This paper addresses the synthesis of safety-critical controllers using estimate feedback. We propose an observer-controller interconnection to ensure that the nonlinear system remains safe despite bounded disturbances on the system dynamics and measurements that correspond to partial state information. The co-design of observers and controllers is critical, since even in undisturbed cases, observers and controllers designed independently may not render the system safe. We propose two approaches to synthesize observer-controller interconnections. The first approach utilizes Input-to-State Stable observers, and the second uses Bounded Error observers. Using these stability and boundedness properties of the observation error, we construct novel Control Barrier Functions that impose inequality constraints on the control inputs which, when satisfied, certifies safety. We propose quadratic program-based controllers to satisfy these constraints, and prove Lipschitz continuity of the derived controllers. Simulations and experiments on a quadrotor demonstrate the efficacy of the proposed methods.
翻译:本文用估计反馈处理安全关键控制器的综合。 我们建议使用观察员-控制器互连,以确保非线性系统保持安全,尽管系统动态和测量受到干扰,与部分国家信息相对应; 共同设计观察员和控制器至关重要,因为即使在未受干扰的情况下,独立设计的观察器和控制器也可能无法使系统安全。 我们提出了两种方法来综合观察员-控制器的互联。 第一种方法是利用输入到国家的稳定观察器,而第二种办法则使用误差观察器。我们利用观察错误的稳定性和约束性特性,构建新的控制屏障功能,对控制投入施加不平等性限制,这些限制一旦满足,即证明安全。我们提议基于四方程序的控制器来满足这些限制,并证明衍生控制器的利普施奇茨连续性。 模拟和试验一个磁场显示了拟议方法的功效。