ORGANIZACION DE LOS ESTADOS AMERICANOS ORGANIZATION OF AMERICAN STATES Comisión Interamericana de Telecomunicaciones Inter-American Telecommunication Commission 32 MEETING OF PERMANENT CONSULTATIVE COMMITTEE II: RADIOCOMMUNICATIONS December 3 to 7, 2018 Brasilia, D.F. Brazil OEA/Ser.L/XXXII.4.2.32 CCP.II-RADIO-32/doc.4357/18 13 February 2019 Original: English PRELIMINARY PROPOSALS (PPs) FOR WRC-19 OUTPUT DOCUMENT OF THE 32nd MEETING OF THE PCC.II (Item on the Agenda: 3.1) (Documents submitted by the Coordinators)
TABLE OF CONTENTS AGENDA ITEM 1.2... 4 AGENDA ITEM 1.3... 11 AGENDA ITEM 1.5... 26 AGENDA ITEM 1.6 (CAN)... 42 AGENDA ITEM 1.6 (MEX)... 62 AGENDA ITEM 1.6 (USA)... 76 AGENDA ITEM 1.7... 90 AGENDA ITEM 1.9, ISSUE 1.9.2... 97 AGENDA ITEM 1.13 (24.5-27.25 GHz)... 110 AGENDA ITEM 1.13 (37-40.5 GHz, 40.5-42.5 GHz, 42.5-43.5 GHz)... 115 AGENDA ITEM 1.13 (45.5-47 GHz, 47-47.2 GHz, 47.2-50.2 GHz, 50.4-52.6 GHz)... 127 AGENDA ITEM 1.13 (66-71 GHz)... 133 AGENDA ITEM 1.13 (71-76 GHz, 81-86 GHz)... 137 AGENDA ITEM 1.14 (6 440-6 520 MHz and 6 560-6 640 MHz)... 141 AGENDA ITEM 1.14 (21.4-22 GHz)... 152 AGENDA ITEM 1.14 (24.25-27.5 GHz)... 157 AGENDA ITEM 1.14 (27.9-28.2 GHz and 31.0-1.3 GHz)... 164 AGENDA ITEM 1.14 (38-39.5 GHz)... 175 AGENDA ITEM 1.14 (47.2-47.5 GHz and 47.9-48.2 GHz)... 180 AGENDA ITEM 1.15... 187 AGENDA ITEM 1.16 (5150-5250 MHz)... 195 AGENDA ITEM 1.16 (5725-5850 MHz)... 198 AGENDA ITEM 7, ISSUE A (CAN)... 200 AGENDA ITEM 7, ISSUE A (USA)... 213 AGENDA ITEM 7, ISSUE C4... 229 AGENDA ITEM 9.1, ISSUE 9.1.4... 233 AGENDA ITEM 9.1, ISSUE 9.1.5... 236 AGENDA ITEM 9.1, ISSUE 9.1.7... 240 CITEL, 1889 F ST. NW., WASHINGTON, D.C. 20006, U.S.A. TEL: +1 202 370 4713 FAX: +1 202 458 6854 e-mail: citel@oas.org Web page: http://www.citel.oas.org
AGENDA ITEM 9.1, ISSUE 9.1.9... 243 AGENDA ITEM 10 (A)... 247 AGENDA ITEM 10 (B)... 258 AGENDA ITEM 10 (C)... 260 CITEL, 1889 F ST. NW., WASHINGTON, D.C. 20006, U.S.A. TEL: +1 202 370 4713 FAX: +1 202 458 6854 e-mail: citel@oas.org Web page: http://www.citel.oas.org
32 MEETING OF PERMANENT CONSULTATIVE COMMITTEE II: RADIOCOMMUNICATIONS December 3 to 7, 2018 Brasilia, D.F. Brazil OEA/Ser.L/XVII.4.2.32 CCP.II-RADIO/doc. 4357-1-2/18 6 December 2018 Original: English PRELIMINARY PROPOSALS FOR WRC-19 AGENDA ITEM 1.2 (Item on the Agenda: 3.1 (SGT2)) (Document submitted by the Coordinator) SGT2B Science Services Coordinator: Coralí Roura (USA) Alternate Coordinator: Michael Razi (CAN) Rapporteur Agenda Item: Thomas vondeak (USA) Alternate Rapporteur Agenda Item: TBD CITEL, 1889 F ST. NW., WASHINGTON, D.C. 20006, U.S.A. TEL: +1 202 370 4713 FAX: +1 202 458 6854 e-mail: citel@oas.org Web page: http://www.citel.oas.org
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). [Doc 4764] Preliminary proposal from CANADA BACKGROUND The bands 401-403 MHz and 399.9-400.5 MHz are used for uplink transmission by the Data Collection System (DCS) under the EESS, MetSat and MSS allocations. The DCS is a network of sensors measuring temperature, pressure, humidity, sea level, and tracking animal migration, located in areas difficult to reach. These measurements 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. The data is transmitted to GSO and non-gso satellite networks using the non- GSO MSS allocation in the band 399.9-400.05 MHz or the meteorological satellite allocation in the band 401-403 MHz. These systems usually operate using moderate to low equivalent isotropically radiated power (e.i.r.p.) levels, resulting in small link margins. These frequency bands are also used by non-geostationary satellites for telecommand space operations (see RR No 1.23) under the EESS, MetSat services, or under the MSS allocations and a growing number of these satellites are planned. The output power levels of the earth stations at the antenna port peak e.i.r.p. of these telecommand links (Earth-to-space) can be much higher than the moderate to low power levels used for the DCS service links, leading to potential harmful interference to DCS satellite receivers. However, such links can deploy mitigation measures such as GSO orbit avoidance to minimize potential of interference to the DCS service links. Resolution 765 (WRC-15) Establishment of in-band power limits for earth stations operating in mobilesatellite 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. PROPOSALS As a result of the work carried out by ITU-R WP 7B and taking into account the example regulatory text in the draft CPM report, Canada proposes in-band power limits for earth stations in the EESS and MetSat services in the frequency band 401-403 MHz, for earth stations in the MSS in the frequency band 399.9-400.05 MHz, and for earth stations with telecommand links in both frequency bands as given in the Attachment. The values proposed for power density limits for the telecommand operations in part of the frequency band 401-403 MHz used by DCS Geostationary and Highly elliptical orbit (HEO) satellites are based on the sharing analysis conducted by the ITU-R taking into account possible mitigation measures that can be used by the telecommand operations to minimize potential interference to DCS systems. For the frequency band 399.9-400.05, Method D in the draft CPM text proposes 20 khz to be available for potential use of telecommand and DCS operations without any applicable e.i.r.p. limits. Canada proposes to increase the 20 khz to 30 khz where the e.i.r.p. limit is not applied. This is done to accommodate the total assigned bandwidth of a typical, efficient telecommand link taking account of Doppler shift effects (e.g. typical link bandwidth of 9.6 khz + Doppler shift of +/- 8 khz). For the frequency band 401-403 MHz, Canada proposes Method F with revisions to the power limits and regulatory provisions. Both Methods take into account the importance of maintaining operation of existing and planned telecommand functions for CITEL, 1889 F ST. NW., WASHINGTON, D.C. 20006, U.S.A. TEL: +1 202 370 4713 FAX: +1 202 458 6854 e-mail: citel@oas.org Web page: http://www.citel.oas.org
