The Internet of Things (IoT) framework requires a massive number of connection thus demanding spectral efficient solutions such as Non-Orthogonal Multiple Access (NOMA). However, the main drawback of NOMA with successive interference canceler (SIC)-based detectors is the error floor in the uplink. In this paper, a reliable multi-user detection in uplink IoT NOMA is guaranteed by a Joint Maximum-Likelihood (JML) detector (i.e., optimum detection algorithm). We derive a closed-form upper bound of bit error rate (BER) of JML over Rayleigh fading channels for arbitrary number of IoT devices and an adaptive M-ary phase shift keying (M-PSK). Based on the extensive simulations, the derived expressions are validated and it is revealed that the JML improves the error performance in uplink NOMA and removes the error floor. Furthermore, regardless of the number of the IoT devices and modulation order, a full diversity order (i.e., number of receiving antennas) is guaranteed for each device.
翻译:物联网(IoT)框架需要大量连接,因此要求使用非正统多重存取(NOMA)等光谱高效解决方案。然而,诺马公司在连续取消干扰探测器(SIC)的基础上的主要缺点是上链接的错误层。在本文中,在上链接IoT NOMA(IOT)中可靠的多用户检测得到联合最大共享检测器(即最佳检测算法)的保证。我们从Rayleigh 淡化频道上获取一个封闭式的JML(BER)点误差率上限,用于任意数量的IoT装置和适应性M-PSK(M-PSK)调换键(M-PSK),根据广泛的模拟,衍生的表达方式得到验证,并显示JML改进了将NOMA(NO)上链接的错误性能并去除错误层。此外,无论IOT装置的数目和调制顺序如何,每个装置都有完全多样化的顺序(即接收天线的数目)的保证。
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