Task-Priority Control of Redundant Robotic Systems using Control Lyapunov and Control Barrier Function based Quadratic Programs <ce:cross-ref refid='fn1'> <ce:sup loc='post'>?</ce:sup> </ce:cross-ref>

Erlend A. Basso; Kristin Y. Pettersen

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Task-Priority Control of Redundant Robotic Systems using Control Lyapunov and Control Barrier Function based Quadratic Programs ?

机译：使用控制Lyapunov和控制屏障函数的二次程序的任务优先控制？

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This paper presents a novel task-priority control framework for redundant robotic systems based on a hierarchy of control Lyapunov function (CLF) and control barrier function (CBF) based quadratic programs (QPs). The proposed method guarantees strict priority among different groups of tasks such as safety-related, operational and optimization tasks. Moreover, a soft priority measure in the form of penalty parameters can be employed to prioritize tasks at the same priority level. As opposed to kinematic control schemes, the proposed framework is a holistic approach to control of redundant robotic systems, which solves the redundancy resolution, dynamic control and control allocation problems simultaneously. Numerical simulations of a hyper-redundant articulated intervention autonomous underwater vehicle (AIAUV) is presented to validate the proposed framework.

机译：本文提出了一种基于控制Lyapunov函数（CLF）层次结构的冗余机器人系统的新型任务优先控制框架，并基于控制屏障函数（CBF）的二次程序（QPS）。该方法保证了不同组织组的严格优先级，如安全相关，运营和优化任务。此外，可以采用惩罚参数形式的软优先级测量来优先考虑在相同的优先级的任务。与运动控制方案相反，所提出的框架是控制冗余机器人系统的整体方法，其解决了冗余分辨率，动态控制和控制分配问题。提出了一种超冗余铰接干预自主水下车辆（AIAUV）的数值模拟以验证所提出的框架。

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《IFAC PapersOnLine》 |2020年第2期|共8页
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Erlend A. Basso; Kristin Y. Pettersen;
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Motion control systemsmobile robotsrobotics technologyoptimizationnonlinear controlLyapunov methodsredundancy resolutiontask-priority control;

机译：运动控制系统磁带机器人技术技术优化NONEAR CONTROLLYAPUOV METUREDURICUNDICHINGSTASK-优先控制;

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7. Task-Priority Control of Redundant Robotic Systems using Control Lyapunov and Control Barrier Function based Quadratic Programs [O] . Erlend A. Basso, Kristin Y. Pettersen 2020

机译：使用控制Lyapunov和控制屏障功能的二次程序任务优先控制冗余机器人系统
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Task-Priority Control of Redundant Robotic Systems using Control Lyapunov and Control Barrier Function based Quadratic Programs ?

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