[Federal Register Volume 85, Number 117 (Wednesday, June 17, 2020)]
[Proposed Rules]
[Pages 36522-36526]
From the Federal Register Online via the Government Publishing Office [www.gpo.gov]
[FR Doc No: 2020-12845]


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FEDERAL COMMUNICATIONS COMMISSION

47 CFR Parts 1 and 54

[GN Docket No. 20-32; DA 20-594; FRS 16841]


Office of Economics and Analytics and Wireline Competition Bureau 
Seek Comment on Adjustment Factor Values for the 5G Fund

AGENCY: Federal Communications Commission.

ACTION: Proposed rule.

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SUMMARY: In this document, the Office of Economics and Analytics 
(Office) and the Wireline Competition Bureau (Bureau) propose and seek 
comment on specific adjustment factor values for purposes of bidding in 
the 5G Fund auction as well as for disaggregating legacy support. The 
Office and Bureau seek comment on these adjustment factor values and 
specifically on whether these values are appropriate to achieve the 
Commission's objective of distributing 5G Fund and legacy support to a 
range of areas across the country that are geographically and 
economically diverse, and to ensure that the 5G Fund supports those 
areas that absent such support would be unlikely to reap the benefits 
of 5G deployment.

DATES: Comments are due on or before July 7, 2020; reply comments are 
due on or before August 6, 2020.

ADDRESSES: Pursuant to Sec. Sec.  1.415 and 1.419 of the Commission's 
rules, 47 CFR 1.415, 1.419, interested parties may file comments and 
reply comments identified by GN Docket No. 20-32 on or before the dates 
indicated on the first page of this document. Comments may be filed 
using the Commission's Electronic Comment Filing System (ECFS). See 
Electronic Filing of Documents in Rulemaking Proceedings, 63 FR 24121 
(1998).
     Electronic Filers: Comments may be filed electronically 
using the internet by accessing the Commission's Electronic Comment 
Filing System (ECFS) at https://www.fcc.gov/ecfs/. Except when the 
filer requests that materials be withheld from public inspection, any 
document may be submitted electronically through the Commission's ECFS. 
Persons that need to submit confidential filings to the Commission 
should follow the instructions provided in the Commission's March 31, 
2020 public notice, DA 20-361, regarding the procedures for submission 
of confidential materials.
     Paper Filers: Parties who choose to file by paper must 
file an original and one copy of each filing. Filings can be sent by 
commercial overnight courier, or by first-class or overnight U.S. 
Postal Service mail. All filings must be addressed to the Commission's 
Secretary, Office of the Secretary, Federal Communications Commission.
     Commercial Overnight mail (other than U.S. Postal Service 
Express Mail and Priority Mail) must be sent to 9050 Junction Dr., 
Annapolis Junction, Annapolis, MD 20701.
     U.S. Postal Service first-class, Express, and Priority 
mail must be addressed to 445 12th St. SW, Washington, DC 20554.
     Effective March 19, 2020, and until further notice, the 
Commission no longer accepts any hand or messenger delivered filings. 
This is a temporary measure taken to help protect the health and safety 
of individuals, and to mitigate the transmission of COVID-19. See FCC 
Announces Closure of FCC Headquarters Open Window and Change in Hand-
Delivery Policy, Public Notice, DA 20-304 (March 19, 2020). https://www.fcc.gov/document/fcc-closes-headquarters-open-window-and-changes-hand-delivery-policy.
     During the time the Commission's building is closed to the 
general public and until further notice, if more than one docket or 
rulemaking number appears in the caption of a proceeding, paper filers 
need not submit two additional copies for each additional docket or 
rulemaking number; an original and one copy are sufficient.

FOR FURTHER INFORMATION CONTACT: Kate Matraves, Economic Analysis 
Division, Office of Economics and Analytics, (202) 391-6272 or 
[email protected], or Emily Burke, Auctions Division, Office 
of Economics and Analytics, (202) 418-1470 or [email protected].

