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THEU.S.
COUNTER-UNMANNED
AERIALSYSTEMS
MARKETREPORT
2024-2029
THEU.S.COUNTER-UNMANNEDAERIALSYSTEMSMARKETREPORT2024-2029
FOREWORD
Recentglobalconflicts,suchasthewarin
Ukraine,haveunderscoredthewidespreaduseofUnmannedAerialSystems(UAS)inmilitaryscenarios.Thesesystemsarenotonlypivotalinintelligence,surveillance,andreconnaissance(ISR)missionsbutarealsoplayingdirect
combatroles.Additionally,UASare
revolutionizingvariouscommercialindustries,suchasinfrastructure,logistics,insurance,
media,telecommunications,agriculture,mining,oilandgas,andretail.
ThisrapidproliferationofUAShasintroducednewthreats,
suchasunauthorizedsurveillance,privacybreaches,airspaceobstruction,andthepotentialuseofdronesforcarrying
destructivepayloads.Theseconcernsareparticularly
pronouncedincivilianairspace,whereincidentsinvolving
droneshavesurged.From2021to2023,theTransportationSecurityAdministration(TSA)reportedover2,000drone
sightingsnearU.S.airports,includingincidentsthatrequiredpilotstotakeevasiveactions.Inthefirstfourmonthsof2024alone,theFAArecorded326drone-relatedincidentsnear
airplanes,helicopters,andairports,highlightingthegrowingsecurityrisks.
Inresponsetothesechallenges,thereisanurgentneed
foreffectivecounter-UAS(C-UAS)technology.Countriesareincreasinglyprocuringsystemsfordetection,identification,tracking,alerting,jamming,spoofing,andneutralizationofroguedrones.TheglobalmarketforC-UAStechnologyis
expectedtoquadruplebetween2021and2031.Notably,
integrateddefensenetworksthatcombinevariousdetectionandmitigationtechnologiesareprovingmoreeffectivethanisolatedsystems,asevidencedbyaU.S.Armyassessment.
ThefollowingreportwillanalyzethecurrentlyevolvingC-UASmarket,examinecurrenttrends,technologicaladvancements,andfutureeffortstoaddressthegrowingchallengesposedbyUASproliferation.
IfyouareinterestedinlearningmoreabouttheC-UAS
market,registerforIDGA’sC-UASSummittoday.Thistwo-dayevent,whichtakesplaceAugust27-28attheMarriottCrystalGatewayHotelinArlington,Virginia,willengageouraudiencewithhighleveldiscussionssurroundingkineticandnon-
kineticapproachesforcounteringdrones,includingexploringcasestudiesonspecificincidents,insightsintothelatest
innovativeCUAStechnologies,theimpactofshiftinglegalauthorities,andmuchmore.
2
THEU.S.COUNTER-UNMANNEDAERIALSYSTEMSMARKETREPORT2024-2029
3
TABLEOFCONTENTS
Foreword2
TableofContents3ListofTables3ListofFigures3
OverallTrends4
?C-UASAuthorities7
Counter-UASMarket8
?U.S.DoD8 ?U.S.CivilianAuthorities15CTA-CalltoActionxBibliography18
LISTOFTABLES
Table1:U.S.DoD:CounterUASMarket,2024-2029,US$Millions8
Table2:U.S.CivilianAuthorities:CounterUASMarket,2024-2029,US$Millions15
LISTOFFIGURES
Figure1:U.S.DoD:CounterUASMarket,2024-2029,US$Millions8
Figure2:U.S.CivilianAuthorities:CounterUASMarket,2024-2029,US$Millions15
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THEU.S.COUNTER-UNMANNEDAERIALSYSTEMSMARKETREPORT2024-2029
OVERALLTRENDS
The2020conflictbetweenArmeniaandAzerbaijanoverthedisputedNagorno-Karabakhregionand,
morerecently,Russia’scontinuedannexationof
Ukraine,hasestablishedtheubiquityofUnmannedAerialSystems(UAS)inaconflictscenario.Thesesystemsareincreasinglybeingutilizedfora
widerangeofapplications,includingintelligence,surveillance,andreconnaissance(ISR)missions,aswellasdirectcombatroles.Additionally,UASare
increasinglybeingusedincommercialindustriessuchasinfrastructure,logistics,insurance,mediaandentertainment,telecommunication,agriculture,mining,oilandgas,andretail.Infact,according
toaMcKinseystudy,thenumberofcommercial
packagesdeliveredbydronesgloballyincreasedbyover85%between2021and2023.
