Link 16

Link 16 is a military tactical data link network used by NATO and nations allowed by the MIDS International Program Office (IPO). Its specification is part of the family of Tactical Data Links.

With Link 16, military aircraft as well as ships and ground forces may exchange their tactical picture in near-real time. Link 16 also supports the exchange of text messages, imagery data and provides two channels of digital voice (2.4 kbit/s and/or 16 kbit/s in any combination). Link 16 is defined as one of the digital services of the JTIDS / MIDS in NATO's Standardization Agreement STANAG 5516. MIL-STD-6016 is the related United States Department of Defense Link 16 MIL-STD.

Technical characteristics[]

Link 16 is a TDMA-based secure, jam-resistant, high-speed digital data link which operates in the radio frequency band 960–1,215 MHz, allocated in line with the International Telecommunication Union (ITU) Radio regulations to the aeronautical radionavigation service and to the radionavigation satellite service. This frequency range limits the exchange of information to users within line-of-sight of one another, although with satellite capabilities and adhoc protocols, it is nowadays possible to pass Link 16 data over long-haul protocols such as TCP/IP using MIL-STD 3011 (JREAP) or STANAG 5602 (SIMPLE). It uses the transmission characteristics and protocols, conventions, and fixed-length or variable length message formats defined by MIL-STD 6016 and STANAG 5516 (formerly the JTIDS technical interface design plan). Information is typically passed at one of three data rates: 31.6, 57.6, or 115.2 kilobits per second (kbits/s), although the radios and waveform Frequency-hopping spread spectrum (FHSS) itself can support throughput values well over 1 Mbit/s.^[1]

Link 16 information is primarily coded in J.-series messages which are binary data words with well-defined meanings. These data words are grouped in functional areas, and allocated to network participation groups (NPG) (virtual networks), most importantly:

PPLI, or Precise Participant Location and Identification (network participation groups 5 and 6),
Surveillance (network participation group 7),
Command (Mission Management/Weapons Coordination) (network participation group 8),
(Aircraft) Control (network participation group 9),
Electronic Warfare & Coordination (network participation group 10).

Platforms[]

Some examples of platforms currently using the Link 16 capability are:

Aircraft[]

AH-64E Apache
P-3C Orion
P-8A Poseidon
B-1B Lancer
B-2 Spirit
Australia C-130J
Australia E-7A Wedgetail
KC30A-MRTT
F-15 Eagle
F-16 Fighting Falcon
F/A-18 Hornet
F/A-18 Super Hornet
F-35 Lightning II
Eurofighter Typhoon
Dassault Rafale
Dassault Mirage 2000D
Dassault Mirage 2000
Saab JAS 39 Gripen
Panavia Tornado
E-2C Hawkeye
E-3 Sentry
MH-60S/R Seahawk family helicopters
E-8 Joint STARS
EA-6B Prowler
EA-18G Growler
EP-3E
Boeing RC-135 Rivet Joint
Saab 340 AEW&C
ATR 72MP
Greek Embraer R-99, Airborne Early Warning & Control aircraft
Sea King Mk 7 ASaC

Ships[]

U.S. carrier battle groups
French aircraft carrier Charles de Gaulle (R91)
Italian aircraft carrier Cavour (550) and Giuseppe Garibaldi (551)
Royal Navy Ships, Canadian, Australian, French, Italian, Spanish, Danish, Norwegian, Netherlands, New Zealand and German frigates
Swedish Visby-class corvette
Finnish Hämeenmaa-class minelayer
Japan Maritime Self-Defense Force Akizuki-class
Republic of Korea Navy Sejong the Great-class
Japan MSDF

MILGEM project class^[2]

Ground vehicles[]

VESTA (Verifiëren, Evalueren, Simuleren, Trainen en Analyseren); a minivan with radiotower used for training purposes,^[3]

Missile defense systems[]

Arrow
SAMP/T
Patriot ICC and Battery Command Post (BCP)
THAAD
JTAGS
NASAMS
Joint Land Attack/Cruise Missile Defense Elevated Netted Sensors (JLENS)

Networked Weapons[]

SDB II
JSOW-C1

Command and Control[]

Joint Data Network

The U.S. Army is integrating Link 16 into select command and control elements of its UH-60 Black Hawk fleet,^{[citation needed]} and intends to pursue fielding to AH-64 Apache^[4] and other aviation assets.

