Applied Mathematics and Nonlinear Sciences (AMNS) is dedicated to the publication of the highest quality short papers, regular papers, and expository papers. AMNS considers only original and timely contributions containing new results in various fields of Applied Mathematics and Nonlinear Sciences. Manuscripts may discuss fundamental or applied issues, and should offer clear evidence of novelty and significance. Papers devoted, for the most part, to pure mathematical and computational issues, with limited direct connection to current trends of nonlinear sciences research, are generally not suitable for publication in AMNS. Similarly, small technical advances, or papers concerned only with mathematical applications or issues of basic science may not be considered favorably.
AMNS accepts papers through peer review by professional colleagues in the relevant fields. Unless clearly below the standard required by the journal, submitted articles will be sent to referees. They will generally be reviewed by at least two experts with the aim of reaching a decision as soon as possible. Where possible, the final decision is made on the basis that the referees are in accordance with one another. When there is a strong disagreement between referees, advice is sought from a member of the journals Editorial Board.
AMNS provides a forum for the rapid publication of original research in the field. The journals scope encompasses all nonlinear dynamic phenomena associated with mechanical, structural, civil, aeronautical, oceanography, electrical, and control systems. Review articles and original contributions are based on analytical, computational, and experimental methods.
The journal examines such topics as perturbation and computational methods, symbolic manipulation, dynamic stability, local and global methods, bifurcations, chaos, and deterministic and random vibrations. The journal also investigates Lie groups, multibody dynamics, robotics, fluid-solid interactions, system modeling and identification, friction and damping models, signal analysis, and measurement techniques.