SUPPLEMENTARY INFORMATION: This is a summary of the Adjustment Factor 
Comment Public Notice, GN Docket No. 20-32, DA 20-594, released on June 
5, 2020. The complete text of this document and its appendices is 
available for public inspection and

[[Page 36523]]

copying during regular business hours from 8:00 a.m. to 4:30 p.m. ET 
Monday through Thursday or from 8:00 a.m. to 11:30 a.m. ET on Fridays 
in the FCC Reference Information Center, Room CY-A257, 445 12th Street 
SW, Washington, DC 20554, except when FCC Headquarters is otherwise 
closed to visitors. See Public Notice, Restrictions on Visitors to FCC 
Facilities, March 12, 2020. The complete text of this document and its 
appendices are also available on the Commission's website at https://www.fcc.gov/document/bureau-seek-comment-adjustment-factor-values-5g-fund or by using the search function for GN Docket No. 20-32 on the 
Commission's ECFS web page at https://www.fcc.gov/ecfs/. Alternative 
formats (braille, large print, electronic files, audio format) are 
available to persons with disabilities by sending an email to 
[email protected] or by calling the Consumer & Governmental Affairs Bureau 
at (202) 418 0530 (voice), (202) 418-0432 (TTY).

I. Introduction

    1. On April 23, 2020, the Commission adopted the 5G Fund NPRM and 
Order, 85 FR 31636, May 26, 2020, 85 FR 34525, Jun. 5, 2020, in which 
it proposed to adopt rules and a framework for establishing the 5G Fund 
for Rural America. Using multi-round reverse auctions, the 5G Fund 
would provide up to $9 billion to support 5G service in rural areas of 
the country that otherwise would be unlikely to see unsubsidized 
deployment. Every American, including those living in rural areas, 
should have access to high-speed, mobile wireless broadband networks 
that are capable of providing 5G service in order to facilitate the 
development of new technologies, foster economic growth, and ensure 
that educational opportunities are widely available. To account for the 
relative costs of serving areas that vary in terrain characteristics 
and potential business cases, the Commission proposed to apply an 
adjustment factor to make the most difficult areas to serve more 
attractive at auction in order to encourage more bidding for these 
areas. The adjustment factor also would be used to transition legacy 
high-cost support to 5G Fund support. The Office of Economics and 
Analytics (Office) and the Wireline Competition Bureau (Bureau) seek 
comment on proposed adjustment factor values and on three economic 
analyses that have informed their proposed adjustment factor values.
    2. In the 5G Fund NPRM and Order, the Commission declared its 
commitment to bridging the digital divide and proposed to dedicate 
universal service funds to bring 5G mobile wireless service to the 
rural areas where there is likely insufficient financial incentive for 
mobile wireless carriers to invest in 5G-capable networks absent 
support. In proposing the 5G Fund as a replacement for Mobility Fund 
Phase II (which focused on 4G LTE), the Commission recognized that all 
American consumers, not just those living in urban areas, must have 
access to the most current and advanced technologies and services 
available in the marketplace in order to fully participate in today's 
society. By supporting the construction and operation of 5G mobile 
broadband networks in areas that may otherwise go unserved, the 
Commission stated that it can help Americans living, working, and 
traveling in rural communities gain access to communication options on 
par with those offered in urban areas.
    3. The Commission proposed in the 5G Fund NPRM and Order to use a 
multi-round, descending clock auction similar to the Connect America 
Fund Phase II for Phase I of the 5G Fund to identify: (1) The areas 
that will receive support; (2) the provider that will be assigned to 
receive support in each such area; and (3) the amount of support that 
each winning bidder will be eligible to receive. Further, the 
Commission proposed that bids for 5G Fund support would be accepted and 
winning bids would be determined based on a support price per adjusted 
square kilometer of the eligible area covered by the bid. To determine 
the adjusted square kilometers of the eligible areas, the Commission 
proposed to incorporate an adjustment factor into the auction design. 
This factor would assign a weight to be applied to the actual square 