The USAF will add Link 16 to its Rockwell B-1 Lancer and Boeing B-52 Stratofortress bombers with the Common Link Integration Processing system.^[5] A key exception is the Lockheed Martin F-22 Raptor which can only receive but not transmit Link 16 data.^[6] According to the Air Force, transmitting data would reveal its location.^[7]

Development[]

Link 16 is intended to advance Tactical Data Links (TDLs) as the NATO standard for data link information exchange. Link 16 equipment is located in ground, airborne, and sea-based air defense platforms and selected fighter aircraft. The U.S. industry is now developing a new Link 16 SCA compliant radio MIDS-JTRS which currently is projected to implement nine various tactical waveforms, including Link 16.^{[citation needed]}

The MIDS program, which manage the development of the communication component for Link 16, is managed by the International Program Office located in San Diego, California. In the United States, the lead Air Force command for the MIL-STD-6016 standard, plans, and requirements is the Air Force Global Cyberspace Integration Center at Langley AFB, with JTIDS program execution managed by the 653d Electronic Systems Wing at Hanscom Air Force Base near Boston, Massachusetts. The MIL-STD-6016 Standard configuration management custodian is the Defense Information Systems Agency.

References[]

Notes[]

^ "MIDS-LVT Link 16 Tactical Airborne Terminal". viasat.com.
^ "Archived copy". Archived from the original on 4 March 2016. Retrieved 15 January 2016.CS1 maint: archived copy as title (link)
^ "Vesta", Link 16 testwagen scheelt vlieguren en vaardagen (in Dutch), Netherlands: Defensie, 13 May 2011
^ bại não Lockheed martin press release 14 July 2011 defense systems, 15 July 2011
^ Northrop Grumman Awarded Air Force Contract to Integrate CLIP on B-1B and B-52 Aircraft Northrop Grumman press release, 21 October 2010
^ Seligman, Lara (23 May 2017). "Inside The Cockpit: Flying The F-22 Against Islamic State In Syria". Aviation Week. Retrieved 30 May 2017. At the same time, the company is working on enabling the Raptor to transmit Link 16 signals—currently the aircraft can only receive Link 16 — and fielding Increment 3.2B, a new software load that will allow the F-22 to take full advantage of the AIM-9X and AIM-120D Amraam missiles.
^ "F22 Raptor absent from Libya ops", Air force times, March 2011

General references[]

[1] "MIDS-LVT Link 16 Tactical Airborne Terminal". viasat.com.

[2] "Archived copy". Archived from the original on 4 March 2016. Retrieved 15 January 2016.CS1 maint: archived copy as title (link)

[3] "Vesta", Link 16 testwagen scheelt vlieguren en vaardagen (in Dutch), Netherlands: Defensie, 13 May 2011

[4] ại não Lockheed martin press release 14 July 2011 defense systems, 15 July 2011

[5] Northrop Grumman Awarded Air Force Contract to Integrate CLIP on B-1B and B-52 Aircraft Northrop Grumman press release, 21 October 2010

[6] Seligman, Lara (23 May 2017). "Inside The Cockpit: Flying The F-22 Against Islamic State In Syria". Aviation Week. Retrieved 30 May 2017. At the same time, the company is working on enabling the Raptor to transmit Link 16 signals—currently the aircraft can only receive Link 16 — and fielding Increment 3.2B, a new software load that will allow the F-22 to take full advantage of the AIM-9X and AIM-120D Amraam missiles.

[7] "F22 Raptor absent from Libya ops", Air force times, March 2011

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