About The Journal
Scope of the Journal
The Journal of Engineering Design and Analysis (JoEDA) is a peer-reviewed, interdisciplinary publication dedicated to advancing the theory, practice, and application of engineering design and analysis across various disciplines. It provides a platform for researchers, engineers, practitioners, and academicians to disseminate their innovative ideas, methodologies, findings, and experiences in the field of engineering design and analysis.JoEDA welcomes original research articles, review papers, case studies, and technical notes that contribute to the advancement of knowledge and practice in engineering design and analysis. The journal aims to foster collaboration and exchange of ideas among researchers and practitioners from academia, industry, and government institutions worldwide.
By providing a comprehensive platform for scholarly discourse, JoEDA strives to promote innovation, excellence, and sustainability in engineering design and analysis, thereby addressing the complex challenges facing modern society.
Focus of the Journal
The scope of JoEDA encompasses a wide range of topics, including but not limited to:
- Mechanical Engineering Design: This includes the design and analysis of mechanical systems, components, structures, and machines. Topics may cover CAD/CAM technologies, finite element analysis, computational fluid dynamics, tribology, vibration analysis, and optimization techniques.
- Electrical and Electronic Design: This area focuses on the design and analysis of electrical and electronic systems, circuits, devices, and components. Topics may include analog and digital circuit design, power electronics, signal processing, electromagnetic compatibility, and electronic packaging.
- Civil and Structural Engineering Design: This category covers the design and analysis of civil infrastructure, buildings, bridges, dams, and other structural systems. Topics may include structural mechanics, earthquake engineering, foundation engineering, construction materials, and sustainability in design.
- Computer-Aided Design (CAD): This area focuses on the development and application of CAD tools and techniques for engineering design. Topics may include geometric modeling, feature-based design, design automation, virtual prototyping, and collaborative design environments.
- Engineering Optimization: This category covers optimization methodologies and techniques applied to engineering design problems. Topics may include mathematical optimization, evolutionary algorithms, multi-objective optimization, sensitivity analysis, and design under uncertainty.
- Reliability and Risk Analysis: This area focuses on assessing the reliability and risk associated with engineering systems and designs. Topics may include probabilistic modeling, reliability engineering, failure analysis, fault tree analysis, and risk assessment methodologies.
- Human-Centered Design: This category explores the integration of human factors and ergonomics into engineering design processes. Topics may include user-centered design, usability engineering, human-computer interaction, and design for human factors.
- Multidisciplinary Design Optimization (MDO): This area focuses on the integration of multiple disciplines and objectives in the design optimization process. Topics may include MDO frameworks, surrogate modeling, interdisciplinary coupling, and collaborative optimization.
Advertising
Editor-in-chief has the final say in decisions regarding advertisements or sponsored content, including supplements, the journal will or will not carry, and their decision is final in use of the journal brand and in overall policy regarding commercial use of journal content. Advertisements of brands/products/organizations relevant to the focus and scope of the particular journal only will be considered.
Privacy Statement
The names and email addresses entered in this journal site will be used exclusively for the stated purposes of this journal and will not be made available for any other purpose or to any other party.