A modern control system is typically implemented as a multitasking software application executing in a real-time operating system. If the computer load is high, the controller will experience delays and jitter, which in turn degrade the control performance. Arguing for an integrated design approach, the paper describes two computer tools for implementation-aware control analysis: TrueTime and Jitterbug. An example is given where the tools are used together to evaluate the performance of various control task implementation
This report describes the work carried out within the research project ``Merging Real-Time and Contr...
The paper presents TrueTime, aMatlab/Simulink-based simulator for real-time controlsystems. TrueTime...
This paper presents JitterTime, a small Matlab toolbox for calculating the transient performance of ...
The paper presents two recently developed, Matlab-based analysis tools for realtime control systems....
Abstract in Undetermined The temporal non-determinism introduced by computing and communication in t...
The paper presents Jitterbug, a Matlab-basedtoolbox for real-time control performance analysis. The ...
The paper presents JITTERBUG, a MATLAB-based tool-box for real-time control performance analysis. Th...
Linking scheduling attributes to control performance specifications is a difficult problem. This pap...
Abstract—One domain of cyber-physical systems are dis-tributed control systems. The requirements for...
Most control systems involve the execution of periodic activities, which are automatically activated...
This paper analysis control computation latency and jitter, which have been largely ignored in the c...
In this paper, we first identify the potential violations of control assumptions inherent in standar...
Based on recent advances in control theory, we propose the notion of jitter margin for periodic cont...
General-purpose microprocessors are increasingly being used for control applications due to their wi...
Real-time control algorithms are designed based on the characteristics of the controlled plants and ...
This report describes the work carried out within the research project ``Merging Real-Time and Contr...
The paper presents TrueTime, aMatlab/Simulink-based simulator for real-time controlsystems. TrueTime...
This paper presents JitterTime, a small Matlab toolbox for calculating the transient performance of ...
The paper presents two recently developed, Matlab-based analysis tools for realtime control systems....
Abstract in Undetermined The temporal non-determinism introduced by computing and communication in t...
The paper presents Jitterbug, a Matlab-basedtoolbox for real-time control performance analysis. The ...
The paper presents JITTERBUG, a MATLAB-based tool-box for real-time control performance analysis. Th...
Linking scheduling attributes to control performance specifications is a difficult problem. This pap...
Abstract—One domain of cyber-physical systems are dis-tributed control systems. The requirements for...
Most control systems involve the execution of periodic activities, which are automatically activated...
This paper analysis control computation latency and jitter, which have been largely ignored in the c...
In this paper, we first identify the potential violations of control assumptions inherent in standar...
Based on recent advances in control theory, we propose the notion of jitter margin for periodic cont...
General-purpose microprocessors are increasingly being used for control applications due to their wi...
Real-time control algorithms are designed based on the characteristics of the controlled plants and ...
This report describes the work carried out within the research project ``Merging Real-Time and Contr...
The paper presents TrueTime, aMatlab/Simulink-based simulator for real-time controlsystems. TrueTime...
This paper presents JitterTime, a small Matlab toolbox for calculating the transient performance of ...