satellite systems dependent on access to the frequency bands 399.9-400.05 MHz and 401-403 MHz by adopting a grandfathering allowance for these systems to 22 November 2029. ARTICLE 5 Frequency allocations Section IV Table of Frequency Allocations (See No. 2.1) MOD CAN/1.2/1 335.4-410 MHz Allocation to services Region 1 Region 2 Region 3 335.4-387 FIXED MOBILE 5.254 387-390 FIXED MOBILE Mobile-satellite (space-to-earth) 5.208A 5.208B 5.254 5.255 390-399.9 FIXED MOBILE 5.254 399.9-400.05 MOBILE-SATELLITE (Earth-to-space) 5.209 5.220 ADD 5.A12 400.05-400.15 STANDARD FREQUENCY AND TIME SIGNAL- SATELLITE (400.1 MHz) 5.261 5.262 400.15-401 METEOROLOGICAL AIDS METEOROLOGICAL-SATELLITE (space-to-earth) MOBILE-SATELLITE (space-to-earth) 5.208A 5.208B 5.209 SPACE RESEARCH (space-to-earth) 5.263 Space operation (space-to-earth) 5.262 5.264 CCPII-2018-32-4357_i 14.02.19 6
401-402 METEOROLOGICAL AIDS SPACE OPERATION (space-to-earth) EARTH EXPLORATION-SATELLITE (Earth-to-space) METEOROLOGICAL-SATELLITE (Earth-to-space) Fixed Mobile except aeronautical mobile ADD 5.B12 ADD 5.B12bis ADD 5.D12 402-403 METEOROLOGICAL AIDS EARTH EXPLORATION-SATELLITE (Earth-to-space) METEOROLOGICAL-SATELLITE (Earth-to-space) Fixed Mobile except aeronautical mobile ADD 5.B12 ADD 5.B12bis ADD 5.D12 403-406 METEOROLOGICAL AIDS Fixed Mobile except aeronautical mobile 5.265 406-406.1 MOBILE-SATELLITE (Earth-to-space) 5.265 5.266 5.267 406.1-410 FIXED MOBILE except aeronautical mobile RADIO ASTRONOMY 5.149 5.265 Reasons: Add relevant footnotes to frequency bands 399.9-400.05 MHz and 401-403 MHz ADD CAN/1.2/2 5.A12 In the frequency band 399.9-400.02 MHz, the maximum e.i.r.p. of earth stations in the mobilesatellite service shall not exceed 5 dbw. Until 22 November 2029, this limit shall not apply to systems for which complete Appendix 4 notification information has been received by the Radiocommunication Bureau prior to 22 November 2019. Administrations operating these systems are encouraged to make all practicable efforts to comply with this limit prior to 22 November 2029. Reasons: A frequency range of 30 khz without e.i.r.p. limits would accommodate a typical telecommand link taking account of Doppler shift effects (e.g. typical link bandwidth of 9.6 khz + Doppler shift of +/- 8 khz). ADD CAN/1.2/3 5.B12bis In the frequency band 401.7-402.850 MHz, the maximum e.i.r.p. of earth stations in the meteorological-satellite service and the Earth exploration-satellite service shall not exceed 22 dbw for geostationary systems and non-geostationary systems with an orbit of apogee equal to or greater than 35 786 km and 7 dbw for non-geostationary systems with an orbit of apogee lower than 35 786 km. The maximum e.i.r.p. density of earth stations shall not exceed 17.8 dbw/hz for non-geostationary systems used for CCPII-2018-32-4357_i 14.02.19 7
telecommand operations. Until 22 November 2029, this limit shall not apply to systems for which complete Advanced Publication Information has been received by the Radiocommunication Bureau prior to 22 November 2019. Reasons: A non-gso system with a telecommand earth station operating with an e.i.r.p. density of 17.8 dbw/hz would be able to meet the protection criteria of DCS systems using GSO or HEO satellite systems. It is also important to preserve existing and planned telecommand operations in this band up to 22 November 2029. Furthermore, an e.i.r.p. limit is proposed for non-gso DCS with an orbit of apogee lower than 35 786 km for the band 401.7-402.850 MHz even though there are no such operations according to the DCS band plan, since non-gso DCS stations could nonetheless operate in this band under the METSAT and EESS allocations. ADD CAN/1.2/4 5.B12 In the frequency band 401-401.7 MHz and 402.850-403 MHz, the maximum e.i.r.p. of earth stations in the meteorological-satellite service and the Earth exploration-satellite service shall not exceed 22 dbw for geostationary systems and non-geostationary systems with an orbit of apogee equal or greater than 35 786 km and 7 dbw for non-geostationary systems with an orbit of apogee lower than 35 786 km. Until 22 November 2029, this limit shall not apply to systems for which complete Advanced Publication Information has been received by the Radiocommunication Bureau prior to 22 November 2019. Reasons: The frequency bands identified in this new footnote are intended for operation of non-gso DCS. Therefore, the long-term deployment of new telecommand earth stations in these frequency bands is to be avoided. However, it is important to preserve existing and planned telecommand operations in these frequency bands up to 22 November 2029. ADD CAN/1.2/5 5.D12 Operations for telecommand of the space stations (under No. 1.23) in the band 401-403 MHz shall not constrain the use of stations operating under the Earth exploration-satellite and the meteorologicalsatellite services. Reasons: Administrations are encouraged not to constrain operation of DCS systems in this frequency band. SUP CAN/1.2/6 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 The World Radiocommunication Conference (Geneva, 2015), Reasons: ITU-R studies associated with this Resolution have been completed and reflected in the relevant ITU-R Reports. CCPII-2018-32-4357_i 14.02.19 8
