World Radiocommunication Conference allocates spectrum for future innovation
Conference outcomes to spur long-term investments in ICT industry
Geneva, 27 November 2015 – The World Radiocommunication
Conference 2015 (WRC-15) has concluded its deliberations as delegates sign the
Final Acts that revise the Radio Regulations, the international treaty governing
the use of radio-frequency spectrum and satellite orbits.
Around 3300 participants, representing 162 out of ITU’s 193 Member States
attended the four-week conference from 2 to 27 November. Some 500 participants
representing 130 other entities, including industry, also attended the
conference as observers.
The Conference was steered under the Chairmanship of Mr Festus Yusufu Narai
Daudu of Nigeria. He was assisted in the task by six Vice Chairmen: Mr A.
Jamieson (New Zealand), Mr Y. Al-Bulushi (Oman), Mr D. Obam (Kenya), Ms D.
Tomimura (Brazil), Mr A. Kühn (Germany), and Mr N. Nikiforov (Russian
Federation).
New challenges, new opportunities
“As new technological innovations and applications emerge, they set new
challenges as well as bring new opportunities for billions around the world,”
said Mr Festus Daudu, Chairman of WRC-15. “This conference dealt with a large
number of important and sensitive issues, ranging from mobile broadband
communications and satellite systems to emergency communications and disaster
relief, maritime and aeronautical communications, environmental monitoring and
climate change, universal time and space research as well as radiocommunication
services that the public relies on for health, information, education, security
and safety.”
“This World Radiocommunication Conference will define new and better ways to
regulate radio services and applications,” said ITU Secretary-General Houlin
Zhao. “In a world where radiocommunications are playing an increasingly
important role in connecting people, I am convinced that the outcome of this
conference will represent a major contribution in making the world a better –
and safer – place for all.”
“A great deal has been achieved in the last four weeks and the results will
have a major impact on the future of the telecommunication sector in general and
radiocommunications in particular,” said Mr François Rancy, Director of the ITU
Radiocommunication Bureau. “The outcomes of WRC-15 are aimed at maintaining a
stable, predictable and universally applied regulatory environment that secures
long-term investments for the multi-trillion dollar ICT industry.”
WRC-15 addressed over 40 topics related to frequency allocation and frequency
sharing for the efficient use of spectrum and orbital resources. The outcomes
ensure high quality radiocommunication services for mobile and satellite
communications, maritime and aeronautical transport, air and road safety as well
as for scientific purposes related to the environment, meteorology and
climatology, disaster prediction, mitigation and relief. The ITU
Radiocommunication Sector has been set an ambitious studies programme for the
next four years covering a wide range of services from amateur radio to
broadcasting, mobile broadband, mobile satellite, fixed satellite, earth
stations on mobile platforms, and space exploration services.
WRC-15 adopted a revised version of Resolution 12 on Assistance and Support
to Palestine, which resolves to continue assistance to Palestine and to enable
Palestine to obtain and manage the spectrum required to operate
telecommunications networks and wireless services. This followed an
Israeli-Palestinian agreement to facilitate cellular phone operations and the
establishment of a modern and reliable telecommunication network in Palestine.
Key outcomes of WRC-15
Mobile broadband communications
Following the growing demand for spectrum for mobile broadband services,
WRC-15 identified frequency bands in the L-band (1427-1518 MHz) and in the lower
part of the C-band (3.4 -3.6 GHz). WRC-15 achieved agreement on some additional
portions in other bands that were also allocated to mobile broadband services in
order to be used in regions where there was no interference with other services.
To counteract the difficulties encountered in finding additional spectrum for
IMT in bands below 6 GHz, WRC-15 decided to include studies in the agenda for
the next WRC in 2019 for the identification of bands above 6 GHz that will allow
technology to meet demand for greater capacity. Administrations and industry can
now concentrate on the development of necessary technologies in line with the
schedule for the implementation of
IMT-2020.
WRC-15 took a key decision that will provide enhanced capacity for
mobile broadband in the 694-790 MHz frequency band in ITU Region-1
(Europe, Africa, the Middle East and Central Asia) and a globally harmonized
solution for the implementation of the digital dividend. Full protection has
been given to television broadcasting as well as to the aeronautical
radionavigation systems operating in this frequency band.
Amateur radio service gets new allocation
New allocation for amateur radio service in the frequency band 5351.5 -
5366.5 kHz will maintain stable communications over various distances,
especially for use when providing communications in disaster situations and for
relief operations.
