Hypersonic Missile Defense: Issues for Congress

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Updated August 21, 2023
Hypersonic Missile Defense: Issues for Congress
The Missile Defense Agency (MDA) and Space
insufficient to detect and track hypersonic weapons; former
Development Agency (SDA) are currently developing
Under Secretary of Defense for Research and Engineering
elements of a hypersonic missile defense system to defend
Mike Griffin has noted that “hypersonic targets are 10 to 20
against hypersonic weapons and other emerging missile
times dimmer than what the U.S. normally tracks by
threats. These elements include the tracking and transport
satellites in geostationary orbit.”
layers of the Proliferated Warfighter Space Architecture
Proliferated Warfighter Space
(PWSA) and various interceptor programs. As MDA and
Architecture
SDA continue to develop these systems, Congress may
SDA developed the PWSA, formerly known as the National
consider implications for oversight and defense
Defense Space Architecture, to “unify and integrate next
authorizations and appropriations.
generation capabilities across [the Department of Defense
Background
(DOD)] and industry.” The PWSA aims to be a “single,
coherent proliferated space architecture with seven layers,”
Hypersonic weapons, like ballistic missiles, fly at speeds of
which include the data tracking and transport layers
at least Mach 5, or roughly 1 mile per second. Unlike
depicted in Figure 2 and discussed below. Other layers
ballistic missiles, hypersonic weapons do not follow a
include the custody layer to support the targeting of mobile
ballistic trajectory and can maneuver en route to their
ground assets; the battle management layer to provide
target. Russia reportedly fielded its first hypersonic
space-based command and control; the navigation layer to
weapons in December 2019, while some experts believe
provide “alternate positioning, navigation, and timing for
that China fielded hypersonic weapons as early as 2020.
potential GPS-denied environments”; the deterrence layer
The United States is not expected to field hypersonic
to detect potentially hostile actions in deep space; and the
weapons until the end of FY2023. (For an overview of
support layer to facilitate satellite operations for the other
hypersonic weapons programs in Russia, China, and the
PWSA layers. Once fully fielded, the PWSA is to include
United States, see CRS Report R45811, Hypersonic
550 satellites and provide full global coverage.
Weapons: Background and Issues for Congress, by Kelley
M. Sayler.)
Tracking Layer
The tracking layer is to “provide global indications,
The maneuverability and low flight altitude of hypersonic
warning, tracking, and targeting of advanced missile
weapons could challenge existing detection and defense
threats, including hypersonic missile systems.” As part of
systems. For example, most terrestrial-based radars cannot
detect hypersonic weapons until late in the weapon’s flight
this layer, SDA is developing an architecture of Wide Field

of View (WFOV) satellites, which are to eventually provide
due to line-of-sight limitations of radar detection. This
global coverage. SDA requested $106.7 million for Tranche
leaves minimal time for a defender to launch interceptors
0 tracking activities in FY2024 and $1.3 billion for Tranche
that could neutralize an inbound weapon. Figure 1 depicts
1 tracking activities (also known as Resilient Missile
the differences in terrestrial-based radar detection timelines
Warning Missile Tracking - Low Earth Orbit).
for ballistic missiles versus hypersonic weapons.
Working in tandem with the SDA’s tracking satellites will
Figure 1. Terrestrial-Based Detection of Ballistic
be the Hypersonic and Ballistic Tracking Space Sensor
Missiles vs. Hypersonic Weapons
(HBTSS), previously known as the Space Sensor Layer,
which is being developed by MDA in collaboration with
SDA and the U.S. Space Force. HBTSS is to provide more
sensitive, but more limited (or Medium Field of View
[MFOV]) coverage, compared to WFOV. For this reason,
WFOV is intended to provide cueing data to HBTSS, which
could then provide more specific, target quality data to a
ground-based interceptor. MDA requested $109.5 million
for HBTSS in FY2024.

Section 1682 of the FY2020 NDAA (P.L. 116-92) tasks the
Source: CRS image based on an image in “Gliding missiles that fly
director of the Missile Defense Agency to “develop a
faster than Mach 5 are coming,” The Economist, April 6, 2019,
hypersonic and ballistic missile tracking space sensor
https://www.economist.com/science-and-technology/2019/04/06/
payload.” Section 1645 of the FY2021 NDAA (P.L. 116-
gliding-missiles-that-fly-faster-than-mach-5-are-coming.
283) affirms the MDA director’s responsibility for the

