Akhil Nagariya scite author profile

We present a probabilistic method of finding the next best viewpoint that maximizes the chances of finding an object in a known environment for an indoor mobile robot. We make use of the information that is available to a robot in the form of potential locations to search for an object. Extraction of these potential locations and their representation for exploration is explained. This work primarily focuses on placing the robot at its best location in the environment to detect, recognize an object and hence do object search. With experiments done on the exploration, object recognition individually we show the robustness of this approach for object search task. We analyse and compare our method with two other strategies for localizing the object empirically and show unequivocally that the strategy based on the probabilistic formalism in general performs better than the other two.

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An Iterative LQR Controller for Off-Road and On-Road Vehicles using a Neural Network Dynamics Model

Nagariya¹,

Saripalli²

2020

Preprint

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In this work we evaluate Iterative Linear Quadratic Regulator(ILQR) for trajectory tracking of two different kinds of wheeled mobile robots namely Warthog (Fig. 1), an off-road holonomic robot with skid-steering and Polaris GEM e6 [1], a non-holonomic six seater vehicle (Fig. 2). We use multilayer neural network to learn the discrete dynamic model of these robots which is used in ILQR controller to compute the control law. We use model predictive control (MPC) to deal with model imperfections and perform extensive experiments to evaluate the performance of the controller on human driven reference trajectories with vehicle speeds of 3m/s-4m/s for warthog and 7m/s-10m/s for the Polaris GEM.

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Akhil Nagariya

An Iterative LQR Controller for Off-Road and On-Road Vehicles using a Neural Network Dynamics Model

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An Iterative LQR Controller for Off-Road and On-Road Vehicles using a Neural Network Dynamics Model

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