We describe verification of S-MAC, a medium access control protocol designed for wireless sensor networks, by means of the PRISM model checker. The S-MAC protocol is built on top of the IEEE 802.11 standard for wireless ad hoc networks and, as such, it uses the same randomised backoff procedure as a means to avoid collision. In order to minimise energy consumption, in S-MAC, nodes are periodically put into a sleep state. Synchronisation of the sleeping schedules is necessary for the nodes to be able to communicate. Intuitively, energy saving obtained through a periodic sleep mechanism will be at the expense of performance. In previous work on S-MAC verification, a combination of analytical techniques and simulation has been used to confirm ...
The Internet of Things (IoT) promises a revolution in the monitoring and control of a wide range of ...
An efficient medium access control (MAC) protocol is critical for the performance of a wireless sens...
The Internet of Things (IoT) promises a revolution in the monitoring and control of a wide range of ...
We describe verification of S-MAC, a medium access control protocol designed for wireless sensor net...
In this paper we present an analysis of a MAC (Medium Access Control) protocol for wireless sensor n...
AbstractIn this paper we present an analysis of a MAC (Medium Access Control) protocol for wireless ...
International audienceCommunication protocols and techniques are often evaluated using simulation te...
Networking and power management of wireless energy - conscious sensor networks is an important...
Wireless sensor networks are employed in many applications, such as health care, environmental sensi...
International audienceWireless sensor networks are employed in many applications such as health care...
Wireless sensor network (WSN) is a wireless network consisting of spatially distributed autonomous d...
This paper proposes S-MAC, a medium-access control (MAC) protocol designed for wireless sensor netwo...
Summarization: An efficient medium access control (MAC) protocol is critical for the performance of ...
The IEEE 802.11 protocol is a popular standard for wireless local area networks. Its medium access c...
Summarization: An efficient medium access control (MAC) protocol is critical for the performance of ...
The Internet of Things (IoT) promises a revolution in the monitoring and control of a wide range of ...
An efficient medium access control (MAC) protocol is critical for the performance of a wireless sens...
The Internet of Things (IoT) promises a revolution in the monitoring and control of a wide range of ...
We describe verification of S-MAC, a medium access control protocol designed for wireless sensor net...
In this paper we present an analysis of a MAC (Medium Access Control) protocol for wireless sensor n...
AbstractIn this paper we present an analysis of a MAC (Medium Access Control) protocol for wireless ...
International audienceCommunication protocols and techniques are often evaluated using simulation te...
Networking and power management of wireless energy - conscious sensor networks is an important...
Wireless sensor networks are employed in many applications, such as health care, environmental sensi...
International audienceWireless sensor networks are employed in many applications such as health care...
Wireless sensor network (WSN) is a wireless network consisting of spatially distributed autonomous d...
This paper proposes S-MAC, a medium-access control (MAC) protocol designed for wireless sensor netwo...
Summarization: An efficient medium access control (MAC) protocol is critical for the performance of ...
The IEEE 802.11 protocol is a popular standard for wireless local area networks. Its medium access c...
Summarization: An efficient medium access control (MAC) protocol is critical for the performance of ...
The Internet of Things (IoT) promises a revolution in the monitoring and control of a wide range of ...
An efficient medium access control (MAC) protocol is critical for the performance of a wireless sens...
The Internet of Things (IoT) promises a revolution in the monitoring and control of a wide range of ...