Millimeter wave (mm-wave) at 60 GHz is a revolutionary technology for ultra-high data rate indoor communications. Unfortunately, due to unfavorable channel characteristics, communication at 60 GHz suffers from poor link budget, high penetration loss and severe signal attenuation. To improve the link budget and the quality of the received signal, the beamforming techniques must be incorporated. In this paper, we derive analytically tractable bit error rate (BER) for the analog beamforming aided mm-wave communication system over the modified IEEE 802.15.3c channel model. It also takes into account the impact of the Rake receivers, which are used to capture the signal energy carried by the multipath components. Monte Carlo simulations have also been carried out to validate the accuracy of the analytical framework. In addition, the impact of Rake’s fingers, power decay factors and arrival times on the BER of the 60 GHz system is also highlighted.

60 GHz的毫米波（mm-wave）是用于超高数据速率室内通信的革命性技术。不幸的是，由于不利的信道特性，在60 GHz上的通信遭受了较差的链路预算，较高的穿透损耗和严重的信号衰减。为了提高链路预算和接收信号的质量，必须合并波束成形技术。在本文中，我们在改进的IEEE 802.15.3c信道模型上推导了模拟波束形成辅助毫米波通信系统的解析可控的误码率（BER）。它还考虑了Rake接收器的影响，该接收器用于捕获多径组件所携带的信号能量。还进行了蒙特卡洛模拟，以验证分析框架的准确性。此外，