We present a toolchain to model and automatically generate executable simulation code for networked embedded systems applications. First, we provide a UML extension for modeling the network in distributed embedded systems. Second, we present a toolchain to automatically translate the UML model into an intermediate description and then to SystemC executable code. Finally, the developed simulation framework is based on the state-of-the-art network simulator named SCNSL which also provides a comprehensive library of well-tested simulation models for communication networks. The framework is explained on two different case studies related to wired/wireless network applications, one for home automation and the other for agriculture applications.K...
Today embedded system development is a complex task. To aid the engineers new methodologies and lang...
Network design in distributed embedded applications is a novel challenging task which requires 1) th...
Several embedded system applications are used to control physical processes. Sensing, computation an...
Next-generation networked embedded systems pose new challenges in the design and simulation domains....
The design and simulation of next-generation networked embedded systems are a challenging task since...
The behavior of Networked Embedded Systems (NES) is not only driven by network components but also b...
Design of distributed embedded systems is a challenging task and it requires to raise the level of a...
Abstract—In this paper, we propose an approach for modeling distributed embedded systems in a holist...
Today's embedded systems include more and more network capabilities. Verifying these capabilities vi...
This paper addresses the problem of modeling and simulating large set of heterogeneous networked emb...
Verification and design-space exploration of today's embedded systems require the simulation of hete...
The design of state-of-the-art, complex embedded system requires the capability of modeling and simu...
The design of distributed embedded systems is a challenging task that requires raising the level of ...
When developing embedded systems, the heterogeneity and compositionality of functions and architectu...
This paper shows the results of an ongoing study into the application of model-driven methods for em...
Today embedded system development is a complex task. To aid the engineers new methodologies and lang...
Network design in distributed embedded applications is a novel challenging task which requires 1) th...
Several embedded system applications are used to control physical processes. Sensing, computation an...
Next-generation networked embedded systems pose new challenges in the design and simulation domains....
The design and simulation of next-generation networked embedded systems are a challenging task since...
The behavior of Networked Embedded Systems (NES) is not only driven by network components but also b...
Design of distributed embedded systems is a challenging task and it requires to raise the level of a...
Abstract—In this paper, we propose an approach for modeling distributed embedded systems in a holist...
Today's embedded systems include more and more network capabilities. Verifying these capabilities vi...
This paper addresses the problem of modeling and simulating large set of heterogeneous networked emb...
Verification and design-space exploration of today's embedded systems require the simulation of hete...
The design of state-of-the-art, complex embedded system requires the capability of modeling and simu...
The design of distributed embedded systems is a challenging task that requires raising the level of ...
When developing embedded systems, the heterogeneity and compositionality of functions and architectu...
This paper shows the results of an ongoing study into the application of model-driven methods for em...
Today embedded system development is a complex task. To aid the engineers new methodologies and lang...
Network design in distributed embedded applications is a novel challenging task which requires 1) th...
Several embedded system applications are used to control physical processes. Sensing, computation an...