Optimal power consumption motion control of a fish-like vehicle in a vortices vector fiele

This article concerns the formalization of a control framework for the fish-like motion control in a fluid due to a vector field generated by point vortices so that the overall power consumption required to travel between the departure and the arrival points is minimized. The control action is synthesized by specifying the time, location and circulation of at least one vortex and the extent to which this vortex, together one or more other vortices will propel the mobile platform considered as a point particle. Given the complexity of the general problem, we consider two simplifying assumptions: (i) only two vortices are active at each time interval, and (ii) the motion takes place in R2. Necessary conditions of optimality in the form of a Maximum Principle of Pontryagin are stated, and the features ensuring that they constitute a solid basis for the synthesis of the optimal control strategy are discussed. © 2017 IEEE.

Authors
Pereira F.L. 1 , Grilo T.2 , Gama S.2
Conference proceedings
Publisher
IEEE
Language
English
Pages
1-4
Status
Published
Volume
2017-October
Year
2017
Organizations
  • 1 Institute for Systems and Robotics, SYSTEC, Porto University, RUDN University, Porto, Portugal
  • 2 Faculty of Sciences, Porto University, CMUP - Center of Mathematics, Porto University, Porto, Portugal
Keywords
Electric power utilization; Fish; Motion control; Optimal control systems; Control actions; Control framework; Mobile platform; Necessary conditions of optimality; Optimal control strategy; Point particle; Principle of pontryagin; Simplifying assumptions; Vortex flow
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