Abstract
A coupling of wireless access via non-orthogonal multiple access and wireless backhaul via beamforming is a promising way for downlink user-centric ultra-dense networks (UDNs) to improve system performance. However, ultra-dense deployment of radio access points in macrocell and user-centric view of network design in UDNs raise important concerns about resource allocation and user association, among which notably is energy efficiency (EE) balance. To overcome this challenge, we develop a framework to investigate the resource allocation problem for energy efficient user association in such a scenario. The joint optimization framework aiming at the system EE maximization is formulated as a large-scale non-convex mixed-integer nonlinear programming problem, which is NP-hard to solve directly with lower complexity. Alternatively, taking advantages of sum-of-ratios decoupling and successive convex approximation methods, we transform the original problem into a series of convex optimization subproblems. Thenwe solve each subproblem through Lagrangian dual decomposition, and design an iterative algorithm in a distributed way that realizes the joint optimization of power allocation, sub-channel assignment, and user association simultaneously. Simulation results demonstrate the effectiveness and practicality of our proposed framework, which achieves the rapid convergence speed and ensures a beneficial improvement of system-wide EE.
Highlights
During the past few years, the rapid proliferation of massive wireless smart devices and the trend increase in emerging applications, e.g., eXtended reality (XR), super Hi-vision (8K) videos, ultra-immersivePreprint submitted to Elsevier games, etc., have propelled the unprecedented growth in mobile data traffic
This is a new approach to user-centric view of network optimization design in ultra-dense networks (UDNs) to capture the EE balance through a flexible paradigm of tightly integrating access downlink via non-orthogonal multiple access (NOMA) and backhaul downlink via beamforming from a global standpoint
This research gap motivates us to pursue a solution for the problem of joint resource allocation and user association optimization to maximize the system-wide EE of downlink transmission integrating both access downlink via NOMA and backhaul downlink via beamforming
Summary
During the past few years, the rapid proliferation of massive wireless smart devices and the trend increase in emerging applications, e.g., eXtended reality (XR), super Hi-vision (8K) videos, ultra-immersive. We formulate the resource allocation problem for energy efficient user association under such an integration of user-centric UDNs with NOMA and beamforming as a large-scale non-convex mixedinteger nonlinear programming problem, which is NP-hard to solve in reasonable time with the growing numbers of users and APs. The objective of joint resource allocation and user association is to maximize the system EE of downlink transmission subject to the constraints of achievable data rate for wireless access and backhaul connection, maximum transmit power for the MBS and each AP, and user association relations. An n-dimensional complex vector is represented by Cn×1, whereas Cn×m corresponds to the generalization to an (n×m)-dimensional complex matrix
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