Indoor experimental validation of MPC-based trajectory tracking for a quadcopter via a flat mapping approach - Archive ouverte HAL
Communication Dans Un Congrès Année : 2023

Indoor experimental validation of MPC-based trajectory tracking for a quadcopter via a flat mapping approach

Résumé

Differential flatness has been used to provide diffeomorphic transformations for non-linear dynamics to become a linear controllable system. This greatly simplifies the control synthesis since in the flat output space, the dynamics appear in canonical form (as chains of integrators). The caveat is that mapping from the original to the flat output space often leads to nonlinear constraints. In particular, the alteration of the feasible input set greatly hinders the subsequent calculations. In this paper, we particularize the problem for the case of the quadcopter dynamics and investigate the deformed input constraint set. An optimization-based procedure will achieve a non-conservative, linear, inner-approximation of the non-convex, flat-output derived, input constraints. Consequently, a receding horizon problem (linear in the flat output space) is easily solved and, via the inverse flat mapping, provides a feasible input to the original, nonlinear, dynamics. Experimental validation and comparisons confirm the benefits of the proposed approach and show promise for other class of flat systems.
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Dates et versions

hal-04034140 , version 1 (17-03-2023)
hal-04034140 , version 2 (27-04-2023)

Identifiants

  • HAL Id : hal-04034140 , version 1

Citer

Huu-Thinh Do, Ionela Prodan. Indoor experimental validation of MPC-based trajectory tracking for a quadcopter via a flat mapping approach. The 2023 European Control Conference, Jun 2023, Bucharest (Romania), Romania. ⟨hal-04034140v1⟩
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