|Formation||4 April 1947|
|Type||United Nations specialised agency|
|United Nations Economic and Social Council|
The International Civil Aviation Organization (ICAO; French: Organisation de l'aviation civile internationale; Chinese: ) is a specialized agency of the United Nations. It changes the principles and techniques of international air navigation and fosters the planning and development of international air transport to ensure safe and orderly growth. Its headquarters is located in the Quartier International of Montreal, Quebec, Canada.
The ICAO Council adopts standards and recommended practices concerning air navigation, its infrastructure, flight inspection, prevention of unlawful interference, and facilitation of border-crossing procedures for international civil aviation. ICAO defines the protocols for air accident investigation that are followed by transport safety authorities in countries signatory to the Chicago Convention on International Civil Aviation.
The Air Navigation Commission (ANC) is the technical body within ICAO. The Commission is composed of 19 Commissioners, nominated by the ICAO's contracting states and appointed by the ICAO Council. Commissioners serve as independent experts, who although nominated by their states, do not serve as state or political representatives. International Standards And Recommended Practices are developed under the direction of the ANC through the formal process of ICAO Panels. Once approved by the Commission, standards are sent to the Council, the political body of ICAO, for consultation and coordination with the Member States before final adoption.
ICAO is distinct from other international air transport organizations, particularly because it alone is vested with international authority (among signatory states): other organizations include the International Air Transport Association (IATA), a trade association representing airlines; the Civil Air Navigation Services Organization (CANSO), an organization for Air navigation service providers (ANSPs); and the Airports Council International, a trade association of airport authorities.
The forerunner to ICAO was the International Commission for Air Navigation (ICAN). It held its first convention in 1903 in Berlin, Germany, but no agreements were reached among the eight countries that attended. At the second convention in 1906, also held in Berlin, 27 countries attended. The third convention, held in London in 1912 allocated the first radio callsigns for use by aircraft. ICAN continued to operate until 1945.
Fifty-two countries signed the Chicago Convention on International Civil Aviation, also known as the Chicago Convention, in Chicago, Illinois, on 7 December 1944. Under its terms, a Provisional International Civil Aviation Organization was to be established, to be replaced in turn by a permanent organization when 26 countries ratified the convention. Accordingly, PICAO began operating on 6 June 1945, replacing ICAN. The 26th country ratified the Convention on 5 March 1947 and, consequently PICAO was disestablished on 4 April 1947 and replaced by ICAO, which began operations the same day. In October 1947, ICAO became an agency of the United Nations under its Economic and Social Council (ECOSOC).
In April 2013, Qatar offered to serve as the new permanent seat of the Organization. Qatar promised to construct a massive new headquarters for ICAO and to cover all moving expenses, stating that Montreal "was too far from Europe and Asia", "had cold winters", was hard to attend due to the Canadian government's slow issuance of visas, and that the taxes imposed on ICAO by Canada were too high. According to The Globe and Mail, Qatar's invitation was at least partly motivated by the pro-Israel foreign policy of Canadian Prime Minister Stephen Harper. Approximately one month later, Qatar withdrew its bid after a separate proposal to the ICAO's governing council to move the ICAO triennial conference to Doha was defeated by a vote of 22-14.
The 9th edition of the Convention on International Civil Aviation includes modifications from years 1948 up to 2006. ICAO refers to its current edition of the Convention as the Statute and designates it as ICAO Document 7300/9. The Convention has 19 Annexes that are listed by title in the article Convention on International Civil Aviation.
The Republic of China was a founding member of ICAO but was replaced by People's Republic of China as the legal representative of China in 1971 and as such, did not take part in the organization. In 2013, the Republic of China was for the first time invited to attend the ICAO Assembly, at its 38th session, as a guest under the name of Chinese Taipei.
The Council of ICAO is elected by the Assembly every 3 years and consists of 36 members elected in 3 groups. The present Council was elected on 4 October 2016 at the 39th Assembly of ICAO at Montreal.
