Energy-Efficient Efficient Resource Allocation for Phantom Cellular Networks With Imperfect CSI
Abstract: Multi-tier tier heterogeneous networks have become an essential constituent for next-generation generation cellular networks. Meanwhile, energy efficiency (EE) has been considered a critical design criterion along with the traditional spectral efficiency (SE) metric. In this context, we study power and spectrum allocation for a two-tier two phantom cellular network. The optimization framework includes both EE and SE. We consider der densely deployed phantom cellular networks and model the EE optimization problem considering the inevitable interference in this setup and imperfect channel estimation impairments. To this end, we propose three resource allocation strategies aiming at optimizing this network EE performance metric. Furthermore, we investigate the effect of changing some system parameters on the performance of these strategies, such as phantom cells resource units share, number of deployed phantom cells within a macro cell, cel number of pilots, and the phantom cells transmission power budget. It is found that increasing the number of pilots will deteriorate the EE performance of the whole setup, while increasing phantom cells transmission power budget will not affect the EE off the whole setup significantly. In addition, we observed that it is always useful to allocate most of the network resource units to the phantom cells tier.