kilometers of eligible areas that would reflect, among other things, 
the relative cost of serving areas with differing terrain 
characteristics, as well as the potential business case for serving 
each area. In the Mobility Fund Phase II Report and Order, 82 FR 154221 
(Mar. 28, 2017), 82 FR 13413 (Mar. 13, 2017), the Commission 
acknowledged that terrain could affect the cost of deploying service, 
noting that more mountainous terrains with greater variations in slope 
are areas that tend to be more costly to serve than level plains. A 
terrain factor was adopted in Mobility Fund Phase II to weight the area 
of each square kilometer within a census block such that eligible areas 
in more mountainous areas would be allocated a greater amount of a 
competitive ETC's total legacy support to reflect the higher costs of 
serving such areas. The Commission explained in the 5G Fund NPRM and 
Order that the auction format proposed for the 5G Fund is one in which 
a uniform support rate is offered across all eligible areas, and 
carriers indicate which specific areas they would service at that rate. 
If the sum of all payments that would be made at a specific rate given 
carriers' expressed willingness to serve exceeds the 5G Fund budget, 
then the rate would decrease and carriers would express their 
willingness to serve at the lower rate. This process would continue 
until the payment is less than or equal to the 5G Fund budget. Under 
this process, carriers would be willing to serve fewer areas as the 
rate falls, but if the same rate is offered for all remaining areas, 
more support than is needed would flow to the less costly-to-serve and 
more profitable remaining areas. The adjustment factor would, 
therefore, allocate a multiple of any given support rate to more costly 
and less profitable areas, thereby making them more attractive to serve 
and increasing the support to such areas.
    4. In addition, for purposes of transitioning legacy high-cost 
support to 5G support, the Commission proposed to disaggregate legacy 
high-cost support. To account for the relative costs of providing 
mobile service, the Commission proposed to apply an adjustment factor 
to these disaggregation steps. This adjustment factor would determine 
how support will be treated during the transition across difference 
types of areas--for example, how support will be disaggregated across 
eligible and ineligible portions of the legacy support area, as well as 
in eligible portions of the legacy support area where a bidder wins 
support and where there is no winner. In other words, the Commission 
proposed to multiply the actual square kilometers of eligible areas 
and/or disaggregated areas of legacy support by an adjustment factor so 
as to increase the amount of support per actual square kilometer that 
goes to more costly or less profitable areas.
    5. In the 5G Fund NPRM and Order, the Commission directed the 
Office and Bureau to propose and seek comment on the appropriate 
adjustment factor values and the underlying methodologies that could be 
used to develop them, and recommended that they inform their proposals 
by using data from several sources, including the U.S. Geological 
Survey, historical coverage and infrastructure deployment data received 
by the Commission, data from the U.S. Census Bureau, spectrum holdings 
information, and Mobility Fund Phase I auction data. In the Adjustment 
Factor Comment Public Notice, the Office and Bureau propose specific 
adjustment

[[Page 36524]]

factor values for purposes of bidding in the 5G Fund auction as well as 
for disaggregating legacy support. These proposed values reflect the 
Office and Bureau's evaluation of the costs and benefits of providing 
5G services to different geographic areas, as informed and supported by 
three economic analyses developed by Commission staff and described in 
detail in Appendix B to the Adjustment Factor Comment Public Notice. 
The Office and Bureau seek comment on these adjustment factor values 
and specifically on whether these values are appropriate to achieve the 
Commission's objective of distributing 5G Fund and legacy support to a 
range of areas across the country that are geographically and 
economically diverse, and to ensure that the 5G Fund supports those 
areas that absent such support would be unlikely to reap the benefits 
of 5G deployment.