Developmentssuchassignificantreductioninsize,weight,and
cost,enhancedbatterylife,andimprovedautonomy,arefactors
drivingtheuseofUASinmilitaryandcommercialapplications.
ArecentstudyconductedbyAgileIntelResearchestimatesthe
globalmarketforUAVstoincreasefromUS$28billionin2023toalmostUS$150billionby2033,atacompoundingannualgrowthrate(CAGR)of18.3%.Duringthesameperiod,theU.S.marketforUAVsisestimatedtoincreasefromUS$7billiontoUS$40billionataCAGRof19%.Additionally,accordingtoestimatesbytheFederalAviationAdministration(FAA),thecommercialdronefleet(those
operatedinconnectionwithbusiness,research,oreducational
purposes)isexpectedtogrowfromaround727,000attheendof2022to955,000by2027.Forthesameperiod,theFAAforecastedthattherecreationalfleet(thoseoperatedforpersonalinterestandenjoyment)wouldalsoincreasefrom1.69millionto1.82million.
Thisexponentialgrowthintheuseofcommercialandmilitary
droneshasresultedinanumberofthreatsfromroguesystems.
Theseincludeunauthorizedsurveillance,privacybreaches,airspace
obstruction,andUASoperatingascarriersfordestructivepayloads.Globalagenciesarefacingnewsecuritychallengesinthelower
airspacedomain,mainlyduetotheproliferationofcommercialsystemsthatareincreasinglybeingusedforrecreationalandprofessionalpurposes.
FortheU.S.alone,thescaleandseverityofthesedrone-related
securitychallengesinthecivilianairspacehavebeenwell-
documentedoverthelastfewyears.Between2021and2023,theTransportationSecurityAdministration(TSA)reportedover2,000dronesightingsnearU.S.airports,withsomeincidentsinvolvingpilotstakingevasiveaction,includingfourincidentsinvolving
commercialaircraft.Moreover,accordingtothelatestdatafromtheFederalAviationAdministration(FAA),inthefirstfourmonthsof2024(uptoApril),therehavebeenasmanyas326incidents
involvingdronesbeingidentifiedincloseproximitytoairplanes,
helicopters,andairports,therebyposingaserioussecurityhazard.
Thesetrendshavenecessitatedthedevelopmentofeffective
counter-dronetechnologyinareassuchasdetection,identification,location/tracking,alerting,jamming,spoofing,anddestruction.
Variouscountriesareprocuringcounter-UAS(C-UAS)systems
suchasjamming,spoofing,andblindingsystems,andlaser-
baseddirectedenergyweapons(DEWs),withtheglobalmarket
expectedtoquadruplebetween2021and2031.Interestingly,theseprocurementsarenotlimitedtoindependentsystemsworking
inisolation,butalsocomplementarydetectionandmitigation
technologieswovenintoanintegrateddefensenetwork,forbetterefficacy.Infact,arecentoperationalassessmentconductedby
theU.S.Army’sJointCounter-smallUnmannedAircraftSystems
Officefoundasystem-of-systemsapproachtobemoreeffectiveascomparedtodeployingisolatedsystems.
ThevariousC-UAStechnologiesandsystemscanbebroadly
classifiedintotwocategories:ThevariousC-UAStechnologiesandsystemscanbebroadlyclassifiedintotwocategories:kineticandnon-kinetic.
5
THEU.S.COUNTER-UNMANNEDAERIALSYSTEMSMARKETREPORT2024-2029
NON-KINETICCUAS:
>DetectionSystems:Utilizevarioussensortechnologiessuchasradar,electro-optical/infrared(EO/IR)cameras,acousticsensors,andradiofrequency(RF)detectorstodetectandlocateUAS
withinagivenairspace.
