In viewing the common unreliability problem in wireless communications, the CWQ calculus (a Calculus for Wireless sensor networks from Quality perspective) was recently proposed for modeling and reasoning about WSNs (Wireless Sensor Networks) and their applications from a quality perspective. The CWQ calculus ensures that sensor nodes, even though in an unreliable communication network, can still behave in a reasonable manner using default values. Nevertheless, the topological structure in CWQ calculus is considered at the network level and it is tightly coupled with the processes and other configurations; this may limit its flexibility. In this paper, we extend our previous CWQ calculus to be a parametric framework to make it more flexible...
Wireless Sensor Networks (WSNs) are widely recognized as a solution to build monitoring systems, eve...
Gorrieri and Martinelli's timed Generalized Non-Deducibility on Compositions (tGNDC) schema is a wel...
AbstractConcepts such as energy dependence, random deployment, dynamic topological update, self-orga...
Node mobility, as one of the most important features of Wireless Sensor Networks (WSNs), may affect ...
Many applications in wireless sensor networks require an absolute predictable network behaviour unde...
Today’s wireless sensor networks (WSN) focus on energy-efficiency as the main metric to optimize. Ho...
In this article, we survey the sensor network calculus (SensorNC), a framework continuously develope...
During the last two decades, starting with the seminal work by Cruz, network calculus has evolved as...
<p>The seminal q-composite key predistribution scheme [3] (IEEE S&P 2003) is used prevalently for se...
Abstract Network Calculus has been proposed and customized as a framework for worst-case analysis in...
Wireless Sensor Networks (WSNs) are widely recognized as a solution to build monitoring systems, eve...
Abstract Wireless sensor networks (WSNs) became one of the high technology domains during the last 1...
Gossip protocols have been proposed as a robust and efficient method for disseminating information t...
Wireless Sensor Networks (WSNs) are being increasingly adopted in critical applications, where verif...
Using communicating sequential processes (CSP), this paper presents a model for wireless sensor netw...
Wireless Sensor Networks (WSNs) are widely recognized as a solution to build monitoring systems, eve...
Gorrieri and Martinelli's timed Generalized Non-Deducibility on Compositions (tGNDC) schema is a wel...
AbstractConcepts such as energy dependence, random deployment, dynamic topological update, self-orga...
Node mobility, as one of the most important features of Wireless Sensor Networks (WSNs), may affect ...
Many applications in wireless sensor networks require an absolute predictable network behaviour unde...
Today’s wireless sensor networks (WSN) focus on energy-efficiency as the main metric to optimize. Ho...
In this article, we survey the sensor network calculus (SensorNC), a framework continuously develope...
During the last two decades, starting with the seminal work by Cruz, network calculus has evolved as...
<p>The seminal q-composite key predistribution scheme [3] (IEEE S&P 2003) is used prevalently for se...
Abstract Network Calculus has been proposed and customized as a framework for worst-case analysis in...
Wireless Sensor Networks (WSNs) are widely recognized as a solution to build monitoring systems, eve...
Abstract Wireless sensor networks (WSNs) became one of the high technology domains during the last 1...
Gossip protocols have been proposed as a robust and efficient method for disseminating information t...
Wireless Sensor Networks (WSNs) are being increasingly adopted in critical applications, where verif...
Using communicating sequential processes (CSP), this paper presents a model for wireless sensor netw...
Wireless Sensor Networks (WSNs) are widely recognized as a solution to build monitoring systems, eve...
Gorrieri and Martinelli's timed Generalized Non-Deducibility on Compositions (tGNDC) schema is a wel...
AbstractConcepts such as energy dependence, random deployment, dynamic topological update, self-orga...