Virtual Constraint for a Quadrotor UAV Enforcing a Body-Axis Pointing Direction
Abstract
We propose a geometric control framework on $SE(3)$ for quadrotors that enforces pointing-driven missions without completing a full attitude reference. The mission is encoded through virtual constraints defining a task manifold and an associated set of admissible velocities, and invariance is achieved by a feedback law obtained from a linear system in selected inputs. Under a transversality condition with the effective actuation distribution, the invariance-enforcing input is uniquely defined, y...
Description / Details
We propose a geometric control framework on for quadrotors that enforces pointing-driven missions without completing a full attitude reference. The mission is encoded through virtual constraints defining a task manifold and an associated set of admissible velocities, and invariance is achieved by a feedback law obtained from a linear system in selected inputs. Under a transversality condition with the effective actuation distribution, the invariance-enforcing input is uniquely defined, yielding a constructive control law and, for relevant tasks, closed-form expressions. We further derive a local off-manifold stabilization extension. As a case study, we lock a body axis to a prescribed line-of-sight direction while maintaining fixed altitude.
Source: arXiv:2602.24268v1 - http://arxiv.org/abs/2602.24268v1 PDF: https://arxiv.org/pdf/2602.24268v1 Original Link: http://arxiv.org/abs/2602.24268v1
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Mar 3, 2026
Mathematics
Mathematics
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