Abstract
Massive Multiple-input Multiple-output (MIMO) is an emerging technology for the 5G wireless communication systems which has the potential to provide high spectral efficient and improved link reliability and accommodate large number of users. Aiming at the problem of pilot contamination in massive MIMO systems, this paper proposes two algorithms to mitigate it. The first algorithm is depending on the idea of Path Loss to perform User Grouping (PLUG) which divide the users into the center and edge user groups depending on different levels of pilot contamination. It assigns the same pilot sequences to the center users which slightly suffer from pilot contamination and assign orthogonal pilot sequences to the edge users which severely suffer from pilot contamination. It is assumed that the number of users at the edge of each cell is the same. Therefore, to overcome such limitations of PLUG algorithm, we propose an improved PLUG (IPLUG) algorithm which provides the decision parameters for user grouping and selects the number of central and edge users in each cell in a dynamic manner. Thus, the algorithm prevents the wrong division of users in good channel conditions being considered as an edge user which causes large pilot overhead, and also identifies the users with worst channel conditions and prevents the wrong division of such users from the center user group. The second algorithm for pilot decontamination utilizes the idea of pseudo-random codes in which orthogonal pilot are assigned to different cells. Such codes are deployed to get a transmission pilot by scrambling the user pilot in the cell. Since the pilot contamination is generated because different cells multiplex the same set of orthogonal pilots and the pseudo-random sequences have good cross-correlation characteristics, this paper uses this feature to improve the orthogonality of pilots between different cells. Simulation results show that the proposed algorithms can effectively improve channel estimation performance and achievable rate as compared with other schemes.
Highlights
With the advent of the era of big data and increasing demand by the explosion of growing numbers of subscribers, the demand for communication networks has exploded, and the existing mobile communication networks (4G) are increasingly unable to meet the needs of users for the network [1]
The current research on massive Multiple-input Multiple-output (MIMO) is generally depending on a Time Division Duplex (TDD) system [13], that is, using channel reciprocity to obtain the required channel state information (CSI) [14], but the limited coherence interval limits the number of orthogonal pilots allocated to the user, which inevitably exists
It is assumed that the antenna spacing is 12 times the carrier wavelength, that is, there is a correlation between the antennas, but the correlation is not considered in this paper, and it is assumed that all the antennas are omnidirectional antennas
Summary
With the advent of the era of big data and increasing demand by the explosion of growing numbers of subscribers, the demand for communication networks has exploded, and the existing mobile communication networks (4G) are increasingly unable to meet the needs of users for the network [1]. Massive MIMO is a key technology for 5G wireless communications to increase the spectral efficiency [2,3,4]. As massive MIMO utilizes different frequencies in a Frequency Division. The current research on massive MIMO is generally depending on a Time Division Duplex (TDD) system [13], that is, using channel reciprocity to obtain the required channel state information (CSI) [14], but the limited coherence interval limits the number of orthogonal pilots allocated to the user, which inevitably exists. The use of the same pilot by different cell users results in the inability of the Base Station (BS) to distinguish between pilot contamination [15]
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