[Doc. 4357] Preliminary proposal from MEXICO BACKGROUND The bands 401-403 MHz and 399.9-400.5 MHz are used for uplink transmission by the Data Collection System (DCS) under the Earth Exploration Satellite Service (EESS) (Earth-to-space), the Meteorological- Satellite Service (MetSat) and Mobile Satellite Service (MSS) allocations. DCS consists in a network of sensors that are critical to monitor and predict climate change, monitor oceans and water resources, predict the weather, assist in biodiversity protection, and improve marine safety in areas that are hard to reach. In particular, the usefulness of DCS helps the scientific community to gain a better monitoring and understanding of the environment, and to help the industry comply with the environmental protection regulations implemented by some governments. In addition, these bands can be used for space operations under RR No. 1.23, which highlights the use of telecommand due to the great interest of educational institutions and commercial entities seeking to operate satellites under EESS, MetSat or MSS allocations in the frequency bands 401-403 MHz and 399.9 to 400.5 MHz. So, the use of telecommand may cause great impact to the DCS communicating with GSO and non-gso satellite networks, since the power output levels of some telecommand earth stations transmit high levels of power that can be much higher than the moderate to low levels used by DCS links, which leads to possible harmful interference for satellite receptors using DCS. PROPOSALS As a result of the work carried out by ITU-R WP 7B, and in accordance with the provisions in the draft text of the CPM, Mexico is of the opinion that the power limits and time considerations established in Method D are suitable to allow the operation of DCS and telecommand operations in the frequency bands 401-403 MHz and 399.9-400.5 MHz. MOD MEX/1.2/1 335.4-410 MHz Allocation to services Region 1 Region 2 Region 3 399,9-400,05 MOBILE SATELLITE (Earth-to-space) 5.209 5.220 ADD 5.C12 ADD MEX/1.2/2 5.C12 In the frequency band 399.9-400.03 MHz, the maximum e.i.r.p. of earth stations in the mobilesatellite service shall not exceed 5 dbw. Until 22 Nov 2029, this limit shall not apply to satellite systems for which complete notification information has been received by the Radiocommunication Bureau by 22 November 2019 and that have been brought into use by that date. The Administrations are encouraged to CCPII-2018-32-4357_i 14.02.19 9
make all practicable efforts to comply with the limits in the frequency band 399.9-400.03 MHz prior to 22 November 2029. Reasons: We are of the opinion that these parameters would ensure the operation of existing and future systems that usually implement low or moderate output power for MSS systems, while they also accommodate systems with more power for telecommand. Likewise, the time considered as a transitional phase for high-power telecommand systems provides protection to the DCS for MSS. CCPII-2018-32-4357_i 14.02.19 10
32 MEETING OF PERMANENT CONSULTATIVE COMMITTEE II: RADIOCOMMUNICATIONS December 3 to 7, 2018 Brasilia, D.F. Brazil OEA/Ser.L/XVII.4.2.32 CCP.II-RADIO/doc. 4357-1-3/18 6 December 2018 Original: English PRELIMINARY PROPOSALS FOR WRC-19 AGENDA ITEM 1.3 (Item on the Agenda: 3.1 (SGT2)) (Document submitted by the Coordinator) SGT2B Science Services Coordinator: Coralí Roura (USA) Alternate Coordinator: Michael Razi (CAN) Rapporteur Agenda Item: James Mentzer (USA) Alternate Rapporteur Agenda Item: TBD CCPII-2018-32-4357_i 14.02.19 11
Source: 31-4357 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 explorationsatellite service (space-to-earth) in the frequency band 460-470 MHz, in accordance with Resolution 766 (WRC-15) BACKGROUND Brazil The use of the frequency band 460-470 MHz is already established due to the existence of a secondary allocation to MetSat. Meteorological satellites already transmit in this band to control and configure data collection platforms. Data Collection Systems (DCS) operate on geostationary and non-geostationary orbits in the MetSat and the EESS (Earth-to-space) systems in the frequency band 401-403 MHz (uplink) and 460-470 MHz (downlink). DCS are essential for monitoring and predicting climate change, monitoring ocean, and water resources, weather forecasting and assisting in protecting biodiversity, as well as improving maritime security. DCS have been operating globally under a secondary allocation and on a primary basis in some countries under RR No. 5.290, but this use is constrained by coordination under RR No. 9.21. This has led to differing limitations and protection criteria and has posed a barrier to implementation of essential DCS components on a global basis. According to RR No. 5.289, Earth exploration-satellite service applications, other than the meteorologicalsatellite service, may also be used in the bands 460-470 MHz and 1 690-1 710 MHz for space-to-earth transmissions subject to not causing harmful interference to stations operating in accordance with the Table of Allocations. One of the EESS/MetSat usages comprises the data collection platforms gathering information activity related to the Earth, the environment and scientific application, weather and environment observation. The data, which are collected by ground platforms, are sent to the corresponding satellites that retransmit the retrieved information to dedicated earth stations. DCS are particularly useful for the collection of data from remote and inhospitable locations where it may provide the only possibility for data relay. Even so, the system has very many uses in areas with a highly developed infrastructure. The installations required for relay of the data tend to be inexpensive, unobtrusive, and normally blend easily into the local environment. Amongst others, this band is currently used by the Brazilian Data Collection System (B-DCS), Advanced Data Collection System (A-DCS) also called ARGOS and many other types of satellites for non-gso and GSO orbits. DCS dedicated to studying oceans and atmospheric conditions, preserving and monitoring wildlife, volcanoes, fishing fleets, shipments of dangerous goods, humanitarian applications, and managing water resources. DCS help the scientific community to better monitor and understand our environment, but also help industry to comply with environmental protection regulations implemented by various governments. This positioning capability also permits applications such as monitoring drifting ocean buoys and studying wildlife migration paths. A primary allocation to the MetSat and EESS (space-to-earth) in the frequency band 460-470 MHz would provide confidence to space and meteorological agencies deeply involved in Satellite Data Collection Programs and the public sectors funding the development and operation of such systems. These space programs have been representing a long term effort and investment for decades between the time when the program is officially decided, the development, the launch phase, and the time when the various satellites are in operation, keeping in mind that usually many satellites are deployed in order to CCPII-2018-32-4357_i 14.02.19 12
