufacture, and maintain mechanical systems. It is one of the oldest and broadest of the engineering branches.
Seismic analysis is a subset of structural analysis and is the calculation of the response of a building structure to earthquakes. It is part of the process of structural design, earthquake engineering or structural assessment and retrofit in regions where earthquakes are prevalent.
Inverse dynamics is an inverse problem. It commonly refers to either inverse rigid body dynamics or inverse structural dynamics. Inverse rigid-body dynamics is a method for computing forces and/or moments of force (torques) based on the kinematics (motion) of a body and the body's inertial properties. Typically it uses link-segment models to represent the mechanical behaviour of interconnected segments, such as the limbs of humans or animals or the joint extensions of robots, where given the kinematics of the various parts, inverse dynamics derives the minimum forces and moments responsible for the individual movements. In practice, inverse dynamics computes these internal moments and forces from measurements of the motion of limbs and external forces such as ground reaction forces, under a special set of assumptions.
Applied mechanics is the branch of science concerned with the motion of any substance that can be experienced or perceived by humans without the help of instruments. In short, when mechanics concepts surpass being theoretical and are applied and executed, general mechanics becomes applied mechanics. It is this stark difference that makes applied mechanics an essential understanding for practical everyday life. It has numerous applications in a wide variety of fields and disciplines, including but not limited to structural engineering, astronomy, oceanography, meteorology, hydraulics, mechanical engineering, aerospace engineering, nanotechnology, structural design, earthquake engineering, fluid dynamics, planetary sciences, and other life sciences. Connecting research between numerous disciplines, applied mechanics plays an important role in both science and engineering.
Olgierd Cecil Zienkiewicz was a British academic of Polish descent, mathematician, and civil engineer. He was born in Caterham, England. He was one of the early pioneers of the finite element method. Since his first paper in 1947 dealing with numerical approximation to the stress analysis of dams, he published nearly 600 papers and wrote or edited more than 25 books.
This is an alphabetical list of articles pertaining specifically to structural engineering. For a broad overview of engineering, please see List of engineering topics. For biographies please see List of engineers.
Structural mechanics or mechanics of structures is the computation of deformations, deflections, and internal forces or stresses within structures, either for design or for performance evaluation of existing structures. It is one subset of structural analysis. Structural mechanics analysis needs input data such as structural loads, the structure's geometric representation and support conditions, and the materials' properties. Output quantities may include support reactions, stresses and displacements. Advanced structural mechanics may include the effects of stability and non-linear behaviors.
This is an alphabetical list of articles pertaining specifically to Engineering Science and Mechanics (ESM). For a broad overview of engineering, please see Engineering. For biographies please see List of engineers and Mechanicians.
Johann Hadji Argyris FRS was a Greek pioneer of computer applications in science and engineering, among the creators of the finite element method (FEM), and lately Professor at the University of Stuttgart and Director of the Institute of Structural Mechanics and Dynamics in Aerospace Engineering.
Thomas Joseph Robert Hughes is a Professor of Aerospace Engineering and Engineering Mechanics and currently holds the Computational and Applied Mathematics Chair (III) at the Oden Institute at The University of Texas at Austin. Hughes has been listed as an ISI Highly Cited Author in Engineering by the ISI Web of Knowledge, Thomson Scientific Company.
Carlos A. Felippa is a professor of Aerospace Engineering Sciences at the University of Colorado. His research at Colorado concerns aerospace structures and structural analysis, with special interests in coupled field problems: elastoacoustics, aeroelasticity, control-structure interaction, thermomechanics and electrothermomechanics.
Satya Atluri is an American engineer, educator, researcher and scientist in aerospace engineering, mechanical engineering and computational sciences, who is currently the Presidential Chair & University Distinguished Professor at Texas Tech University. Since 1966, he made fundamental contributions to the development of finite element methods, boundary element methods, Meshless Local Petrov-Galerkin (MLPG) methods, Fragile Points Methods (FPM), Local Variational Iteration Methods, for general problems of engineering, solid mechanics, fluid dynamics, heat transfer, flexoelectricity, ferromagnetics, gradient and nonlocal theories, nonlinear dynamics, shell theories, micromechanics of materials, structural integrity and damage tolerance, Orbital mechanics, Astrodynamics, etc.
