Daryl Leon Wasden scite author profile

This paper proposes and presents the design and implementation of an underlay communication channel (UCC) for 5G cognitive mesh networks. The UCC builds its waveform based on filter bank multicarrier spread spectrum (FB-MC-SS) signaling. The use of this novel spread spectrum signaling allows the device-to-device (D2D) user equipments (UEs) to communicate at a level well below noise temperature and hence, minimize taxation on macro-cell/small-cell base stations and their UEs in 5G wireless systems. Moreover, the use of filter banks allows us to avoid those portions of the spectrum that are in use by macro-cell and small-cell users. Hence, both D2D-to-cellular and cellular-to-D2D interference will be very close to none. We propose a specific packet for UCC and develop algorithms for packet detection, timing acquisition and tracking, as well as channel estimation and equalization. We also present the detail of an implementation of the proposed transceiver on a software radio platform and compare our experimental results with those from a theoretical analysis of our packet detection algorithm.

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Beyond OFDM: Best-Effort Dynamic Spectrum Access Using Filterbank Multicarrier

Premnath

Wasden

Kasera

et al. 2013

IEEE/ACM Trans. Networking

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Daryl Leon Wasden

Design and implementation of an underlay control channel for cognitive radios

Design and Implementation of an Underlay Control Channel for Cognitive Radios

Beyond OFDM: Best-effort dynamic spectrum access using filterbank multicarrier

An underlay communication channel for 5G cognitive mesh networks: Packet design, implementation, analysis, and experimental results

Beyond OFDM: Best-Effort Dynamic Spectrum Access Using Filterbank Multicarrier

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