provide a continuous service. Space and meteorological agencies are also investing in the continuity of these programs providing subsequent satellites and payloads, and an allocation upgrade in the frequency band 460-470 MHz would provide the necessary long-term continuity for these programs of public interest. In addition, the power flux density (pfd) limits will provide reliable protection to incumbent terrestrial services without imposing constraints. Mexico [4711c1] The meteorological-satellite service (MetSat) and Earth exploration satellite service (EESS) use Data Collection Systems (DCS), which consist in a network of sensors that are critical to monitor and predict climate change, monitor oceans and water resources, predict the weather, assist in biodiversity protection, and improve marine safety in areas that are hard to reach. In particular, the utility of DCS helps the scientific community to gain a better monitoring and understanding of the environment, and to help the industry to comply with the environmental protection regulations implemented by some governments. The frequency band 460-470 MHz is allocated on a primary basis to the fixed and mobile services. It is also allocated on a secondary basis to the MetSat (space-to-earth) service. Moreover, in some countries of Regions 1 and 3, primary allocation is allowed by No. 5.290 of the Radio Regulations (RR). The operation of EESS applications is also permitted under RR No. 5.289 considering a no-interference and no-protection basis. In addition, channels in the 467.525-467.825 MHz segment can be used for on-board maritime communications under RR No. 5.287 and No. 5.288. Primary allocation to MetSat and EESS services in the frequency band 460-470 MHz may give confidence to the public sector and to space and meteorological agencies on the development of data collection systems and programs, as well as provide regulatory certainty. Therefore, parties interested in using the MetSat and EESS services are seeking to upgrade the MetSat allocation to primary status, and to include a primary allocation to EESS in the frequency band 460-470 MHz while providing protection and not imposing additional constraints on existing terrestrial services nor adjacent frequency bands. PROPOSALS Brazil Proposal (Method B) Brazil s note: This proposal was based using the currently CPM text developed for the WG 7B and could be modifying if this CPM text have changes in the future meetings. CCPII-2018-32-4357_i 14.02.19 13
MOD B/1.3/1 460-890 MHz Allocation to services Region 1 Region 2 Region 3 460-470 EARTH EXPLORATION-SATELLITE (space-to-earth) ADD 5.C13 FIXED METEOROLOGICAL-SATELLITE (space-to-earth) MOBILE 5.286AA Meteorological-satellite (space-to-earth) 5.287 5.288 5.289 5.290 ADD 5.A13 ADD 5.B13 Reasons: Inclusion in the Table, a primary EESS (space-to-earth) and MetSat allocation in the frequency band 460-470 MHz. MOD B/1.3/2 5.289 Earth exploration-satellite service applications, other than the meteorological-satellite service, may also be used in the bands 460-470 MHz and 1 690-1 710 MHz for space-to-earth transmissions subject to not causing harmful interference to stations operating in accordance with the Table of Frequency Allocations. (WRC-19) Reasons: Inclusion in the Table a primary EESS (space-to-earth) allocation in the frequency band 460-470 MHz. SUP B/1.3/3 5.290 Different category of service: in Afghanistan, Azerbaijan, Belarus, China, the Russian Federation, Japan, Kyrgyzstan, Tajikistan and Turkmenistan, the allocation of the band 460-470 MHz to the meteorological-satellite service (space-to-earth) is on a primary basis (see No. 5.33), subject to agreement obtained under No. 9.21. (WRC-12) Reasons: Consequential change of the Inclusion in the Table a primary EESS (space-to-earth) allocation in the frequency band 460-470 MHz. ADD B/1.3/4 5.A13 In the frequency band 460-470 MHz, earth stations in the meteorological satellite service (space-to- Earth) and Earth exploration-satellite service (space-to-earth) shall not cause harmful interference to nor claim protection from stations of the fixed and mobile services. (WRC-19) Reasons: To provide protection and not imposing any additional constraints on existing primary services MS and FS. CCPII-2018-32-4357_i 14.02.19 14
ADD B/1.3/5 5.B13 In the frequency band 460-470 MHz, space stations in the meteorological-satellite (space-to- Earth) and Earth exploration-satellite (space-to-earth) services shall comply with the following power flux density limits. For non-gso space stations: and for GSO space stations: Brazil`s note: OPTION 1, where ɑ is the angle of arrival above the horizontal plane, in degrees. These limits apply to all space stations in the meteorological-satellite service and Earth exploration-satellite service in this frequency band for which complete notification information or coordination request was received by the Radiocommunication Bureau after the end of WRC-19. Resolution [A13] (WRC-19) shall apply. (WRC-19) Reasons: To provide protection to existing primary MS and FS systems from MetSat/EESS satellite downlinks. ADD B/1.3/6 5.C13 In the frequency band 460-470 MHz stations in the Earth exploration-satellite service (space-to- Earth) shall not cause harmful interference to nor claim protection from stations in the meteorologicalsatellite service (space-to-earth). (WRC-19) Reasons: To provide protection to MetSat downlinks from EESS satellite downlinks. APPENDIX 7 (REV.WRC-15) Methods for the determination of the coordination area around an earth station in frequency bands between 100 MHz and 105 GHz ANNEX 7 System parameters and predetermined coordination distances for determination of the coordination area around an earth station 3 Horizon antenna gain for a receiving earth station with respect to a transmitting earth station MOD CCPII-2018-32-4357_i 14.02.19 15
