Aim of the JournalEngineering analysis with boundary elements is dedicated to the latest developments of engineering analysis with boundary elements, mesh reduction, and other related innovative and emerging numerical methods. The journal founded in 1984 was originally focused on the development of the Boundary Element Method. Its scope has since been expanded to include the emerging mesh reduction and meshless methods. The aim of the journal is to promote the use of non-traditional, innovative, and emerging computational methods for the analyses of modern engineering problems.ScopeEngineering Analysis with Boundary Elements publishes topics including: • Boundary Element Methods • Method of Fundamental Solutions and Related Methods • Radial Basis Function Collocation Methods • Other Mesh Reduction and Meshless Methods • Particle Methods • Other Emerging and Non-Traditional Numerical Methods • Advanced Engineering Analyses and Applications
An International Journal for Innovations in Computational Methodology and ApplicationThe aim of this journal is to provide ideas and information involving the use of the finite element method and its variants, both in scientific inquiry and in professional practice. The scope is intentionally broad, encompassing use of the finite element method in engineering as well as the pure and applied sciences. The emphasis of the journal will be the development and use of numerical procedures to solve practical problems, although contributions relating to the mathematical and theoretical foundations and computer implementation of numerical methods are likewise welcomed. Review articles presenting unbiased and comprehensive reviews of state-of-the-art topics will also be accommodated.All submissions to FINEL will be peer reviewed, and must have archival value to be suitable for publication. Reflecting the aforementioned emphasis on solution of practical problems, numerical demonstration of proposed methodologies will generally be considered a necessary ingredient for papers appearing in FINEL. Conversely, applications of existing finite element techniques to widely studied problems will typically not be favorably considered for publication, except where such presentations are particularly novel or enlightening, either with respect to the results obtained or the method of application used.The journal encompasses any field where numerical solution procedures for initial/boundary value problems are needed to meet design and analysis needs. Although the following list is not exhaustive, contributions are sought in structural mechanics, geomechanics, mechanical engineering, mechanics of materials, fluid mechanics, thermal sciences, hydrology, chemical engineering, biomechanics, electrical engineering, aero/astro engineering, and environmental engineering and science. In addition to contributions focused directly on numerical methodologies, submissions dealing with computer-aided engineering methods, parallel computing, optimal design strategies, mesh generation and post processing, code validation, experimental verification, and visualization are also solicited.Related Conferences will be found via the links on the right menu bar under 'Related websites'.
The journal aims to encourage and enhance the role of mechanics and other disciplines as they relate to earthquake engineering by providing opportunities for the publication of the work of applied mathematicians, engineers and other applied scientists involved in solving problems closely related to the field of earthquake engineering and geotechnical earthquake engineering.Emphasis is placed on new concepts and techniques and case histories are considered only if they enhance the presentation and understanding on new technical concepts associated with analysis.Fields Covered:Seismology and Geology relevant to earthquake engineering problems with emphasis on modeling and methodologies and consideration of their effects on the analysis and design of structures.Wave propagation, wave scattering and dynamic crack propagation in soils and rocks under elastic or inelastic material behavior.Dynamic constitutive behavior of materials.Dynamic interaction problems (soil-structure interaction, fluid-structure interaction and tsunamis if only related to its geotechnical and structural systems).Seismic analysis and design of steel and reinforced concrete structures, retaining walls, dams, slopes.Effect of moving loads on bridges and pavements and vibration isolation in geotechnical structures.Inverse problems, identification and structural health monitoring in earthquake engineering.Instrumentation and experimental methods in earthquake engineering.Applied mathematical methods and artificial intelligence for earthquake engineering analysis and design.Performance-based seismic design of structures.Probabilistic methods in earthquake engineering including risk analysis and reliability Earthquake case histories and lessons learned from catastrophic ground motions.Earthquake case histories and lessons learned from catastrophic ground motions only if they include modeling and geotechnical/structural analysis.