Abstract
As one of the key technologies in the fifth-generation mobile communication system, non-orthogonal multiple access (NOMA) has been investigated. In NOMA, multiple terminals are assigned the same frequency resources by a scheduler on the basis of the difference in propagation losses between a base station and user terminals. Each terminal cancels the signals for the other terminals and extracts its desired signal. On the other hand, the application of joint maximum likelihood (ML) detection to overloaded signals has also been investigated, and joint ML detection can be applied to a NOMA downlink. In this paper, the effect of joint ML detection in a heterogeneous NOMA network is presented. The numerical results obtained through system-level simulation show that joint ML detection in a heterogeneous NOMA downlink can effectively offload mobile traffic from a macro base station to a pico base station. It is shown that a heterogeneous NOMA network with joint ML detection improves the throughput performance by 0.2 bit/user/subcarrier as compared to that without joint ML detection at a cumulative probability of 0.5. The system throughput is also increased about twofold with joint ML detection.
Highlights
The amount of mobile traffic has increased explosively in recent years owing to the rise in the penetration rate of mobile devices such as smart phones
The throughput is calculated with the parameters such as the signal-tointerference-plus-noise ratio (SINR), the difference in the phases of the received signal streams, and the modulation orders of the transmit symbols that are selected from Quadrature phase shift keying (QPSK), 16QAM, 64QAM, and 256QAM
5 Conclusions In this study, a joint maximum likelihood (ML) detection scheme for the demodulation of overloaded signals has been applied to the heterogeneous non-orthogonal multiple access (NOMA) network
Summary
The amount of mobile traffic has increased explosively in recent years owing to the rise in the penetration rate of mobile devices such as smart phones. It is expected to increase 1000-fold from 2010 to 2020 [1]. To accommodate such a large amount of mobile traffic, the concept of the fifth-generation mobile communication system (5G) has been discussed. In the downlink of the NOMA scheme, multiple user terminals are assigned the same frequency resources. These user terminals are located at different positions relative to a base station, and their propagation losses are different. The base station transmits signals to these user terminals with different transmission powers. The receiver in the user terminal that is closer to the base station eliminates the signals for the other user terminals
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