B/1.3/7 TABLE 8A (Rev.WRC-1219) Parameters required for the determination of coordination distance for a receiving earth station Receiving space radiocommunication service designation Spac e operatio n, space research Me teorological- satellite, Frequency bands (MHz) 137-138 137-138 Transmitting terrestrial service designations Fixed, mobile Fixed, mobile Sp ace resear ch 143.6-143.65 Fixed, mobile, radiolocatio n Sp ace resear ch, space operati on 174-184 Fixed, mobile, broadcasting Sp ace operati on 163-167 272-273 5 Fixed, mobile mobilesatellite Mo bilesatellit e 335.4-399.9 400.15-401 Fixed, Meteoro mobile -logical aids 400.15-401 Meteor o- logical aids CCPII-2018-32-4357_i 14.02.19 16 Spa ce researc h 400.15-401 Meteoro -logical aids Spac e operatio n Met Br eorologicalsatellite Met Mo bilesatellite eorologicalsatellite oadcasting - satellit e 401-402 460-470 620-790 Meteoro -logical aids, fixed, mobile Fixed, mobile Fixed, mobile, broadcasting Mob ilesatellite Broad castingsatellite (DAB) 856-890 1 452-1 492 Fixed, mobile, broad casting Fixed, mobile, broadcasti ng Mobil e-satellite, landmobile satellite, maritime mobilesatellite 1 518-1 530 1 555-1 559 2 160-2 200 1 Method to be used 2.1 2.1 2.1 2.1 2.1 1.4.6 1.4.6 1.4.6 2.1 2.1 1.4.5 1.4.6 1.4.5 1.4.6 Modulation at earth station 2 N N N N N N N Earth station interference parameters and criteria p0 (%) 0.1 0.1 1.0 0.012 0.1 0.1 0.012 10 n 2 2 1 1 2 2 1 1 p (%) 0.05 0.05 1.0 0.012 0.05 0.05 0.012 10 NL (db) 0 0 0 0 0 0 0 Ms (db) 1 1 1 4.3 1 1 1 Fixed, mobile
Terrestrial station parameters Reference bandwidth Permissible interference power W (db) 0 0 0 0 0 0 0 E (dbw) in B 3 Pt (dbw) in B A 15 5 38 37 4 N 15 5 38 37 A 1 11 3 0 N 1 11 3 0 Gx (dbi) 16 16 35 37 B (Hz) 1 1 103 177.5 103 Pr( p) (dbw) in B 1 1 85 25 103 4 103 199 199 173 148 208 208 178 176 1 In the band 2 160-2 200 MHz, the terrestrial station parameters of line-of-sight radio-relay systems have been used. If an administration believes that, in this band transhorizon systems need to be considered, the parameters associated with the frequency band 2 500-2 690 MHz may be used to determine the coordination area. 2 A: analogue modulation; N: digital modulation. 3 E is defined as the equivalent isotropically radiated power of the interfering terrestrial station in the reference bandwidth. 4 This value is reduced from the nominal value of 50 dbw for the purposes of determination of coordination area, recognizing the low probability of high power emissions falling fully within the relatively narrow bandwidth of the earth station. 5 The fixed-service parameters provided in the column for 163-167 MHz and 272-273 MHz are only applicable to the band 163-167 MHz. Reasons: Consequential change. CCPII-2018-32-4357_i 14.02.19 17
SUP B/1.3/8 RESOLUTION 766 (WRC-15) Consideration of possible upgrading of the secondary allocation to the meteorological-satellite service (space-to-earth) to primary status and a primary allocation to the Earth explorationsatellite service (space-to-earth) in the frequency band 460-470 MHz (Note to CPM: Due to the time constraint it was not possible to carefully review the text of this Resolution in particular areas containing the status of assignment which normally should be included in the Table of Allocations and associated Footnotes, there is a need to carefully review this Resolution and transfer the status of assignment to corresponding Footnotes and alignment of the text to be clearly understood by the readers.) (Note to CPM: the intention of this resolution is to guarantee that 1) current networks notified under RR No. 5.290 on a primary basis or coordinated under RR No. 9.21 will continue to have the same rights, including those obtained under RR No. 9.21 agreements and 2) that current networks notified under the secondary EESS allocations (see RR No. 5.289) that are not compliant with the pfd limits could have similar rights visà-vis EESS networks under the new primary EESS allocation (similar issue for Metsat systems). Views from the Bureau would be needed to ensure that the proposed provisions ( resolves and instruct the director of the Bureau ) below duly reach those goals.) Reasons: Consequential change. ADD B/1.3/9 DRAFT NEW RESOLUTION [A13] (WRC-19) Transitional measures for existing satellite networks and systems of the meteorological-satellite service (space-to-earth) and the Earth exploration-satellite service (space-to-earth) in the frequency band 460-470 MHz The World Radiocommunication Conference (Sharm el-sheikh, 2019), considering a) that data collection systems (DCS) operate on geostationary and non-geostationary orbits in the meteorological-satellite service (MetSat) and the Earth exploration-satellite service (EESS) (Earth-to-space) systems in the frequency band 401-403 MHz; b) that DCS are essential for monitoring and predicting climate change, monitoring oceans, and water resources, weather forecasting and assisting in protecting biodiversity, improving maritime security; c) that most of these DCS have implemented satellite downlinks (space-to-earth) in the frequency band 460-470 MHz which bring significant improvements to the operation of satellite DCS, such as the transmission of information to optimize the usage of the terrestrial data collection platforms; CCPII-2018-32-4357_i 14.02.19 18