II. Determination of an Adjustment Factor

    6. In this section, the Office and Bureau first describe the cost 
factors underlying the deployment of a 5G network in rural areas, as 
well as the potential expected revenues for each area, and then propose 
certain adjustment factor values and provide a summary of the three 
underlying economic analyses used to develop these values. In Appendix 
A to the Adjustment Factor Comment Public Notice, the Office and Bureau 
provide a terrain elevation map of the United States. In Appendix B to 
the Adjustment Factor Comment Public Notice, the Office and Bureau 
provide a detailed description of the three economic analyses under 
comment, which account for the expected variations in terrain and 
revenues across different geographic areas.

A. Factors Underlying an Adjustment Factor

    7. Deploying 5G wireless networks in rural areas is a capital-
intensive investment primarily driven by the costs of deploying base 
station cell sites. The costs of constructing, operating, and upgrading 
tower sites, or leasing tower sites, will vary depending on factors 
such as the location's remoteness, distance to the nearest road, access 
to backhaul, variance in terrain elevation, land cover, and the cost of 
local construction and installation labor. The potential coverage area 
of a site, and hence the number of sites needed, in turn will depend on 
the specific site location, antenna height above average terrain, 
terrain variation, foliage and the density of local structures, the 
spectrum band, and the number of subscribers served. Terrain variation 
can limit overall signal propagation and cell coverage depending on the 
specific location of the cell site due to the obstructions of the 
signal's path. For example, in a hilly area with terrain obstacles, 
signal propagation losses are more severe at higher frequencies, 
although a cell site would typically be located on higher ground in 
order to minimize terrain obstructions.
    8. Site Costs. The initial capital expenditure for deploying a 
wireless network base station includes site construction costs, such as 
site acquisition; site development; leasehold improvements; shelter, 
including the equipment shelter and installation services; structure 
cost including the tower structure, design, construction, and 
installation costs; radio frequency cost including the radio and 
baseband electronics, antennas, and cables; and backhaul cost including 
equipment and service to connect the site to the core network. 
Collocation on an existing tower generally should cost less than 
building a new tower site, but it is less likely that existing towers 
are available in more remote and unserved areas. In addition, deploying 
new sites in hillier terrain is likely to incur higher site costs due 
to the need to construct backhaul and leasehold improvement 
requirements such as constructing road and utility access, in addition 
to excavating a level space with proper drainage to construct a tower. 
Remote site development costs are largely dependent on the specific 
location and the leasehold improvements required can vary 
significantly. It is typically more expensive to provide service to 
rural subscribers due to the scarcity of utility and other services and 
the long distances required to travel to reach the sites in less 
densely populated areas, especially if terrain is more mountainous.
    9. Spectrum. Spectrum bands can be classified broadly as: Low-band 
(below 1 GHz), mid-band (between 1 GHz and 6 GHz), and high-band. Each 
band has unique coverage and capacity properties; low-band spectrum is 
better suited for wider coverage (both in terms of range as well as 
better indoor penetration) and higher-band spectrum is better suited 
for higher capacity and throughput. The wavelength of the signal, which 
is inversely proportional to frequency, impacts the signal's ability to 
propagate over and around obstacles and to penetrate various building 
materials and land cover such as trees and shrubs. A higher frequency 
signal is generally attenuated more at greater distances than a lower 
frequency signal due to antenna and atmospheric effects. Frequencies 
below 1 GHz experience lower propagation losses and therefore can 
provide coverage over a larger area which leads to cost advantages for 
network deployment in rural areas. Higher frequency bands, on the other 
hand, are typically available in larger channel bandwidths which lead 
to higher throughput speeds but the wavelength of the signal results in 
greater propagation losses. A higher frequency signal generally 
encounters higher penetration losses as it propagates through 
obstructions such as buildings or trees; larger amounts of contiguous 
spectrum are typically available in higher operating frequencies than 
in lower frequencies. The additional contiguous spectrum, however, 
allows for assignment of larger channel bandwidths, thereby making 
available more capacity as compared to lower frequencies. Mobile 
wireless carriers, depending on their spectrum holdings, may be able to 
simultaneously deploy low and mid-band spectrum in rural areas to take 
advantage of both propagation and capacity capabilities, respectively. 
If the cost of spectrum is lower in more rural areas, this could 
significantly offset many of the other higher site costs. In addition, 
5G technology enables carrier aggregation to further optimize the 
desired coverage, throughput, and capacity. Carrier aggregation enables 
the use of two different channels within the same frequency spectrum or 
in different spectra, allowing, for example, the augmentation of low 
band propagation capabilities with mid band capacity advantages.
    10. The Office and Bureau propose to use various cost 
characteristics as outlined here and described in more detail in 
Appendices A and B to the Adjustment Factor Comment Public Notice--
including terrain elevation, spectrum frequency and clutter--to capture 
the relative cost of serving areas with differing terrain 
characteristics. The Office and Bureau seek comment on this proposal.
    11. Business Case: Demand Factors. As well as being geographically 
diverse, the United States is economically diverse. As set out in the 
5G Fund NPRM and Order, in addition to relative cost characteristics, 
the adjustment factor values the Office and Bureau propose should also 
capture the expected revenues that might be generated in each area. The 
Office and Bureau propose to use various economic characteristics--
including income, GDP, and population density--as proxies for the 
demand factors in each of the economic analyses. The Office and Bureau 
seek comment on this proposal.

