Unmanned Aircraft Systems: Current and Potential Programs

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Unmanned Aircraft Systems: Current and
July July 1928, 2022 , 2022
Potential Programs
John R. Hoehn
Since the dawn of military aviation, the U.S. military has been interested in remotely piloted Since the dawn of military aviation, the U.S. military has been interested in remotely piloted
Analyst in Military Analyst in Military
aircraft. Present-day unmanned aircraft systems (UAS) typically consist of an unmanned aircraft aircraft. Present-day unmanned aircraft systems (UAS) typically consist of an unmanned aircraft
Capabilities and Programs Capabilities and Programs
vehicle (UAV) paired with a ground control station. UAS have become ubiquitous in U.S. vehicle (UAV) paired with a ground control station. UAS have become ubiquitous in U.S.

military operations since the 1990s with the introduction of the MQ-1 Predator. military operations since the 1990s with the introduction of the MQ-1 Predator.
Paul K. Kerr
Specialist in Specialist in
The U.S. military currently employs several different large UAS, including The U.S. military currently employs several different large UAS, including
Nonproliferation Nonproliferation
 the Army’s MQ  the Army’s MQ

-1C Gray Eagle, -1C Gray Eagle,
 the Air Force’s MQ-9 Reaper,  the Air Force’s MQ-9 Reaper,

 the Navy’s MQ-25 Stingray,  the Navy’s MQ-25 Stingray,
 the Air Force’s RQ-4 Global Hawk,  the Air Force’s RQ-4 Global Hawk,
 the Navy’s MQ-4C Triton, and  the Navy’s MQ-4C Triton, and
 the Air Force’s RQ-170 Sentinel.  the Air Force’s RQ-170 Sentinel.
In addition, several other reported programs are either in development or currently undergoing experimentation. These In addition, several other reported programs are either in development or currently undergoing experimentation. These
programs include the Air Force’s B-21 Raider and the Air Force’s RQ-180. programs include the Air Force’s B-21 Raider and the Air Force’s RQ-180.
As Congress performs its oversight and authorization functions, it may consider several potential issues associated with UAS As Congress performs its oversight and authorization functions, it may consider several potential issues associated with UAS
programs, including programs, including
 the cost of manned versus unmanned aircraft,  the cost of manned versus unmanned aircraft,
 a lack of acknowledged follow-on programs of record,  a lack of acknowledged follow-on programs of record,
 the management of UAS acquisitions across the Department of Defense,  the management of UAS acquisitions across the Department of Defense,
 the interoperation of UAS with existing force structure, and  the interoperation of UAS with existing force structure, and
 export controls of UAS abroad.  export controls of UAS abroad.
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Unmanned Aircraft Systems: Current and Potential Programs

n the U.S. military, remotely piloted vehicles (RPVs) are most often called unmanned aircraft n the U.S. military, remotely piloted vehicles (RPVs) are most often called unmanned aircraft
vehicles (UAVs), which are described as either a single air vehicle (with associated vehicles (UAVs), which are described as either a single air vehicle (with associated
I surveillance sensors) or a UAV system (UAS), which typically consists of an air vehicle I surveillance sensors) or a UAV system (UAS), which typically consists of an air vehicle
paired with a ground control station (where the pilot actually sits) and support equipment.1 paired with a ground control station (where the pilot actually sits) and support equipment.1
Although UAS are commonly operated as one aircraft paired with one ground system, the Although UAS are commonly operated as one aircraft paired with one ground system, the
Department of Defense (DOD) often procures multiple aircraft with one ground control station. Department of Defense (DOD) often procures multiple aircraft with one ground control station.
When combined with ground control stations and communication data links, UAVs form When combined with ground control stations and communication data links, UAVs form
unmanned aircraft systems or UAS.unmanned aircraft systems or UAS.
The Department of Defense (DOD) The Department of Defense (DOD)
defines UAVs, and, by extension, UAS as powered aircraft defines UAVs, and, by extension, UAS as powered aircraft
that that
 do not carry a human operator,  do not carry a human operator,
 use aerodynamic forces to provide vehicle lift,  use aerodynamic forces to provide vehicle lift,
 can fly autonomously or be piloted remotely,  can fly autonomously or be piloted remotely,
 can be expendable or recoverable, and  can be expendable or recoverable, and
 can carry a lethal or nonlethal payload.2  can carry a lethal or nonlethal payload.2
Ballistic or semiballistic vehicles, cruise missiles, and artillery projectiles are not considered Ballistic or semiballistic vehicles, cruise missiles, and artillery projectiles are not considered
UASs under the DOD definition.3 UASs under the DOD definition.3
UAS roles and missions have evolved over time, from collecting intelligence, surveillance, and UAS roles and missions have evolved over time, from collecting intelligence, surveillance, and
reconnaissance to performing air-to-ground attack missions. Further, some analysts predict future reconnaissance to performing air-to-ground attack missions. Further, some analysts predict future
roles for UAS, such as air-to-air combat and combat search and rescue.4 However, a detailed roles for UAS, such as air-to-air combat and combat search and rescue.4 However, a detailed
discussion of future concepts and missions for UAS are outside the scope of this report.5 discussion of future concepts and missions for UAS are outside the scope of this report.5
History of Unmanned Aircraft Systems (UAS)6
UAS were first tested during World War I, though they were not used in combat by the United UAS were first tested during World War I, though they were not used in combat by the United
States during that war. The United States first employed UAS in a combat role in the course of States during that war. The United States first employed UAS in a combat role in the course of
the Vietnam War, including the AQM-34 Firebee, a system which exemplifies the versatility of the Vietnam War, including the AQM-34 Firebee, a system which exemplifies the versatility of
UAS. The Firebee, for example, initially flew in the 1950s as an aerial gunnery target drone, and UAS. The Firebee, for example, initially flew in the 1950s as an aerial gunnery target drone, and
then in the 1960s as an intelligence-collection drone, and ultimately was modified to deliver then in the 1960s as an intelligence-collection drone, and ultimately was modified to deliver
payloads in 2002.7 payloads in 2002.7

1 This arrangement is applicable for the larger UAS. For smaller UAS, there is typically a single aircraft with a single 1 This arrangement is applicable for the larger UAS. For smaller UAS, there is typically a single aircraft with a single
ground control system. ground control system.
2 Joint Publication 1-02, “DOD Dictionary of Military and Associated Terms.” 2 Joint Publication 1-02, “DOD Dictionary of Military and Associated Terms.”
3 Ibid. 3 Ibid.
4 Department of Defense, 4 Department of Defense, Unmanned Aircraft System Roadmap 2005-2030, Washington, DC, August 4, 2005, at , Washington, DC, August 4, 2005, at
https://irp.fas.org/program/collect/uav_roadmap2005.pdf. https://irp.fas.org/program/collect/uav_roadmap2005.pdf.
5 For a detailed discussion of UAS roles, missions, and future concepts see CRS Report R47188, 5 For a detailed discussion of UAS roles, missions, and future concepts see CRS Report R47188, Unmanned Aircraft
Systems: Roles, Missions, and Future Concepts, coordinated by John R. Hoehn. , coordinated by John R. Hoehn.
6 This section is derived from CRS Report R42136, 6 This section is derived from CRS Report R42136, U.S. Unmanned Aerial Systems, by Jeremiah Gertler. , by Jeremiah Gertler.
7 National Museum of the Air Force, “Ryan BQM-34 Firebee,” press release, at https://www.nationalmuseum.af.mil/7 National Museum of the Air Force, “Ryan BQM-34 Firebee,” press release, at https://www.nationalmuseum.af.mil/
Visit/Museum-Exhibits/Fact-Sheets/Display/Article/198026/ryan-bqm-34-firebee/. Visit/Museum-Exhibits/Fact-Sheets/Display/Article/198026/ryan-bqm-34-firebee/.
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The U.S. military use of UAS in conflicts such as Kosovo (1999), Iraq (2003-present),8 and The U.S. military use of UAS in conflicts such as Kosovo (1999), Iraq (2003-present),8 and
Afghanistan (2001-present) illustrates the advantages and disadvantages of unmanned aircraft.9 Afghanistan (2001-present) illustrates the advantages and disadvantages of unmanned aircraft.9
(The MQ-1 Predator, discussed below, further exemplifies these advantages and disadvantages). (The MQ-1 Predator, discussed below, further exemplifies these advantages and disadvantages).
UAS regularly garner media attention when they perform tasks historically performed by manned UAS regularly garner media attention when they perform tasks historically performed by manned
aircraft. They also seem to offer two main advantages over manned aircraft: (1) they eliminate the aircraft. They also seem to offer two main advantages over manned aircraft: (1) they eliminate the
risk to a pilot’s life (see the discussion on MQ-4C) and (2) their aeronautical capabilities, such as risk to a pilot’s life (see the discussion on MQ-4C) and (2) their aeronautical capabilities, such as
endurance, are not bound by human limitations and improve low observable technology using endurance, are not bound by human limitations and improve low observable technology using
inherently unstable designs that might be too dangerous for humans.10 In addition, UAS can inherently unstable designs that might be too dangerous for humans.10 In addition, UAS can
potentially protect the lives of pilots by performing “dull, dirty, or dangerous” missions that do potentially protect the lives of pilots by performing “dull, dirty, or dangerous” missions that do
not require a pilot in the cockpit.11 Examples of these missions include a 30-hour long endurance not require a pilot in the cockpit.11 Examples of these missions include a 30-hour long endurance
sortie performed by a B-2 bomber in 1999 (dull mission)12; Air Force and Navy B-17s flown sortie performed by a B-2 bomber in 1999 (dull mission)12; Air Force and Navy B-17s flown
through nuclear clouds to collect radioactive samples (dirty mission)13; and, intelligence through nuclear clouds to collect radioactive samples (dirty mission)13; and, intelligence
surveillance and reconnaissance sorties flown in the presence of active threats, such as man surveillance and reconnaissance sorties flown in the presence of active threats, such as man
portable air defenses or integrated air defense systems (dangerous missions).14 portable air defenses or integrated air defense systems (dangerous missions).14
Moreover, UAS may be cheaper to procure and operate than manned aircraft.15 However, the Moreover, UAS may be cheaper to procure and operate than manned aircraft.15 However, the
lower procurement cost may potentially be weighed against DOD’s observation that unmanned lower procurement cost may potentially be weighed against DOD’s observation that unmanned
vehicles are more likely than piloted ones to be involved in a Class A mishap, which is an vehicles are more likely than piloted ones to be involved in a Class A mishap, which is an
accident causing $2.5 million of damage, loss of life, or the destruction of the aircraft accident causing $2.5 million of damage, loss of life, or the destruction of the aircraft (Table 1).16 16
When comparing mishap rates, which are reported as incidents per 100,000 hours flown to allow When comparing mishap rates, which are reported as incidents per 100,000 hours flown to allow
for comparisons across different aircraft types, unmanned aircraft are 92% more likely to be for comparisons across different aircraft types, unmanned aircraft are 92% more likely to be
involved in a Class A mishap compared to manned aircraft;17 when MQ-1 mishap rates are involved in a Class A mishap compared to manned aircraft;17 when MQ-1 mishap rates are
removed from the unmanned subcategory, MQ-9s and RQ-4s are 15% more likely to be involved removed from the unmanned subcategory, MQ-9s and RQ-4s are 15% more likely to be involved

