AbstractIn this paper, a distributed solution is proposed for detecting boundaries and holes in the WSN using only the nodes connectivity information. The run of our protocol is divided imto three main steps. In the first step, each node collects connectivity information of its one-hop neighbors and constructs its one-hop neighbors’ graph. In the second step, independent sets are constructed. In the last step, the independent sets are connected in order to find the closed path. Therefore, the node can make its own decision to be an internal or a boundary node. Simulation results show that our algorithm can detect fine-grained boundaries with high accuracy, low energy consumption and less communication overhead compared to some former works....
Abstract—This research focuses on distributed and localized al-gorithms for precise boundary detecti...
AbstractCoverage and communication holes may appear in sensor networks due to limited battery life, ...
Wireless sensor networks typically consist of small, very sim-ple network nodes without any position...
Location-free boundary recognition is crucial and critical for many fundamental network functionalit...
Wireless sensor networks (WSNs) comprise a large number of sensor nodes, which are spread out within...
Wireless sensor networks are tightly associated with the underlying environment in which the sensors...
Wireless sensor networks are tightly associated with the un-derlying environment in which the sensor...
We present a novel online distributed boundary detection and classification algorithm in order to imp...
WSN is a network which has a large number of sensor nodes; these nodes are scattered in a geometric ...
Boundary recognition is an important and challenging issue in wireless sensor networks when no coord...
Intuitively, many wireless and sensing applications benefit from knowledge of network boundaries. Ma...
In order to track and detect continuous natured objects in wireless sensor networks, large number of...
This paper develop a practical and energy-efficient distributed algorithm for the detection of cover...
International audienceWireless Sensor Networks (WSNs) are an important tool for monitoring strategic...
Physical damage and/or node power exhaustion may lead to coverage holes in WSNs. Coverage holes can ...
Abstract—This research focuses on distributed and localized al-gorithms for precise boundary detecti...
AbstractCoverage and communication holes may appear in sensor networks due to limited battery life, ...
Wireless sensor networks typically consist of small, very sim-ple network nodes without any position...
Location-free boundary recognition is crucial and critical for many fundamental network functionalit...
Wireless sensor networks (WSNs) comprise a large number of sensor nodes, which are spread out within...
Wireless sensor networks are tightly associated with the underlying environment in which the sensors...
Wireless sensor networks are tightly associated with the un-derlying environment in which the sensor...
We present a novel online distributed boundary detection and classification algorithm in order to imp...
WSN is a network which has a large number of sensor nodes; these nodes are scattered in a geometric ...
Boundary recognition is an important and challenging issue in wireless sensor networks when no coord...
Intuitively, many wireless and sensing applications benefit from knowledge of network boundaries. Ma...
In order to track and detect continuous natured objects in wireless sensor networks, large number of...
This paper develop a practical and energy-efficient distributed algorithm for the detection of cover...
International audienceWireless Sensor Networks (WSNs) are an important tool for monitoring strategic...
Physical damage and/or node power exhaustion may lead to coverage holes in WSNs. Coverage holes can ...
Abstract—This research focuses on distributed and localized al-gorithms for precise boundary detecti...
AbstractCoverage and communication holes may appear in sensor networks due to limited battery life, ...
Wireless sensor networks typically consist of small, very sim-ple network nodes without any position...