[[Page 36525]]

B. Proposed Adjustment Factor Values

    12. The Commission proposed in the 5G Fund NPRM and Order to adopt 
an adjustment factor that would assign a weight to specific geographic 
areas. The proposed adjustment factor values would increase the 
likelihood that 5G Fund support is distributed to geographically and 
economically diverse areas by taking into account the differences among 
such areas in the costs and benefits of providing services. The 
Commission also proposed a process in the 5G Fund NPRM and Order to 
disaggregate legacy high-cost support. As the Commission explained, to 
disaggregate legacy support, it ``would overlay the boundaries of 
eligible areas and the minimum geographic area for bidding over each 
legacy support recipient's service area[,]'' in effect ``subdivid[ing] 
the geographic boundary for each carrier's subsidized service area into 
the smallest constituent piece for which support must be disaggregated 
and transitioned separately'' and then apply the adjustment factor to 
each such area. In this way, a larger portion of a carrier's 
disaggregated legacy high-cost support would be assigned to those 
portions of its subsidized service area that have a higher adjustment 
factor, using the same values calculated for bidding. For example, 
suppose that a carrier receives $100 in legacy high-cost support for 
its subsidized service area, the entirety of which is eligible for 5G 
Fund support. If 15 square kilometers of the service area falls within 
census tract A, which has an adjustment factor value of 2.0, and 70 
square kilometers of the service area falls within census tract B, 
which has an adjustment factor value of 1.0, the Commission would 
disaggregate its legacy support and assign $30 to the portion of the 
service area in census tract A and $70 to the portion of the service 
area in census tract B. The 5G Fund NPRM and Order directs the Office 
and Bureau to propose specific values for the adjustment factor and to 
detail the underlying methodologies that could be used to develop the 
weights. The Office and Bureau accordingly seek comment on how to apply 
the adjustment factor to the disaggregation of legacy support.
    13. First, the Office and the Bureau seek comment on the adjustment 
factor values presented in Figure 1, which synthesize and are informed 
by the three economic analyses. Each of the economic analyses estimates 
one or more sets of adjustment factor values. To generate the values 
presented in Figure 1, essentially the Office and Bureau considered a 
middle ground of the three specific analyses so as to take all three 
analyses into account, and then rounded for administrative simplicity. 
The Office and Bureau believe this is the most reasonable way to 
integrate all the results generated by the Entry Model, the Cell Site 
Density Model and the Auction Bidding Model. The explanation of the 
three terrain categories and the demand factors listed in Figure 1 can 
be found in Appendix A and Appendix B to the Adjustment Factor Comment 
Public Notice, respectively. The Office and Bureau seek comment 
generally on their proposed adjustment factor values. The Office and 
Bureau recognize that the Commission does not intend that the 
adjustment factor that is ultimately adopted will capture the full 
differences between the costs and expected revenues of providing 
service to different types of geographic areas. In addition, the 
Commission stated in the 5G Fund NPRM and Order that, if necessary, the 
adjustment factor will be capped to ensure the funding allocation 
determined by the auction is both equitable and efficient. Commenters 
are invited to address whether the specific proposed adjustment factor 
values are consistent with the intentions of the Commission as stated 
in the 5G Fund NPRM and Order.
[GRAPHIC] [TIFF OMITTED] TP17JN20.021