The structure of the present Council is as follows:
|Group I (chief importance)||Group II (large contributions)||Group III (geographic representation)|
Each country should have an accessible Aeronautical Information Publication (AIP), based on standards defined by ICAO, containing information essential to air navigation. Countries are required to update their AIP manuals every 28 days and so provide definitive regulations, procedures and information for each country about airspace and airports. ICAO's standards also dictate that temporary hazards to aircraft must be regularly published using NOTAMs.
ICAO defines an International Standard Atmosphere (also known as ICAO Standard Atmosphere), a model of the standard variation of pressure, temperature, density, and viscosity with altitude in the Earth's atmosphere. This is useful in calibrating instruments and designing aircraft. The standardized pressure is also used in calibrating instruments in-flight, particularly above the transition altitude.
ICAO is active in infrastructure management, including Communication, navigation and surveillance / Air Traffic Management (CNS/ATM) systems, which employ digital technologies (like satellite systems with various levels of automation) in order to maintain a seamless global air traffic management system.
ICAO has published standards for machine-readable passports. Machine-readable passports have an area where some of the information otherwise written in textual form is also written as strings of alphanumeric characters, printed in a manner suitable for optical character recognition. This enables border controllers and other law enforcement agents to process such passports more quickly, without having to enter the information manually into a computer. ICAO's technical standard for machine-readable passports is contained in Document 9303 Machine Readable Travel Documents.
A more recent standard covers biometric passports. These contain biometrics to authenticate the identity of travellers. The passport's critical information is stored on a tiny RFID computer chip, much like information stored on smartcards. Like some smartcards, the passport book design calls for an embedded contactless chip that is able to hold digital signature data to ensure the integrity of the passport and the biometric data.
|1||< 800 m (2,625 ft)|
|2||800-1,200 m (2,625-3,937 ft)|
|3||1,200-1,800 m (3,937-5,906 ft)|
|4||>= 1,800 m (5,906 ft)|
|Letter||Wingspan||Main Gear span||Airbus||Boeing||Others|
|A||< 15 m (49.2 ft)||< 4.5 m (14.8 ft)||BN-2 Islander|
|B||15-24 m (49.2-78.7 ft)||4.5-6 m (14.8-19.7 ft)||CRJ 100/200/700, Embraer ERJ|
|C||24-36 m (78.7-118.1 ft)||6-9 m (19.7-29.5 ft)||A320 Family||B717, B727, B737||ATR 42/72, CRJ 900/1000, Dash 8, Embraer E-Jet|
|D||36-52 m (118.1-170.6 ft)||9-14 m (29.5-45.9 ft)||A300/A310||B707, B757, B767||DC-10/MD-11, Il-86, L-1011|
|E||52-65 m (170.6-213.3 ft)||9-14 m (29.5-45.9 ft)||A330/A340, A350||B747, B777, B787||Il-96|
|F||65-80 m (213.3-262.5 ft)||14-16 m (45.9-52.5 ft)||A380||B747-8||Antonov An-225 Mriya, Scaled Composites Stratolaunch|
Both ICAO and IATA have their own airport and airline code systems.
ICAO uses 4-letter airport codes (vs. IATA's 3-letter codes). The ICAO code is based on the region and country of the airport--for example, Charles de Gaulle Airport has an ICAO code of LFPG, where L indicates Southern Europe, F, France, PG, Paris de Gaulle, while Orly Airport has the code LFPO (the 3rd letter sometimes refers to the particular flight information region (FIR) or the last two may be arbitrary). In most parts of the world, ICAO and IATA codes are unrelated; for example, Charles de Gaulle Airport has an IATA code of CDG. However, the location prefix for continental United States is K, and ICAO codes are usually the IATA code with this prefix. For example, the ICAO code for Los Angeles International Airport is KLAX. Canada follows a similar pattern, where a prefix of C is usually added to an IATA code to create the ICAO code. For example, Calgary International Airport is YYC or CYYC. (In contrast, airports in Hawaii are in the Pacific region and so have ICAO codes that start with PH; Kona International Airport's code is PHKO. Similarly, airports in Alaska have ICAO codes that start with PA. Merrill Field, for instance is PAMR.) Note that not all airports are assigned codes in both systems; for example, airports that do not have airline service do not need an IATA code.
