Aim and Scope

DYNAMES is a leading peer-reviewed and open-access journal, published by Institute for Advanced Social, Science, and Sustainable Future (IASSSF), Jakarta, Indonesia, with e-ISSN: 3048-2666. DYNAMES is published twice a year (February and August), and all articles published are available online with open access.

The aim and scope of DYNAMES are to foster advancements at the intersection of dynamics, vibrations, and innovative engineering by providing a platform for researchers from diverse backgrounds to disseminate cutting-edge developments with potential real-world impact.

The insights published in DYNAMES have implications for improved performance, efficiency, reliability, and safety across industrial sectors. The journal connects academic inquiry with technology innovation to catalyze progress on longstanding problems involving dynamic instabilities and vibration control across application domains. Submissions are welcomed from those leveraging interdisciplinary perspectives to develop novel dynamic analysis methods and vibration mitigation technologies.

Aims:

  • Advance research and technology development at the interface of dynamics, vibrations, and engineering innovations.
  • Provide an interdisciplinary platform for disseminating developments in modeling, analysis, testing, condition monitoring, fault diagnosis, and control of dynamic systems.
  • Link academic inquiry with industrial applications to enable real-world solutions improving efficiency, reliability, and safety.
  • Catalyze progress on longstanding issues in vibration control, dynamic instability prevention, health monitoring, and dynamics-based maintenance.

Scope:

  • Analytical, computational, and experimental studies in system dynamics and vibrations research.
  • Novel methods and technologies for vibration control, condition monitoring, nondestructive evaluation, and structural health management.
  • Innovative applications of dynamics and vibration analysis in emerging areas such as smart structures, renewable energies, micro/nano systems, and next generation transportation.
  • Interdisciplinary perspectives connecting mechanical, aerospace, civil, marine, electrical, and materials engineering domains.

Fundamental investigations into nonlinear dynamics and chaos, rotor dynamics, dynamic stability, dynamics-based prognosis, qualification, and decision making.