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The advancements in wireless communication go in leaps and bounds ushering in due attention to spectrum sharing. Spectrum scarcity is one of the major limitations causing hardships in the existing wireless networks. Cognitive Radio Networks (CRNs) emerge as a solution to tide over such humps. It prompts the secondary user (SU) to look out for unused spectrum and utilize them. The CRN helps the SU...
To meet the needs of innovative sensor network applications, sensor nodes have long evolved from underpowered single microcontroller designs into complex architectures that accommodate multiple processors and Field Programmable Gate Arrays (FPGAs). We address the problem of conceiving and implementing programs for such sensor node architectures. We rely on a universal, layered hardware/software interface...
Technology must work for human race and improve the way help reaches a person in distress in the shortest possible time. In a developing nation like India, with the advancement in the transportation technology and rise in the total number of vehicles, road accidents are increasing at an alarming rate. If an accident occurs, the victim's survival rate increases when you give immediate medical assistance...
Energy consumption and real-time performance are two important metrics for wireless sensor networks (WSNs). To estimate these metrics, a number of simulation environments have been developed. However, these environments were made specifically for sensor nodes with fixed architectures. The recent generation of sensor nodes often has flexible architectures through the use of programmable hardware components,...
Most current sensor nodes are composed of a microcontroller and a radio. Their real-time and peak performance would be a bottleneck when executing compute-intensive tasks. Several works demonstrate that adding a hardware co-processor could accelerate the execution speed of the sensor nodes. So far, no simulators can simulate these new sensor nodes in wireless networks. An extension to SUNSHINE [1],...
Simulators are important tools for analyzing and evaluating different design options for wireless sensor networks (sensornets) and hence, have been intensively studied in the past decades. However, existing simulators only support evaluations of protocols and software aspects of sensornet design. They cannot accurately capture the significant impacts of various hardware designs on sensornet performance...
Hardware-software co-design techniques are very suitable to develop the next generation of sensornet applications, which have high computational demands. By making use of a low-power FPGA, the peak computational performance of a sensor node can be improved without significant degradation of the standby power dissipation. In this contribution, we present a methodology and tool to enable hardware/software...
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