Control and planning of multi-agent systems is an active and increasingly studied topic of research, with many practical applications such as rescue missions, security, surveillance, and transportation. This thesis addresses the planning and control of multi-agent systems under temporal logic tasks. The considered systems concern complex, robotic, manipulator-endowed systems, which can coordinate in order to execute complicated tasks, including object manipulation/transportation. Motivated by real-life scenarios, we take into account high-order dynamics subject to model uncertainties and unknown disturbances. Our approach is based on the integration of tools from the areas of multi-agent systems, intelligent control theory, cooperative object manipulation, discrete abstraction design of multi-agent-object systems, and formal verification. The first part of the thesis is devoted to the design of continuous control protocols for cooperative object manipulation/transportation by multiple robotic agents, and the relation of rigid cooperative manipulation schemes to multi-agent formation. In the second part of the thesis, we develop control schemes for the continuous coordination of multi-agent complex systems with uncertain dynamics, focusing on multi-agent navigation with collision specifications in obstacle-cluttered environments. The third part of the thesis is focused on the planning and control of multi-agent and multi-agent-object systems subject to complex tasks expressed as temporal logic formulas. The fourth and final part of the thesis focuses on several extension schemes for single-agent setups, such as motion planning under timed temporal tasks and asymptotic reference tracking for unknown systems while respecting funnel constraints.
翻译:多试剂系统的控制和规划是一个积极和日益研究的研究课题,涉及许多实际应用领域,如救援任务、安全、监视和运输等,该论文涉及根据时间逻辑任务规划和控制多试剂系统的规划和控制; 所考虑的系统涉及复杂的、机器人的、操纵的和内含的系统,这些系统可以进行协调,以便执行复杂的任务,包括物体操纵/运输; 受现实生活情景的驱使,我们考虑到受模型不确定性和未知扰动影响的高度动态; 我们的方法基于从多试剂系统、智能控制理论、合作物体操纵、多试剂探测系统的分离抽象设计以及正式核查等领域整合各种工具; 所考虑的系统第一部分专门设计关于多试剂操作系统操作/运输的连续控制协议,这些系统可以协调包括物体操纵/运输的复杂任务; 受现实生活情景设想的第二个部分,我们为具有不确定动态的多试剂综合系统的持续协调制定了控制计划,重点是多试剂导航以及障碍环境的碰撞规则; 多试剂定位系统第四部分侧重于作为多试剂系统最后的复杂机动性控制,作为多试剂系统的一部分。</s>