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Many academic researchers have been engaged in the visual servoing based regulation of quadrotors over the past decade, and proposed a lot of controllers for this challenging problem. The regulation controller presented in this paper adopts the Position Based Visual Servoing (PBVS) methodology. Most of the PBVS controllers, if not all, are assuming the position of the quadrotor w.r.t. the marker is...
The visual servoing based pickup of stationary objects (or regulation, etc.) has attracted many academic researchers and industrial engineers over the past two decades, and numerous control strategies are proposed for this challenging problem. The controller proposed in this paper follows the Position Based Visual Servoing (PBVS) paradigm. Most of the PBVS controllers, if not all, are designed assuming...
The visual servoing based pickup (or grasping, tracking, etc.) of moving objects has attracted many academic researchers and industrial engineers over the past two decades, and numerous control strategies are proposed for this challenging problem. The controller proposed in this paper follows the Position Based Visual Servoing (PBVS) paradigm. Most of the PBVS controllers, if not all, are designed...
The visually servoed trajectory tracking of quadrotors has attracted many academic researchers over the past decade, and numerous controllers are proposed for this challenging problem. The trajectory tracking controller proposed in this paper follows the Position Based Visual Servoing (PBVS) paradigm. Most of the PBVS controllers, if not all, are implemented assuming that the position of the quadrotor...
The visually servoed pickup of stationary objects (or regulation, etc.) has attracted many academic researchers and industrial engineers over the past two decades, and numerous control strategies are proposed for this challenging problem. The controller proposed in this paper follows the Position Based Visual Servoing (PBVS) paradigm. Most of the PBVS controllers, if not all, are designed assuming...
The trajectory tracking of underactuated water surface robots (or boats, surface vessels, etc.) has been an attractive topic over the past decade, and a lot of controllers are proposed for this challenging problem. However, most of the existing trajectory tracking controllers of the underactuated water surface robots assume the global positions of the robots can be accurately measured. In the working...
In the past decade, a lot of efforts are devoted to the researches of trajectory tracking of underactuated water surface robots (or boats, surface vessels, etc.), and a batch of controllers are available now for this challenging problem. However, most, if not all, of the existing trajectory tracking controllers of the underactuated water surface robots assume the global positions of the robots can...
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