8 Chad Garland, “Attack drones keep up harassment at al Asad, leading to latest shootdown,” 8 Chad Garland, “Attack drones keep up harassment at al Asad, leading to latest shootdown,” Stars and Stripes, January , January
6, 2022, at https://www.stripes.com/theaters/middle_east/2022-01-06/coalition-thwart-drone-attack-iraq-asad-iran-6, 2022, at https://www.stripes.com/theaters/middle_east/2022-01-06/coalition-thwart-drone-attack-iraq-asad-iran-
proxies-4200232.html. proxies-4200232.html.
9 Although the United States withdrew ground forces from Afghanistan in 2021, it continues to operate UASs there as 9 Although the United States withdrew ground forces from Afghanistan in 2021, it continues to operate UASs there as
part of its “over the horizon” capability to monitor events. John Venable, part of its “over the horizon” capability to monitor events. John Venable, U.S. Over-the-Horizon Capability for
Afghanistan, The Heritage Foundation, FS218, Washington, DC, September 7, 2021, at https://www.heritage.org/, The Heritage Foundation, FS218, Washington, DC, September 7, 2021, at https://www.heritage.org/
defense/report/us-over-the-horizon-capability-afghanistan. defense/report/us-over-the-horizon-capability-afghanistan.
10 Low observable aircraft are those designed to be difficult for an enemy to detect. This characteristic most often takes 10 Low observable aircraft are those designed to be difficult for an enemy to detect. This characteristic most often takes
the form of reducing an aircraft’s radar signature through careful shaping of the airframe, special coatings, gap sealing, the form of reducing an aircraft’s radar signature through careful shaping of the airframe, special coatings, gap sealing,
and other measures. Stealth also includes reducing the aircraft’s signature in other ways, as adversaries could try to and other measures. Stealth also includes reducing the aircraft’s signature in other ways, as adversaries could try to
detect engine heat, electromagnetic emissions from the aircraft’s radars or communications gear, and other signatures. detect engine heat, electromagnetic emissions from the aircraft’s radars or communications gear, and other signatures.
Minimizing these signatures is not without penalty. Shaping an aircraft for stealth leads to different choices than Minimizing these signatures is not without penalty. Shaping an aircraft for stealth leads to different choices than
shaping for speed. Shrouding engines and/or using smaller powerplants reduces performance; reducing electromagnetic shaping for speed. Shrouding engines and/or using smaller powerplants reduces performance; reducing electromagnetic
signatures may introduce compromises in design and tactics. Stealthy coatings, access port designs, and seals may signatures may introduce compromises in design and tactics. Stealthy coatings, access port designs, and seals may
require higher maintenance time and cost than more conventional aircraft. require higher maintenance time and cost than more conventional aircraft.
11 Department of Defense, 11 Department of Defense, Unmanned Aircraft System Roadmap 2005-2030, Washington, DC, August 4, 2005, at , Washington, DC, August 4, 2005, at
https://irp.fas.org/program/collect/uav_roadmap2005.pdf. https://irp.fas.org/program/collect/uav_roadmap2005.pdf.
12 Ibid, p. 2. 12 Ibid, p. 2.
13 Ibid, p. 2. 13 Ibid, p. 2.
14 Ibid, p. 2. 14 Ibid, p. 2.
15 Congressional Budget Office, 15 Congressional Budget Office, Usage Patterns and Costs of Unmanned Aerial Systems, 57090, Washington, DC, June , 57090, Washington, DC, June
1, 2021, at https://www.cbo.gov/system/files/2021-06/57090-UAS.pdf. 1, 2021, at https://www.cbo.gov/system/files/2021-06/57090-UAS.pdf.
16 DOD defines a Class A mishap as causing $2.5 million or more worth of damage to an aircraft, the total destruction 16 DOD defines a Class A mishap as causing $2.5 million or more worth of damage to an aircraft, the total destruction
of an aircraft, or an accident resulting in a fatality. Department of Defense, of an aircraft, or an accident resulting in a fatality. Department of Defense, Mishap Notification, Investigation,
Reporting, and Record Keeping, DoDI 6055.07, Washington, DC, June 6, 2011, at https://www.esd.whs.mil/Portals/54/, DoDI 6055.07, Washington, DC, June 6, 2011, at https://www.esd.whs.mil/Portals/54/
Documents/DD/issuances/dodi/605507p.pdf. Documents/DD/issuances/dodi/605507p.pdf.
17 The figures are CRS calculations based on data from Air Force Safety Center Data, at https://www.safety.af.mil/ 17 The figures are CRS calculations based on data from Air Force Safety Center Data, at https://www.safety.af.mil/
Divisions/Aviation-Safety-Division/Aviation-Statistics/. Divisions/Aviation-Safety-Division/Aviation-Statistics/.
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in a Class A mishap compared to manned aircraft (se in a Class A mishap compared to manned aircraft (see Table 1). While manned aircraft generally . While manned aircraft generally
have more Class A mishaps in totality when compared to unmanned platforms, this outcome is have more Class A mishaps in totality when compared to unmanned platforms, this outcome is
potentially the result of a larger population of manned aircraft.18 potentially the result of a larger population of manned aircraft.18
Table 1. Aircraft Mishap and Destruction Rates Between FY1998-FY2021
Class A
Airframes
Total Hours
Class A/
Destroyed/
Platform
Mishaps
Destroyed
Flown
100,000 Hrs.
100,000 Hrs.
MQ- MQ-1a
130 130
115 115
2,076,397 2,076,397
6.26 6.26
5.54 5.54
MQ- MQ-9a
62 62
43 43
2,673,310 2,673,310
2.32 2.32
1.61 1.61
RQ- RQ-4a
9 9
7 7
311,280 311,280
2.89 2.89
2.25 2.25
Unmanned
201
165
5,060,987
3.97
3.26
F-22 F-22
32 32
5 5
410,202 410,202
7.80 7.80
1.22 1.22
F-16 F-16
148 148
119 119
6,358,547 6,358,547
2.33 2.33
1.87 1.87
F-15 F-15
65 65
38 38
3,302,821 3,302,821
1.97 1.97
1.15 1.15
A-10 A-10
20 20
17 17
2,378,464 2,378,464
0.84 0.84
0.71 0.71
U-2 U-2
8 8
2 2
345,083 345,083
2.32 2.32
0.58 0.58
E-3 E-3
1 1
0 0
450,150 450,150
0.22 0.22
— —
E-8 E-8
3 3
0 0
222,783 222,783
1.35 1.35
— —
F- F-35b
3 3
0 0
96,313 96,313
3.11 3.11
— —
Manned
280
181
13,564,363
2.06
1.33
Source: CRS Analysis of Air Force Safety Center Data, at https://www.safety.af.mil/Divisions/Aviation-Safety-CRS Analysis of Air Force Safety Center Data, at https://www.safety.af.mil/Divisions/Aviation-Safety-
Division/Aviation-Statistics/. Division/Aviation-Statistics/.
Note: Subtotals of unmanned and manned mishap rates are denoted in bold. Subtotals of unmanned and manned mishap rates are denoted in bold.
a. Denotes unmanned platforms. a. Denotes unmanned platforms.
b. F-35 data represents FY1998-FY2019, which is the current calculations reported by the Air Force Safety b. F-35 data represents FY1998-FY2019, which is the current calculations reported by the Air Force Safety
Center. Center.
DOD has generally used three models to operate UAS: (1) government-owned–and-operated DOD has generally used three models to operate UAS: (1) government-owned–and-operated
systems, (2) government-owned-but-contractor operated systems, and (3) contractor-owned-and-systems, (2) government-owned-but-contractor operated systems, and (3) contractor-owned-and-
operated systems.19 When UAS were first introduced to the force, DOD used the contractor-operated systems.19 When UAS were first introduced to the force, DOD used the contractor-
owned-and-operated model as DOD trained military personnel to operate these new types of owned-and-operated model as DOD trained military personnel to operate these new types of
aircraft. After sufficient personnel were trained, DOD transitioned to a government-owned-and-aircraft. After sufficient personnel were trained, DOD transitioned to a government-owned-and-
operated model. DOD, however, has placed restrictions on the types of missions assigned to operated model. DOD, however, has placed restrictions on the types of missions assigned to
contractor-operated aircraft (with both government and contractor-owned aircraft), limiting these contractor-operated aircraft (with both government and contractor-owned aircraft), limiting these
types of operations to intelligence, surveillance, and reconnaissance roles.20 types of operations to intelligence, surveillance, and reconnaissance roles.20

18 U.S. Air Force 18 U.S. Air Force Department of the Air Force FY2022 Budget Overview, Washington D.C., May 28, 2021, p. 58, at , Washington D.C., May 28, 2021, p. 58, at
https://www.saffm.hq.af.mil/Portals/84/documents/FY22/SUPPORT_/FY22%20Budget%20Overview%20Book.pdf?https://www.saffm.hq.af.mil/Portals/84/documents/FY22/SUPPORT_/FY22%20Budget%20Overview%20Book.pdf?
ver=SMbMqD0tqIJNwq2Z0Q4yzA%3d%3d. ver=SMbMqD0tqIJNwq2Z0Q4yzA%3d%3d.
19 Frank Gorenc, “The Case for Medium Altitude Persistent Air Power,” 19 Frank Gorenc, “The Case for Medium Altitude Persistent Air Power,” Breaking Defense, June 10, 2020, at , June 10, 2020, at
https://breakingdefense.com/2020/06/the-case-for-medium-altitude-persistent-air-power/. https://breakingdefense.com/2020/06/the-case-for-medium-altitude-persistent-air-power/.
20 This limitation was most recently demonstrated with the Marine Corps’ operation of MQ-9s in Afghanistan in 2018. 20 This limitation was most recently demonstrated with the Marine Corps’ operation of MQ-9s in Afghanistan in 2018.
Joseph Trevithick, “Marines Lay Out Plans For Their Own MQ-9 Reaper Drone Force In New Budget Request,” Joseph Trevithick, “Marines Lay Out Plans For Their Own MQ-9 Reaper Drone Force In New Budget Request,” The
Warzone, March 12, 2019, at https://www.thedrive.com/the-war-zone/26924/marines-lay-out-plans-for-their-own-mq-, March 12, 2019, at https://www.thedrive.com/the-war-zone/26924/marines-lay-out-plans-for-their-own-mq-
9-reaper-drone-force-in-new-budget-request. 9-reaper-drone-force-in-new-budget-request.
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Unmanned Aircraft Systems: Current and Potential Programs

MQ-1 Predator and the Introduction of UAS
One of the first UAS to enter military service was the MQ-1 Predator, when DOD in 1996 One of the first UAS to enter military service was the MQ-1 Predator, when DOD in 1996
selected the Air Force to operate the Predator. According to the Air Force, the Predator was selected the Air Force to operate the Predator. According to the Air Force, the Predator was
designed to “provide to the warfighter persistent intelligence, surveillance, and reconnaissance designed to “provide to the warfighter persistent intelligence, surveillance, and reconnaissance
information combined with a strike capability.”21 As an advanced concept technology information combined with a strike capability.”21 As an advanced concept technology
demonstrator under a Defense Advanced Research Projects Agency (DARPA) contract,22 the demonstrator under a Defense Advanced Research Projects Agency (DARPA) contract,22 the
Predator made its first operational deployment while still serving as a technical demonstrator in Predator made its first operational deployment while still serving as a technical demonstrator in
1995 in support of NATO airstrikes in Serbia.23 From March through July 1999, the Predator flew 1995 in support of NATO airstrikes in Serbia.23 From March through July 1999, the Predator flew
more than 600 sorties over Kosovo, performing real-time surveillance and battle damage more than 600 sorties over Kosovo, performing real-time surveillance and battle damage
assessments. Predators deployed to Afghanistan in September 2001 to provide long endurance assessments. Predators deployed to Afghanistan in September 2001 to provide long endurance
intelligence, surveillance, and reconnaissance in support of Operation Enduring Freedom, intelligence, surveillance, and reconnaissance in support of Operation Enduring Freedom,
following the terrorist attacks on September 11, 2001. The wide employment of the Predator by following the terrorist attacks on September 11, 2001. The wide employment of the Predator by
U.S. forces facilitated the development of other closely related UAS (described below) designed U.S. forces facilitated the development of other closely related UAS (described below) designed
for various types of missions. Although the Predator was officially retired from service on March for various types of missions. Although the Predator was officially retired from service on March
9, 2018, much of the U.S. military’s current UAS fleet is based on that same technology, 9, 2018, much of the U.S. military’s current UAS fleet is based on that same technology,
including airframes derived from the Predator.24 including airframes derived from the Predator.24
Developed by General Atomics Aeronautical Systems in San Diego, CA, the Predator helped Developed by General Atomics Aeronautical Systems in San Diego, CA, the Predator helped
define the modern role of UAS with its integrated surveillance payload and armament define the modern role of UAS with its integrated surveillance payload and armament
capabilities.25 The Predator’s primary function was reconnaissance and target acquisition of capabilities.25 The Predator’s primary function was reconnaissance and target acquisition of
potential ground targets. To accomplish this mission, the Predator was outfitted with a 450 pound potential ground targets. To accomplish this mission, the Predator was outfitted with a 450 pound
surveillance payload, which included two electro-optical (EO) cameras and one infrared (IR) surveillance payload, which included two electro-optical (EO) cameras and one infrared (IR)
camera for use at night.26 These cameras were housed in a ball-shaped turret beneath the vehicle’s camera for use at night.26 These cameras were housed in a ball-shaped turret beneath the vehicle’s
nose. The Predator was also equipped with a Multi-Spectral Targeting System (MTS) sensor ball, nose. The Predator was also equipped with a Multi-Spectral Targeting System (MTS) sensor ball,
which added a laser designator to the EO/IR payload that allowed the Predator to track moving which added a laser designator to the EO/IR payload that allowed the Predator to track moving
targets.27 In addition, the Predator’s payload included a synthetic aperture radar (SAR), which targets.27 In addition, the Predator’s payload included a synthetic aperture radar (SAR), which
enabled the UAS to “see” through inclement weather. The Predator’s satellite communications enabled the UAS to “see” through inclement weather. The Predator’s satellite communications
provided for beyond (ground-based) radio line-of-sight operations. provided for beyond (ground-based) radio line-of-sight operations.
MQ-1 Predator Physical Characteristics28
The Predator was a medium-altitude, long-endurance UAS. At 27 feet long, 7 feet high, and with a 48-foot The Predator was a medium-altitude, long-endurance UAS. At 27 feet long, 7 feet high, and with a 48-foot
wingspan, it had long, thin wings and a tail like an inverted “V.” The Predator typically operated at 10,000 to wingspan, it had long, thin wings and a tail like an inverted “V.” The Predator typically operated at 10,000 to

