This tutorial paper provides an overview of the System Level Approach to control synthesis; a scalable framework for large-scale distributed control. The system level approach is composed of three central components: System Level Parameterizations (SLPs), System Level Constraints (SLCs) and System Level Synthesis (SLP) problems. We describe how the combination of these elements parameterize the largest known class of constrained controllers that admit a convex formulation
The manual design of monolithic controllers for flexible manufacturing systems is no longer feasible...
Modern cyber-physical systems, such as the smart grid, software-defined networks, and automated high...
The synthesis problem for the compositional performance certification of interconnected sys...
This tutorial paper provides an overview of the System Level Approach to control synthesis; a scalab...
We introduce the system level approach to controller synthesis, which is composed of three elements:...
This article surveys the System Level Synthesis framework, which presents a novel perspective on con...
A major challenge faced in the design of large-scale cyber-physical systems, such as power systems, ...
Biological and advanced cyber-physical control systems often have limited, sparse, uncertain, and di...
In recent work the system level synthesis (SLS) paradigm has been shown to provide a truly scalable ...
This paper presents synthesis results for distributed controllers for interconnected linear time-inv...
The System Level Synthesis (SLS) approach facilitates distributed control of large cyberphysical net...
A hardware control system synthesis methodology was developed to aid in the identification of optima...
In previous work, we developed the system level approach to controller synthesis, and showed that un...
The manual design of monolithic controllers for flexible manufacturing systems is no longer feasible...
Modern cyber-physical systems, such as the smart grid, software-defined networks, and automated high...
The synthesis problem for the compositional performance certification of interconnected sys...
This tutorial paper provides an overview of the System Level Approach to control synthesis; a scalab...
We introduce the system level approach to controller synthesis, which is composed of three elements:...
This article surveys the System Level Synthesis framework, which presents a novel perspective on con...
A major challenge faced in the design of large-scale cyber-physical systems, such as power systems, ...
Biological and advanced cyber-physical control systems often have limited, sparse, uncertain, and di...
In recent work the system level synthesis (SLS) paradigm has been shown to provide a truly scalable ...
This paper presents synthesis results for distributed controllers for interconnected linear time-inv...
The System Level Synthesis (SLS) approach facilitates distributed control of large cyberphysical net...
A hardware control system synthesis methodology was developed to aid in the identification of optima...
In previous work, we developed the system level approach to controller synthesis, and showed that un...
The manual design of monolithic controllers for flexible manufacturing systems is no longer feasible...
Modern cyber-physical systems, such as the smart grid, software-defined networks, and automated high...
The synthesis problem for the compositional performance certification of interconnected sys...