المفاهيم الأساسية
This work presents a standardized approach for reporting propagation measurement data in point form, enabling transparency and utilization by standards bodies and third parties to create statistical channel impulse response models for the newly-released mid-band spectrum (7.25 GHz – 24.25 GHz).
الملخص
The paper highlights the need for a unified method to present key propagation parameters, as the wireless community currently lacks a standardized approach. It proposes a point data representation to provide location-specific channel statistics, in contrast to the commonly used cumulative distribution function (CDF) plots.
The authors provide extensive indoor hotspot (InH) propagation measurement data collected at 6.75 GHz and 16.95 GHz by NYU WIRELESS. The point data includes details on bandwidth, antenna beamwidth, noise-threshold level, and coarseness, as well as large-scale spatio-temporal statistics such as path loss, delay spread, and angular spread.
This standardized point data representation allows for easy pooling of data from multiple contributors, facilitating the development of statistical and site-specific channel models for the new mid-band spectrum. It also enables better understanding, vetting, and building upon the contributions of various data sources.
الإحصائيات
The path loss exponent (PLE) was observed to be 1.34 in line-of-sight (LOS) and 2.72 in non-LOS (NLOS) at 6.75 GHz, and 1.32 in LOS and 3.05 in NLOS at 16.95 GHz.
The RMS delay spread was 37.7 ns and 48 ns at 6.75 GHz, and 22.1 ns and 40.7 ns at 16.95 GHz, revealing a decreasing delay spread with increasing frequency.
The RMS azimuth spread of arrival was 40.9° in LOS and 58.2° in NLOS at 6.75 GHz, and 34.2° in LOS and 43.5° in NLOS at 16.95 GHz, suggesting a spatial richness of multipath.
اقتباسات
"The wireless community currently lacks a unified method for presenting key parameters required for transparency and utilization by several constituencies when presenting propagation data for use by standard bodies or third parties to create statistical CIR models."
"The method for presenting propagation data, proposed here, may be used for statistical channel modeling of pooled datasets from many contributors, additionally also holding promise for exploring ray-tracing (e.g. site-specific) channel modeling."