21 U.S. Air Force, “MQ-1B Predator,” press release, September 2015, at https://www.af.mil/About-Us/Fact-Sheets/21 U.S. Air Force, “MQ-1B Predator,” press release, September 2015, at https://www.af.mil/About-Us/Fact-Sheets/
Display/Article/104469/mq-1b-predator/. Display/Article/104469/mq-1b-predator/.
22 IHS Janes “Unmanned Aerial Vehicles – GA-ASI MQ-1B and RQ-1A Predator,” February 22, 2021, at 22 IHS Janes “Unmanned Aerial Vehicles – GA-ASI MQ-1B and RQ-1A Predator,” February 22, 2021, at
https://customer.janes.com/Janes/Display/JUAV1317-JUAV. https://customer.janes.com/Janes/Display/JUAV1317-JUAV.
23 Ibid. 23 Ibid.
24 Stephen Losey, “Air Force announces official retirement date for iconic MQ-1 Predator drone,” 24 Stephen Losey, “Air Force announces official retirement date for iconic MQ-1 Predator drone,” Air Force Times, ,
February 16, 2018, at https://www.airforcetimes.com/news/your-air-force/2018/02/16/air-force-announces-official-February 16, 2018, at https://www.airforcetimes.com/news/your-air-force/2018/02/16/air-force-announces-official-
retirement-date-for-iconic-mq-1-predator/. Richard Whittle, retirement-date-for-iconic-mq-1-predator/. Richard Whittle, Predator: The Secret Origins of the Drone Revolution
(Henry Holt and Co., 2014). (Henry Holt and Co., 2014).
25 U.S. Air Force, “MQ-1B Predator,” press release, September 2015, at https://www.af.mil/About-Us/Fact-Sheets/ 25 U.S. Air Force, “MQ-1B Predator,” press release, September 2015, at https://www.af.mil/About-Us/Fact-Sheets/
Display/Article/104469/mq-1b-predator/. Display/Article/104469/mq-1b-predator/.
26 IHS Janes “Unmanned Aerial Vehicles – GA-ASI MQ-1B and RQ-1A Predator,” February 22, 2021, at 26 IHS Janes “Unmanned Aerial Vehicles – GA-ASI MQ-1B and RQ-1A Predator,” February 22, 2021, at
https://customer.janes.com/Janes/Display/JUAV1317-JUAV. https://customer.janes.com/Janes/Display/JUAV1317-JUAV.
27 Ibid. 27 Ibid.
28 U.S. Air Force, “MQ-1B Predator,” press release, September 2015, at https://www.af.mil/About-Us/Fact-Sheets/28 U.S. Air Force, “MQ-1B Predator,” press release, September 2015, at https://www.af.mil/About-Us/Fact-Sheets/
Display/Article/104469/mq-1b-predator/. Display/Article/104469/mq-1b-predator/.
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15,000 feet to obtain the best imagery from its video cameras, although it was able to reach a maximum altitude of 15,000 feet to obtain the best imagery from its video cameras, although it was able to reach a maximum altitude of
25,000 feet. Each vehicle could remain on station over 500 nautical miles away from its base, for 24 hours before 25,000 feet. Each vehicle could remain on station over 500 nautical miles away from its base, for 24 hours before
returning home. Pilots and sensor operators for the Predator flew the aircraft from a ground control system. returning home. Pilots and sensor operators for the Predator flew the aircraft from a ground control system.
In 2001, as a secondary function, the Predator was outfitted with the ability to carry two Hellfire In 2001, as a secondary function, the Predator was outfitted with the ability to carry two Hellfire
missiles.29 Previously, the Predator identified a target and relayed the coordinates to a manned missiles.29 Previously, the Predator identified a target and relayed the coordinates to a manned
aircraft, which then engaged the target, but the addition of antitank ordnance enabled the UAS to aircraft, which then engaged the target, but the addition of antitank ordnance enabled the UAS to
launch a precision attack on a time-sensitive target with a minimized “sensor-to-shoot” time launch a precision attack on a time-sensitive target with a minimized “sensor-to-shoot” time
cycle. Consequently, the Air Force changed the Predator’s military designation from RQ-1B cycle. Consequently, the Air Force changed the Predator’s military designation from RQ-1B
(reconnaissance unmanned) to the MQ-1 (multi-mission unmanned).30 (reconnaissance unmanned) to the MQ-1 (multi-mission unmanned).30
Following the operational success of the Predator, the Army and the Air Force both developed Following the operational success of the Predator, the Army and the Air Force both developed
variants, including the MQ-1C Gray Eagle and the MQ-9 Reaper (discussed below). These variants, including the MQ-1C Gray Eagle and the MQ-9 Reaper (discussed below). These
aircraft used the original Predator airframe, while increasing engine power and armament.31 aircraft used the original Predator airframe, while increasing engine power and armament.31
Selected Current UAS Programs
The following sections provide an overview of selected current UAS programs across DOD:32 The following sections provide an overview of selected current UAS programs across DOD:32
 the Army’s MQ-1C Gray Eagle,  the Army’s MQ-1C Gray Eagle,
 the Air Force’s MQ-9 Reaper,  the Air Force’s MQ-9 Reaper,
 the Navy’s MQ-25 Stingray,  the Navy’s MQ-25 Stingray,
 the Air Force’s RQ-4 Global Hawk,  the Air Force’s RQ-4 Global Hawk,
 the Navy’s MQ-4C Triton, and  the Navy’s MQ-4C Triton, and
 the Air Force’s RQ-170 Sentinel.  the Air Force’s RQ-170 Sentinel.
Other than the RQ-170 Sentinel, which is an acknowledged classified UAS program, these Other than the RQ-170 Sentinel, which is an acknowledged classified UAS program, these
selected systems have Selected Acquisition Reports, published by DOD, which provide detailed selected systems have Selected Acquisition Reports, published by DOD, which provide detailed
information and systems characteristicsinformation and systems characteristics. Table 2 provides a summary of the characteristics of provides a summary of the characteristics of
these selected UAS. these selected UAS.
Table 2. Summary of Characteristics of Selected Unmanned Aircraft
Gross
Payload
Maximum
System
Length
Wingspan
Weight
Capacity
Speed
Endurance
Altitude
MQ-1C Gray Eagle MQ-1C Gray Eagle
28 ft. 28 ft.
56 ft. 56 ft.
3,600 lb. 3,600 lb.
1,075 lb. 1,075 lb.
150 knots 150 knots
27 hours 27 hours
25,000 ft. 25,000 ft.
MQ-9 Reaper MQ-9 Reaper
36 ft. 36 ft.
66 ft. 66 ft.
10,500 lb. 10,500 lb.
3,850 lb. 3,850 lb.
240 knots 240 knots
24 hours 24 hours
50,000 ft. 50,000 ft.
MQ-25 Stingr MQ-25 Stingraya
51 ft. 51 ft.
75 ft. 75 ft.
— —
— —
— —
— —
— —
RQ-4 Global Hawk RQ-4 Global Hawk
47.6 ft. 47.6 ft.
130.9 ft. 130.9 ft.
32,250 lb. 32,250 lb.
3,000 lb. 3,000 lb.
310 knots 310 knots
34+ hours 34+ hours
60,000 ft. 60,000 ft.
MQ-4C Trito MQ-4C Tritona
47.6 ft. 47.6 ft.
130.9 ft. 130.9 ft.
32,250 lb. 32,250 lb.
— —
320 knots 320 knots
24+ hours 24+ hours
50,000 ft. 50,000 ft.
RQ-170 Sentinel RQ-170 Sentinel
15 ft. 15 ft.
65 ft. 65 ft.
Classified Classified
Classified Classified
Classified Classified
Classified Classified
Classified Classified

29 Ibid. For more information about the Hellfire missile see CRS Report R45996, 29 Ibid. For more information about the Hellfire missile see CRS Report R45996, Precision-Guided Munitions:
Background and Issues for Congress, by John R. Hoehn. , by John R. Hoehn.
30 Ibid. 30 Ibid.
31 IHS Janes, “GA-ASI MQ-1C Gray Eagle”, May 22, 2020, at https://customer.janes.com/Janes/Display/JUAVA150-31 IHS Janes, “GA-ASI MQ-1C Gray Eagle”, May 22, 2020, at https://customer.janes.com/Janes/Display/JUAVA150-
JUAV and IHS Janes “GA-ASI Predator B/MQ-9 Reaper/MQ-9B”, October 21, 2021, at https://customer.janes.com/JUAV and IHS Janes “GA-ASI Predator B/MQ-9 Reaper/MQ-9B”, October 21, 2021, at https://customer.janes.com/
Janes/Display/JUAV9266-JUAV. Janes/Display/JUAV9266-JUAV.
32 The aircraft selected are large UAS, that are operational, and with the exception of RQ-170, have an associated 32 The aircraft selected are large UAS, that are operational, and with the exception of RQ-170, have an associated
Selected Acquisition Report. Selected Acquisition Report.
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Source: Analysis by CRS of data derived from DOD and contractor provided aircraft fact sheets. Analysis by CRS of data derived from DOD and contractor provided aircraft fact sheets.
Notes: Aircraft order in this table corresponds to the order of programmatic overview sections in this report. Aircraft order in this table corresponds to the order of programmatic overview sections in this report.
a. Some characteristics not available. a. Some characteristics not available.
MQ-1C Gray Eagle
The MQ-1C Gray EaglThe MQ-1C Gray Eagle (Figure 1) is an Army derivative of the MQ-1 Predator. According to the is an Army derivative of the MQ-1 Predator. According to the
Army, the MQ-1C Gray Eagle “provides the warfighter with dedicated, assured, multi-mission Army, the MQ-1C Gray Eagle “provides the warfighter with dedicated, assured, multi-mission
UAS capabilities across all 10 Army divisions to support commanders’ combat operations and UAS capabilities across all 10 Army divisions to support commanders’ combat operations and
Army Special Forces and Intelligence and Security Command.”33 The Army states that the MQ-Army Special Forces and Intelligence and Security Command.”33 The Army states that the MQ-
1C Gray Eagle is able to fly at a maximum speed of 150 knots at an altitude of 25,000 feet for at 1C Gray Eagle is able to fly at a maximum speed of 150 knots at an altitude of 25,000 feet for at
least 27 hours.34 It can carry four Hellfire missiles, along with electro-optical sensors, synthetic least 27 hours.34 It can carry four Hellfire missiles, along with electro-optical sensors, synthetic
aperture radars, and communications relays.35 According to the FY2021 Selected Acquisition aperture radars, and communications relays.35 According to the FY2021 Selected Acquisition
Report, the Army’s MQ-1C Gray Eagle flew more than 494,000 hours in FY2019, achieving a Report, the Army’s MQ-1C Gray Eagle flew more than 494,000 hours in FY2019, achieving a
92% combat operational availability.36 92% combat operational availability.36
Figure 1. MQ-1C Gray Eagle

Source: U.S. Army Acquisition Support Center, atU.S. Army Acquisition Support Center, at https://asc.army.mil/web/portfolio-item/aviation_gray-eagle-https://asc.army.mil/web/portfolio-item/aviation_gray-eagle-
uas/. uas/.
In total, the Army has procured 204 aircraft, of which 11 are training aircraft and 13 are In total, the Army has procured 204 aircraft, of which 11 are training aircraft and 13 are
“operational readiness float aircraft” (i.e., spares). The average procurement unit cost “operational readiness float aircraft” (i.e., spares). The average procurement unit cost ~~(essentially~~
~~the cost per aircraft) is $127.5 million.37 The Army finished operational test and evaluation of the~~
~~MQ-1C Gray Eagle in August 2018 and currently operates the UAS in 15 Army companies.~~
of the system (essentially of a fully configured end item)37 is $92.9 million.38 The Army finished
33 U.S. Army, “MQ-1C GRAY EAGLE UNMANNED AIRCRAFT SYSTEM (UAS),” press release, November 5, 33 U.S. Army, “MQ-1C GRAY EAGLE UNMANNED AIRCRAFT SYSTEM (UAS),” press release, November 5,
2021, at https://asc.army.mil/web/portfolio-item/aviation_gray-eagle-uas/. 2021, at https://asc.army.mil/web/portfolio-item/aviation_gray-eagle-uas/.
34 Ibid. 34 Ibid.
35 General Atomics Aeronautical, “Gray Eagle Extended Range (GE-ER),” press release, November 5, 2021, at 35 General Atomics Aeronautical, “Gray Eagle Extended Range (GE-ER),” press release, November 5, 2021, at
https://www.ga-asi.com/remotely-piloted-aircraft/gray-eagle-extended-range. https://www.ga-asi.com/remotely-piloted-aircraft/gray-eagle-extended-range.
36 Department of Defense, 36 Department of Defense, Selected Acquisition Report (SAR), MQ-1C UAS Gray Eagle, DD-A&T(Q&A)823-420, , DD-A&T(Q&A)823-420,
Washington, DC, December, 2019, at https://www.esd.whs.mil/Portals/54/Documents/FOID/Reading%20Room/Washington, DC, December, 2019, at https://www.esd.whs.mil/Portals/54/Documents/FOID/Reading%20Room/
Selected_Acquisition_Reports/FY_2019_SARS/20-F-0568_DOC_58_MQ-1C_Gray_Eagle_SAR_Dec_2019_Full.pdf. Selected_Acquisition_Reports/FY_2019_SARS/20-F-0568_DOC_58_MQ-1C_Gray_Eagle_SAR_Dec_2019_Full.pdf.
37 37 10 U.S.C. §4351 defines the program unit cost as “the total of all funds programmed to be available or obligated for procurement of the program divided by ... the number of fully-configured end items to be procured.” In the case of the MQ-1C, the end item unit is defined as the platoon set of equipment including four aircraft, four ground stations, and a series of ground support equipment. Ibid., p. 20. 38 The MQ-1C SAR reports the total number of end items to be procured is 43 units. Ibid., p. 40. Ibid., p. 40.
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operational test and evaluation of the MQ-1C Gray Eagle in August 2018 and currently operates the UAS in 15 Army companies. MQ-9 Reaper39~~MQ-9 Reaper38~~
The MQ-9 Reaper The MQ-9 Reaper (Figure 2)—formerly the “Predator B”—is General Atomics’ replacement for —formerly the “Predator B”—is General Atomics’ replacement for
the MQ-1 Predator. According to the Air Force, the MQ-9 Reaper is a medium- to high-altitude, the MQ-1 Predator. According to the Air Force, the MQ-9 Reaper is a medium- to high-altitude,
long-endurance UAS capable of surveillance, target acquisition, and armed engagement. long-endurance UAS capable of surveillance, target acquisition, and armed engagement.
Although the MQ-9 Reaper borrows from the overall design of the MQ-1 Predator, the MQ-9 Although the MQ-9 Reaper borrows from the overall design of the MQ-1 Predator, the MQ-9
Reaper is 13 feet longer with a 16-foot-longer wingspan. The MQ-9 Reaper also features a 900-Reaper is 13 feet longer with a 16-foot-longer wingspan. The MQ-9 Reaper also features a 900-
hp turboprop engine, which is significantly more powerful than the MQ-1 Predator’s 115-hp hp turboprop engine, which is significantly more powerful than the MQ-1 Predator’s 115-hp
engine. These upgrades allow the MQ-9 Reaper to reach a maximum of 50,000 feet altitude, 240 engine. These upgrades allow the MQ-9 Reaper to reach a maximum of 50,000 feet altitude, 240
knots airspeed, 24 hours endurance, and 1,400 nautical miles range.knots airspeed, 24 hours endurance, and 1,400 nautical miles range.3940 However, the feature that However, the feature that
most differentiates the MQ-9 Reaper from its predecessor is its ordnance capacity. While the MQ-most differentiates the MQ-9 Reaper from its predecessor is its ordnance capacity. While the MQ-
1 Predator was able to carry two 100-pound Hellfire missiles, the MQ-9 Reaper can carry as 1 Predator was able to carry two 100-pound Hellfire missiles, the MQ-9 Reaper can carry as
many as 16 Hellfire missiles, equivalent to the payload capacity of the Army’s Apache helicopter, many as 16 Hellfire missiles, equivalent to the payload capacity of the Army’s Apache helicopter,
or a mix of 500-pound weapons and Small Diameter Bombs.or a mix of 500-pound weapons and Small Diameter Bombs.4041 Over the 2018 calendar year, MQ- Over the 2018 calendar year, MQ-
9 Reapers flew a total of 325,000 hours—91% of those hours, or about 296,000, were flown in 9 Reapers flew a total of 325,000 hours—91% of those hours, or about 296,000, were flown in
support of combat operations.support of combat operations.4142
Figure 2. MQ-9 Reaper

