Smart wireless techniques are at the core of many today's telecommunication and networked embedded systems where performance are enhanced by intertwining radio frequency (RF) and digital aspects. Therefore their design requires to focus on both domains. Traditional approaches for their simulation rely either on different domain-specific tools or on analog-mixed-signal modeling languages. In the former case, the simulation of the whole platform in the same run is not possible while in the latter case, simulation performance are limited by the computationally most intensive domain (usually RF). We present an extension of the SystemC Network Simulation Library that allows to simulate antenna details and node position together with digital hard...
Abstract — The paper presents a system-level approach for the modeling and simulation of a paradigma...
This research uses a SystemC design methodology to model and design complex wireless communication s...
Several embedded system applications are used to control physical processes. Sensing, computation an...
In this paper, we describe a prototyping platform for wireless networking devices. The simulator mod...
SystemC is established as a suitable design and modelling language. It provides a consistent methodo...
Verification and design-space exploration of today's embedded systems require the simulation of hete...
Abstract — This paper presents a complete SystemC-based Wireless Sensor Network model. It implements...
Radio communication such as licensed mobile phone systems are widely used, and have been over the pa...
In this paper, a new method to model and simulate a wireless communication system based on system on...
Next-generation networked embedded systems pose new challenges in the design and simulation domains....
In this paper, a new method to model and simulate a wireless communication system based on System on...
Many limitations (e.g. complexity, cost, scalability and capability) make the analytical methods and...
This paper presents abstraction techniques and modeling approaches to include physical-level antenna...
Several embedded system applications are used to control physical processes thus leading to the conc...
This paper presents abstraction techniques and modeling approaches to include physical-level antenna...
Abstract — The paper presents a system-level approach for the modeling and simulation of a paradigma...
This research uses a SystemC design methodology to model and design complex wireless communication s...
Several embedded system applications are used to control physical processes. Sensing, computation an...
In this paper, we describe a prototyping platform for wireless networking devices. The simulator mod...
SystemC is established as a suitable design and modelling language. It provides a consistent methodo...
Verification and design-space exploration of today's embedded systems require the simulation of hete...
Abstract — This paper presents a complete SystemC-based Wireless Sensor Network model. It implements...
Radio communication such as licensed mobile phone systems are widely used, and have been over the pa...
In this paper, a new method to model and simulate a wireless communication system based on system on...
Next-generation networked embedded systems pose new challenges in the design and simulation domains....
In this paper, a new method to model and simulate a wireless communication system based on System on...
Many limitations (e.g. complexity, cost, scalability and capability) make the analytical methods and...
This paper presents abstraction techniques and modeling approaches to include physical-level antenna...
Several embedded system applications are used to control physical processes thus leading to the conc...
This paper presents abstraction techniques and modeling approaches to include physical-level antenna...
Abstract — The paper presents a system-level approach for the modeling and simulation of a paradigma...
This research uses a SystemC design methodology to model and design complex wireless communication s...
Several embedded system applications are used to control physical processes. Sensing, computation an...