Abstract
Cell range expansion (CRE) is a technique to expand a pico cell range virtually by adding a bias value to the pico received power, instead of increasing transmit power of pico base station (PBS), so that coverage, cell-edge throughput, and overall network throughput are improved. Many studies have focused on inter-cell interference coordination (ICIC) in CRE, because macro base station’s (MBS’s) strong transmit power harms the expanded region (ER) user equipments (UEs) that select PBSs by bias value. Optimal bias value that minimizes the number of outage UEs depends on several factors such as the dividing ratio of radio resources between MBSs and PBSs. In addition it varies from UE to another. Thus, most articles use the common bias value among all UEs determined by trial-and-error method. In this article, we propose a scheme to determine the bias value of each UE by using Q-learning algorithm where each UE learns its bias value that minimizes the number of outage UEs from its past experience independently. Simulation results show that, compared to the scheme using optimal common bias value, the proposed scheme reduces the number of outage UEs and improves network throughput.
Highlights
Owing to the increase in demand in wireless bandwidth, serving by only macro base stations (MBSs) has become insufficient to serve the network’s user equipments (UEs)
We show the number of connected UEs and expanded region (ER) UEs when the ratio of Resource blocks (RBs) of pico BS (PBS) (PRBs), the splitting ratio between MBS and PBS is 40% that means the numbers of RBs of pico and macro are 20 and 30, respectively (Figures 4 and 5)
To the best of our knowledge, there have been no studies on the optimal bias value that minimizes the number of outage UEs, because this value depends on several factors such as the dividing ratio of radio resource between MBSs and PBSs, and it is determined only by trial-and-error method
Summary
Owing to the increase in demand in wireless bandwidth, serving by only macro base stations (MBSs) has become insufficient to serve the network’s user equipments (UEs). Where (wpmilot)dB, (wppilot)dB, and ( bias)dB represent the decibel value of pilot signal power from MBS and PBS, and bias value, respectively, [1] In this way, the pico cell range can be artificially extended. Because of the difficulty to find the suitable sets of the ratio of radio resource and UEs’ distribution, most articles use the common bias value among all UEs [1,3]. Cell range expansion with Q-learning Though many articles use common bias value among all BSs and all UEs, UEs can improve coverage area by using their own bias values. Because of the difficulty to find the optimal bias value of each UE, in this article, we propose the scheme that every UE decides bias value independently to minimize the number of outage UEs by using Q-learning.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