    14. The Office and Bureau seek comment also on the three economic 
analyses that inform their estimated adjustment factor values. The 
technical descriptions of the three economic analyses which informed 
the Office and Bureau's proposal are found in Appendix B to the 
Adjustment Factor Comment Public Notice. The Office and Bureau ask 
commenters to submit any analysis that alternatively or additionally 
might inform the adjustment factor values that the Office and Bureau 
propose. Further, the Office and Bureau seek comment on the data 
sources staff used, and ask that commenters submit alternative data 
sources to the extent that they might better inform the Office's and 
Bureau's analyses. In addition, the Office and Bureau seek comment on 
whether, in determining whether an area would be likely to receive 5G 
service, the Office and Bureau have identified appropriately the 
underlying factors that wireless carriers use in considering whether to 
deploy 5G service. Finally, the Office and Bureau ask commenters to 
submit any alternative methodological approaches and

[[Page 36526]]

analyses for determining the appropriate adjustment factor values.
    15. Entry Model Adjustment Factor. In order to estimate how 
relative costs and revenues differ across geographic areas, the Office 
and Bureau's first analysis examines how geographic areas' physical and 
demographic characteristics affect carriers' network deployment 
decisions. The Office and Bureau assume that carriers only enter areas 
where their long-run incremental revenues are greater than their long-
run incremental cost of deploying wireless mobile service; this implies 
those areas with high demand and low costs attract a greater number of 
carriers than those areas with low demand and high costs. To understand 
what makes an area attractive to carriers, the Office and Bureau 
estimate an ordered logistic regression of the number of carriers 
providing service. To proxy for the carriers' expected revenue 
generated by entering the area and providing service, the Office and 
Bureau include independent variables such as population, local GDP, and 
median household income. To proxy for network deployment costs, the 
Office and Bureau include independent variables such as terrain 
variation and the percentage of forested land. Finally, the Office and 
Bureau include a variable that accounts for past universal service 
support. To construct the adjustment factor, the Office and Bureau 
solve for the adjustments necessary to offset entry probability 
differences caused by variations in terrain and income. The Commission 
has proposed in the 5G Fund NPRM and Order that the adjustment factor 
would be applied in the auction bidding system as a multiplicative 
factor on the number of square kilometers associated with a biddable 
area, so the Office and Bureau estimate the adjustment factor values 
that, all else equal, would make the adjusted square kilometers in all 
areas equally attractive to bidders. To ensure that the model's 
estimated parameters and resulting adjustment factors are robust to 
alternative assumptions, the Office and Bureau report the estimation 
results and the accompanying factors from twelve different 
specifications of the model.
    16. Cell Site Density Model Adjustment Factor. In their second 
analysis, the Office and Bureau estimate the difference in the number 
of cell sites required to provide high-quality 5G service in hillier 
terrain areas compared to flat areas. Since more variability in the 
terrain of a cell site service area tends to reduce the received signal 
strength at a given location, wireless carriers must, all else equal, 
build more cell sites in mountainous rural areas compared to flat rural 
areas to provide the same quality of service (e.g., speed). Using 
county-level cell site locations and coverage data, the Office and 
Bureau's model estimates differences in the average coverage area of a 
site due to the terrain of the site service area, holding all other 
determinants of cell site coverage areas fixed. To predict cell site 
coverage areas by terrain category, the Office and Bureau first run a 
regression analysis of cell site coverage area on variables that 
account for network capacity, network load, signal propagation, and 
service quality. Then using the regression model estimates, the Office 
and Bureau predict the average coverage area of a site in a typical 
rural area for their three terrain categories (flat, hilly, and 
mountainous) to calculate an adjustment factor that estimates how many 
sites per square mile on average are required to deploy comparable 5G 
mobile service in rural areas within each terrain category. If cell 
site deployment costs are the same across terrain categories, the 
adjustment factor values estimate the cost differences in providing 
wireless service across terrain types. If sites cost more to deploy in 
more mountainous terrain, then the adjustment factor values are 
underestimated. The Office and Bureau do not have information on 
deployment cost variation by terrain, so these potential cost 
differences are not accounted for in the estimated adjustment factors 
in the Cell Site Density Model.
    17. Auction Bidding Model Adjustment Factor. In their third 
analysis, the Office and Bureau use Mobility Fund Phase I (Auction 901) 
sealed bid data (i.e., a firm's requested subsidy to provide mobile 
service to a specified unserved geographic area) to understand how 
terrain and other factors impact the bid amount requested by a carrier 
to deploy service. The Office and Bureau assume that a carrier's bid 
amount is a function of its expected revenues, expected competition in 
the auction, and expected costs. The Office and Bureau estimate 
adjustment factor values by applying a regression model that estimates 
the effect of terrain on the bid amount controlling for variables that 
determine revenues and costs. To calculate adjustment factor values, 
the Office and Bureau divide their measure of terrain into the same 
three categories and then predict the expected ratio of bid amounts in 
the hilly and mountainous terrain categories over the bid amount in 
flat terrain while holding all other factors fixed.

