Abstract—Motivated by emerging applications, we consider sensor networks where the sensors themselves (not just the sinks) are mobile. Furthermore, we focus on mobility scenarios characterized by heterogeneous, highly changing mobility roles in the network. To capture these high dynamics of diverse sensory motion we propose a novel network parameter, the mobility level, which, although simple and local, quite accurately takes into account both the spatial and speed characteristics of motion. We then propose adaptive data dissemination protocols that use the mobility level estimation to optimize performance, by basically exploiting high mobility (redundant message ferrying) as a cost-effective replacement of flooding, e.g. the sensors tend t...
2009 IEEE Global Telecommunications Conference, GLOBECOM 2009, Honolulu, HI, 30 November-4 December ...
The performance of a sensor network may be best judged by the quality of application specific inform...
We introduce a new modelling assumption in wireless sensor networks, that of node redeployment (addi...
We study the problem of fast and energy-efficient data collection of sensory data using a mobile sin...
The energy balance property (i.e., all nodes having the same energy throughout the network evolution...
The performance of a sensor network may be best judged by the quality of application specific inform...
Highly dynamic sensor networks, such as mobile robotic sensor networks, have been applied in various...
We study the effect of mobility on the sensing and communication performance of a sensor network wit...
Motion may be used in sensor networks to change the network configuration for improving the sensing ...
We introduce a new modelling assumption for wireless sensor networks, that of node redeployment (add...
In this paper, we present a family of adaptive protocols, called SPIN (Sensor Protocols for Informat...
We live in a world where demand for monitoring natural phenomena is growing. Sensor Networks are bec...
Maximizing sensor network lifetime, efficiently gathering data from sensor nodes, and leveraging the...
The distribution of data in large dynamic wireless sen-sor networks presents a difficult problem due...
Recently, mobility support has become an important requirement in various Wireless Sensor Networks (...
2009 IEEE Global Telecommunications Conference, GLOBECOM 2009, Honolulu, HI, 30 November-4 December ...
The performance of a sensor network may be best judged by the quality of application specific inform...
We introduce a new modelling assumption in wireless sensor networks, that of node redeployment (addi...
We study the problem of fast and energy-efficient data collection of sensory data using a mobile sin...
The energy balance property (i.e., all nodes having the same energy throughout the network evolution...
The performance of a sensor network may be best judged by the quality of application specific inform...
Highly dynamic sensor networks, such as mobile robotic sensor networks, have been applied in various...
We study the effect of mobility on the sensing and communication performance of a sensor network wit...
Motion may be used in sensor networks to change the network configuration for improving the sensing ...
We introduce a new modelling assumption for wireless sensor networks, that of node redeployment (add...
In this paper, we present a family of adaptive protocols, called SPIN (Sensor Protocols for Informat...
We live in a world where demand for monitoring natural phenomena is growing. Sensor Networks are bec...
Maximizing sensor network lifetime, efficiently gathering data from sensor nodes, and leveraging the...
The distribution of data in large dynamic wireless sen-sor networks presents a difficult problem due...
Recently, mobility support has become an important requirement in various Wireless Sensor Networks (...
2009 IEEE Global Telecommunications Conference, GLOBECOM 2009, Honolulu, HI, 30 November-4 December ...
The performance of a sensor network may be best judged by the quality of application specific inform...
We introduce a new modelling assumption in wireless sensor networks, that of node redeployment (addi...