>IdentificationandTracking:Oncedetected,CUASsystems
canemployadvancedalgorithmsandsoftwaretoidentifyand
trackUAS,distinguishingbetweenauthorizedandunauthorizeddronesbasedoncharacteristicssuchasflightbehavior,size,andcommunicationsignals.
>ElectronicCountermeasures(ECM):ECMtechniquesdisrupt
orinterferewithUAScontrolandcommunicationsystems,
preventingdronesfromreceivingcommandsfromtheiroperatorsordisruptingGPSsignalstoinducealossofnavigation.
>Jamming:Jamminginvolvesemittingelectromagnetic
signalstointerferewiththeradiofrequenciesusedbyUASforcommunicationandnavigation,disruptingtheircontroland
renderingthemineffective.
>Spoofing:SpoofingtechniquesinvolvegeneratingfalsesignalstodeceiveUASnavigationsystems,causingdronestodeviate
fromtheirintendedflightpathorlandsafely,therebyneutralizingthethreattheypose.
>CybersecurityMeasures:CUASsystemsmayincorporate
cybersecuritymeasurestoprotectagainstcyberthreatsposedbyUAS,includingunauthorizedaccesstonetworks,databreaches,andmalwareattackstargetingcriticalinfrastructure.
>AcousticDeterrents:Emithigh-frequencysoundsoracousticsignalstodeterUASfromenteringrestrictedairspaceor
sensitiveareas,leveragingaversionbehaviorsinbirdsandotherwildlifetodiscouragedroneintrusion.
>DirectedEnergyWeapons(DEW):Whiletypicallyconsideredkinetic,someDEWsystemsoffernon-lethaloptionssuchas
laserdazzlersornon-destructivebeamsteeringtodisableUASelectronicsorsensorswithoutcausingphysicaldamage.
>CommandandControl(C2)Disruption:Targetthe
communicationlinksbetweentheUASanditsoperator,
disruptingthecommandandcontrolsignalsandpreventingthedronefromreceivinginstructionsortransmittingdata.
>CyberThreatIntelligence:Utilizeadvancedanalyticsandthreatintelligencetoanticipateandcountercyberthreatsposedby
UAS,includingmalware,dataexfiltration,andnetworkintrusionattempts.
KINETICCUAS:
>Interception:InterceptUASthreatsusingmannedorunmannedaircraftequippedwithnetcannons,capturedevices,orother
meanstophysicallycaptureordisabletheunauthorizeddrone.
>KineticProjectileSystems:Deployfirearms,cannons,orotherprojectile-basedweaponstoshootdownordisableUASthreats,eitherbytargetingcriticalcomponentsorcausingphysical
damagetothedrone.
>DirectedEnergyWeapons(DEW):Utilizehigh-energy
laserbeamsormicrowavepulsestodamageordisruptUAS
electronics,sensors,orpropulsionsystems,renderingthedroneinoperableorcausingittomalfunction.
>ExplosiveOrdinance:EmployexplosivesorexplosiveprojectilestodestroyUASthreats,eitherthroughdirectimpactordetonationincloseproximitytothetarget.
>CollisionAvoidanceSystems:Equipaircraftorground-
basedplatformswithcollisionavoidancesystemsdesignedtophysicallycollidewithordisrupttheflightpathofUASthreats,causingthemtocrashorlosecontrol.
>ElectronicWarfare(EW):UtilizeelectronicwarfaretechniquestodisruptordegradeUAScontrolandcommunicationsystems,eitherthroughjamming,spoofing,orothermeansofelectronicinterference.
>ManeuveringandRamming:Usemannedorunmanned
vehiclestointerceptandphysicallycollidewithUASthreats,
causingthemtocrashorbecomedisabledduetoimpactforces.
>DedicatedKineticInterceptors:Employspecializedkineticinterceptorsystems,suchasmissiledefensesystemsor
anti-dronemunitions,totargetanddestroyUASthreatswithprecision-guidedprojectilesormissiles.
>Ground-basedAnti-AircraftSystems:Deploysurface-to-air
missiles,anti-aircraftguns,orotherground-basedweapons
systemstoengageandneutralizeUASthreatsflyingwithinrangeofthedefensivesystems.