ICAO also assigns 3-letter airline codes (versus the more-familiar 2-letter IATA codes--for example, UAL vs. UA for United Airlines). ICAO also provides telephony designators to aircraft operators worldwide, a one- or two-word designator used on the radio, usually, but not always, similar to the aircraft operator name. For example, the identifier for Japan Airlines International is JAL and the designator is Japan Air, but Aer Lingus is EIN and Shamrock. Thus, a Japan Airlines flight numbered 111 would be written as "JAL111" and pronounced "Japan Air One One One" on the radio, while a similarly numbered Aer Lingus would be written as "EIN111" and pronounced "Shamrock One One One". In the US, FAA practices require the digits of the flight number to be spoken in group format ("Japan Air One Eleven" in the above example) while individual digits are used for the aircraft tail number used for unscheduled civil flights.
ICAO maintains the standards for aircraft registration ("tail numbers"), including the alphanumeric codes that identify the country of registration. For example, airplanes registered in the United States have tail numbers starting with N.
ICAO is also responsible for issuing 2-4 character alphanumeric aircraft type designators for those aircraft types which are most commonly provided with air traffic service. These codes provide an abbreviated aircraft type identification, typically used in flight plans. For example, the Boeing 747-100, -200 and -300 are given the type designators B741, B742 and B743 respectively.
ICAO recommends a unification of units of measurement within aviation based on the International System of Units (SI). Technically this makes SI units preferred, but in practice the following non-SI units are still in widespread use within commercial aviation:
Knots, nautical miles and feet have been permitted for temporary use since 1979, but a termination date has not yet been established, which would complete metrication of worldwide aviation. Since 2010, ICAO recommends using:
Notably, avaition in Russia, Sweden and China currently use km/h for reporting airspeed, and many present-day European glider planes also indicate airspeed in kilometers per hour. Sweden, China and North Korea use meters for reporting altitude when communicating with pilots. Russia also formerly used meters exclusively for reporting altitude, but in 2011 changed to feet for high altitude flight. From February 2017, Russian airspace started transitioning to reporting altitude in feet only. Runway lengths are now commonly given in meters worldwide, except in North America where feet are commonly used.
The table below summarizes some of the units commonly used in flight and ground operations, as well as their recommended replacement. A full list of recommended units can be found in annex 5 to the Convention on International Civil Aviation.
|Airspeed and ground speed||km/h||kn||Mach is sometimes instead used for high altitude flight. Miles per hour (mph) also has some limited use.|
|Distance (ground)||km||nmi||Distance in km has widespread use in European gliders.|
|Flight level+||m||ft||Meters is used by China, Mongolia, North Korea, Kyrgyzstan, Kazakhstan, Tajikistan and Uzbekistan, and formerly Russia. From 2017, Russian airspace has transitioned from meters to feet.|
|Runway length||m||m or ft||Feet are still used for runway lengths in North America.|
|Wind speed||m/s||kn||Until 2010 ICAO recommended km/h for reporting wind speed on runways. Meters per second is used by Russian and Chinese airports.|
|Rate of climb||m/s||ft/min, kn, m/s||Lift and sink rate is measured using a variometer.|
|Temperature||°C||°F or °C||Celsius is typically used outside North America.|
|Atmospheric pressure||hPa||inHg, mb, hPa||Hectopascals are mostly used in aviation worldwide, while inches of mercury is used in Japan and North America.|
|Visibility||m||ft, mi, m||Reported in meters for most of the world. Visibility over 5000 m may be given in kilometers. American airports use statute miles, or alternatively in feet when measured with a laser.|
|Tank capacity||L||kg, lbs, UK gallon, US gallon, L||Used for fuel tank capacity of an aircraft. Unit varies depending on the gauges fitted to the aircraft. The most common current unit is kilograms.|
|Volume||m3||m3||Used for general volume capacity.|
|Mass||kg||lbs, metric ton, long ton, short ton, kg||Used for cargo capacity, fuel capacity, gross mass, payload. Tonne may also be used for gross mass and payload. Tons are often used informally during flight planning to gauge approximate weights. Ton then usually either refers to the metric tonne, or the UK long ton or short ton which differ from the metric ton with about 2% and 10% respectively.|
|Attitude||deg||Measured with an attitude indicator, and are always presented in degrees. (Sensors, data and calculations may however use a mix of degrees and radians, as many scientists and engineers prefer to work with radians.)|
|Turn and slip||deg/s, min/tr||A common turn rate for commercial aircraft is 3 deg/s, which is often translated to (the inverse unit) 2 min/turn.|
|Heading||compass points||Measured with a heading indicator.|
+ Altitude, elevation, height.
