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Journal

International Journal of Robust and Nonlinear Control

Vol 24 (17 Issues in 2014)
Edited by: Mike J. Grimble
Print ISSN: 1049-8923 Online ISSN: 1099-1239
Impact Factor: 2.652
International Journal of Robust and Nonlinear Control (RNC) cover image

Papers that do not include an element of robust or nonlinear control and estimation theory will not be considered by the journal and all papers will be expected to include significant novel material. The focus of the journal is on model based control design approaches rather than heuristic or rule based control design methods, such as fuzzy control. These are not encouraged and papers on neural networks will have to be of exceptional novelty to be considered for the journal.

The International Journal of Robust and Nonlinear Control aims to encourage the development of analysis and design techniques for uncertain linear and nonlinear systems. The main focus of the journal is on the theory and design of regulating and tracking systems, but related areas such as linear and nonlinear filtering, condition monitoring and fault estimation are included. The physical modelling, simulation and identification of systems that may be uncertain or nonlinear is of interest. Papers are also welcome in the area of multi-agent systems considering coordinated control problems. Papers will be particularly welcome that demonstrate the potential for robust or nonlinear controllers in applications but such papers must also include sufficient novel material.

The Journal provides a natural forum for papers on the theory and application of robust control design and estimation techniques, including H or H2 design, multi-objective optimization, and variable structure and sliding mode control design methods. Papers will also be welcome on non-optimal methods of improving the robustness of uncertain systems, such as QFT design methods. Papers on linear and nonlinear model based predictive control algorithms are also encouraged.

All aspects of the theory and techniques used in nonlinear control and estimation are also included ranging from gain scheduling to nonlinear predictive or robust control. The development of nonlinear compensation and design methods using feedback linearization, back-stepping, Lyapunov based techniques, learning control, cooperative control and agent based systems are all of interest. Contributions on numerical algorithms for robust control, using for example linear matrix inequalities, and the topics of controller tuning, commissioning and implementation are all included.

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