ATTACHMENT B 
to FCC Public Notice DA 17-365 
Preliminary Views and Draft Proposals formulated and approved within the  
National Telecommunications and Information Administration: 
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Document WAC/025(18.04.17)
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Document WAC/026(18.04.17)
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Document WAC/028(18.04.17) 
April 3, 2017 
Mr. Robert Nelson 
Chief Engineer, International Bureau 
Federal Communications Commission 
445 12th Street, SW 
Washington, DC 20554 
Dear Mr. Nelson: 
The National Telecommunications and Information Administration (NTIA), on behalf of the Executive 
Branch, approves the release of two Executive Branch draft preliminary views for the 2019 World 
Radiocommunication Conference (WRC-19).  The preliminary views address: 
1. Agenda item 1.2, which considers in-band power limits for earth stations operating in the
mobile-satellite service, meteorological-satellite service and Earth exploration-satellite 
service in the frequency bands 401-403 MHz and 399.9-400.05 MHz, in accordance with 
Resolution 765 (WRC-15). 
2. Agenda item 1.3, which considers possible upgrading of the secondary allocation to the
meteorological-satellite service (space-to-Earth) to primary status and a possible primary 
allocation to the Earth exploration-satellite service (space-to-Earth) in the frequency band 
460-470 MHz, in accordance with Resolution 766 (WRC-15). 
NTIA considered the federal agencies' inputs toward the development of these two documents.  NTIA 
forwards this package for your consideration and review by the FCC WRC-19 Advisory Committee.  Mr. 
Charles Glass is the primary contact from my staff (202-482-1896 or cglass@ntia.doc.gov). 
Sincerely, 
Paige R. Atkins 
    Associate Administrator 
Office of Spectrum 
Management 
Enclosures (2) 
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UNITED STATES OF AMERICA 
DRAFT PRELIMINARY VIEWS FOR WRC-19 
AGENDA ITEM 1.2: to consider in-band power limits for earth stations operating in the mobile-satellite 
service, meteorological-satellite service and Earth exploration-satellite service in the frequency bands 
401-403 MHz and 399.9-400.05 MHz, in accordance with Resolution 765 (WRC-15). 
ISSUE: Resolution 765 (WRC-15) – Establishment of in-band power limits for earth stations operating 
in mobile-satellite service, the meteorological-satellite service and the Earth exploration-satellite service 
in the frequency bands 401-403 MHz and 399.9 400.05 MHz, calls for the necessary technical, operational 
and regulatory consideration of the possibility of establishing in-band power limits for earth stations in 
the EESS and MetSat services in the frequency bands 401-403 MHz and in the MSS frequency band 
399.9-400.05 MHz. 
It is necessary to have stable regulatory certainty in order to be able to provide long-term continuity for 
the operation of data collection systems (DCS).  DCS represents long-term efforts and significant 
investments.  The establishment of in-band power limits for earth stations operating in the EESS, MetSat 
service, and MSS will bring confidence for DCS operators using the frequency bands 401-403 MHz and 
399.9-400.05 MHz. 
BACKGROUND: The Earth exploration-satellite service (EESS) (Earth-to-space) and meteorological-
satellite service (MetSat) (Earth-to-space) systems deployed in the frequency band 401-403 MHz and 
mobile-satellite service (MSS) (Earth-to-space) systems in the frequency band 399.9-400.05 MHz are 
currently used for DCS.  These systems usually operate most efficiently together by using moderate to 
low e.i.r.p. levels, resulting in small link margins. 
Recommendation ITU-R SA.2045 provides information on the performance and interference criteria for 
relevant geostationary-satellite orbit (GSO) and non-geostationary satellite (non-GSO) DCS in the 
frequency band 401-403 MHz.  Recommendation ITU-R SA.2044 provides information on the current 
and future usage of non-GSO DCS in the frequency band 401-403 MHz, and the portioning of the 
frequency band to allow all DCS equal access to the spectrum.  Recommendation ITU-R M.2046 
provides a description, and the corresponding protection criteria for broadband noise and narrowband 
interference, of one MSS system that uses the frequency band 399.9-400.05 MHz (Earth-to-space). 
EESS, MetSat, and MSS systems are indispensable for monitoring and predicting climate change; 
monitoring oceans, weather, and water resources. Additionally, these systems assist in protecting 
biodiversity, and improve maritime safety, and security.  There are a growing number of satellite 
operators planning to use these frequency bands for telecommand purposes under the EESS, MetSat 
service, or MSS allocations. 
The output power levels of the earth stations at the antenna port of these telecommand links (Earth-to-
space) can be much higher than the moderate to low power levels traditionally used for the operation of 
EESS, MetSat, or MSS systems, and service links in the frequency bands 401-403 MHz and 399.9-400.05 
MHz. 