III. Procedural Matters

    18. Ex Parte Rules--Permit-But-Disclose. Pursuant to Sec.  
1.1200(a) of the Commission's rules, 47 CFR 1.1200(a), this document 
shall be treated as a ``permit-but-disclose'' proceeding in accordance 
with the Commission's ex parte rules. Persons making ex parte 
presentations must file a copy of any written presentation or a 
memorandum summarizing any oral presentation within two business days 
after the presentation (unless a different deadline applicable to the 
Sunshine period applies).
    19. Persons making oral ex parte presentations are reminded that 
memoranda summarizing the presentation must (1) list all persons 
attending or otherwise participating in the meeting at which the ex 
parte presentation was made, and (2) summarize all data presented and 
arguments made during the presentation. If the presentation consisted 
in whole or in part of the presentation of data or arguments already 
reflected in the presenter's written comments, memoranda or other 
filings in the proceeding, the presenter may provide citations to such 
data or arguments in his or her prior comments, memoranda, or other 
filings (specifying the relevant page and/or paragraph numbers where 
such data or arguments can be found) in lieu of summarizing them in the 
memorandum. Documents shown or given to Commission staff during ex 
parte meetings are deemed to be written ex parte presentations and must 
be filed consistent with Sec.  1.1206(b) of the Commission's rules, 47 
CFR 1.1206(b). In proceedings governed by Sec.  1.49(f) of the 
Commission's rules, 47 CFR 1.49(f), or for which the Commission has 
made available a method of electronic filing, written ex parte 
presentations and memoranda summarizing oral ex parte presentations, 
and all attachments thereto, must be filed through the electronic 
comment filing system available for that proceeding, and must be filed 
in their native format (e.g., .doc, .xml, .ppt, searchable .pdf). 
Participants in this proceeding should familiarize themselves with the 
Commission's ex parte rules.

Federal Communications Commission.
Gary Michaels,
Deputy Chief, Auctions Division, Office of Economics and Analytics.
[FR Doc. 2020-12845 Filed 6-16-20; 8:45 am]
BILLING CODE 6712-01-P