d) that the frequency band 460-470 MHz is also used for the downlink of mission and telemetry data for meteorological and earth exploration purposes; e) that the frequency band 460-470 MHz is allocated to the fixed and mobile services on a primary basis and is widely used by these services; f) that the World Radiocommunication Conference 2019 (WRC-19) has upgraded the secondary allocation of the MetSat (space-to-earth) to primary status and added a primary allocation to the EESS (space-to-earth) in the frequency band 460-470 MHz, and established the power flux-density (pfd) masks in the provision of No. 5.B13 to provide protection of existing terrestrial services to which the frequency band is already allocated and in the adjacent frequency bands; g) that WRC-19 has deleted No. 5.290 and the relevant parameters in Table 8a of Appendix 7, which identified some administrations that already had a primary allocation to the MetSat (space-to-earth), subject to agreement obtained under No. 9.21, in the light of the upgrade mentioned in considering f) above, and that it is necessary to provide some measures for the satellite systems which was in accordance with No. 5.290 to retain their regulatory status as of the end of WRC-19, noting a) that several EESS and MetSat satellite networks and systems in the frequency band 460-470 MHz were notified and brought into use; b) that some of these EESS and MetSat satellite networks and systems above may not meet the pfd masks in considering f), but there is a need to authorise them to continue their operation, resolves 1 that the satellite networks and systems in the meteorological-satellite (space-to-earth) and Earth exploration-satellite (space-to-earth) services in the frequency band 460-470 MHz for which a complete coordination request or notification information has been received by the Radiocommunication Bureau prior to the end of WRC-19 are allowed to continue to operate with the same parameters under Appendix 4 submitted for coordination or notification; 2 that the frequency assignment of MetSat (space-to-earth) and EESS (space-to-earth) satellite network in the frequency band 460-470 MHz for which complete notification information or coordination request was received by the Radiocommunication Bureau prior to the end of WRC-19 and which space stations do not meet the pfd limits given in No. 5.B13 shall be used on a secondary basis with respect to the fixed and mobile service stations; 3 that the satellite systems in the meteorological-satellite service (space-to-earth) referred to in considering g) for which complete coordination information related to No. 9.21 has been received by the Radiocommunication Bureau prior to the end of WRC-19 can operate on a primary basis, and that, for those systems, the relevant provisions of Articles 9 and 11 continue to apply, and the relevant agreements obtained under No. 9.21 remain in force after the end of WRC-19, instructs the Director of the Radiocommunication Bureau for the frequency assignment of MetSat (space-to-earth) and EESS (space-to-earth) satellite network for which complete notification information or coordination request was received by the Radiocommunication Bureau prior to the end of WRC-19, the Bureau shall review the finding under No. 11.50 without proposal to the administration that it submit a new assignment to replace the previous one. The date of such assignment original recording in the Master International Frequency Register (MIFR) shall be kept. Reasons: To provide the transitional measures for the existing Metsat/EESS frequency assignments to ensure that the existing satellite systems, including those for which complete notification information or coordination request was received by the Radiocommunication Bureau prior to the end of WRC-19 can continue their operation in compliance with the provisions adopted at WRC-19. CCPII-2018-32-4357_i 14.02.19 19
Mexico [4711c1] As a result of the work done by ITU-R WP 7B and in accordance with the provisions of the CPM text, Mexico is of the view that the power limits set in Method B, and in the case of the geostationary stations Option 2 can protect the fixed and mobile services in case the allocation of the MetSat (space-to-earth) service is upgraded to primary status basis, and a primary allocation is given to EESS (space-to-earth) in the frequency band 460-470 MHz. MOD MEX/1.3/1 460-890 MHz Allocation to services Region 1 Region 2 Region 3 460-470 EARTH EXPLORATION-SATELLITE (space-to-earth) ADD 5.C13 FIXED METEOROLOGICAL-SATELLITE (space-to-earth) MOBILE 5.286AA Meteorological-satellite (space-to-earth) 5.287 5.288 5.289 5.290ADD 5.A13 ADD 5.B13 Reason: Inclusion in the Table of a primary allocation to EESS (space-to-earth) in the frequency band 460-470 MHz. MOD MEX/1.3/2 5.289 Earth exploration-satellite service applications, other than the meteorological-satellite service, may also be used in the bands 460-470 MHz and 1 690-1 710 MHz for space-to-earth transmissions subject to not causing harmful interference to stations operating in accordance with the Table. Reason: Inclusion in the Table, a primary EESS (space-to-earth) allocation in the frequency band 460-470 MHz. SUP MEX/1.3/3 5.290 Different service category: in Afghanistan, Azerbaijan, Belarus, China, the Russian Federation, Japan, Kirgizstan, Tajikistan, and Turkmenistan, the allocation of the band 460-470 MHz to the meteorological-satellite service (space-to-earth) is on a primary basis (see No. 5.33), subject to agreement obtained under number 9.21. (WRC-12) Reason: Consequential change. ADD MEX/1.3/4 CCPII-2018-32-4357_i 14.02.19 20
5.A13 In the frequency band 460-470 MHz, earth stations in the meteorological-satellite service (space-to-earth) and Earth exploration-satellite service (space-to-earth) shall not cause harmful interference nor to claim protection from stations of the fixed and mobile services. (WRC-19) ADD MEX/1.3/5 5.B13 In the frequency band 460-470 MHz, space stations in the meteorological-satellite (spaceto-earth) and Earth exploration-satellite (space-to-earth) services shall comply with the following power flux density limits. For non-gso space stations:, and for GSO stations: OPTION 2 where ɑ is the angle of arrival above the horizontal plane, in degrees. These limits apply to all space stations of the meteorological-satellite service and Earth explorationsatellite service in this frequency band for which complete notification information or coordination request was received by the Radiocommunication Bureau after the end of WRC-19. The Resolution [A13] (WRC-19) shall apply. (WRC-19) ADD MEX/1.3/6 5.C13 In the frequency band 460-470 MHz stations in the Earth exploration-satellite service (spaceto-earth) shall not cause harmful interference nor to claim protection from stations in the meteorologicalsatellite service (space-to-earth). (WRC-19) APPENDIX 7 (REV.WRC-15) Methods for the determination of the coordination area around an earth station in frequency bands between 100 MHz and 105 GHz ANNEX 7 System parameters and predetermined coordination distances for determination of the coordination area around an earth station 3 Horizon antenna gain for a receiving earth station with respect to a transmitting earth station CCPII-2018-32-4357_i 14.02.19 21
