P. Rastgoufard scite author profile

Abstract-In this paper, we consider the problem of robot tracking and navigation toward a moving goal. The goal's maneuvers are not a priori known to the robot. Thus, off-line strategies are not effective. To model the robot and the goal, we use geometric rules combined with kinematics equations expressed in a polar representation. The intent of the strategy is to keep the robot between a reference point, called the observer, and the goal. We prove under certain assumptions that the robot navigating using this strategy reaches the moving goal successfully. In the presence of obstacles, the method is combined with an obstacle avoidance algorithm. The robot then moves in two modes, the navigation mode and the obstacle avoidance mode. Simulation of various scenarios highlights the efficiency of the method and provides an instructive comparison between the paths obtained for different reference points.Index Terms-Line of sight guidance law, relative kinematics equations, robotic navigation toward a moving goal, tracking.

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Dynamic economic dispatch using the extended security constrained economic dispatch algorithm

Barcelo

Rastgoufard

1997

IEEE Trans. Power Syst.

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Steady state voltage stability enhancement using shunt and series FACTS devices

Lakkireddy

Rastgoufard

Leevongwat

et al. 2015

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P. Rastgoufard

Design, simulation and implementation of three-pole∕four-pole topologies for active filters

An Improved Control Algorithm for Active Filters

Line of sight robot navigation toward a moving goal

Dynamic economic dispatch using the extended security constrained economic dispatch algorithm

Steady state voltage stability enhancement using shunt and series FACTS devices

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