This paper proposes a low-complexity dual pseudorandom noise (PN) scheme for identity (ID) detection and coarse frame synchronization. The two PN sequences are identical and are separated by a specified length of gap which serves as the ID for different sensor nodes. The receiver ID detection is implemented on a microcontroller MSP430F5529 by calculating the correlation between the two segments of the received signal with the specified separation gap. When the gap length is matched with the ID, the correlator outputs a peak which sets the wakeup enable. The time index of the correlator peak is used as the coarse synchronization of the data frame. An iterative algorithm is used that requires only one multiplication and two additions for each...
Abstract. Wireless microsensor networks are energy constrained. In order to save energy, nodes in su...
This paper presents a wake-up transceiver system based on narrowband power line communications (NB-P...
\u3cp\u3eIn order to simultaneously optimize network lifetime and latency in wireless sensor network...
This thesis designs a low-complexity dual Pseudorandom Noise (PN) scheme for identity (ID) detection...
In the development of wireless sensor networks, power consumption is one of the bottlenecks for wide...
The use of duty-cycled ultralow-power wake-up receivers (WRxs) can significantly extend a node lifet...
This paper shows the benefits of a sub-10 A wake-up receiver circuit used for wireless data receptio...
Wakeup radios (also referred to as event-driven radios) is a paradigm for low-cost, low-energy ident...
Wireless sensor networks (WSNs) generally consist of thousands of sensor nodes, each one supplied by...
Abstract—We present a wake-up wireless communication sys-tem, which can drastically reduce idle list...
A novel wake-up receiver for wireless sensor networks is introduced. It operates with a modified med...
The persistent nature of physical events makes it possible to detect events using lowly duty-cycled ...
Wireless Sensor Networks have found diverse applications from health to agriculture and industry. Th...
The Internet of Things (IoT) concept is mainly enabled by wireless sensor networks (WSNs), which are...
We study the problem of waking up a collection of $n$ processors connected by a multihop ad hoc rat...
Abstract. Wireless microsensor networks are energy constrained. In order to save energy, nodes in su...
This paper presents a wake-up transceiver system based on narrowband power line communications (NB-P...
\u3cp\u3eIn order to simultaneously optimize network lifetime and latency in wireless sensor network...
This thesis designs a low-complexity dual Pseudorandom Noise (PN) scheme for identity (ID) detection...
In the development of wireless sensor networks, power consumption is one of the bottlenecks for wide...
The use of duty-cycled ultralow-power wake-up receivers (WRxs) can significantly extend a node lifet...
This paper shows the benefits of a sub-10 A wake-up receiver circuit used for wireless data receptio...
Wakeup radios (also referred to as event-driven radios) is a paradigm for low-cost, low-energy ident...
Wireless sensor networks (WSNs) generally consist of thousands of sensor nodes, each one supplied by...
Abstract—We present a wake-up wireless communication sys-tem, which can drastically reduce idle list...
A novel wake-up receiver for wireless sensor networks is introduced. It operates with a modified med...
The persistent nature of physical events makes it possible to detect events using lowly duty-cycled ...
Wireless Sensor Networks have found diverse applications from health to agriculture and industry. Th...
The Internet of Things (IoT) concept is mainly enabled by wireless sensor networks (WSNs), which are...
We study the problem of waking up a collection of $n$ processors connected by a multihop ad hoc rat...
Abstract. Wireless microsensor networks are energy constrained. In order to save energy, nodes in su...
This paper presents a wake-up transceiver system based on narrowband power line communications (NB-P...
\u3cp\u3eIn order to simultaneously optimize network lifetime and latency in wireless sensor network...