Today, the majority of control applications in embedded systems, e.g., in the automotive domain, are implemented as software tasks on shared platforms. Ignoring implementation impacts during the design of embedded control systems results in complex timing behaviors that may lead to poor performance and, in the worst case, instability of control applications. This article presents a methodology for implementation-aware design of high-quality and stable embedded control systems on shared platforms with complex timing behaviors
Abstract—In this work, we propose a design flow for efficient implementation of embedded feedback co...
To survive under competitive pressure, embedded system companies build systems that can deal with ch...
Embedded control systems are an important and often safety-critical class of applications that need ...
Many embedded systems comprise several controllers sharing available resources. It is well known tha...
Most embedded control systems have constrained computationalresources. This makes codesign of the co...
Abstract—Control applications are more and more an integral part of modern embedded systems. As a re...
Many cyber-physical systems comprise several control applications sharing communication and computat...
Currently, computer-based control systems are still being implemented using the same techniques as 1...
At runtime, an embedded control system can switch between alternative functional modes. In each mode...
Correctness, implementation efficiency and good quality of control (QoC) are essential for embedded ...
In this paper, we propose a design framework for distributed embedded control systems that ensures r...
Abstract—Control applications have become an integral part of modern networked embedded systems. How...
This paper gives an overview of a holistic project dealing with the consistent design of embedded co...
This paper deals with implementation of feedback controllers on embedded platforms and investigates ...
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...
To survive under competitive pressure, embedded system companies build systems that can deal with ch...
Embedded control systems are an important and often safety-critical class of applications that need ...
Many embedded systems comprise several controllers sharing available resources. It is well known tha...
Most embedded control systems have constrained computationalresources. This makes codesign of the co...
Abstract—Control applications are more and more an integral part of modern embedded systems. As a re...
Many cyber-physical systems comprise several control applications sharing communication and computat...
Currently, computer-based control systems are still being implemented using the same techniques as 1...
At runtime, an embedded control system can switch between alternative functional modes. In each mode...
Correctness, implementation efficiency and good quality of control (QoC) are essential for embedded ...
In this paper, we propose a design framework for distributed embedded control systems that ensures r...
Abstract—Control applications have become an integral part of modern networked embedded systems. How...
This paper gives an overview of a holistic project dealing with the consistent design of embedded co...
This paper deals with implementation of feedback controllers on embedded platforms and investigates ...
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...
To survive under competitive pressure, embedded system companies build systems that can deal with ch...
Embedded control systems are an important and often safety-critical class of applications that need ...