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Tractable Model for Rate in Self-Backhauled Millimeter Wave Cellular Networks.

, , , and . IEEE J. Sel. Areas Commun., 33 (10): 2196-2211 (2015)

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Rate analysis and feasibility of dynamic TDD in 5G cellular systems., , , , , , and . ICC, page 1-6. IEEE, (2016)Coverage and rate trends in dense urban mmWave cellular networks., , and . GLOBECOM, page 3809-3814. IEEE, (2014)Deep Learning-based Carrier Frequency Offset Estimation with One-Bit ADCs., , , and . SPAWC, page 1-5. IEEE, (2020)Impact of Humans on the Design and Performance of Millimeter Wave Cellular Networks in Stadiums., , , and . WCNC, page 1-6. IEEE, (2017)A tractable model for rate in noise limited mmWave cellular networks., , and . ACSSC, page 1911-1915. IEEE, (2014)Tractable Model for Rate in Self-Backhauled Millimeter Wave Cellular Networks., , , and . IEEE J. Sel. Areas Commun., 33 (10): 2196-2211 (2015)A Comparison of MIMO Techniques in Downlink Millimeter Wave Cellular Networks., , and . CoRR, (2015)A tractable model for per user rate in multiuser millimeter wave cellular networks., , and . ACSSC, page 328-332. IEEE, (2015)Coverage and rate trends in moderate and high bandwidth 5G networks., , , , and . GLOBECOM Workshops, page 422-426. IEEE, (2014)Frequency Synchronization for Low Resolution Millimeter-Wave., , , and . ACSSC, page 314-318. IEEE, (2020)