Litcius/Paper detail

SpaceBeam

Timothy Woodford, Xinyu Zhang, Eugene Chai, Karthikeyan Sundaresan, Amir Khojastepour

202124 citationsDOIOpen Access PDF

Abstract

mmWave 5G networks promise to enable a new generation of networked applications requiring a combination of high throughput and ultra-low latency. However, in practice, mmWave performance scales poorly for large numbers of users due to the significant overhead required to manage the highly-directional beams. We find that we can substantially reduce or eliminate this overhead by using out-of-band infrared measurements of the surrounding environment generated by a LiDAR sensor. To accomplish this, we develop a ray-tracing system that is robust to noise and other artifacts from the infrared sensor, create a method to estimate the reflection strength from sensor data, and finally apply this information to the multiuser beam selection process. We demonstrate that this approach reduces beam-selection overhead by over 95% in indoor multi-user scenarios, reducing network latency by over 80% and increasing throughput by over 2× in mobile scenarios.

Topics & Concepts

Computer scienceOverhead (engineering)Latency (audio)ThroughputRay tracing (physics)Real-time computingReflection (computer programming)Low latency (capital markets)Computer networkTelecommunicationsWirelessProgramming languageQuantum mechanicsOperating systemPhysicsMillimeter-Wave Propagation and ModelingIndoor and Outdoor Localization TechnologiesAdvanced MIMO Systems Optimization