Daniel R. Bersak scite author profile

The application of rotorcraft to autonomous load carrying and transport is a new frontier for Unmanned Aerial Vehicles (UAVs). This task requires that hovering vehicles remain stable and balanced in flight as payload mass is added to the vehicle. If payload is not loaded centered or the vehicle properly trimmed for offset loads, the robot will experience bias forces that must be rejected. In this paper, we explore the effect of dynamic load disturbances introduced by instantaneously increased payload mass and how those affect helicopters and quadrotors under ProportionalIntegral-Derivative flight control. We determine stability bounds within which the changing mass-inertia parameters of the system due to the acquired object will not destabilize these aircraft with this standard flight controller. Additionally, we demonstrate experimentally the stability behavior of a helicopter undergoing a range of instantaneous step payload changes.

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The Yale Aerial Manipulator: Grasping in flight

Pounds

Bersak

Dollar

2011

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Practical aerial grasping of unstructured objects

Pounds

Bersak

Dollar

2011

View full text Add to dashboard Cite

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Daniel R. Bersak

Grasping from the air: Hovering capture and load stability

Stability of small-scale UAV helicopters and quadrotors with added payload mass under PID control

The Yale Aerial Manipulator: Grasping in flight

Practical aerial grasping of unstructured objects

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