Junuthula N. Reddy is a Distinguished Professor, Regent's Professor, and inaugural holder of the Oscar S. Wyatt Endowed Chair in Mechanical Engineering at Texas A&M University, College Station, Texas, USA.[1] He is an authoritative figure in the broad area of mechanics and one of the researchers responsible for the development of the Finite Element Method (FEM). He has made significant seminal contributions in the areas of finite element method, plate theory, solid mechanics, variational methods, mechanics of composites, functionally graded materials, fracture mechanics, plasticity, biomechanics, classical and non-Newtonian fluid mechanics, and applied functional analysis. Reddy has over 620 journal papers and 20 books and has given numerous national and international talks. He served as a member of the International Advisory Committee at ICTACEM, in 2001 and keynote addressing in 2014.[2][3]
Charbel Farhat is the Vivian Church Hoff Professor of Aircraft Structures in the School of Engineering and the inaugural James and Anna Marie Spilker Chair of the Department of Aeronautics and Astronautics, at Stanford University. He is also Professor of Mechanical Engineering, Professor in the Institute for Computational and Mathematical Engineering, and Director of the Stanford-King Abdulaziz City for Science and Technology Center of Excellence for Aeronautics and Astronautics. He currently serves on the Space Technology Industry-Government-University Roundtable.
João Arménio Correia Martins was born on November 11, 1951, at the southern town of Olhão in Portugal. He attended high school at the Liceu Nacional de Faro which he completed in 1969. Afterwards João Martins moved to Lisbon where he was graduate student of Civil Engineering at Instituto Superior Técnico (IST) until 1976. He was a research assistant and assistant instructor at IST until 1981. Subsequently, he entered the graduate school in the College of Engineering, Department of Aerospace Engineering and Engineering Mechanics of The University of Texas at Austin, USA. There he obtained a MSc in 1983 with a thesis titled A Numerical Analysis of a Class of Problems in Elastodynamics with Friction Effects and a PhD in 1986 with a thesis titled Dynamic Frictional Contact Problems Involving Metallic Bodies, both supervised by Prof. John Tinsley Oden. He returned to Portugal in 1986 and became assistant professor at IST. In 1989 he became associate professor and in 1996 he earned the academic degree of “agregado” from Universidade Técnica de Lisboa. Later, in 2005, he became full professor in the Department of Civil Engineering and Architecture of IST.
SmartDO is a multidisciplinary design optimization software, based on the Direct Global Search technology developed and marketed by FEA-Opt Technology. SmartDO specialized in the CAE-Based optimization, such as CAE, FEA, CAD, CFD and automatic control, with application on various physics phenomena. It is both GUI and scripting driven, allowed to be integrated with almost any kind of CAD/CAE and in-house codes.
Barry H.V. Topping FIMA is a British authority on computational mechanics. He was Professor of Computational Mechanics at the School of Engineering and Physical Sciences at Heriot-Watt University where his work was mainly concerned with parallel computing, genetic algorithms, neural networks, finite element methods and fluid-structure interaction. He is now Emeritus Professor at Heriot-Watt University and an Honorary Professor at the University of Pécs in Hungary.
Medhat Haroun was an Egyptian-American expert on earthquake engineering. He wrote more than 300 technical papers and received the Charles Martin Duke Lifeline Earthquake Engineering Award (2006) and the Walter Huber Civil Engineering Research Prize (1992) from the American Society of Civil Engineers.
Eleni Chatzi is a Greek civil engineer, researcher, and an Associate Professor and Chair of Structural Mechanics and Monitoring at the Department of Civil, Environmental and Geomatic Engineering of the Swiss Federal Institute of Technology in Zurich.
Magd Abdel Wahab is a Belgian academic, researcher, author and Imam of Islam. He is full professor and chair of applied mechanics at Ghent University, Belgium, where he is also the Head of Finite Element Modelling Research Group of Laboratory Soete.