Source: U.S. Air Force,U.S. Air Force, “An MQ-9 Reaper flies a training mission over the Nevada Test and Training Range, July An MQ-9 Reaper flies a training mission over the Nevada Test and Training Range, July
15, 2019 (U.S. Air Force photo by Airman 1st Class Wil iam Rio Rosado),” available at https://www.af.mil/News/15, 2019 (U.S. Air Force photo by Airman 1st Class Wil iam Rio Rosado),” available at https://www.af.mil/News/
Photos/igphoto/2002864740/mediaid/5461089/. Photos/igphoto/2002864740/mediaid/5461089/.

3839 This section is derived from CRS Report R42136, This section is derived from CRS Report R42136, U.S. Unmanned Aerial Systems, by Jeremiah Gertler. , by Jeremiah Gertler.
3940 U.S. Air Force, “MQ-9 Reaper Fact Sheet,” press release, March 2021, at https://www.af.mil/About-Us/Fact-Sheets/ U.S. Air Force, “MQ-9 Reaper Fact Sheet,” press release, March 2021, at https://www.af.mil/About-Us/Fact-Sheets/
Display/Article/104470/mq-9-reaper/. Display/Article/104470/mq-9-reaper/.
4041 For more information on the munitions capabilities, see CRS Report R45996, For more information on the munitions capabilities, see CRS Report R45996, Precision-Guided Munitions:
Background and Issues for Congress, by John R. Hoehn. , by John R. Hoehn.
4142 Department of Defense, Department of Defense, Selected Acquisition Report (SAR), MQ-9 UAS Reaper, DD-A&T(Q&A)823-424, , DD-A&T(Q&A)823-424,
Washington, DC, March 29, 2019, at https://www.esd.whs.mil/Portals/54/Documents/FOID/Reading%20Room/Washington, DC, March 29, 2019, at https://www.esd.whs.mil/Portals/54/Documents/FOID/Reading%20Room/
Selected_Acquisition_Reports/FY_2018_SARS/19-F-1098_DOC_09_Air%20Force_MQ-Selected_Acquisition_Reports/FY_2018_SARS/19-F-1098_DOC_09_Air%20Force_MQ-
9_Reaper_SAR_Dec_2018_REDACTED.pdf. 9_Reaper_SAR_Dec_2018_REDACTED.pdf.
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In January 2021, General Atomics revealed a new maritime anti-surface warfare variant of the In January 2021, General Atomics revealed a new maritime anti-surface warfare variant of the
MQ-9 Reaper. The MQ-9B SeaGuardian is reportedly equipped with sonobuoy dispensing MQ-9 Reaper. The MQ-9B SeaGuardian is reportedly equipped with sonobuoy dispensing
(dropping sensors designed to identify submarines) and remote sensing capabilities (most likely (dropping sensors designed to identify submarines) and remote sensing capabilities (most likely
referring to the SeaGuardian’s synthetic aperture radar used to search for surface ships) and is referring to the SeaGuardian’s synthetic aperture radar used to search for surface ships) and is
being tested in the Pacific.being tested in the Pacific.4243
According to the FY2020 Selected Acquisition Report, the Air Force has contracted with General According to the FY2020 Selected Acquisition Report, the Air Force has contracted with General
Atomics to build 366 MQ-9 Reapers over the life of the program.Atomics to build 366 MQ-9 Reapers over the life of the program.4344 The average procurement unit The average procurement unit
cost is $22.3 million in 2008 dollars (or approximately $28 million in FY2022 dollars).cost is $22.3 million in 2008 dollars (or approximately $28 million in FY2022 dollars).4445 In In
FY2022, the Air Force did not request to procure any MQ-9 Reapers, but the House Armed FY2022, the Air Force did not request to procure any MQ-9 Reapers, but the House Armed
Services Committee authorized an additional six aircraft for procurement in its markup.Services Committee authorized an additional six aircraft for procurement in its markup.4546
MQ-25 Stingray
The MQ-25 StingrayThe MQ-25 Stingray (Figure 3), made by Boeing, is intended to provide aerial refueling for the , made by Boeing, is intended to provide aerial refueling for the
Navy’s carrier air wing. According to the Navy, Navy’s carrier air wing. According to the Navy,
MQ-25 will pioneer the integration of manned and unmanned operations, demonstrate MQ-25 will pioneer the integration of manned and unmanned operations, demonstrate
mature complex sea-based C4I [command, control, communications, computers, and mature complex sea-based C4I [command, control, communications, computers, and
intelligence] UAS technologies, and pave the way for future multifaceted multi-mission intelligence] UAS technologies, and pave the way for future multifaceted multi-mission
UAS to outpace emerging threats. MQ-25 requirements address the need for carrier-based UAS to outpace emerging threats. MQ-25 requirements address the need for carrier-based
refueling and persistent Intelligence, Surveillance, and Reconnaissance capabilities.refueling and persistent Intelligence, Surveillance, and Reconnaissance capabilities.4647
The MQ-25 Stingray consists of both an air vehicle and a control system designed to fit onto an The MQ-25 Stingray consists of both an air vehicle and a control system designed to fit onto an
aircraft carrier. Its first flight was conducted in September 2019. The MQ-25 Stingray is currently aircraft carrier. Its first flight was conducted in September 2019. The MQ-25 Stingray is currently
in the engineering, manufacturing, and design phase of the acquisition process, and the Navy in the engineering, manufacturing, and design phase of the acquisition process, and the Navy
plans to begin procurement in FY2023. According to the FY2021 Selected Acquisition Report, plans to begin procurement in FY2023. According to the FY2021 Selected Acquisition Report,
the Navy intends to procure 76 aircraft at an average procurement unit cost of $121 million.the Navy intends to procure 76 aircraft at an average procurement unit cost of $121 million.4748 The The
Navy studied several unmanned combat air vehicle concepts before settling on refueling as its Navy studied several unmanned combat air vehicle concepts before settling on refueling as its
first carrier-based UAS mission. first carrier-based UAS mission.

4243 IHS Janes, “MQ-9,” October 21, 2021, at https://customer.janes.com/Janes/Display/JUAV9266-JUAV. IHS Janes, “MQ-9,” October 21, 2021, at https://customer.janes.com/Janes/Display/JUAV9266-JUAV.
4344 Department of Defense, Department of Defense, Selected Acquisition Report (SAR), MQ-9 UAS Reaper, DD-A&T(Q&A)823-424, , DD-A&T(Q&A)823-424,
Washington, DC, March 29, 2019, at https://www.esd.whs.mil/Portals/54/Documents/FOID/Reading%20Room/Washington, DC, March 29, 2019, at https://www.esd.whs.mil/Portals/54/Documents/FOID/Reading%20Room/
Selected_Acquisition_Reports/FY_2018_SARS/19-F-1098_DOC_09_Air%20Force_MQ-Selected_Acquisition_Reports/FY_2018_SARS/19-F-1098_DOC_09_Air%20Force_MQ-
9_Reaper_SAR_Dec_2018_REDACTED.pdf. 9_Reaper_SAR_Dec_2018_REDACTED.pdf.
4445 The MQ-9 Reaper SAR reports 430 end item units to be procured. Ibid., p. 35. Calculation of inflation-adjusted dollars was done using the OSD Comptroller “Department of Defense Ibid., p. 35. Calculation of inflation-adjusted dollars was done using the OSD Comptroller “Department of Defense
Deflators – TOA By Public Law Title” table found at https://comptroller.defense.gov/Portals/45/Documents/defbudget/Deflators – TOA By Public Law Title” table found at https://comptroller.defense.gov/Portals/45/Documents/defbudget/
FY2022/FY22_Green_Book.pdf. FY2022/FY22_Green_Book.pdf.
4546 H.R. 4350. H.R. 4350.
4647 Department of Defense, Department of Defense, Selected Acquisition Report (SAR), MQ-25 Stingray, DD-A&T(Q&A)823-462, Washington, , DD-A&T(Q&A)823-462, Washington,
D.C., December 31, 2019, at https://www.esd.whs.mil/Portals/54/Documents/FOID/Reading%20Room/D.C., December 31, 2019, at https://www.esd.whs.mil/Portals/54/Documents/FOID/Reading%20Room/
Selected_Acquisition_Reports/FY_2019_SARS/20-F-0568_DOC_62_MQ-25_SAR_Dec_2019_Full.pdf. Selected_Acquisition_Reports/FY_2019_SARS/20-F-0568_DOC_62_MQ-25_SAR_Dec_2019_Full.pdf.
4748 The MQ-25 Stingray SAR reports 69 end item units will be procured. Ibid., p. 32. Ibid., p. 32.
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Figure 3. MQ-25 Stingray

Source: U.S. Navy,U.S. Navy, “The MQ-25 unmanned carrier-based test aircraft comes in for landing after its first flight on The MQ-25 unmanned carrier-based test aircraft comes in for landing after its first flight on
September 19, 2019 at MidAmerica Airport in Mascoutah, Il (Photo provided to the Navy source courtesy of September 19, 2019 at MidAmerica Airport in Mascoutah, Il (Photo provided to the Navy source courtesy of
Boeing),” available atBoeing),” available at https://www.navair.navy.mil/product/MQ-25tm-Stingray. https://www.navair.navy.mil/product/MQ-25tm-Stingray.
RQ-4 Global ~~Hawk48~~Hawk49
Northrop Grumman’s RQ-4 Global Hawk Northrop Grumman’s RQ-4 Global Hawk (Figure 4) is the largest and one of the most expensive is the largest and one of the most expensive
UAS currently fielded by the Air Force. The RQ-4 Global Hawk incorporates a diverse UAS currently fielded by the Air Force. The RQ-4 Global Hawk incorporates a diverse
surveillance payload, with performance capabilities widely seen as rivaling or exceeding most surveillance payload, with performance capabilities widely seen as rivaling or exceeding most
manned spy planes. At 47.6 feet long and weighing 32,250 pounds,manned spy planes. At 47.6 feet long and weighing 32,250 pounds,4950 the RQ-4 Global Hawk is the RQ-4 Global Hawk is
about as large as a medium-sized corporate jet.about as large as a medium-sized corporate jet.5051 According to the Air Force, the RQ-4 Global According to the Air Force, the RQ-4 Global
Hawk flies at nearly twice the altitude of commercial airliners and can stay aloft at 65,000 feet for Hawk flies at nearly twice the altitude of commercial airliners and can stay aloft at 65,000 feet for
longer than 34 hours. It can fly to a target area 5,400 nautical miles away, loiter at 60,000 feet longer than 34 hours. It can fly to a target area 5,400 nautical miles away, loiter at 60,000 feet
while monitoring an area the size of the state of Illinois (almost 58,000 square miles) for 24 while monitoring an area the size of the state of Illinois (almost 58,000 square miles) for 24
hours, and then return. The RQ-4 Global Hawk was originally designed to be an autonomous hours, and then return. The RQ-4 Global Hawk was originally designed to be an autonomous
drone capable of taking off, flying, and landing on preprogrammed inputs to the aircraft’s flight drone capable of taking off, flying, and landing on preprogrammed inputs to the aircraft’s flight
computer; however, the Air Force routinely operates these aircraft with a mission control pilot computer; however, the Air Force routinely operates these aircraft with a mission control pilot
and sensor operator.and sensor operator.5152

