Channel allocation strategies for wireless sensors statically deployed in multipath environments
Proceedings of the 5th international conference on Information processing in sensor networks
Wireless sensors, sensing wireless (WSSW) for the characterization of multipath fading
Proceedings of the 6th international conference on Information processing in sensor networks
A low-complexity, compact antenna for mitigating frequency-selective fading
Proceedings of the 6th international conference on Information processing in sensor networks
Diversity gains in two-ray fading channels
IEEE Transactions on Wireless Communications
A statistical model for indoor office wireless sensor channels
IEEE Transactions on Wireless Communications
Efficient BAD equalizer in two-ray multipath fading channels
IEEE Communications Letters
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This work is motivated by the problem of characterizing small-scale radio propagation environments for wireless sensor networks. If sensors are statically deployed near the ground or within structures, temporal fading may not exist but the channel may nevertheless experience severe frequency-selective behavior. The work presents real-world, frequency-selective fading data measured for in-vehicle wireless sensor applications. This fading data often exhibit statistics more severe than predicted by the Rayleigh fading model; a scenario referred herein as to as being hyper-Rayleigh. A two-ray, small-scale model is proposed as a new worst-case for this application space