We compare three platform-aware feedback control design flows that are tailored for a composable and predictable Time Division Multiplexing (TDM)-based execution platform. The platform allows for independent execution of multiple applications. Using the precise timing knowledge of the platform execution, we accurately characterise the execution of the control application (i.e., sensing, computing, and actuating operations) to design efficient feedback controllers with high control performance in terms of settling time. The design flows are derived for Single-Rate (SR) and Multi-Rate (MR) sampling schemes. We show the applicability of the design flows based on two design considerations and their trade-off: control performance and resource ut...
\u3cp\u3eMotion systems with multiple control loops often run at a single sampling rate for simplici...
While early research on real-time computing was concerned with guaranteeing avoidance of undesirable...
Control design for high-performance sampled-data systems with continuous time performance specificat...
\u3cp\u3eWe compare three platform-aware feedback control design flows that are tailored for a compo...
In this work, we propose a design flow for efficient implementation of embedded feedback control sys...
Abstract—In this work, we propose a design flow for efficient implementation of embedded feedback co...
This paper deals with implementation of feedback controllers on embedded platforms and investigates ...
Control theory is one of the key intellectual underpinnings that allows us to analyze the interactio...
In this report some methodologies for control and scheduling co-design are reviewed. Although contro...
This book presents practical techniques of discrete-time control system design. In general, the desi...
Resource sharing is a crucial design consideration in design of embedded systems for cost and resour...
Motion systems with multiple control loops often run at a single sampling rate for simplicity of imp...
Digital motion controllers are used almost exclusively in automated motion control systems today. Th...
\u3cp\u3eMotion systems with multiple control loops often run at a single sampling rate for simplici...
While early research on real-time computing was concerned with guaranteeing avoidance of undesirable...
Control design for high-performance sampled-data systems with continuous time performance specificat...
\u3cp\u3eWe compare three platform-aware feedback control design flows that are tailored for a compo...
In this work, we propose a design flow for efficient implementation of embedded feedback control sys...
Abstract—In this work, we propose a design flow for efficient implementation of embedded feedback co...
This paper deals with implementation of feedback controllers on embedded platforms and investigates ...
Control theory is one of the key intellectual underpinnings that allows us to analyze the interactio...
In this report some methodologies for control and scheduling co-design are reviewed. Although contro...
This book presents practical techniques of discrete-time control system design. In general, the desi...
Resource sharing is a crucial design consideration in design of embedded systems for cost and resour...
Motion systems with multiple control loops often run at a single sampling rate for simplicity of imp...
Digital motion controllers are used almost exclusively in automated motion control systems today. Th...
\u3cp\u3eMotion systems with multiple control loops often run at a single sampling rate for simplici...
While early research on real-time computing was concerned with guaranteeing avoidance of undesirable...
Control design for high-performance sampled-data systems with continuous time performance specificat...