4849 This section is derived from CRS Report R42136, This section is derived from CRS Report R42136, U.S. Unmanned Aerial Systems, by Jeremiah Gertler. , by Jeremiah Gertler.
4950 U.S. Air Force, “RQ-4 Global Hawk Fact Sheet,” press release, October 2014, at https://www.af.mil/About-Us/Fact- U.S. Air Force, “RQ-4 Global Hawk Fact Sheet,” press release, October 2014, at https://www.af.mil/About-Us/Fact-
Sheets/Display/Article/104516/rq-4-global-hawk/. Sheets/Display/Article/104516/rq-4-global-hawk/.
5051 Congressional Budget Office, Congressional Budget Office, Usage Patterns and Costs of Unmanned Aerial Systems, 57090, Washington, DC, June , 57090, Washington, DC, June
1, 2021, p. 2, at https://www.cbo.gov/system/files/2021-06/57090-UAS.pdf. 1, 2021, p. 2, at https://www.cbo.gov/system/files/2021-06/57090-UAS.pdf.
5152 U.S. Air Force, “RQ-4 Global Hawk Fact Sheet,” press release, October 2014, at https://www.af.mil/About-Us/Fact- U.S. Air Force, “RQ-4 Global Hawk Fact Sheet,” press release, October 2014, at https://www.af.mil/About-Us/Fact-
Sheets/Display/Article/104516/rq-4-global-hawk/. Sheets/Display/Article/104516/rq-4-global-hawk/.
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Figure 4. RQ-4 Global Hawk

Source: U.S. Air Force,U.S. Air Force, “An RQ-4 Global Hawk takes off on October24, 2018, at Naval Air Station Sigonella, An RQ-4 Global Hawk takes off on October24, 2018, at Naval Air Station Sigonella,
Italy (U.S. Air Force photo by Staff Sgt. Ramon A. Adelan),” available at https://media.defense.gov/2021/Sep/29/Italy (U.S. Air Force photo by Staff Sgt. Ramon A. Adelan),” available at https://media.defense.gov/2021/Sep/29/
2002864274/-1/-1/0/181024-F-HK496-9035.JPG. 2002864274/-1/-1/0/181024-F-HK496-9035.JPG.
The RQ-4 Global Hawk currently is deployed in three configurations: Block 20, Block 30, and The RQ-4 Global Hawk currently is deployed in three configurations: Block 20, Block 30, and
Block 40: Block 40:
 Block 20, called the Battlefield Airborne Communications Node (BACN;  Block 20, called the Battlefield Airborne Communications Node (BACN;
pronounced “bacon”), serves as a communications relay for troops on the ground. pronounced “bacon”), serves as a communications relay for troops on the ground.
Four aircraft are currently in this configuration.Four aircraft are currently in this configuration.5253
 Block 30 uses a combination of Synthetic Aperture Radar (SAR), Electro-  Block 30 uses a combination of Synthetic Aperture Radar (SAR), Electro-
optical/Infrared (EO/IR) sensors, the Enhanced Integrated Sensor Suite (EISS), optical/Infrared (EO/IR) sensors, the Enhanced Integrated Sensor Suite (EISS),
and Airborne Signals Intelligence Payload (ASIP).and Airborne Signals Intelligence Payload (ASIP).5354 The original intent of Block The original intent of Block
30 was to replace the U-2 spy plane. Twenty Block 30 aircraft are currently in 30 was to replace the U-2 spy plane. Twenty Block 30 aircraft are currently in
service. service.
 Block 40 integrates multiplatform radar technology with ground-tracking  Block 40 integrates multiplatform radar technology with ground-tracking
capability (radars that can track ground forces similar to the E-8C JSTARS capability (radars that can track ground forces similar to the E-8C JSTARS
aircraft). Ten Block 40 aircraft are in service. aircraft). Ten Block 40 aircraft are in service.
As of the FY2016 Selected Acquisition Report, As of the FY2016 Selected Acquisition Report,5455 the RQ-4 Global Hawk had flown 140,000 the RQ-4 Global Hawk had flown 140,000
flight hours (100,000 hours of which supported of combat operations).flight hours (100,000 hours of which supported of combat operations).5556 79.7% of aircraft were 79.7% of aircraft were

5253 Department of Defense, Department of Defense, FY2022 U.S. Aircraft Procurement Volume II, RQ-4 Mods, pp. 425-451. , pp. 425-451.
5354 Ibid., p. 425. Ibid., p. 425.
5455 This is the most recent Selective Acquisition Report available for the RQ-4 Global Hawk. This is the most recent Selective Acquisition Report available for the RQ-4 Global Hawk.
5556 Department of Defense, Department of Defense, Selected Acquisition Report (SAR), RQ-4 Global Hawk, DD-A&T(Q&A)823-252, , DD-A&T(Q&A)823-252,
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available for missions in 2014. The average procurement unit cost was $122.8 million in FY2014 available for missions in 2014. The average procurement unit cost was $122.8 million in FY2014
(or $141.1 million in FY2022-adjusted dollars).(or $141.1 million in FY2022-adjusted dollars).5657 The President’s FY2022 budget request restated The President’s FY2022 budget request restated
the Air Force plan to retire all Block 20 aircraft in FY2021, and to retire all Block 30 aircraft in the Air Force plan to retire all Block 20 aircraft in FY2021, and to retire all Block 30 aircraft in
FY2022.FY2022.5758
MQ-4C ~~Triton58~~Triton59
The Navy’s MQ-4C Triton The Navy’s MQ-4C Triton (Figure 5), which is also called the Broad Area Maritime Surveillance , which is also called the Broad Area Maritime Surveillance
(BAMS) system, is based on the Global Hawk Block 20 airframe but uses different sensors to (BAMS) system, is based on the Global Hawk Block 20 airframe but uses different sensors to
support maritime patrol operations alongside the P-8 Poseidon manned aircraft.support maritime patrol operations alongside the P-8 Poseidon manned aircraft.5960 According to According to
the FY2020 Selected Acquisition Report, “The mission sensors installed on the MQ-4C Triton the FY2020 Selected Acquisition Report, “The mission sensors installed on the MQ-4C Triton
provide 360 degree radar and Electro-Optical/Infrared coverage.”provide 360 degree radar and Electro-Optical/Infrared coverage.”6061 The report states that the The report states that the
Navy intended to reach initial operational capability in October 2020 and to make a full-rate Navy intended to reach initial operational capability in October 2020 and to make a full-rate
production decision in May 2021.production decision in May 2021.6162 In a 2019 annual report, the Director of Operational Test and In a 2019 annual report, the Director of Operational Test and
Evaluation stated that the Navy concluded its operational assessment of the aircraft, which Evaluation stated that the Navy concluded its operational assessment of the aircraft, which
supported an early fielding decision.supported an early fielding decision.6263 The MQ-4C Triton has an average procurement unit cost of The MQ-4C Triton has an average procurement unit cost of
$146.1 million in FY2016 dollars (or approximately $162.6 million in FY2022 dollars).$146.1 million in FY2016 dollars (or approximately $162.6 million in FY2022 dollars).6364

Washington, DC, March 18, 2015, at https://www.esd.whs.mil/Portals/54/Documents/FOID/Reading%20Room/Washington, DC, March 18, 2015, at https://www.esd.whs.mil/Portals/54/Documents/FOID/Reading%20Room/
Selected_Acquisition_Reports/FY_2014_SARS/15-F-0540_RQ-4AB_Global_Hawk_SAR_Dec_2014.PDF. Selected_Acquisition_Reports/FY_2014_SARS/15-F-0540_RQ-4AB_Global_Hawk_SAR_Dec_2014.PDF.
5657 The RQ-4 SAR reports 45 end item units will be procured. Ibid., p. 36. Calculation of inflation-adjusted dollars was done using the OSD Comptroller “Department of Defense Ibid., p. 36. Calculation of inflation-adjusted dollars was done using the OSD Comptroller “Department of Defense
Deflators – TOA By Public Law Title” table found at https://comptroller.defense.gov/Portals/45/Documents/defbudget/Deflators – TOA By Public Law Title” table found at https://comptroller.defense.gov/Portals/45/Documents/defbudget/
FY2022/FY22_Green_Book.pdf. FY2022/FY22_Green_Book.pdf.
5758 Department of Defense, Department of Defense, FY2022 U.S. Aircraft Procurement Volume II, RQ-4 Mods, pp. 425. , pp. 425.
5859 This section is derived from CRS Report R42136, This section is derived from CRS Report R42136, U.S. Unmanned Aerial Systems, by Jeremiah Gertler. , by Jeremiah Gertler.
5960 U.S. Navy, U.S. Navy, FY2022 Budget Request, Aircraft Procurement, Volume 1, p. 189, at https://www.secnav.navy.mil/fmc/, p. 189, at https://www.secnav.navy.mil/fmc/
fmb/Documents/22pres/APN_BA1-4_Book.pdf. The P-8 Poseidon is a manned aircraft that functions as the U.S. fmb/Documents/22pres/APN_BA1-4_Book.pdf. The P-8 Poseidon is a manned aircraft that functions as the U.S.
Navy’s maritime patrol and reconnaissance aircraft. U.S. Navy, “P-8A Poseidon Multi-mission Maritime Aircraft,” Navy’s maritime patrol and reconnaissance aircraft. U.S. Navy, “P-8A Poseidon Multi-mission Maritime Aircraft,”
available at https://www.navy.mil/Resources/Fact-Files/Display-FactFiles/Article/2166300/p-8a-poseidon-multi-available at https://www.navy.mil/Resources/Fact-Files/Display-FactFiles/Article/2166300/p-8a-poseidon-multi-
mission-maritime-aircraft-mma/ (last updated Apr. 23, 2021). mission-maritime-aircraft-mma/ (last updated Apr. 23, 2021).
6061 Department of Defense, Department of Defense, Selected Acquisition Report (SAR), MQ-4C Triton, DD-A&T(Q&A)823-373, Washington, , DD-A&T(Q&A)823-373, Washington,
DC, April 16, 2019, at https://www.esd.whs.mil/Portals/54/Documents/FOID/Reading%20Room/DC, April 16, 2019, at https://www.esd.whs.mil/Portals/54/Documents/FOID/Reading%20Room/
Selected_Acquisition_Reports/FY_2018_SARS/19-F-1098_DOC_53_MQ-4C_Triton_SAR_Dec_2018.pdf. Selected_Acquisition_Reports/FY_2018_SARS/19-F-1098_DOC_53_MQ-4C_Triton_SAR_Dec_2018.pdf.
6162 Ibid., p. 12. Ibid., p. 12.
6263 Robert Behler, Robert Behler, DOT&E FY2019 Annual Report, Department of Defense Director of Operational Test and Evaluation, , Department of Defense Director of Operational Test and Evaluation,
Washington, DC, January 30, 2020, p. 149, at https://www.dote.osd.mil/Portals/97/pub/reports/FY2019/navy/Washington, DC, January 30, 2020, p. 149, at https://www.dote.osd.mil/Portals/97/pub/reports/FY2019/navy/
2019mq4c_uas.pdf?ver=2020-01-30-115519-423. 2019mq4c_uas.pdf?ver=2020-01-30-115519-423.
6364 Department of Defense, Department of Defense, Selected Acquisition Report (SAR), MQ-4C Triton, DD-A&T(Q&A)823-373, Washington, , DD-A&T(Q&A)823-373, Washington,
DC, April 16, 2019, p. 30DC, April 16, 2019, p. 30. The MQ-4 Triton SAR reports 65 end item units will be procured. Calculation of inflation- adjusted dollars was done using the OSD Comptroller “Department . Calculation of inflation- adjusted dollars was done using the OSD Comptroller “Department
of Defense Deflators – TOA By Public Law Title” table found at https://comptroller.defense.gov/Portals/45/of Defense Deflators – TOA By Public Law Title” table found at https://comptroller.defense.gov/Portals/45/
Documents/defbudget/FY2022/FY22_Green_Book.pdf. Documents/defbudget/FY2022/FY22_Green_Book.pdf.
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Figure 5. MQ-4C Triton

Source: U.S. Navy, available at https://www.navair.navy.mil/product/MQ-4C. U.S. Navy, available at https://www.navair.navy.mil/product/MQ-4C.
In June 2019, the Iranian military shot down an MQ-4C Triton, which DOD referred to as a In June 2019, the Iranian military shot down an MQ-4C Triton, which DOD referred to as a
BAMS aircraft, in the Gulf of Oman.BAMS aircraft, in the Gulf of Oman.6465 According to a Navy press briefing, the aircraft was flying According to a Navy press briefing, the aircraft was flying
in the area to monitor the Strait of Hormuz for Iranian threats to commercial shipping. DOD in the area to monitor the Strait of Hormuz for Iranian threats to commercial shipping. DOD
officials stated, “This attack is an attempt to disrupt our ability to monitor the area following officials stated, “This attack is an attempt to disrupt our ability to monitor the area following
recent threats to international shipping and free flow of commerce.”recent threats to international shipping and free flow of commerce.”6566 At the time, the Trump At the time, the Trump
Administration seemingly contemplated retaliatory strikes on Iran for destroying a U.S. aircraft, Administration seemingly contemplated retaliatory strikes on Iran for destroying a U.S. aircraft,
but reportedly determined that in responding to the loss of an unmanned aircraft, the risk of but reportedly determined that in responding to the loss of an unmanned aircraft, the risk of
escalation was not worthwhile.escalation was not worthwhile.6667
RQ-170 ~~Sentinel67~~Sentinel68
Although the RQ-170 Sentinel (also called “the Beast of Kandahar” in the press) is publicly Although the RQ-170 Sentinel (also called “the Beast of Kandahar” in the press) is publicly
acknowledged to exist, most information about it is classified. First photographed in the skies acknowledged to exist, most information about it is classified. First photographed in the skies
over Afghanistan, but also reportedly having operated from South Korea,over Afghanistan, but also reportedly having operated from South Korea,6869 the RQ-170 Sentinel is the RQ-170 Sentinel is
a tailless “flying wing” stealthier than other current U.S. UAS.a tailless “flying wing” stealthier than other current U.S. UAS.6970 An RQ-170 Sentinel was An RQ-170 Sentinel was
reported to have performed surveillance and data relay related to the operation against Osama bin reported to have performed surveillance and data relay related to the operation against Osama bin

6465 Department of Defense, “Iran Shoots Down U.S. Global Hawk Operating in International Airspace,” press release, Department of Defense, “Iran Shoots Down U.S. Global Hawk Operating in International Airspace,” press release,
June 20, 2019, at https://www.defense.gov/News/News-Stories/Article/Article/1882497/iran-shoots-down-us-global-June 20, 2019, at https://www.defense.gov/News/News-Stories/Article/Article/1882497/iran-shoots-down-us-global-
hawk-operating-in-international-airspace/. hawk-operating-in-international-airspace/.
6566 Ibid. Ibid.
6667 Michael D. Shear et al., “Strikes on Iran Approved by Trump, Then Abruptly Pulled Back,” Michael D. Shear et al., “Strikes on Iran Approved by Trump, Then Abruptly Pulled Back,” New York Times, June , June
20, 2019, at https://www.nytimes.com/2019/06/20/world/middleeast/iran-us-drone.html. 20, 2019, at https://www.nytimes.com/2019/06/20/world/middleeast/iran-us-drone.html.
6768 This section is derived from CRS Report R42136, This section is derived from CRS Report R42136, U.S. Unmanned Aerial Systems, by Jeremiah Gertler. , by Jeremiah Gertler.
6869 Bill Sweetman, “Beast Sighted In Korea,” Bill Sweetman, “Beast Sighted In Korea,” Aviation Week/Ares blog, February 16, 2010. , February 16, 2010.
6970 U.S. Air Force, “RQ-170 Sentinel Fact Sheet,” press release, at https://www.af.mil/About-Us/Fact-Sheets/Display/ U.S. Air Force, “RQ-170 Sentinel Fact Sheet,” press release, at https://www.af.mil/About-Us/Fact-Sheets/Display/
Article/2796993/rq-170-sentinel/. Article/2796993/rq-170-sentinel/.
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Laden’s compound on May 1, 2011. The government of Iran claimed on December 2, 2011, to be Laden’s compound on May 1, 2011. The government of Iran claimed on December 2, 2011, to be
in possession of an intact RQ-170 Sentinel following its alleged incursion into Iranian airspace.in possession of an intact RQ-170 Sentinel following its alleged incursion into Iranian airspace.7071
Built by Lockheed Martin, the RQ-170 Sentinel has a wingspan of about 65 feet, is almost 15 feet Built by Lockheed Martin, the RQ-170 Sentinel has a wingspan of about 65 feet, is almost 15 feet
long, and is powered by a single jet engine.long, and is powered by a single jet engine.7172 It appears to have two sensor bays (or satellite dish It appears to have two sensor bays (or satellite dish
enclosures) on the upper wing surface. Although the aircraft has an inherently low-observable enclosures) on the upper wing surface. Although the aircraft has an inherently low-observable
blended wing/fuselage design like the B-2 stealth bomber, the RQ-170 Sentinel’s conventional blended wing/fuselage design like the B-2 stealth bomber, the RQ-170 Sentinel’s conventional
inlet, exhaust, and landing gear doors suggest a design that may not be fully optimized for inlet, exhaust, and landing gear doors suggest a design that may not be fully optimized for
stealth.stealth.7273
According to the Air Force, “The RQ-170 Sentinel is a low observable unmanned aircraft system According to the Air Force, “The RQ-170 Sentinel is a low observable unmanned aircraft system
(UAS) being developed, tested and fielded by the Air Force.”(UAS) being developed, tested and fielded by the Air Force.”7374 No further official status is No further official status is
available. available.
Other Reported Programs
Although other UAS programs are in development, they are largely classified, so information Although other UAS programs are in development, they are largely classified, so information
about them is not publicly available. These programs include the B-21 Raider (a manned bomber about them is not publicly available. These programs include the B-21 Raider (a manned bomber
reportedly capable of being piloted remotely) and the RQ-180. On December 4, 2021, Secretary reportedly capable of being piloted remotely) and the RQ-180. On December 4, 2021, Secretary
of the Air Force Frank Kendall revealed that the Air Force intends to start two new UAS of the Air Force Frank Kendall revealed that the Air Force intends to start two new UAS
programs in FY2023, but no additional information is available.programs in FY2023, but no additional information is available.7475
B-21 ~~Raider75~~Raider76
The forthcoming B-21 Raider is not a pure UAS; the long-range bomber is expected to be The forthcoming B-21 Raider is not a pure UAS; the long-range bomber is expected to be
operated either remotely or by an onboard crew.operated either remotely or by an onboard crew.7677 The B- The B-21 (Figure 6) is intended to operate in is intended to operate in
both conventional and nuclear roles, with the capability of penetrating and surviving in advanced both conventional and nuclear roles, with the capability of penetrating and surviving in advanced
air defense environments.air defense environments.7778 It is projected to enter service in the mid-2020s, building to an initial It is projected to enter service in the mid-2020s, building to an initial

7071 Scott Shane and David E. Sanger, “Drone Crash in Iran Reveals Secret U.S. Surveillance Effort,” Scott Shane and David E. Sanger, “Drone Crash in Iran Reveals Secret U.S. Surveillance Effort,” New York Times, ,
December 7, 2011, at https://www.nytimes.com/2011/12/08/world/middleeast/drone-crash-in-iran-reveals-secret-us-December 7, 2011, at https://www.nytimes.com/2011/12/08/world/middleeast/drone-crash-in-iran-reveals-secret-us-
surveillance-bid.html. surveillance-bid.html.
7172 U.S. Army, U.S. Army, Visual Aircraft Recognition, TC 3-01.80, Washington, DC, May 5, 2017, pp. F-17, at https://irp.fas.org/, TC 3-01.80, Washington, DC, May 5, 2017, pp. F-17, at https://irp.fas.org/
doddir/army/tc3-01-80.pdf. doddir/army/tc3-01-80.pdf.
~~72U~~73U.S. Air Force, .S. Air Force, Fact Sheet: RQ-170 Sentinel, at https://www.af.mil/About-Us/Fact-Sheets/Display/Article/2796993/, at https://www.af.mil/About-Us/Fact-Sheets/Display/Article/2796993/
rq-170-sentinel/ and Joseph Trevithick and Tyler Rogoway, “Details Emerge About The Secretive RQ-170 Stealth rq-170-sentinel/ and Joseph Trevithick and Tyler Rogoway, “Details Emerge About The Secretive RQ-170 Stealth
Drone’s First Trip To Korea,” Drone’s First Trip To Korea,” The War Zone, January 28, 2020, at https://www.thedrive.com/the-war-zone/31992/, January 28, 2020, at https://www.thedrive.com/the-war-zone/31992/
exclusive-details-on-the-secretive-rq-170-stealth-drones-first-trip-to-korea. exclusive-details-on-the-secretive-rq-170-stealth-drones-first-trip-to-korea.
7374 U.S. Air Force, U.S. Air Force, Fact Sheet: RQ-170 Sentinel, at https://www.af.mil/About-Us/Fact-Sheets/Display/Article/2796993/, at https://www.af.mil/About-Us/Fact-Sheets/Display/Article/2796993/
rq-170-sentinel/. rq-170-sentinel/.
7475 Bryan Bender and Lee Hudson, “2 new secret combat drones are in the works, Air Force secretary says,” Bryan Bender and Lee Hudson, “2 new secret combat drones are in the works, Air Force secretary says,” Politico, ,
December 6, 2021, at https://www.politico.com/news/2021/12/06/combat-drones-air-force-kendall-523812. December 6, 2021, at https://www.politico.com/news/2021/12/06/combat-drones-air-force-kendall-523812.
7576 This section is derived from CRS Report R44463, This section is derived from CRS Report R44463, Air Force B-21 Raider Long-Range Strike Bomber, by Jeremiah , by Jeremiah
Gertler. Gertler.
7677 U.S. Air Force, “Fact Sheet: B-21 Raider,” press release, July 6, 2021, at https://go.usa.gov/x6exF. U.S. Air Force, “Fact Sheet: B-21 Raider,” press release, July 6, 2021, at https://go.usa.gov/x6exF.
7778 Department of Defense, “Department of Defense Press Briefing on the Announcement of the Long Range Strike Department of Defense, “Department of Defense Press Briefing on the Announcement of the Long Range Strike
Bomber Contract Award,” Washington, DC, October 27, 2015, at http://go.usa.gov/cswxQ. Advanced air defenses, or Bomber Contract Award,” Washington, DC, October 27, 2015, at http://go.usa.gov/cswxQ. Advanced air defenses, or
more commonly called integrated air defense systems (IADS) consist of a family of radars to track aircraft, provide more commonly called integrated air defense systems (IADS) consist of a family of radars to track aircraft, provide
targeting data, missiles to engage, and a command and control (C2) platform to manage the radars and missiles. Some targeting data, missiles to engage, and a command and control (C2) platform to manage the radars and missiles. Some
analysts consider systems like the S-300, S-400, and HQ-9 as the most advanced IADS threat aircraft would potentially analysts consider systems like the S-300, S-400, and HQ-9 as the most advanced IADS threat aircraft would potentially
need to penetrate. Maj. Peter W. Mattes, “What is a Modern Integrated Air Defense System,” need to penetrate. Maj. Peter W. Mattes, “What is a Modern Integrated Air Defense System,” Air Force Magazine, ,
October 1, 2019, at https://www.airforcemag.com/article/what-is-a-modern-integrated-air-defense-system/. October 1, 2019, at https://www.airforcemag.com/article/what-is-a-modern-integrated-air-defense-system/.
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fleet of 100 aircraft. B-21s will be based at Dyess AFB, TX; Whiteman AFB, MO; and Ellsworth fleet of 100 aircraft. B-21s will be based at Dyess AFB, TX; Whiteman AFB, MO; and Ellsworth
AFB, SD, with Ellsworth as the training base.AFB, SD, with Ellsworth as the training base.7879
Figure 6. Artist Rendering of B-21

Source: U.S. Air Force. U.S. Air Force.
The B-21 was designed around three specific capabilities: The B-21 was designed around three specific capabilities:7980
1. A large and flexible payload bay capable of carrying a full range of current and 1. A large and flexible payload bay capable of carrying a full range of current and
future armament. future armament.
2. Range (although classified). 2. Range (although classified).
3. Projected average procurement unit cost of $550 million per plane in FY2010 3. Projected average procurement unit cost of $550 million per plane in FY2010
dollars, which was announced publicly to encourage competing manufacturers to dollars, which was announced publicly to encourage competing manufacturers to
constrain their designs. constrain their designs.
Although the Air Force has released artist renderings of the bomber, the specific design remains Although the Air Force has released artist renderings of the bomber, the specific design remains
classified. classified.
In an effort to achieve the $550 million target, unit cost was designated as a key performance In an effort to achieve the $550 million target, unit cost was designated as a key performance
parameter in the acquisition strategy, meaning that inability to reach that price could disqualify a parameter in the acquisition strategy, meaning that inability to reach that price could disqualify a
bid. (That price is based on acquisition of 100 aircraft; variations in quantity may affect actual bid. (That price is based on acquisition of 100 aircraft; variations in quantity may affect actual
unit cost.) At the award announcement, the Air Force revealed that the independent cost estimate unit cost.) At the award announcement, the Air Force revealed that the independent cost estimate
for Northrop’s winning bid would be $511 million per plane, equivalent to $564 million in for Northrop’s winning bid would be $511 million per plane, equivalent to $564 million in
FY2016 dollars.FY2016 dollars.8081 The Air Force stated that the average procurement unit cost as of 2021 is $550 The Air Force stated that the average procurement unit cost as of 2021 is $550
million in FY2010 dollars, or $670 million in 2022 dollars.million in FY2010 dollars, or $670 million in 2022 dollars.8182
RQ-180
Another UAS program reported to be in development is the RQ-180, said to be a bomber-sized Another UAS program reported to be in development is the RQ-180, said to be a bomber-sized
UAS.UAS.8283 On June 9, 2014, Lieutenant General Robert Otto, the former Air Force Deputy Chief of On June 9, 2014, Lieutenant General Robert Otto, the former Air Force Deputy Chief of

