《国际机械系统动力学学报(英文)》(International Journal of Mechanical System Dynamics)作者指南
Author Guidelines
1.SUBMISSION
Thanks for your kind interest in International Journal of Mechanical System Dynamics (IJMSD). The submissions have to consist of the contents that has not been published or submitted for publication elsewhere except as a brief abstract in the proceedings of conferences or symposiums.
The submission system will prompt you to use an ORCID ID (a unique author identifier) to help distinguish your work from that of other researchers as well as develop your personal profile in a worldwide platform.
All the submissions will be performed and processed using ScholarOne online submission system.
A cover letter should be included in the ‘Cover Letter Field’ of the ScholarOne system. The text can be entered directly into the field or uploaded as a file.
The cover letter must contain:
A statement confirming the paper has not been published or submitted for publication elsewhere except as a brief abstract in the proceedings of a scientific meeting or symposium.
An acknowledgment that all authors have contributed significantly and in keeping with the latest guidelines of the International Committee of the Journal Editors, each author’s contribution to the paper is to be described, i.e., what role each author participated in.
A statement confirming that all authors are in agreement with the content of the manuscript.
In addition, the authors should state clearly the motivation and the novelty of their research in the cover letter. The author also needs to clarify the key results and the advances compared to previous work of their manuscripts.
Once you have prepared your submission in accordance with the Guidelines, manuscripts should be submitted online at https://mc.manuscriptcentral.com/ijmsd.
Templates and guidelines:
Article Template (MS Word)
Article Template (Latex)
Guidelines for the Preparation of Figures
2.AIMS AND SCOPE
Aim of the journal
Mechanical system dynamics is one of the pillars of almost all industries such as machinery, aero & astronautics, marine engineering, transportation, biology, etc. It is the key technology for almost all industrial equipment. It plays a significant role in leading the development of modern science and technology and receives increasing attention worldwide. The International Journal of Mechanical System Dynamics (IJMSD) aims to systematically reveal the vital effect of mechanical system dynamics on the whole lifetime of modern industrial equipment. It serves as an international forum for the rapid publication of high-impact research on dynamics concerning advanced theory, modeling, computation, analysis, software, design, control, manufacturing, testing, and evaluation of general mechanical systems.
Scope and topics
The journal will publish research articles, reviews and editorials based on both fundamental and applied research concerning the dynamics of all kinds of mechanical systems. The systems concerned include not only various machinery and structures of different scales, but also integrated mechanical systems with multi-physics/multi-disciplinary nature. This journal emphasizes the “system” point of view and system-level tools for understanding the dynamics. It encourages papers with scientific problems emerging from practical engineering and solved by system dynamics approaches. These are the unique features and advantages of IJMSD, which are extremely significant and helpful for efficiently solving dynamics problems associated with complex mechanical systems. Investigations on more general dynamical systems such as complex fluid systems, aerodynamic systems, fractal systems, granular materials, particle fluid, soft materials, metamaterials, and micro-/nano-particles are also welcome if they involve or contribute to the advancement of the mechanical system dynamics field.
Typical topics of mechanical system dynamics include, but are not limited to:
Modeling, computation, and software developments
Formulation of multibody system or finite element system dynamics with characteristics such as time varying parameters, time delay, nonlinearity, large deformation, friction, contact and impact, fatigue and fracture, multi scale
Dynamics modeling of multi-disciplinary systems such as mechatronic system, smart materials/structures system, multi-agent system, human-machine integrated system, and biomechanical system
Dynamics modeling of mechanical systems integrated with electronic, electrical, optical, thermal, magnetic, acoustic, aero, rheological, and fluidic components
Nonlinear vibrations and nonlinear dynamics of mechanical systems and structures, structural vibration at different scales
Dynamics modeling combined with advanced applied mathematics methods such as fractional-order modeling, model order reduction, surrogate models, mixed first-principles and data-integrated modeling
Dynamics simulation techniques such as co-simulation, high-performance computing
Novel numerical algorithms for mechanical system dynamics
Aspects of uncertainty, robustness, sensitivity, safety, and reliability
Verification, validation & accreditation theories and methods
Development and application of open-source/commercial software regarding visualization & computer graphics, database and data sharing
Design, optimization, diagnostics, and control
System engineering and multi-disciplinary design
Multi-disciplinary optimization, topology optimization, multi-objective optimization, etc.
Health monitoring, fault diagnosis and prediction
Smart sensing and actuation
Model-based control or combined with data-driven control
Vibration and noise control, trajectory planning and motion control
Measurement and testing
Modal testing and analysis
Measurement techniques for vibrations and dynamics response
Embedded system and hardware-in-the-loop simulation
Signal analysis & processing
Inverse problem/system identification
Applications of mechanical system dynamics to
Manned/unmanned aerial vehicles, underwater/surface/amphibious ships, tracked/wheeled vehicles, high-speed trains, robots, machine tools, wind turbines, civil structures, etc.
Advanced manufacturing and production such as additive manufacturing, 4D printing, virtual manufacturing, 3D assembly
Production process of energetic/polymeric material
……
更多详情:
https://onlinelibrary.wiley.com/page/journal/27671402/homepage/author-guidelines
