Faraaz Ahmed scite author profile

Faraaz Ahmed

2Publications

12Citation Statements Received

78Citation Statements Given

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McGill University

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Model Predictive Control of a Tandem-Rotor Helicopter With a Nonuniformly Spaced Prediction Horizon

Ahmed

Sobiesiak

Forbes

2022

IEEE Control Syst. Lett.

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This paper considers model predictive control of a tandem-rotor helicopter. The error is formulated using the matrix Lie group SE 2 (3). A reference trajectory to a target is calculated using a quartic guidance law, leveraging the differentially flat properties of the system, and refined using a finite-horizon linear quadratic regulator. The nonlinear system is linearized about the reference trajectory enabling the formulation of a quadratic program with control input, attitude keep-in zone, and attitude error constraints. A non-uniformly spaced prediction horizon is leveraged to capture the multi-timescale dynamics while keeping the problem size tractable. Monte-Carlo simulations demonstrate robustness of the proposed control structure to initial conditions, model uncertainty, and environmental disturbances.

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Cascaded Model Predictive Control of a Tandem-Rotor Helicopter

Ahmed

Sobiesiak

Forbes

2023

IEEE Control Syst. Lett.

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This letter considers cascaded model predictive control (MPC) as a computationally lightweight method for controlling a tandem-rotor helicopter. A traditional single MPC structure is split into separate outer and innerloops. The outer-loop MPC uses an SE 2 (3) error to linearize the translational dynamics about a reference trajectory. The inner-loop MPC uses the optimal angular velocity sequence of the outer-loop MPC to linearize the rotational dynamics. The outer-loop MPC is run at a slower rate than the inner-loop allowing for longer prediction time and improved performance. Monte-Carlo simulations demonstrate robustness to model uncertainty and environmental disturbances. The proposed control structure is benchmarked against a single MPC algorithm where it shows significant improvements in position and velocity tracking while using significantly less computational resources.

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Faraaz Ahmed

Model Predictive Control of a Tandem-Rotor Helicopter With a Nonuniformly Spaced Prediction Horizon

Cascaded Model Predictive Control of a Tandem-Rotor Helicopter

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