MOD MEX/1.3/7 TABLE 8A (Rev.WRC-12) Parameters required for the determination of coordination distance for a receiving earth station Receiving space radiocommunication service designation Space operatio n, space research Frequency bands (MHz) 137-138 137-138 Transmitting terrestrial service designations Fixed, mobile Fixed, mobile Space resear ch 143.6-143.65 Fixed, mobile, radiolocatio n Space resear ch, space operati on 174-184 Fixed, mobile, broadcasting Space operati on 163-167 272-273 5 Fixed, mobile Mobile - satellit e 335.4-399.9 400.15-401 Fixed, Meteoro mobile -logical aids 400.15-401 Meteor o- logical aids Space researc h 400.15-401 Meteoro -logical aids Space operatio n Meteor o- logicalsatellite, mobilesatellite MeteoroMobile- satellite -logicalsatellite Meteoro Broad- -logicalsatellite casting - satellit e 401-402 460-470 620-790 Meteoro -logical aids, fixed, mobile Fixed, mobile Fixed, mobile, broadcasting Mobilesatellite ting- Broadcas satellite (DAB) 856-890 1 452-1 492 Fixed, mobile, broad casting Fixed, mobile, broadcasti ng Mobilesatellite, landmobile satellite, maritime mobilesatellite 1 518-1 530 1 555-1 559 2 160-2 200 1 Method to be used 2.1 2.1 2.1 2.1 2.1 1.4.6 1.4.6 1.4.6 2.1 2.1 1.4.5 1.4.6 1.4.5 1.4.6 Modulation at earth station 2 N N N N N N N Earth station interference parameters and criteria p0 (%) 0.1 0.1 1.0 0,012 0.1 0.1 0,012 10. 2 2 1 1 2 2 1 1 p (%) 0.05 0.05 1.0 0,012 0.05 0.05 0,012 10 NL (db) 0 0 0 0 0 0 0 Ms (db) 1 1 1 4.3 1 1 1 Fixed, mobile CCPII-2018-32-4357_i 14.02.19 22
Terrestrial station parameters Reference bandwidth Permissible interference power W (db) 0 0 0 0 0 0 0 E (dbw) in B 3 Pt (dbw) in B A 15 5 38 37 4 N 15 5 38 37 t o -1-11 3 0 N -1-11 3 0 Gx (dbi) 16 16 35 37 B (Hz) 1 1 103 177.5 103 Pr( p) (dbw) in B 1 1 85 25 103 4 103 199 199 173 148 208 208 178 176 1 In the band 2 160-2 200 MHz, the terrestrial station parameters of line-of-sight radio-relay systems have been used. If an administration believes that, in this band transhorizon systems need to be considered, the parameters associated with the frequency band 2 500-2 690 MHz may be used to determine the coordination area. 2 A: analogue modulation; N: digital modulation. 3 E is defined as the equivalent isotropically radiated power of the interfering terrestrial station in the reference bandwidth. 4 This value is reduced from the nominal value of 50 dbw for the purposes of determination of coordination area, recognizing the low probability of high power emissions falling fully within the relatively narrow bandwidth of the earth station. 5 The fixed-service parameters provided in the column for 163-167 MHz and 272-273 MHz are only applicable to the band 163-167 MHz. CCPII-2018-32-4357_i 14.02.19 23
SUP MEX/1.3/8 RESOLUTION 766 (WRC-15) Consideration of possible upgrading of the secondary allocation to the meteorological-satellite service (space-to-earth) to primary status and a primary allocation to the Earth explorationsatellite service (space-to-earth) in the frequency band 460-470 MHz ADD MEX/1.3/9 DRAFT NEW RESOLUTION [A13] (WRC-19) Transitional measures for existing satellite networks and systems of the meteorological-satellite service (space-to-earth) and the Earth exploration-satellite service (space-to-earth) in the frequency band 460-470 MHz The World Radiocommunication Conference (Sharm el-sheikh, 2019), considering a) that data collection systems (DCS) operate on geostationary and non-geostationary orbits in the meteorological-satellite service (MetSat) and the Earth exploration-satellite service (EESS) (Earth-tospace) systems in the frequency band 401-403 MHz; b) that DCS are essential for monitoring and predicting climate change, monitoring oceans, and water resources, weather forecasting and assisting in protecting biodiversity, improving maritime security; c) that most of these DCS have implemented satellite downlinks (space-to-earth) in the frequency band 460-470 MHz which bring significant improvements to the operation of satellite DCS, such as the transmission of information to optimize the usage of the terrestrial data collection platforms; d) that the frequency band 460-470 MHz is also used for the downlink of mission and telemetry data for meteorological and earth exploration purposes; e) that the frequency band 460-470 MHz is allocated to the fixed and mobile services on a primary basis and is widely used by these services; f) that the World Radiocommunication Conference 2019 (WRC-19) has upgraded the secondary allocation of the MetSat (space-to-earth) to primary status and added a primary allocation to the EESS (space-to-earth) in the frequency band 460-470 MHz, and established the power flux-density (pfd) masks in the provision of No. 5.B13 to provide protection of existing terrestrial services to which the frequency band is already allocated and in the adjacent frequency bands; CCPII-2018-32-4357_i 14.02.19 24
