To minimize energy consumption of state-of-the-art wireless sensor nodes, asynchronous communication transceivers are adopted, which make use of an ultra-low power wake-up radio (WUR) to minimize the active time of the energy-hungry main communication radio. This work contributes to the ambitious goal of pushing over the minimum average RF power needed to operate the WUR, thus enabling energy-efficient communication in larger areas. To reach this goal a dual-band rectifier, optimized to be loaded by an ultra-low power comparator, is used as WUR detector. Its behavior is experimentally tested under several power-optimized excitation formats. By selecting the proper excitation format the base-band comparator is enabled starting from average R...
\u3cp\u3eIn order to simultaneously optimize network lifetime and latency in wireless sensor network...
International audienceLong lifetime is the most pursued goal in Wireless Sensor Networks (WSNs). As ...
Recent advances in low power radio design have enabled a broad range of low activity applications su...
To minimize energy consumption of state-of-the-art wireless sensor nodes, asynchronous communication...
To enable pervasive exploitation of wireless sensor networks (WSNs), semi-passive wake-up radios (Wu...
In power-limited wireless devices such as wireless sensor networks, wearable components, and Interne...
Energy-efficient operation is a challenge for wireless sensor networks (WSNs). A common method emplo...
Wake-up radio is an emerging technology for smart sensor networks and the Internet of Things with th...
International audienceThe ubiquity of wireless sensor networks (WSN), as well as the rapid developme...
Energy-efficient communication is one of the main concerns of wireless sensor networks nowadays. A c...
Wake-up radio is an emerging technology with the ambitious goal of reducing the communication power ...
Energy-efficient communication is one of the main concerns of wireless sensor networks nowadays. A c...
Energy-efficient communication is one of the main concerns of wireless sensor networks nowadays. A c...
A novel wake-up receiver for wireless sensor networks is introduced. It operates with a modified med...
The use of duty-cycled ultralow-power wake-up receivers (WRxs) can significantly extend a node lifet...
\u3cp\u3eIn order to simultaneously optimize network lifetime and latency in wireless sensor network...
International audienceLong lifetime is the most pursued goal in Wireless Sensor Networks (WSNs). As ...
Recent advances in low power radio design have enabled a broad range of low activity applications su...
To minimize energy consumption of state-of-the-art wireless sensor nodes, asynchronous communication...
To enable pervasive exploitation of wireless sensor networks (WSNs), semi-passive wake-up radios (Wu...
In power-limited wireless devices such as wireless sensor networks, wearable components, and Interne...
Energy-efficient operation is a challenge for wireless sensor networks (WSNs). A common method emplo...
Wake-up radio is an emerging technology for smart sensor networks and the Internet of Things with th...
International audienceThe ubiquity of wireless sensor networks (WSN), as well as the rapid developme...
Energy-efficient communication is one of the main concerns of wireless sensor networks nowadays. A c...
Wake-up radio is an emerging technology with the ambitious goal of reducing the communication power ...
Energy-efficient communication is one of the main concerns of wireless sensor networks nowadays. A c...
Energy-efficient communication is one of the main concerns of wireless sensor networks nowadays. A c...
A novel wake-up receiver for wireless sensor networks is introduced. It operates with a modified med...
The use of duty-cycled ultralow-power wake-up receivers (WRxs) can significantly extend a node lifet...
\u3cp\u3eIn order to simultaneously optimize network lifetime and latency in wireless sensor network...
International audienceLong lifetime is the most pursued goal in Wireless Sensor Networks (WSNs). As ...
Recent advances in low power radio design have enabled a broad range of low activity applications su...