Millimeter wave (mmWave) will play a significant role as a 5G candidate in facing the growing demand of enormous data rate in the near future. The conventional mmWave standard, IEEE 802.11ad, considers establishing only one mmWave link in wireless local area network (WLAN) to provide multi Gbps data rate. But, mmWave has a tenuous channel which hinders it from providing such rate. Hence, it's necessary to establish multiple mmWave links simultaneously by deploying a multiple number of mmWave access points (APs) in 5G networks. Unfortunately, applying conventional standard without any modifications for mmWave concurrent transmission impedes mmWave APs from selecting optimum mmWave concurrent links. Because IEEE 802.11ad standard associates the user equipment (UEs) to mmWave APs using the link that has the maximum received power without considering mutual interference between simultaneous links. In this paper, a joint proportional fairness scheduling (JPFS) optimization problem for establishing optimum mmWave concurrent transmission links is formulated. And, to find a solution to this non-polynomial (NP) time problem, we use exhaustive search (ES) scheme. Numerical simulation proves the effectiveness of using the ES scheme to improve the system performance.

翻译：mmWave 将作为一个 5G 候选人在面对近期内对巨大数据速率日益增长的需求时扮演重要角色。 常规 mmWave 标准 IEEE 802. 11ad, 考虑在无线局域网( WLAN) 中只建立一毫米Wave 链接, 以提供多Gbps 数据速率。 但是, mmWave 有一个薄弱的通道, 这使它无法同时提供这种速率。 因此, 有必要同时在 5G 网络中部署多个 mmWave 接入点, 从而同时建立多毫米Wave 连接。 不幸的是, 在不修改 mmWave 同时传输 常规标准的情况下, 阻碍 mmWave AP 选择最佳 mmWave 同时连接 。 因为 IEEEE 802. 802. 11ad 标准将用户设备( UES) 连接到 mmWave APs, 使用该链接拥有最大电源, 而没有考虑同时连接的相互干扰率 。 因此, 我们使用彻底的 ES 系统 测试 系统 来改进效果系统 。