g) that WRC-19 has deleted No. 5.290 and the relevant parameters in Table 8a of Appendix 7, which identified some administrations that already had a primary allocation to the MetSat (space-to-earth), subject to agreement obtained under No. 9.21, in the light of the upgrade mentioned in considering f) above, and that it is necessary to provide some measures for the satellite systems which was in accordance with No. 5.290 to retain their regulatory status as of the end of WRC-19, noting a) that several EESS and MetSat satellite networks and systems in the frequency band 460-470 MHz were notified and brought into use; b) that some of these EESS and MetSat satellite networks and systems above may not meet the pfd masks in considering f), but there is a need to authorize them to continue their operation, resolves 2 that the satellite networks and systems in the meteorological-satellite (space-to-earth) and Earth exploration-satellite (space-to-earth) services in the frequency band 460-470 MHz for which a complete coordination request or notification information has been received by the Radiocommunication Bureau prior to the end of WRC-19 are allowed to continue to operate with the same parameters under Appendix 4 submitted for coordination or notification; 2 that the frequency assignment of MetSat (space-to-earth) and EESS (space-to-earth) satellite network in the frequency band 460-470 MHz for which complete notification information or coordination request was received by the Radiocommunication Bureau prior to the end of WRC-19 and which space stations do not meet the pfd limits given in No. 5.B13 shall be used on a secondary basis with respect to the fixed and mobile service stations; 3 that the satellite systems in the meteorological-satellite service (space-to-earth) referred to in considering g) for which complete coordination information related to No. 9.21 has been received by the Radiocommunication Bureau prior to the end of WRC-19 can operate on a primary basis, and that, for those systems, the relevant provisions of Articles 9 and 11 continue to apply, and the relevant agreements obtained under No. 9.21 remain in force after the end of WRC-19, instructs the Director of the Radiocommunication Bureau for the frequency assignment of MetSat (space-to-earth) and EESS (space-to-earth) satellite network for which complete notification information or coordination request was received by the Radiocommunication Bureau prior to the end of WRC-19, the Bureau shall review the finding under No. 11.50 without proposal to the administration that it submit a new assignment to replace the previous one. The date of such assignment original recording in the Master International Frequency Register (MIFR) shall be kept. Reason: We consider that, in accordance with Working Party 7B, Method B Option 2 meets the aims of Resolution 766 (Rev. WRC-15) and maintains the importance of protecting fixed and mobile services, as is priority in Mexico. CCPII-2018-32-4357_i 14.02.19 25
32 MEETING OF PERMANENT CONSULTATIVE COMMITTEE II: RADIOCOMMUNICATIONS December 3 to 7, 2018 Brasilia, D.F. Brazil OEA/Ser.L/XVII.4.2.32 CCP.II-RADIO-32/doc. 4357-1-5/18 7 December 2018 Original: Spanish PRELIMINARY PROPOSAL FOR WRC-19 AGENDA ITEM 1.5 (Item on the Agenda: 3.1 (SGT3)) (Document submitted by Coordinator) SGT-3 Satellite regulatory Coordinator: Brandon MITCHELL - USA Co-Coordinator: Juan MASCIOTRA ARG; Chantal BEAUMIER - CAN Rapporteur Agenda Item: Robert NELSON - USA Alternate Rapporteur Agenda Item: Gustavo VARGAS - COL CCPII-2018-32-4357_i 14.02.19 26
Source Document: 4712/18 Agenda item 1.5 of WRC-19: to consider the use of the frequency bands 17.7-19.7 GHz (space-to-earth) and 27.5-29.5 GHz (Earth-to-space) by earth stations in motion communicating with geostationary space stations in the fixed-satellite service and take appropriate action, in accordance with Resolution 158 (WRC-15); Background Earth stations in motion (ESIMs) currently serve a wide range of applications, both on board aircraft and ships and on land and, considering that users expect to be able to connect wherever they are, the broadband service satellite is a key component in meeting that demand. The 2015 World Radiocommunication Conference (WRC-15) adopted Note No. 5.527A, through which the operation of ESIMs that communicate with geostationary satellite (GSO) networks of the Fixed Satellite Service (SFS) in the frequency bands 29.5-30.0 GHz (Earth-to-space) and 19.7-20.2 GHz (spaceto-earth) under to Resolution 156. However, recognizing the growing demand for mobile services and the global availability of satellite broadband, WRC-2015 adopted WRC-19 Agenda Item 1.5 to consider ESIM operation in the frequency bands 27.5-29.5 GHz (Earth-to-space) and 17.7-19.7 GHz (space-to-earth) of the FSS, thereby using more spectrum to meet the ESIM demand. Results of the ITU Radiocommunication Sector (ITU-R) The bands 17.7-19.7 GHz and 27.5-29.5 GHz are currently allocated to the FSS, among other services, and used by GSO Satellite FSS networks. These bands are shared with other services, including (in some sub-bands) non-geostationary orbital satellite (non-gso) satellite FSS systems, feeder links for non-gso systems for the mobile-satellite service and terrestrial systems. To protect other services assigned in these bands, different use conditions must be applied to the different types of ESIM, since scenarios of interference from other services will be different for maritime, aeronautical and terrestrial ESIMs. The results of the sharing studies on the ESIMs and the existing services in the frequency bands 17.7-19.7 GHz and 27.5-29.5 GHz are described below: The ITU-R reviewed the sharing conditions for ESIMs with terrestrial services in the band 17.7-19.7 GHz and concluded that terrestrial service transmitters could potentially interfere with ESIM receivers. Therefore, ESIMs must function with the condition of not claiming protection against interference from terrestrial services operating in accordance with the RR. In the case of the frequency band 27.5-29.5 GHz, the ITU-R reviewed the sharing conditions for ESIMs with terrestrial services in the band 27.5-29.5 GHz and concluded that ESIM transmitters could interfere with terrestrial service receivers. Therefore, aeronautical and maritime ESIMs must operate under specific technical, operational and regulatory conditions to prevent interference with the receiving stations of terrestrial services and, likewise, ESIMs on the ground need to operate under conditions that do interfere with terrestrial services operating in accordance with the RR. Results of sharing studies with the Earth Exploration Satellite Service (EESS) (passive) The ITU-R examined sharing conditions for ESIMs with the EESS (passive) in the 18.6-18.8 GHz band used by the EESS (passive) in remote sensing for Earth exploration, in which the EESS (passive) earth CCPII-2018-32-4357_i 14.02.19 27