ICAO has a headquarters, seven regional offices, and one regional sub-office:
|Secretary||Country of Nationality||Term|
|Renato Claudio Costa Pereira||Brazil||1997-2003|
|Shivinder Singh Sidhu||India||1988-1991|
|Bernardus Tielman Twigt||Netherlands||1964-1970|
|Ronald MacAllister Macdonnell||Canada||1959-1964|
|President||Country of Nationality||Term|
|Olumuyiwa Benard Aliu||Nigeria||2013-present|
|Roberto Kobeh Gonzalez||Mexico||2006-2013|
|Edward Pearson Warner||United States||1947-1957|
This section's factual accuracy may be compromised due to out-of-date information. (February 2009)
Emissions from international aviation are specifically excluded from the targets agreed under the Kyoto Protocol. Instead, the Protocol invites developed countries to pursue the limitation or reduction of emissions through the International Civil Aviation Organization. ICAO's environmental committee continues to consider the potential for using market-based measures such as trading and charging, but this work is unlikely to lead to global action. It is currently developing guidance for states who wish to include aviation in an emissions trading scheme (ETS) to meet their Kyoto commitments, and for airlines who wish to participate voluntarily in a trading scheme.
Emissions from domestic aviation are included within the Kyoto targets agreed by countries. This has led to some national policies such as fuel and emission taxes for domestic air travel in the Netherlands and Norway, respectively. Although some countries tax the fuel used by domestic aviation, there is no duty on kerosene used on international flights.
On October 6, 2016, the ICAO finalized an agreement among its 191 member nations to address the more than of carbon dioxide emitted annually by international passenger and cargo flights. The agreement will use an offsetting scheme called CORSIA (the Carbon Offsetting and Reduction Scheme for International Aviation) under which forestry and other carbon-reducing activities are directly funded, amounting to about 2% of annual revenues for the sector. Rules against 'double counting' should ensure that existing forest protection efforts are not recycled. The scheme does not take effect until 2021 and will be voluntary until 2027, but many countries, including the US and China, have promised to begin at its 2020 inception date. Under the agreement, the global aviation emissions target is a 50% reduction by 2050 relative to 2005.NGO reaction to the deal was mixed.
The agreement has critics. It is not aligned with the 2015 Paris climate agreement, which set the objective of restricting global warming to 1.5 to 2 °C. A late draft of the agreement would have required the air transport industry to assess its share of global carbon budgeting to meet that objective, but the text was removed in the agreed version. CORSIA will regulate only about 25 percent of aviation's international emissions, since it grandfathers all emissions below the 2020 level, allowing unregulated growth until then. Only 65 nations will participate in the initial voluntary period, not including significant emitters Russia, India and perhaps Brazil. The agreement does not cover domestic emissions, which are 40% of the global industry's overall emissions. One observer of the ICAO convention made this summary:
Airline claims that flying will now be green are a myth. Taking a plane is the fastest and cheapest way to fry the planet and this deal won't reduce demand for jet fuel one drop. Instead offsetting aims to cut emissions in other industries,
although another critic called it "a timid step in the right direction."
Most air accident investigations are carried out by an agency of a country that is associated in some way with the accident. For example, the Air Accidents Investigation Branch conducts accident investigations on behalf of the British Government. ICAO has conducted four investigations involving air disasters, of which two were passenger airliners shot down while in international flight over hostile territory.
ICAO is looking at having a singular ledger for drone registration to help law enforcement globally. Currently, ICAO is responsible for creating drone regulations across the globe, and it is expected that it will only maintain the registry. This activity is seen as a forerunner to global regulations on the drone flying under the auspices of the ICAO.
ICAO currently maintains the 'UAS Regulation Portal' for various countries to list their country's UAS regulations and also review the best practices from across the globe.