development and procurement of the sensor payload—in
U.S. defense officials have stated that both existing
coordination with the director of SDA—“through, at
terrestrial- and space-based sensor architectures are
minimum, fiscal year 2022.” Section 1645 additionally
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Hypersonic Missile Defense: Issues for Congress
requires that on-orbit testing of the sensor payload begin no
In addition, Section 1664 of the FY2022 NDAA (P.L. 117-
later than December 31, 2023, and that integration of the
81) grants the director of MDA “the authority to budget for,
sensor payload into the SDA’s broader space-based sensor
direct, and manage directed energy programs applicable”
architecture begin “as soon as technically feasible
for hypersonic missile defense, while Section 1662 of the
thereafter.” Finally, Section 1662 of the FY2022 NDAA
FY2023 NDAA (P.L. 117-263) directs MDA to produce a
(P.L. 117-81) prohibits the director of MDA from
strategy to use asymmetric capabilities (e.g., directed
“[authorizing] or [obligating] funding for a program of
energy, microwave systems) to defeat hypersonic missile
record for the production of satellites or ground systems
threats. The Defense Advanced Research Projects Agency
associated with the operation of such satellites.” The
(DARPA) is also working on a program called Glide
Assistant Secretary of the Air Force for Space Acquisition
Breaker, which is to “develop critical component
and Integration may waive this limitation with respect to
technology to support a lightweight vehicle designed for
HBTSS if certain conditions are met, including a
precise engagement of hypersonic threats at very long
determination that “that such limitation would delay the
range.” DARPA requested $29.1 million for Glide Breaker
delivery of an operational [HBTSS] because of technical,
in FY2024. Overall, MDA requested $190.6 million for
cost, or schedule factors.”
hypersonic defense in FY2024—down from its $225.5
million FY2023 request and $510.1 million appropriation.
Figure 2. Selected Elements of the NDSA
Issues for Congress
Some analysts have suggested that space-based sensor
layers—integrated with tracking and targeting systems to
direct high-performance interceptors or directed energy
weapons—could theoretically present viable options for
defending against hypersonic weapons. The 2019 Missile
Defense Review notes that “such sensors take advantage of
the large area viewable from space for improved tracking
and potentially targeting of advanced threats, including
hypersonic [weapons].” Other analysts have questioned the
affordability, technical feasibility, and/or utility of
hypersonic weapons defense. In addition, some analysts
have argued that the United States’ current command and

Source: CRS image; not to scale.
control architecture would be incapable of “processing data
quickly enough to respond to and neutralize an incoming
Transport Layer
hypersonic threat.”
SDA has stated that the PWSA’s transport layer, which is
intended to connect the tracking layer to interceptors and
Some analysts have also questioned the current division of
labor between the SDA and MDA on hypersonic missile
other weapons systems on the ground, will “enhance
defense. SDA director Tournear has previously responded
several mission areas including missile defense.” According
to DOD, SDA has awarded three prototype agreements for
to criticisms of potential redundancies between the two
Tranche 1 of the transport layer, “a me
agencies, stating that both report to the Under Secretary of
sh network of 126
Defense for Research and Engineering. However, as of
optically-interconnected space vehicles” that is to begin
launching in September 2024. The transport layer is to
October 1, 2022, SDA is to instead report to the Assistant
Secretary of the Air Force for Acquisition and Integration.
eventually consist of a constellation of approximately 300-
Congress may monitor the implications of this new
500 satellites. SDA requested $1.8 billion for “the data
reporting structure for efficiency and efficacy.
transport layer, sensor capabilities, and alternate position,
navigation, and timing capabilities” in FY2024.
Potential Questions for Congress
Interceptors
• Is an acceleration of research on hypersonic missile
MDA has explored options for neutralizing hostile
defense options both necessary and technologically
hypersonic weapons, including interceptor missiles,
feasible? Does the technological maturity of hypersonic
hypervelocity projectiles, directed energy weapons, and
missile defense options warrant current funding levels?
electronic attack systems. In January 2020, MDA issued a
• How are SDA and MDA collaborating on various
draft request for prototype proposals for a Hypersonic
elements of hypersonic missile defense? Are their
Defense Regional Glide Phase Weapons System
current roles increasing or decreasing costs and the
interceptor. This program was intended to “reduce
speed and efficiency of technology development?
interceptor key technology and integration risks.” In April
• Does DOD have the enabling capabilities, such as
2021, MDA then shifted to the Glide Phase Interceptor
adequate command and control architectures, needed to
(GPI), which is to be integrated with the Aegis Weapon
execute hypersonic missile defense?
System and notionally provide a hypersonic missile defense
capability in FY2034. Lockheed Martin, Northrop
Kelley M. Sayler, Analyst in Advanced Technology and
Grumman, and Raytheon Missiles and Defense have been
Global Security
awarded contracts for the “accelerated concept design”
IF11623
phase of the GPI. In August 2023, DOD announced a GPI
Cooperative Development program with Japan.
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Hypersonic Missile Defense: Issues for Congress


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