>RemoteWeaponStations(RWS):Mountfirearms,cannons,
orotherkineticweaponsonremotelyoperatedplatformsor
vehiclestoengageanddisableUASthreatsfromadistancewhileminimizingoperatorexposure.
6
THEU.S.COUNTER-UNMANNEDAERIALSYSTEMSMARKETREPORT2024-2029
C-UASAUTHORITIES
IntheU.S.,severalfederalagencieshavebeen
grantedexpressstatutoryauthoritytoconductdronedetectionandcounter-droneoperations.TheseincludetheDepartmentofDefense(DOD),theDepartmentofHomelandSecurity(DHS),theDepartmentofJustice(DOJ),andtheDepartmentofEnergy(DOE).
WhiletheFederalAviationAdministration(FAA)doesnothave
expressstatutoryauthoritytoconductdronedetectionandcounter-droneoperations,theagency’sresponsibilitiesincludeensuring
thesafetyandefficiencyoftheNationalAirspaceSystem(NAS).
Specifically,theFAAistaskedwithdevelopingacomprehensive
plantosafelyintegrateUASintotheNAS.Thisinvolvesestablishingthenecessaryregulations,guidelines,andprocedurestoenable
theseamlessandsecureoperationofdronesalongsidetraditionalmannedaircraft.
Inadditiontothisintegrationmandate,theFAAisalsocharged
withcoordinatingcloselywithotherrelevantfederalagencies
anddepartments.Since2016,theFAA’sOfficeofAirportsSafety&Standards(AAS)hasissuedguidanceandpolicydocuments
outliningtheuseofUASdetectionandmitigationtechnology
specificallyatairports.Further,in2018,legislationwasenacted
requiringtheFAAtodevelopaplanforthecertification,permitting,authorizing,orallowingthedeploymentofdronedetectionand
mitigationtechnologies.
FAAMEASURESTOPROTECTU.S.AIRSPACE:
TheFAAcurrentlydoesnotsupporttheuseofkineticC-UAS
capabilitiesbyanylawenforcemententity(state,local,orfederal).However,toensurethesecurityofU.S.airspace,thedepartmenthasundertakenvariousmeasuresthatenablethepotentialuseofkineticcapabilitiesincertainsituations.Theseinclude:
NOFLYZONES–CRITICALINFRASTRUCTURE:
TheFAAReauthorizationActincludesprovisionsthatprohibittheoperationofanyunmannedaerialsystems(UAS)neardesignatedcriticalinfrastructuresites.Whilethespecificclassification
ofcriticalinfrastructuremayvaryacrossdifferentstates,itencompassesfacilitiessuchas:
>Petroleumrefineries
>Chemicalmanufacturingplants>Pipelines
>Wastewatertreatmentplants>Powergeneratingstations
>Electricutilities
>Chemicalorrubbermanufacturingfacilities>Othersimilarcriticalinfrastructureassets
NOFLYZONES–STADIUMS:
TheFAAhasimplementedregulationsthatprohibitdrone
operationswithinathree-mileradiusofstadiumsduringspecifictimeframesaroundmajorevents.Specifically,dronesarenot
allowedtoflywithinthisrestrictedairspace:
>Onehourbeforethescheduledstarttimeoftheevent>Duringtheentiredurationoftheevent
>Onehourafterthescheduledendtimeoftheevent
THESERESTRICTIONSAPPLYTOTHEFOLLOWINGTYPESOFEVENTS:
qMajorLeagueBaseball
qNationalFootballLeague
qNCAADivisionOneFootball
qNASCARSprintCup,IndyCar,andChampSeriesraces
NOFLYZONES–AIRPORTS:
TheFAA’sSpecialRuleformodelaircraft(includinghobbydrones)imposesseveralkeyrequirementsondroneoperators:
>NotificationRequirement:UAVoperatorsmustnotifytheairportandairtrafficcontroltoweriftheyplantoflytheiraircraftwithina5-mileradiusofanairport.
>RestrictionsNearAircraftandEmergencies:UAVsare
prohibitedfromflyingnearotheraircraft.Inaddition,theUAVsarealsonotallowedtointerferewithorflynearanyemergencyresponseefforts.