Emergency communications and disaster relief
WRC-15 identified spectrum in the 694-894 MHz frequency band to facilitate
mobile broadband communications for robust and reliable mission critical
emergency services in public protection and disaster relief (PPDR), such as
police, fire, ambulances and disaster response teams.
Search and rescue
WRC-15 reinforced protection to Search and Rescue beacons that transmit in
the 406-406.1 MHz frequency band signals to uplink to search and rescue
satellites, such as the Cospas-Sarsat system. Resolution 205 was modified to
ensure that frequency drift characteristics of radiosondes are taken into
account when operating above 405 MHz to avoid drifting close to 406 MHz.
Administrations are requested to avoid making new frequency assignments for the
mobile and fixed services within the adjacent frequency bands to prevent
interference in the frequency band 406-406.1 MHz. As of December 2013, the
Cospas-Sarsat System has provided assistance in rescuing over 37,000 persons in
over 10,300 incidents worldwide.
Earth observation satellites for environmental monitoring
WRC-15 agreed to new allocations in the 7-8 GHz frequency range needed to
uplink large amounts of data for operations plans and dynamic spacecraft
software modifications that will eventually lead to simplified on-board
architecture and operational concepts for future missions of earth-exploration
satellite services (EESS).
Allocations of spectrum in the 9-10 GHz frequency range will lead to the
development of modern broadband sensing technologies and space-borne radars on
active sensing EESS. Scientific and geo-information applications will provide
high quality measurements in all weather conditions with enhanced applications
for disaster relief and humanitarian aid, land use and large-area coastal
surveillance.
Unmanned aircraft and wireless avionics systems
WRC-15 opened the way for the development by ICAO of worldwide standards for
unmanned aircraft systems (UAS), and identified the regulatory conditions that
may be applied to such systems internationally. WRC-15 also agreed on spectrum
for wireless avionics intra-communications (WAIC) to allow for the heavy and
expensive wiring used in aircraft to be replaced by wireless systems.
Global flight tracking for civil aviation
Agreement was reached on the allocation of radio-frequency spectrum for
global flight tracking in civil aviation for improved
safety. The frequency band 1087.7-1092.3 MHz has been allocated to the
aeronautical mobile-satellite service (Earth-to-space) for reception by space
stations of Automatic Dependent Surveillance-Broadcast (ADS-B) emissions from
aircraft transmitters. This will facilitate reporting the position of aircraft
equipped with ADS-B anywhere in the world, including oceanic, polar and other
remote areas. The International Civil Aviation Organization (ICAO) will address
the performance criteria for satellite reception of ADS-B signals according to
established standards and recommended practices (SARP).
Enhanced maritime communications systems
WRC-15 considered regulatory provisions and frequency allocations to enable
new Automatic Identification System (AIS) applications and other possible new
applications to improve maritime radiocommunication. New applications for data
exchange, using AIS technology, are intended to improve the safety of
navigation. New allocations were made in the bands 161.9375-161.9625 MHz and
161.9875-162.0125 MHz to the maritime mobile-satellite service. Studies will
continue on the compatibility between maritime mobile-satellite service (MMSS)
in the downlink in the band 161.7875-161.9375 MHz and incumbent services in the
same and adjacent frequency bands.
Road Safety
Radio-frequency spectrum needed for the operation of short-range
high-resolution
automotive radar has been allocated in the 79 GHz frequency
band. This will provide a globally harmonized regulatory framework for
automotive radar to prevent collisions and improve vehicular safety by reducing
traffic accidents. According to UN data, more than 1.25 million fatalities occur
each year on the roads around the world.
Operation of broadband satellite systems: Earth Stations in Motion
WRC-15 agreed to facilitate the global deployment of Earth Stations In Motion
(ESIM) in the 19.7-20.2 and 29.5-30.0 GHz frequency bands in the fixed-satellite
service (FSS), paving the way for satellite systems to provide global broadband
connectivity for the transportation community. Earth stations on-board moving
platforms, such as ships, trains and aircraft, will be able to communicate with
high power multiple spot beam satellites, allowing transmission rates in the
order of 10-50 Mbits/s.
Universal Time
WRC-15 decided that further studies regarding current and potential
future reference time-scales are required, including the
modification of coordinated universal time (UTC) and suppressing the so-called
“leap second”. A report will be considered by the World Radiocommunication
Conference in 2023. Until then, UTC shall continue to be applied as described in
Recommendation ITU‑R TF.460‑6 and as maintained by the
International Bureau of Weights and Measures (BIPM).
For more information, please see
video interview with Mr François
Rancy and the
WRC-15
Newsroom or contact: