The recent development of low cost wireless sensors enables water monitoring through dense wireless sensor networks (WSN). Sensor nodes are battery powered devices, and hence their limited energy resources have to be optimally managed. The latest advancements in compressive sensing (CS) provide ample promise to increase WSNs lifetime by limiting the amount of measurements that have to be collected. Additional energy savings can be achieved through CS-based scheduling schemes that activate only a limited number of sensors to sense and transmit their measurements, whereas the rest are turned off. The ultimate objective is to maximize network lifetime without sacrificing network connectivity and monitoring performance. This problem can be appr...
This work presents a new approach to the maximization of energy and throughput in a wireless sensor ...
Compressive Sampling (CS) is a powerful sampling technique that allows accurately reconstructing a c...
In this paper, we consider a compressive sleeping wireless sensor network (WSN) for monitoring param...
The recent development of low cost wireless sensors enables water monitoring through dense wireless ...
The recent development of low cost wireless sensors enables novel internet-of-things (IoT) applicati...
Monitoring contemporary water distribution networks (WDN) relies increasingly on smart metering tech...
Many physical systems, such as water/electricity distribution networks, are monitored by battery-pow...
© 2016 IEEE.Contemporary water distribution networks exploit Internet of Things (IoT) technologies t...
One of the main concerns of Wireless Multimedia Sensor Networks (WMSNs) is the huge data size causin...
Wireless sensor networks (WSN) are built of spatially distributed nodes which are connected to one o...
Wireless Sensor Networks (WSN) are integrable basic elements of Internet of Things (IoT). WSN deploy...
On the basis of traditional transmission methods in wireless sensor networks, a vital problem is tha...
Compressive sensing (CS) is a new approach to simultaneous sensing and compressing that is highly pr...
Power management is crucial in remote environmental monitoring, especially when long-term monitoring...
IEEE Globecom Workshops (GC Wkshps) (2015 : San Diego, CA)In a typical Wireless Sensor Network (WSN)...
This work presents a new approach to the maximization of energy and throughput in a wireless sensor ...
Compressive Sampling (CS) is a powerful sampling technique that allows accurately reconstructing a c...
In this paper, we consider a compressive sleeping wireless sensor network (WSN) for monitoring param...
The recent development of low cost wireless sensors enables water monitoring through dense wireless ...
The recent development of low cost wireless sensors enables novel internet-of-things (IoT) applicati...
Monitoring contemporary water distribution networks (WDN) relies increasingly on smart metering tech...
Many physical systems, such as water/electricity distribution networks, are monitored by battery-pow...
© 2016 IEEE.Contemporary water distribution networks exploit Internet of Things (IoT) technologies t...
One of the main concerns of Wireless Multimedia Sensor Networks (WMSNs) is the huge data size causin...
Wireless sensor networks (WSN) are built of spatially distributed nodes which are connected to one o...
Wireless Sensor Networks (WSN) are integrable basic elements of Internet of Things (IoT). WSN deploy...
On the basis of traditional transmission methods in wireless sensor networks, a vital problem is tha...
Compressive sensing (CS) is a new approach to simultaneous sensing and compressing that is highly pr...
Power management is crucial in remote environmental monitoring, especially when long-term monitoring...
IEEE Globecom Workshops (GC Wkshps) (2015 : San Diego, CA)In a typical Wireless Sensor Network (WSN)...
This work presents a new approach to the maximization of energy and throughput in a wireless sensor ...
Compressive Sampling (CS) is a powerful sampling technique that allows accurately reconstructing a c...
In this paper, we consider a compressive sleeping wireless sensor network (WSN) for monitoring param...