Millimeter-wave communication with high throughput and high reliability is poised to be a gamechanger for V2X and VR applications. However, mmWave links are notorious for low reliability since they suffer from frequent outages due to blockage and user mobility. Traditional mmWave systems are hardly reliable for two reasons. First, they create a highly directional link that acts as a single point of failure and cannot be sustained for high user mobility. Second, they follow a `reactive' approach, which reacts after the link has already suffered an outage. We build mmReliable, a reliable mmWave system that implements smart analog beamforming and user tracking to handle environmental vulnerabilities. It creates custom beam patterns with multiple lobes and optimizes their angle, phase, and amplitude to maximize the signal strength at the receiver. Such phase-coherent multi-beam patterns allow the signal to travel along multiple paths and add up constructively at the receiver to improve throughput. Of course, multi-beam links are resilient to occasional blockages of few beams in multi-beam compared to a single-beam system. With user mobility, mmReliable proactively tracks the motion in the background by leveraging continuous channel estimates without affecting the data rates. We implement mmReliable on a 28 GHz testbed with 400 MHz bandwidth and a 64 element phased-array supporting 5G NR waveforms. Rigorous indoor and outdoor experiments demonstrate that mmReliable achieves close to 100% reliability providing 1.5 times better throughput than traditional single-beam systems.


翻译:高通量和高可靠性的米米-米波通信将成为一个V2X和VR应用程序的游戏交换器。 但是,毫米Wave链接臭名昭著,因为由于阻塞和用户的流动性而经常中断,因此可靠性低。传统毫米Wave系统几乎不可靠,原因有二。首先,它们产生高度方向链接,作为单一的故障点,无法维持用户的高度流动性。第二,它们采用“反应”方法,在链接已经失效后作出反应。我们建造了毫米可恢复性,一个可靠的毫米Wave系统,该系统使用智能模拟模版成型和用户跟踪处理环境脆弱性。它创造了多叶形和用户频繁中断的定制模式,并优化其角度、阶段和振动性,以最大限度地提高接收器的信号强度。这种相近的多波谱式多波段模式使得信号沿着多个路径行走下去,并在接收器上增加建设性改进透力。当然,多波段连接比多波段的偶然阻断型系统有弹性,在多波段内安装少量的阻隔段内,用于处理环境弱点,处理环境弱点。它造模模式模式模式模式模式模式,在不动的频率中,在不动轨道上显示单一的轨道的轨道内,以持续地段内,在持续地平流数据流数据流数据流数据流数据流数据流速度上则在连续的轨道上显示速度。

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