Modern real-time embedded systems are complex, distributed, feature-rich applications. Model-based development of real-time embedded systems promises to simplify and accelerate the implementation process. Although there are appropriate models to design such systems and some tools that support automatic code generation from such models, several issues related to ensuring correctness of the implementation with respect to the model remain to be addressed. In this work, we investigate how we can derive sampling rates for distributed real-time systems generated from a hybrid systems model such that there are no switching discrepancies and the resources spent in achieving this are a minimum. Of particular interest are the resulting mode switching...
We propose an integrated framework to test and monitor code generated from hybrid models for embedde...
Benefits of high-level modeling and analysis are significantly enhanced if code can be generated aut...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
Modern real-time embedded systems are complex, distributed, feature-rich applications. Model-based d...
Hybrid systems have emerged as an appropriate formalism to model embedded systems as they capture th...
Code generation from hybrid system models is a promising approach to producing reliable embedded sys...
Hybrid systems have emerged as an appropriate formalism to model embedded systems as they capture th...
Hybrid systems are an appropriate formalism to model embedded systems as they capture the theme of c...
Precise translation from hybrid models to code is difficult because models are defined in the contin...
ABSTRACT Hybrid systems are an appropriate formalism to model embedded systems as they capture the t...
Code generation from hybrid system models, a promising approach for producing reliable embedded syst...
Benefits of high-level modeling and analysis are significantly enhanced if code can be generated aut...
Code generation from hybrid system models, a promising approach for producing reliable embedded syst...
Mapping a set of feedback control components to executable code introduces errors due to a variety o...
Many safety-critical real-time embedded systems need to meet stringent timing constraints such as pr...
We propose an integrated framework to test and monitor code generated from hybrid models for embedde...
Benefits of high-level modeling and analysis are significantly enhanced if code can be generated aut...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
Modern real-time embedded systems are complex, distributed, feature-rich applications. Model-based d...
Hybrid systems have emerged as an appropriate formalism to model embedded systems as they capture th...
Code generation from hybrid system models is a promising approach to producing reliable embedded sys...
Hybrid systems have emerged as an appropriate formalism to model embedded systems as they capture th...
Hybrid systems are an appropriate formalism to model embedded systems as they capture the theme of c...
Precise translation from hybrid models to code is difficult because models are defined in the contin...
ABSTRACT Hybrid systems are an appropriate formalism to model embedded systems as they capture the t...
Code generation from hybrid system models, a promising approach for producing reliable embedded syst...
Benefits of high-level modeling and analysis are significantly enhanced if code can be generated aut...
Code generation from hybrid system models, a promising approach for producing reliable embedded syst...
Mapping a set of feedback control components to executable code introduces errors due to a variety o...
Many safety-critical real-time embedded systems need to meet stringent timing constraints such as pr...
We propose an integrated framework to test and monitor code generated from hybrid models for embedde...
Benefits of high-level modeling and analysis are significantly enhanced if code can be generated aut...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...