Tractable Resource Management in Millimeter-Wave Overlaid Ultra-Dense Cellular Networks (1507.04658v1)

Abstract: What does millimeter-wave (mmW) seek assistance for from micro-wave ({\mu}W) in a mmW overlaid 5G cellular network? This paper raises the question of whether to complement downlink (DL) or uplink (UL) transmissions, and concludes that {\mu}W should aid UL more. Such dedication to UL results from the low mmW UL rate due to high peak-to-average power ratio (PAPR) at mobile users. The DL/UL allocations are tractably provided based on a novel closed-form mm-{\mu}W spectral efficiency (SE) derivation via stochastic geometry. The findings explicitly indicate: (i) both DL/UL mmW (or {\mu}W) SEs coincidentally converge on the same value in an ultra-dense cellular network (UDN) and (ii) such a mmW (or {\mu}W) UDN SE is a logarithmic function of BS-to-user density ratio. The corresponding mm-{\mu}W resource management is evaluated by utilizing a three dimensional (3D) blockage model with real geography in Seoul, Korea.