TPRC47: Research Conference on Communications, Information and... has ended
Back To Schedule
Friday, September 20 • 5:16pm - 5:50pm
Spectrum sharing analysis for unlicensed use in 6 GHz using Risk-Informed Interference Assessment

Sign up or log in to save this to your schedule, view media, leave feedback and see who's attending!

Feedback form is now closed.
Click here for full paper.


In October of 2018, the FCC proposed new rules for opening 1.2 GHz of spectrum in the 6 GHz band, from 5925 to 7125 MHz, for unlicensed Wireless Local Area Networks (WLAN) devices. The objective is to allow WLAN in the 6 GHz band while sharing the spectrum with current incumbents. The traditional spectrum sharing approach relies on the worst-case scenario analysis of single events of severe consequences, regardless of their probability of occurrence, which leads to over-conservative use of the spectrum. Risk-Informed Interference Assessment (RIIA) is a quantitative approach that can be successfully applied for spectrum sharing analysis. Based on statistical analysis, RIIA estimates the probability and the consequence of interference. The objective is to allow flexible use of spectrum without being overprotective. It has been applied to a few coexistence studies in the last years and has shown great potential in providing informed insight to spectrum sharing analysis. To date, however, it has not been yet applied to coexistence studies in the 6 GHz band. In this work, we apply RIIA to analyze coexistence between WLAN and each type of incumbent service in this band and propose spectrum sharing mechanisms to reduce the probability of harmful interference.

To facilitate sharing in the 6 GHz band, the FCC has divided it into four sub-bands, from U-NII-5 to U-NII-8, and proposed mitigation rules for each of them depending on the incumbents. This band is allocated to Broadcast Auxiliary Service (BAS) and Cable Television Relay Service (CARS) fixed and mobile links, Fixed Satellite Service (FSS) and fixed point-to-point links. These systems use narrow beamwidth antennas located at elevated heights, while WLANs employ low-power transmitters, mostly indoors, and, typically, omnidirectional antennas at few meters above the ground, which suggests the possibility that little energy from the incumbent links is perceptible on the ground and vice versa. To investigate this hypothesis, we apply RIIA to quantify the level of risk and its consequences to both, incumbent links and WLANs devices.

Our analysis is based upon a three-step method. First, we make an inventory of all significant harmful interference hazards, in our case, 6 GHz Wi-Fi APs and incumbent links that could cause short-term or long-term co-channel interference to the incumbents and Wi-Fi devices, respectively. Second, we define the interference protection criteria for each of them as consequence metrics to characterize the severity of hazards. Finally, the likelihood and consequence of each hazard are analyzed. Using Monte Carlo simulations, we calculate the likelihood of downlink and aggregate interference from/to current incumbents to/from future WLANs and, using an interference protection criterion, determine if this interference can be tolerable. This approach provides detailed coexistence analysis between WLAN and the incumbent services in each 6 GHz sub-band using the RIIA methodology. The results of this analysis will provide decision makers with better information regarding the risks associated with the coexistence of these uses in the 6 GHz sub-bands.


Kelly O'Keefe

U.S. State Department


Nadia Yoza Mitsuishi

University of Colorado Boulder

Peter Mathys

University of Colorado Boulder

David Reed

University of Colorado Boulder

Friday September 20, 2019 5:16pm - 5:50pm PDT
Y115 4300 Nebraska Ave, Washington, DC

Attendees (9)