In this paper, we investigate the impact of correlated fading on the performance of wireless multiple access channels (MAC) in the presence and absence of side information (SI) at transmitters, where the fading coefficients are modeled according to the Fisher-Snedecor F distribution. Specifically, we represent two scenarios: (i) clear MAC (i.e, without SI at transmitters), (ii) doubly dirty MAC (i.e., with the non-causally known SI at transmitters). For both system models, we derive the closed-form expressions for the outage probability in independent fading conditions. Besides, exploiting copula theory, we obtain exact analytical expressions for the outage probability under the positive dependence fading conditions in both considered models. Finally, the efficiency of the analytical results is illustrated numerically.
翻译:在本文中,我们调查了在发射机存在和缺乏侧面信息的情况下,无线多进入频道(MAC)性能的相关衰减对无线多进入频道(MAC)性能的影响,在发射机中,衰减系数是根据Fisher-Snedecor F的分布模型模型模型的。具体地说,我们代表两种假设:(一) 明确的MAC(即发射机没有SI),(二) 双重肮脏的MAC(即发射机上不为人所知的SI),(二) 双重肮脏的MAC(即发射机上不为人所知的SI),(二) 两种系统模型中,我们在独立消退条件下都得出出概率的封闭式表达方式。此外,我们利用Copula理论,在两种考虑的模型中,我们获得了对正向依赖性衰减条件下的衰减概率的精确分析表达方式。最后,分析结果的效率用数字说明。