U.S. VIEW: The United States supports conducting and completing the necessary technical, 
operational, and regulatory studies on the possibility of establishing in-band power limits for 
earth stations in the EESS and MetSat service in the frequency band 401-403 MHz and the MSS 
in the frequency band 399.9-400.05 MHz. 
___________ 
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UNITED STATES OF AMERICA 
DRAFT PRELIMINARY VIEWS FOR WRC-19 
AGENDA ITEM 1.3: to consider possible upgrading of the secondary allocation to the meteorological-
satellite service (space-to-Earth) to primary status and a possible primary allocation to the Earth 
exploration-satellite service (space-to-Earth) in the frequency band 460-470 MHz, in accordance with 
Resolution 766 (WRC-15). 
ISSUE: This agenda item relates to consideration of possible upgrade of the secondary allocation to the 
meteorological-satellite service (space-to-Earth) to primary status and a possible primary allocation to the 
Earth exploration-satellite service (space-to-Earth) in the frequency band 460-470 MHz, in accordance 
with Resolution 766 (WRC-15). 
The ITU-R is invited to study: 
? Sharing and compatibility studies of such an upgrade while protecting existing primary fixed and
mobile services.
? Determine the appropriate pfd limits to place on MetSat (space-to-Earth), and EESS (space-to-
Earth) systems to protect existing primary services.
BACKGROUND: The 460-470 MHz band is allocated on a primary basis to the fixed and mobile 
services.  The meteorological-satellite service currently has a secondary allocation in this band.  Under 
No. 5.289, “Earth exploration-satellite service applications, other than the meteorological-satellite 
service, may also be used in the bands 460-470 MHz for space-to-Earth transmissions subject to not 
causing harmful interference to stations operating in accordance with the Table”. 
Within this band, the Argos Data Collection System (ADCS) monitors more than 21,000 active Argos 
platforms collecting data for over 2,000 distinct projects in 100+ countries.  The administration of the 
Argos program is under a joint agreement between the National Oceanic and Atmospheric Administration 
(NOAA) and the French Space Agency, Centre National d’Etudes Spatiales (CNES).  Additional partners 
include the European Organization for the Exploitation of Meteorological Satellites (EUMETSAT), and 
the Indian Space Research Organization (ISRO). 
Critical applications of the ADCS include atmospheric and ocean monitoring/research, tropical cyclone 
forecasting, fishery management, oil spill tracking, fishing vessel tracking, search and rescue modeling (at 
sea), anti-piracy alerting, import/export and hazardous materials tracking, endangered species studies, 
migration mapping, and wildlife tracking and management. 
The meteorological-satellite (space-to-Earth) service operates on a secondary basis to the fixed and 
mobile services and thus it must not interfere with these services.  To protect the fixed and land mobile 
services within the United States, a power flux density (pfd) limit of -152 dBW/m2/4kHz has been 
imposed on the meteorological-satellite (space-to-Earth) service. 
To provide added protection to existing services in the band, globally, the next generation of ADCS 
transmitters will implement direct sequence spread spectrum in the satellite downlink to reduce the pfd in 
the 460-470 MHz band to less than -152 dBW/m2/4kHz. 
Potential upgrade of EESS allocation to primary will bring confidence to the space agencies involved in 
Satellite Data Collection Programs and will ease coordination with Administrations.  These space 
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programs do represent a long-term effort and require decades of investment between the time the program 
is officially approved and the time the various satellites are in operation, keeping in mind that usually 
many satellites are deployed in order to provide a continuous service.  For the specific case of this band, 
the number of satellites expected to be in operation is limited for cost reasons, and it is unlikely that two 
satellites will transmit at the same time over the same geographical area. 
U.S. VIEW: In order to protect the investment and expansion of the ADCS systems, the United States 
supports conducting and completing sharing and compatibility studies.  These studies would determine 
the feasibility of upgrading the MetSat (space-to-Earth) allocation to primary status, and the addition of a 
primary EESS (space-to-Earth) allocation in the frequency band 460-470 MHz, while protecting the 
current primary allocations for fixed and land mobile services and maintaining the conditions contained in 
No. 5.289. 
Should studies support the upgrade of the MetSat service and/or addition of a primary allocation to the 
EESS, the appropriate pfd limit should be determined for MetSat (space-to-Earth) and EESS (space-to-
Earth) systems to protect the existing primary services in the frequency band 460-470 MHz. Should 
studies conclude that a less restrictive pfd limit than that contained in Resolution 766 (WRC-15) 
considering further a) can protect incumbent services, then the pfd limit (?152 dBW/m2 /4 kHz) shall 
apply. 
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