International audienceThis paper presents a new feature of the IDEA1 Wireless Sensor Network (WSN) simulation platform: its ability to run simulations on heterogeneous sensor nodes that compose a network. This platform allows system-level simulations with hardware accurate models, with graphicalinputs and outputs to easily simulate such distributed systems. When comparing IDEA1 simulation results to physical measurements, difference is 6 percent. IDEA1 is more than three times faster simulation compared to another simulator (NS2). In the testbed we consider, the well-known IEEE 802.15.4 standard is considered and different microcontroller units (MCU) and radiofrequency units (transceivers) compose the heterogeneous nodes. Output curves, pac...
Many limitations (e.g. complexity, cost, scalability and capability) make the analytical methods and...
Abstract—This paper presents IDEA1, a validated SystemC-based simulator for WSNs. It allows the syst...
Abstract: Wireless Sensor Networks (WSN) are formed by a large number of networked sensing nodes. To...
Abstract – This paper presents a new feature of the IDEA1 Wireless Sensor Network (WSN) simulation p...
International audienceBased on our previous work on the development of a Wireless Sensor Network (WS...
This paper presents an accurate and scalable implementation of an energy-aware simulator for wireles...
Wireless sensor networks consist of many small nodes. Each node has a small microprocessor, a radio ...
AbstractWireless Sensor Network is a large-scale network of resource-constrained (energy, memory and...
This paper presents a simulator for Wireless Sensor Networks, whose novel feature is the capability ...
International audienceWireless Sensor Networks are networks made up of tiny sensor nodes, in medium ...
This thesis deals with the modeling and simulation of wireless sensor networks in order to provide m...
International audienceThis article presents IDEA1, a SystemC-based system-level design and simulatio...
International audienceWireless Sensor Networks are composed of many autonomous resource-constrained ...
Within this paper a modeling environment for Wireless Sensor Networks (WSN) is proposed. This enviro...
Wireless systems such as Wireless Sensor Networks (WSNs) are heavily utilized, for example, in indus...
Many limitations (e.g. complexity, cost, scalability and capability) make the analytical methods and...
Abstract—This paper presents IDEA1, a validated SystemC-based simulator for WSNs. It allows the syst...
Abstract: Wireless Sensor Networks (WSN) are formed by a large number of networked sensing nodes. To...
Abstract – This paper presents a new feature of the IDEA1 Wireless Sensor Network (WSN) simulation p...
International audienceBased on our previous work on the development of a Wireless Sensor Network (WS...
This paper presents an accurate and scalable implementation of an energy-aware simulator for wireles...
Wireless sensor networks consist of many small nodes. Each node has a small microprocessor, a radio ...
AbstractWireless Sensor Network is a large-scale network of resource-constrained (energy, memory and...
This paper presents a simulator for Wireless Sensor Networks, whose novel feature is the capability ...
International audienceWireless Sensor Networks are networks made up of tiny sensor nodes, in medium ...
This thesis deals with the modeling and simulation of wireless sensor networks in order to provide m...
International audienceThis article presents IDEA1, a SystemC-based system-level design and simulatio...
International audienceWireless Sensor Networks are composed of many autonomous resource-constrained ...
Within this paper a modeling environment for Wireless Sensor Networks (WSN) is proposed. This enviro...
Wireless systems such as Wireless Sensor Networks (WSNs) are heavily utilized, for example, in indus...
Many limitations (e.g. complexity, cost, scalability and capability) make the analytical methods and...
Abstract—This paper presents IDEA1, a validated SystemC-based simulator for WSNs. It allows the syst...
Abstract: Wireless Sensor Networks (WSN) are formed by a large number of networked sensing nodes. To...