7879 Secretary of the Air Force Public Affairs, Secretary of the Air Force Public Affairs, Air Force selects locations for B-21 aircraft, May 2, 2018, at , May 2, 2018, at
https://go.usa.gov/xpZse and U.S. Air Force, “Fact Sheet: B-21 Raider,” press release, July 6, 2021, at https://go.usa.gov/xpZse and U.S. Air Force, “Fact Sheet: B-21 Raider,” press release, July 6, 2021, at
https://go.usa.gov/x6exF. https://go.usa.gov/x6exF.
7980 CRS Report R44463, CRS Report R44463, Air Force B-21 Raider Long-Range Strike Bomber, by Jeremiah Gertler. , by Jeremiah Gertler.
8081 Air Force briefing to and discussion with CRS and think tank representatives, September 1, 2015. Air Force briefing to and discussion with CRS and think tank representatives, September 1, 2015.
8182 U.S. Air Force, “Fact Sheet: B-21 Raider,” press release, July 6, 2021, at https://go.usa.gov/x6exF. Calculation to U.S. Air Force, “Fact Sheet: B-21 Raider,” press release, July 6, 2021, at https://go.usa.gov/x6exF. Calculation to
adjust for inflation was made by CRS using OSD Comptroller deflators. adjust for inflation was made by CRS using OSD Comptroller deflators.
8283 Amy Butler and Bill Sweetman, “Secret New UAS Shows Stealth, Efficiency Advances,” Amy Butler and Bill Sweetman, “Secret New UAS Shows Stealth, Efficiency Advances,” Aviation Week, December , December
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Staff for Intelligence, Surveillance and Reconnaissance, said the Air Force was “working on the Staff for Intelligence, Surveillance and Reconnaissance, said the Air Force was “working on the
RQ-180 remotely piloted aircraft to give it better access to contested airspace, where the RQ-180 remotely piloted aircraft to give it better access to contested airspace, where the
unmanned RQ-4 Global Hawk and manned U-2S platforms are vulnerable.”unmanned RQ-4 Global Hawk and manned U-2S platforms are vulnerable.”8384 Few other details Few other details
regarding the RQ-180 have been publicly released, and the Air Force has not officially regarding the RQ-180 have been publicly released, and the Air Force has not officially
acknowledged the program. acknowledged the program.
Potential Issues for Congress
The following section discusses potential issues as Congress considers defense legislation, The following section discusses potential issues as Congress considers defense legislation,
including cost comparisons with manned systems, lack of follow-on programs of record, including cost comparisons with manned systems, lack of follow-on programs of record,
organizational management, interoperability with existing force structure, and export controls. organizational management, interoperability with existing force structure, and export controls.
Cost Comparison with Manned Systems
In a June 2021 report, the Congressional Budget Office (CBO) examined the cost, reliability, and In a June 2021 report, the Congressional Budget Office (CBO) examined the cost, reliability, and
sortie rates between manned and unmanned intelligence, surveillance, and reconnaissance (ISR) sortie rates between manned and unmanned intelligence, surveillance, and reconnaissance (ISR)
aircraft.aircraft.8485 Of note, CBO identified that the cost per flying hour for a RQ-4 Global Hawk was Of note, CBO identified that the cost per flying hour for a RQ-4 Global Hawk was
approximately $18,700, or 62% of a manned P-8 Poseidon’s cost, which can perform similar approximately $18,700, or 62% of a manned P-8 Poseidon’s cost, which can perform similar
missions at a cost per flying hour of $29,900.missions at a cost per flying hour of $29,900.8586 The report also noted that The report also noted that
 RQ-4 Global Hawk was projected to fly 356 more hours per year compared with  RQ-4 Global Hawk was projected to fly 356 more hours per year compared with
the P-8, the P-8,
 RQ-4 Global Hawk had a projected life span of 20 years compared with the  RQ-4 Global Hawk had a projected life span of 20 years compared with the
projected 50 year life cycle of the P-8, and projected 50 year life cycle of the P-8, and
 RQ-4 Global Hawk’s acquisition cost of $239 million compared with the $307  RQ-4 Global Hawk’s acquisition cost of $239 million compared with the $307
million for the P-8 Poseidon (approximately 78% of the acquisition cost of the million for the P-8 Poseidon (approximately 78% of the acquisition cost of the
manned platform). manned platform).
Similarly, other UAS aircraft offer lower acquisition costs and cost per flight hour than manned Similarly, other UAS aircraft offer lower acquisition costs and cost per flight hour than manned
aircraft. However, UAS aircraft generally have a higher accident rate than manned aircraft.aircraft. However, UAS aircraft generally have a higher accident rate than manned aircraft.8687
Congress may consider this tradeoff—lower costs versus higher risks—when comparing aircraft Congress may consider this tradeoff—lower costs versus higher risks—when comparing aircraft
systems. systems.
Lack of Follow-On Programs of Record
During the conflicts in Iraq and Afghanistan, the U.S. military bought hundreds of UASs per year, During the conflicts in Iraq and Afghanistan, the U.S. military bought hundreds of UASs per year,
primarily MQ-1 Predators and MQ-9 Reapers, but also RQ-4 Global Hawks and MQ-4 Tritons. primarily MQ-1 Predators and MQ-9 Reapers, but also RQ-4 Global Hawks and MQ-4 Tritons.
When those conflicts concluded, procurement dropped abruptly. For example, the services When those conflicts concluded, procurement dropped abruptly. For example, the services
acquired 1,211 medium or larger UASs in FY2012, but by 2014 the annual quantity had dropped acquired 1,211 medium or larger UASs in FY2012, but by 2014 the annual quantity had dropped
to 54 UASs and that number has continued to decline. The FY2022 budget submission requested to 54 UASs and that number has continued to decline. The FY2022 budget submission requested
procurement of six UAS. procurement of six UAS.

6, 2013. 6, 2013.
8384 John A. Tirpak, “For Those Hard-to-Reach Areas,” John A. Tirpak, “For Those Hard-to-Reach Areas,” Air Force Magazine, June 10, 2014, at , June 10, 2014, at
https://www.airforcemag.com/for-those-hard-to-reach-areas/. https://www.airforcemag.com/for-those-hard-to-reach-areas/.
8485 Congressional Budget Office, Congressional Budget Office, Usage Patterns and Costs of Unmanned Aerial Systems, 57090, Washington, DC, June , 57090, Washington, DC, June
1, 2021, at https://www.cbo.gov/system/files/2021-06/57090-UAS.pdf. 1, 2021, at https://www.cbo.gov/system/files/2021-06/57090-UAS.pdf.
8586 Ibid., p. 8. Ibid., p. 8.
8687 Ibid. Ibid.
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DOD has not formally commented on this change; however, several factors may have influenced DOD has not formally commented on this change; however, several factors may have influenced
this downward trend. One is that the many UASs acquired during the Iraq and Afghanistan this downward trend. One is that the many UASs acquired during the Iraq and Afghanistan
conflicts shared similar technology, and the military may have not set new requirements to conflicts shared similar technology, and the military may have not set new requirements to
incorporate new technologies. Also, although those first- and second-generation UAS worked incorporate new technologies. Also, although those first- and second-generation UAS worked
well in permissive air environments (such as those in Iraq and Afghanistan, where there was no well in permissive air environments (such as those in Iraq and Afghanistan, where there was no
adversary air force or air defenses), they would have faced greater challenges in the near-peer adversary air force or air defenses), they would have faced greater challenges in the near-peer
conflicts with advanced air defenses and aircraft that are increasingly a part of U.S. defense conflicts with advanced air defenses and aircraft that are increasingly a part of U.S. defense
planning. DOD may also have taken a conscious strategic pause in procurement while more planning. DOD may also have taken a conscious strategic pause in procurement while more
advanced technologies (e.g., jet-powered UAS) matured. Finally, much UAS development is advanced technologies (e.g., jet-powered UAS) matured. Finally, much UAS development is
believed to have moved to unacknowledged classified systems during this period. As such, DOD believed to have moved to unacknowledged classified systems during this period. As such, DOD
procurement may not have dropped so precipitously, but rather shifted from unclassified or procurement may not have dropped so precipitously, but rather shifted from unclassified or
acknowledged classified programs to unacknowledged classified programs not visible in public acknowledged classified programs to unacknowledged classified programs not visible in public
budget documents. budget documents.
Organizational Management
Although most U.S. military UAS are based on the MQ-1 Predator airframe, UAS programs exist Although most U.S. military UAS are based on the MQ-1 Predator airframe, UAS programs exist
across the military services. In authorization and oversight, Congress may consider the following across the military services. In authorization and oversight, Congress may consider the following
questions. Who should manage the development and procurement of DOD UAS? Should questions. Who should manage the development and procurement of DOD UAS? Should
management of at least some of these programs be centralized? If so, where in DOD should the management of at least some of these programs be centralized? If so, where in DOD should the
central authority reside? central authority reside?
Former Air Force Chief of Staff General Norton Schwartz made the case that “ideally, what you Former Air Force Chief of Staff General Norton Schwartz made the case that “ideally, what you
want to do is have the U.S. government together in a way that allows us to get the best want to do is have the U.S. government together in a way that allows us to get the best
capability.... An example is BAMS [MQ-4 Triton] and [RQ-4] Global Hawk. Why should the capability.... An example is BAMS [MQ-4 Triton] and [RQ-4] Global Hawk. Why should the
Navy and Air Force have two separate depots, ground stations and training pipelines for what is Navy and Air Force have two separate depots, ground stations and training pipelines for what is
essentially the same airplane with a different sensor? I think there is lots of opportunity for both essentially the same airplane with a different sensor? I think there is lots of opportunity for both
of us to make better uses of resources.”of us to make better uses of resources.”8788 A 2013 study by the RAND Corporation found that, A 2013 study by the RAND Corporation found that,
historically, joint manned aircraft programs did not result in life cycle cost savings,historically, joint manned aircraft programs did not result in life cycle cost savings,8889 but that but that
managing multiple programs through a single office without fully combining those programs may managing multiple programs through a single office without fully combining those programs may
be possible. be possible.
Interoperability with Existing Force Structure
UAS present a potential interoperability challenge when conducting missions with manned UAS present a potential interoperability challenge when conducting missions with manned
aircraft because the pilot is not directly onboard the aircraft but is located either on the airfield, aircraft because the pilot is not directly onboard the aircraft but is located either on the airfield,
for takeoffs and landings, or at a U.S. installation. For example, the UAS pilot relies on cameras for takeoffs and landings, or at a U.S. installation. For example, the UAS pilot relies on cameras
or sensors to make visual contact with the manned aircraft in its formation. Over the past two or sensors to make visual contact with the manned aircraft in its formation. Over the past two
decades, both the Army and the Air Force have demonstrated ways to integrate UAS into their decades, both the Army and the Air Force have demonstrated ways to integrate UAS into their
operations; most recently, the Army experimented with new concepts at its FY2021 Project operations; most recently, the Army experimented with new concepts at its FY2021 Project
Convergence.Convergence.8990 The Navy and Marine Corps, however, The Navy and Marine Corps, however,9091 have limited experience with integrating have limited experience with integrating

8788 David A. Fulghum, “USAF Chief Considers F-35 And F-22 Replacement,” David A. Fulghum, “USAF Chief Considers F-35 And F-22 Replacement,” Aerospace Daily, November 25, 2010. , November 25, 2010.
8889 Mark A. Lorell et al., Mark A. Lorell et al., Do Joint Fighter Programs Save Money?, RAND Corporation, MG1225, Santa Monica, CA, , RAND Corporation, MG1225, Santa Monica, CA,
2013, at https://www.rand.org/pubs/monographs/MG1225.html. 2013, at https://www.rand.org/pubs/monographs/MG1225.html.
8990 Andrew Eversden, “Robotic vehicles, drones coordinate recon at Army’s Project Convergence 21,” Andrew Eversden, “Robotic vehicles, drones coordinate recon at Army’s Project Convergence 21,” Breaking
Defense, November 22, 2021, at https://breakingdefense.com/2021/11/robotic-vehicles-drones-coordinate-recon-at-, November 22, 2021, at https://breakingdefense.com/2021/11/robotic-vehicles-drones-coordinate-recon-at-
armys-project-convergence-21/. armys-project-convergence-21/.
9091 In 2018 the Marine Corps began experimenting with MQ-9 Reapers utilizing General Atomics owned and operated In 2018 the Marine Corps began experimenting with MQ-9 Reapers utilizing General Atomics owned and operated
aircraft in Afghanistan. For more information see Joseph Trevithick, “It’s Official, Contractor-Owned MQ-9 Reaper aircraft in Afghanistan. For more information see Joseph Trevithick, “It’s Official, Contractor-Owned MQ-9 Reaper
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UAS into their current fleets of aircraft and operations—particularly with large UAS on aircraft UAS into their current fleets of aircraft and operations—particularly with large UAS on aircraft
carriers and amphibious ships. As new UAS are developed, along with new concepts for carriers and amphibious ships. As new UAS are developed, along with new concepts for
employing these aircraft, it remains to be seen how manned aircraft and UAS will integrate. employing these aircraft, it remains to be seen how manned aircraft and UAS will integrate.
Similarly it is not clear to what extent issues related to airspace deconfliction will present Similarly it is not clear to what extent issues related to airspace deconfliction will present
challenges for DOD. challenges for DOD.
Export ~~Controls91~~Controls92
The United States controls the export of UAS through both multilateral export control regimes The United States controls the export of UAS through both multilateral export control regimes
and national export controls.and national export controls.9293
Missile Technology Control Regime
The Missile Technology Control Regime (MTCR) “seeks to limit the risks of proliferation of” The Missile Technology Control Regime (MTCR) “seeks to limit the risks of proliferation of”
nuclear, biological, and chemical (NBC) weapons “by controlling exports of goods and nuclear, biological, and chemical (NBC) weapons “by controlling exports of goods and
technologies that could make a contribution to delivery systems (other than manned aircraft) for technologies that could make a contribution to delivery systems (other than manned aircraft) for
such weapons.”such weapons.”9394 Established in 1987 by the United States and six other countries, the MTCR, Established in 1987 by the United States and six other countries, the MTCR,
which holds several meetings per year and currently consists of 35 partner countries, is an which holds several meetings per year and currently consists of 35 partner countries, is an
informal voluntary arrangement whose partners agree to apply common export policy guidelines informal voluntary arrangement whose partners agree to apply common export policy guidelines
to an annex containing two categories of controlled items. Partner countries implement these to an annex containing two categories of controlled items. Partner countries implement these
guidelines pursuant to national legislation and regularly exchange information on relevant export guidelines pursuant to national legislation and regularly exchange information on relevant export
licensing issues, including denials of technology transfers. The MTCR guidelines apply to both licensing issues, including denials of technology transfers. The MTCR guidelines apply to both
armed and unarmed UAS. armed and unarmed UAS.
Category I MTCR items are the most sensitive and include complete UAS “capable of delivering Category I MTCR items are the most sensitive and include complete UAS “capable of delivering
a payload of at least 500 kg to a range of at least 300 km, their major complete subsystems … and a payload of at least 500 kg to a range of at least 300 km, their major complete subsystems … and
related software and technology,” as well as “specially designed” production facilities for these related software and technology,” as well as “specially designed” production facilities for these
UAS and subsystems.UAS and subsystems.9495 Partner governments should have “a strong presumption to deny” such Partner governments should have “a strong presumption to deny” such
transfers, regardless of their purpose, but may transfer such items on “rare occasions.”transfers, regardless of their purpose, but may transfer such items on “rare occasions.”9596 The The
guidelines prohibit exports of production facilities for Category I items. Regime partners have guidelines prohibit exports of production facilities for Category I items. Regime partners have
greater flexibility with respect to authorizing exports of Category II items, which include less greater flexibility with respect to authorizing exports of Category II items, which include less
sensitive and dual-use missile related components. This category also includes complete UAS, sensitive and dual-use missile related components. This category also includes complete UAS,
regardless of payload, capable of ranges of at least 300 km, as well as other UAS with certain regardless of payload, capable of ranges of at least 300 km, as well as other UAS with certain
characteristics. characteristics.
The MTCR guidelines state that governments should consider six factors when considering The MTCR guidelines state that governments should consider six factors when considering
requests for the export of MTCR annex items: (1) concerns about NBC proliferation; (2) the requests for the export of MTCR annex items: (1) concerns about NBC proliferation; (2) the
“capabilities and objectives of the missile and space programs of the recipient state”; (3) the “capabilities and objectives of the missile and space programs of the recipient state”; (3) the
“significance of the transfer in terms of the potential development” of NBC delivery systems; (4) “significance of the transfer in terms of the potential development” of NBC delivery systems; (4)
the “assessment of the end use of the transfers,” including the government assurances described the “assessment of the end use of the transfers,” including the government assurances described
below; (5) the “applicability of relevant multilateral agreements”; and (6) the “risk of controlled below; (5) the “applicability of relevant multilateral agreements”; and (6) the “risk of controlled

