Multihop wireless sensor networks have recently emerged as an important embedded computing platform. This paper defines a quantitative notion of real-time capacity of a wireless network. Real-time capacity describes how much real-time data the network can transfer by their deadlines. A capacity bound is derived that can be used as a sufficient schedulability condition for a class of fixedpriority packet scheduling algorithms. Using this bound, a designer can perform capacity planning prior to network deployment to ensure satisfaction of applications ’ real-time requirements.
We consider the problem of modeling the transmission of real-time data from a single node of a wirel...
In this article, we propose a constrained queueing model to investigate the performance of multihop ...
Abstract—Data collection is a common operation of Wireless Sensor Networks (WSNs). The performance o...
Abstract—Network capacity is a critical feature of wireless ad hoc and sensor networks. It is partic...
Typical wireless sensor networks (WSNs) comprise a lot of small, lightweight sensor nodes to cover a...
Large-scale wireless sensor networks represent a new generation of real-time embedded systems with s...
We present an algorithm for bandwidth allocation for delay-sensitive traffic in multi-hop wireless s...
In this dissertation, we study data collection and its achievable network capacity in Wireless Senso...
It is expected that wireless sensor network will be used in home automation and industrial manufactu...
In this paper we propose a new scheduling algorithm called Real Time Scheduling (RTS). This algorith...
International audienceThe scope of this paper is to compare existing techniques proposed to manage r...
Abstract—Data collection is a common operation of Wireless Sensor Networks (WSNs). The performance o...
International audienceIn safety-related industrial systems, stringent timelines and a high degree of...
We consider ad hoc wireless networks with real-time traf-fic, and study the capacity requirement of ...
Abstract—In this paper, optimal scheduling mechanisms are developed for packet forwarding in wireles...
We consider the problem of modeling the transmission of real-time data from a single node of a wirel...
In this article, we propose a constrained queueing model to investigate the performance of multihop ...
Abstract—Data collection is a common operation of Wireless Sensor Networks (WSNs). The performance o...
Abstract—Network capacity is a critical feature of wireless ad hoc and sensor networks. It is partic...
Typical wireless sensor networks (WSNs) comprise a lot of small, lightweight sensor nodes to cover a...
Large-scale wireless sensor networks represent a new generation of real-time embedded systems with s...
We present an algorithm for bandwidth allocation for delay-sensitive traffic in multi-hop wireless s...
In this dissertation, we study data collection and its achievable network capacity in Wireless Senso...
It is expected that wireless sensor network will be used in home automation and industrial manufactu...
In this paper we propose a new scheduling algorithm called Real Time Scheduling (RTS). This algorith...
International audienceThe scope of this paper is to compare existing techniques proposed to manage r...
Abstract—Data collection is a common operation of Wireless Sensor Networks (WSNs). The performance o...
International audienceIn safety-related industrial systems, stringent timelines and a high degree of...
We consider ad hoc wireless networks with real-time traf-fic, and study the capacity requirement of ...
Abstract—In this paper, optimal scheduling mechanisms are developed for packet forwarding in wireles...
We consider the problem of modeling the transmission of real-time data from a single node of a wirel...
In this article, we propose a constrained queueing model to investigate the performance of multihop ...
Abstract—Data collection is a common operation of Wireless Sensor Networks (WSNs). The performance o...