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NATO STANAG 4671

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NATO STANAG 4671 is the NATO Standardized Agreement 4671 which is the UAV SYSTEM Airworthiness REQUIREMENTS (USAR). It is intended to allow military Unmanned aerial vehicles (UAVs) to operate in other NATO members airspace.

Page 1 of edition 1 states:[1]: 5 

If a National Certifying Authority states that a UAV System airworthiness is compliant with STANAG 4671 (and any appropriate national reservations), then, from an airworthiness perspective, that UAV System should have streamlined approval to fly in the airspace of other NATO countries, if those countries have also ratified this STANAG.

Edition 1 [2] was promulgated in September 2009. Edition 2 was promulgated in February 2017.

Draft edition 3 was being commented on (e.g. by the aircraft industry) in Sept 2014,[3] calling attention to slow progress and highlighting concerns. Edition 3 [4] was promulgated in Apr 2019.

Background

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The task to initiate this standard resulted from a NATO meeting of the Flight In Non-Segregated Airspace (FINAS) Working Group, September 2004. There were no known international military standards for unmanned airworthiness. To prepare for the possible acquisition of a NATO-owned unmanned aerial vehicle (UAV), the level of airworthiness was essential so that industry could meet the alliance requirement.

At the March 2005 FINAS meeting, France offered their national standard developed by Direction Générale de L'armement (DGA) to be an initial basis for a NATO standard.[5] The DGA document was titled “UAV System Airworthiness Requirements” a designation that France asked to be applied in NATO. This DGA standard was structured on the basis of EASA Certification Specification 23, CS-23 Normal, Utility, Aerobatic and Commuter Aeroplanes.[6] The offer was accepted and the FINAS Chairman established a UAV System Airworthiness Requirements (USAR) Specialist Team (ST) to lead the production of document to establish guidelines for NATO UAV airworthiness. The French agreed to lead the ST.

The initial mandate of the ST was to recommend NATO-wide guidelines for UAV airworthiness to allow the cross-border operation of unmanned aerial vehicles (UAVs) in non-segregated airspace.

Scope

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It covers fixed-wing military UAVs from 150 kg to 20,000 kg,[1]: 6  that do NOT need "for normal operation the presence of a pilot that directly controls the UAV using a control box (e.g., stick, rudder pedals, throttles, etc.)"[1]: 20 

It covers all aspects of the UAV system including communication links and control centre.[1]: 8 

It covers, e.g. ground handling characteristics,[1]: 35  landing gear,[1]: 73  UAV external 'position' lights,[1]: 125  Command and control data link loss strategy,[1]: 147 : 207  Emergency recovery capability,[1]: 203  (including deliberate flight termination using explosives).

UAV safety requirements

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Sense and avoid

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Page 7 states "It is recognized that ‘sense and avoid’ is a key enabling issue for UAV operations. The derivation and definition of ‘sense and avoid’ requirements is primarily an operational issue and hence outside the scope of USAR. However, once these requirements have been clarified, any system designed and installed to achieve these objectives is an item of installed equipment within a UAV System and hence falls under the airworthiness requirements of USAR."

Ratifying countries

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Ratifying countries are listed in the front of AEP-4671, Ed. B Ver. 1, found on the NATO Standardization Office web site. National reservations are also listed.

Compliant UAVs

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* Elbit Systems Hermes 900 "StarLiner"

UAVs intended to be Compliant

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See also

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  • EuroHawk: would need much work to be compliant

References

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  1. ^ a b c d e f g h i UAV SYSTEM AIRWORTHINESS REQUIREMENTS (USAR) STANAG 4671 Ed.: 1 [permanent dead link] Use View STANAG to get PDF
  2. ^ http://www.dror-aero.com/link/usar_edition_1.pdf [bare URL PDF]
  3. ^ RPAS Certification. Where the challenges lie. Military Airworthiness Conference 2014. Lopez (RPAS = Remotely Piloted Aircraft System)
  4. ^ "List of Current NATO Standards". Archived from the original on 2019-09-14. Retrieved 2019-07-13.
  5. ^ https://www.easa.europa.eu/sites/default/files/dfu/CRD-16-2005.pdf [bare URL PDF]
  6. ^ "Certification Specifications (CSS)".

Further reading

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