Drones Will Watch Over Marines in Afghanistan,” Drones Will Watch Over Marines in Afghanistan,” The War Zone, June 20, 2018, at https://www.thedrive.com/the-, June 20, 2018, at https://www.thedrive.com/the-
war-zone/21663/its-official-contractor-owned-mq-9-reaper-drones-will-watch-over-marines-in-afghanistan. war-zone/21663/its-official-contractor-owned-mq-9-reaper-drones-will-watch-over-marines-in-afghanistan.
9192 This section was authored by Paul K. Kerr. This section was authored by Paul K. Kerr.
9293 For more details about these regimes, see CRS Report RL33865, For more details about these regimes, see CRS Report RL33865, Arms Control and Nonproliferation: A Catalog of
Treaties and Agreements, by Amy F. Woolf, Paul K. Kerr, and Mary Beth D. Nikitin. , by Amy F. Woolf, Paul K. Kerr, and Mary Beth D. Nikitin.
9394 Fact Sheet, “Missile Technology Control Regime (MTCR) Frequently Asked Questions,” Department of State. Fact Sheet, “Missile Technology Control Regime (MTCR) Frequently Asked Questions,” Department of State.
9495 Ibid. Ibid.
9596 “Guidelines For Sensitive Missile-Relevant Transfers,” Missile Technology Control Regime. “Guidelines For Sensitive Missile-Relevant Transfers,” Missile Technology Control Regime.
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items falling into the hands of terrorist groups and individuals.” items falling into the hands of terrorist groups and individuals.”9697 The guidelines also stipulate The guidelines also stipulate
that a strong presumption of denial applies to transfers of any item on the MTCR annex or any that a strong presumption of denial applies to transfers of any item on the MTCR annex or any
unlisted missile if the partner government “judges, on the basis of all available, persuasive unlisted missile if the partner government “judges, on the basis of all available, persuasive
information” that the items “are intended to be used for” NBC delivery. information” that the items “are intended to be used for” NBC delivery.
In addition, the MTCR guidelines state that, in cases where the exporting government does not In addition, the MTCR guidelines state that, in cases where the exporting government does not
judge the proposed Category I UAS transfer as intended for NBC delivery, the government is to judge the proposed Category I UAS transfer as intended for NBC delivery, the government is to
obtain “binding government-to-government undertakings” from the recipient state that “[n]either obtain “binding government-to-government undertakings” from the recipient state that “[n]either
the items nor replicas nor derivatives thereof will be retransferred without” the exporting the items nor replicas nor derivatives thereof will be retransferred without” the exporting
government’s consent.government’s consent.9798 The exporting government must also assume “responsibility for taking The exporting government must also assume “responsibility for taking
all steps necessary to ensure that the item is put only to its stated end-use.” Moreover, a all steps necessary to ensure that the item is put only to its stated end-use.” Moreover, a
government is only to authorize transfers of items that “could contribute to [an NBC] delivery government is only to authorize transfers of items that “could contribute to [an NBC] delivery
system” if the government receives “appropriate assurances from the [recipient] government” that system” if the government receives “appropriate assurances from the [recipient] government” that
the recipient will use the items only for their stated purpose and will refrain from modifying, the recipient will use the items only for their stated purpose and will refrain from modifying,
replicating, or retransferring the items without the exporting government’s prior consent.replicating, or retransferring the items without the exporting government’s prior consent.9899
Partner governments’ export controls must require authorization for the transfer of unlisted items Partner governments’ export controls must require authorization for the transfer of unlisted items
in cases where the government has informed an exporter that such items “may be intended, in in cases where the government has informed an exporter that such items “may be intended, in
their entirety or part, for use in connection with [NBC] delivery systems … other than manned their entirety or part, for use in connection with [NBC] delivery systems … other than manned
aircraft.” These restrictions are known as “catch-all” controls.aircraft.” These restrictions are known as “catch-all” controls.99100
Other Multilateral Export Control Regimes
Other multilateral regimes restrict the export of technologies that could enable the development Other multilateral regimes restrict the export of technologies that could enable the development
of NBC payloads for UAS. For example, the Nuclear Suppliers Group governs nuclear-related of NBC payloads for UAS. For example, the Nuclear Suppliers Group governs nuclear-related
exports, and the Wassenaar Arrangement performs a similar function with respect to conventional exports, and the Wassenaar Arrangement performs a similar function with respect to conventional
arms and certain dual-use goods and technologies. The Australia Group is the analogous arms and certain dual-use goods and technologies. The Australia Group is the analogous
organization for technologies relevant to chemical and biological weapons. organization for technologies relevant to chemical and biological weapons.
U.S. Export Controls
Beginning in 2017, the United States has submitted a series of proposals to the MTCR partners Beginning in 2017, the United States has submitted a series of proposals to the MTCR partners
that would relax the regime’s export guidelines for certain UAS.that would relax the regime’s export guidelines for certain UAS.~~100~~101 Those governments, which Those governments, which
take decisions by consensus, have not agreed to adopt any of these proposals. On July 24, 2020, take decisions by consensus, have not agreed to adopt any of these proposals. On July 24, 2020,
the Trump Administration announced a new UAS export policy that treats “a carefully selected the Trump Administration announced a new UAS export policy that treats “a carefully selected
subset of MTCR Category I UAS, which cannot travel faster than 800 kilometers per hour subset of MTCR Category I UAS, which cannot travel faster than 800 kilometers per hour
(roughly 500 miles per hour) as Category II” and thereby overcomes the MTCR’s “strong (roughly 500 miles per hour) as Category II” and thereby overcomes the MTCR’s “strong
presumption of denial” for these systems.presumption of denial” for these systems.~~101~~102 The United States has exported MTCR Category I The United States has exported MTCR Category I
UAS to France, Italy, Japan, Germany, South Korea, Spain, and the United Kingdom. UAS to France, Italy, Japan, Germany, South Korea, Spain, and the United Kingdom.
A January 12, 2021, final rule from the Department of Commerce’s Bureau of Industry and A January 12, 2021, final rule from the Department of Commerce’s Bureau of Industry and
Security (BIS) implements the relevant changes to U.S. dual-use licensing procedures. BIS’s Security (BIS) implements the relevant changes to U.S. dual-use licensing procedures. BIS’s
annual report to Congress for FY2020, noting the cancellation of all 2020 MTCR meetings, annual report to Congress for FY2020, noting the cancellation of all 2020 MTCR meetings,
explains that the United States adopted this policy unilaterally because there were “no venues for explains that the United States adopted this policy unilaterally because there were “no venues for

9697 Ibid. Ibid.
9798 Ibid. Ibid.
9899 Ibid. Ibid.
99100 Ibid. Ibid.
~~100~~101 For details, see CRS For details, see CRS In Focus, U.S.-Proposed Missile Technology Control Regime Changes, by Paul K. Kerr. , by Paul K. Kerr.
~~101~~102 “Statement from the Press Secretary on Unmanned Aerial Systems Exports,” July 24, 2020. “Statement from the Press Secretary on Unmanned Aerial Systems Exports,” July 24, 2020.
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further progress in the MTCR in the foreseeable future.” further progress in the MTCR in the foreseeable future.”~~102~~103 The proposal “remains a priority effort The proposal “remains a priority effort
of ours in the MTCR, but that – like much else – has been hampered by the travel restrictions” of ours in the MTCR, but that – like much else – has been hampered by the travel restrictions”
adopted in response to risks posed by the COVID-19 virus, according to a State Department adopted in response to risks posed by the COVID-19 virus, according to a State Department
official.official.~~103~~104 The MTCR members held a plenary meeting in October 2021 but did not adopt the The MTCR members held a plenary meeting in October 2021 but did not adopt the
U.S. proposal. U.S. proposal.
The United States imposes a number of other restrictions on UAS exports. The State Department The United States imposes a number of other restrictions on UAS exports. The State Department
administers export controls on military UAS and other defense articles; the statutory basis for this administers export controls on military UAS and other defense articles; the statutory basis for this
system is the Arms Export Control Act (AECA; P.L. 94-329). Section 71(a) of that law requires system is the Arms Export Control Act (AECA; P.L. 94-329). Section 71(a) of that law requires
the Secretary of State to maintain a list of all items on the MTCR annex that are not controlled the Secretary of State to maintain a list of all items on the MTCR annex that are not controlled
pursuant to U.S. dual-use controls. The AECA also restricts the uses to which U.S.-origin defense pursuant to U.S. dual-use controls. The AECA also restricts the uses to which U.S.-origin defense
articles may be put and prohibits transfers of such items to third parties without U.S. government articles may be put and prohibits transfers of such items to third parties without U.S. government
permission. The Export Controls Act of 2018 (P.L. 115-232, Subtitle B, Part I) provides broad, permission. The Export Controls Act of 2018 (P.L. 115-232, Subtitle B, Part I) provides broad,
detailed legislative authority for the President to implement controls on the export of dual-use detailed legislative authority for the President to implement controls on the export of dual-use
items, including dual-use UAS and related components. U.S. regulations on dual-use exports items, including dual-use UAS and related components. U.S. regulations on dual-use exports
contain catch-all controls with respect to UAS. contain catch-all controls with respect to UAS.
The U.S. government also implements regulations to ensure that recipients of U.S.-origin UAS The U.S. government also implements regulations to ensure that recipients of U.S.-origin UAS
use the items for their declared purpose. According to a May 2019 State Department fact sheet, use the items for their declared purpose. According to a May 2019 State Department fact sheet,
the United States will transfer military UAS “only with appropriate technology security the United States will transfer military UAS “only with appropriate technology security
measures.”measures.”~~104~~105 Both the State and Commerce Departments conduct end-monitoring to determine Both the State and Commerce Departments conduct end-monitoring to determine
whether recipient countries are using exported items appropriately. Some military UAS “may be whether recipient countries are using exported items appropriately. Some military UAS “may be
subject to enhanced end-use monitoring,” as well as “additional security conditions,” the fact subject to enhanced end-use monitoring,” as well as “additional security conditions,” the fact
sheet says.sheet says.~~105~~106 U.S. transfers of MTCR Category I UAS also “shall require periodic consultations U.S. transfers of MTCR Category I UAS also “shall require periodic consultations
with” the U.S. government with respect to the systems’ use, according to the State Department with” the U.S. government with respect to the systems’ use, according to the State Department
fact sheet.fact sheet.~~106~~107

Author Information

John R. Hoehn John R. Hoehn
Paul K. Kerr Paul K. Kerr
Analyst in Military Capabilities and Programs Analyst in Military Capabilities and Programs
Specialist in Nonproliferation Specialist in Nonproliferation

Acknowledgments
The authors are indebted for the contributions by Jeremiah “JJ” Gertler, former Specialist in Military The authors are indebted for the contributions by Jeremiah “JJ” Gertler, former Specialist in Military
Aviation.Aviation.

~~102~~103 Annual Report to Congress for Fiscal Year 2020, U.S. Department of Commerce Bureau of Industry and Security , U.S. Department of Commerce Bureau of Industry and Security
(BIS). (BIS).
~~103~~104 December 8, 2021, email to CRS analyst. December 8, 2021, email to CRS analyst.
~~104~~105 Fact Sheet, “U.S. Policy on the Export of Unmanned Aerial Systems,” U.S. Department of State, May 21, 2019. Fact Sheet, “U.S. Policy on the Export of Unmanned Aerial Systems,” U.S. Department of State, May 21, 2019.
~~105~~106 Ibid. Articles subject to such monitoring “are accompanied by specialized physical security and accountability Ibid. Articles subject to such monitoring “are accompanied by specialized physical security and accountability
notes.” (“C8.4. - Enhanced EUM,” notes.” (“C8.4. - Enhanced EUM,” Security Assistance Management Manual, Defense Security Cooperation Agency.) , Defense Security Cooperation Agency.)
~~106~~107 U.S. Department of State, May 21, 2019. U.S. Department of State, May 21, 2019.
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