TheFAA,throughanewlyformedOfficeofIntegrationand
Engagement(AIE)isworkingtowardsintegratingentrantsand
technologiesintothenationalairspacesystem(NAS).Specifically,thekeyfocusareasoftheAIEinclude:
>PreliminaryReviewsandFraming:TheAIEwillconduct
thoroughpreliminaryreviewstoidentifyandframethepotentialbenefitsandchallengesrelatedtotheintegrationofUASand
othernewtechnologiesintotheNAS.
>SafetyCaseDevelopment:Incoordinationwiththerelevantorganizations,theAIEwillsupportthedevelopmentof
comprehensivesafetycasesforUASandotherinnovativetechnologies.Thiswillensurethattheirintegrationintotheairspacecanbeapprovedandimplementedsafely.
>PolicyandRegulatorySupport:TheAIEwillprovidecrucialsupportinthedevelopmentandimplementationofnewrules,legislation,andotherpoliciesnecessarytoenablethesafe
integrationofUAS,AdvancedAirMobility,andotherinnovativeconceptsintotheNationalAirspaceSystem.
7
THEU.S.COUNTER-UNMANNEDAERIALSYSTEMSMARKETREPORT2024-2029
C-UASAUTHORITIES
U.S.DOD
TheU.S.DoD’sC-UASmarketisestimatedtocumulativelyvalueUS$10.1billionduringtheforecastperiod2024-2029.
Thekeyprogramsincludetheprocurementof1,867countersmallunmannedaerialsystems(C-SUAS)forUS$2.8billion,anunspecifiednumberofInterimManeuverShort-RangeAirDefense(IM-SHORAD)C-UASsystemsforUS$1.2billion,
developmentofdirectedenergysystemsfortheArmyunderMSHORADInc2forUS$1.1billion,counterdronesystemsfortheU.S.StatesSpecialOperationsCommand(SOCOM)-forUS$967.6million,andproprietarynovelC-UAStechnologiesfortheU.S.AirForceforUS$900million.
U.S.DOD:COUNTER-UASMARKET,2024-2029,US$MILLIONS
TABLE1:U.S.DOD:COUNTERUASMARKET,2024-2029,US$MILLIONS
Types202420252026202720282029Total
Kinetic719.6884.6853.81,093.6789.8700.45,041.8
Non-Kinetic308.1387.1371.4366.6387.0435.22,255.4
MixedSystems465.6517.1434.2457.4471.2477.92,823.5
Total1,493.31,788.81,659.41,917.71,648.01,613.510,120.7
FIGURE1:U.S.DOD:COUNTERUASMARKET,2024-2029,US$MILLIONS
1,493.3
1,788.8
1,659.4
1,917.7
1,648
1,613.5
2024
2025
2026
2027
2028
2029
8
THEU.S.COUNTER-UNMANNEDAERIALSYSTEMSMARKETREPORT2024-2029
KINETICANDNON-KINETIC-COUNTERSMALLUNMANNEDAERIALSYSTEM
(C-SUAS)PROCUREMENT:
UndertheongoingCounterSmallUnmannedAerialSystem
(C-SUAS)program,theU.S.Armyisprocuringfixed,semi-fixed,mounted,dismounted,andhandheldcounter-UAS,notonlyfor
conflictscenarios,buttoalsoprotectstrategicallyimportantDoDfacilitiesworldwide.Thesesystemshavevariouscapabilities
includingelectronicwarfare(EW),commandandcontrol(C2),andkineticandnon-kineticweapons.
Intheearlypartof2022,theArmylaunched
fiveprogramsoutlinedintheC-SUASCapabilityDevelopmentDocument(CDD)Increment1.Theyinclude:
>FixedSite-Low,Slow,SmallUnmannedAircraftSystem(UAS)IntegratedDefeatSystem(FS-LIDS)
>Mobile-low,Slow,SmallUASIntegratedDefeatSystem(M-LIDS)
>Ku-bandRadioFrequencySystem(KuRFS)FamilyofRadars>CoyoteBlock2+Interceptors
>Handheld/DismountedSystems
InOctober2022,thefirstofthecontractsfortheabove-mentionedprogramswasawardedtoRTX(formerlyRaytheon)forUS$207
millionbytheU.S.Army.ThisentailedtheprocurementofKu-bandRadioFrequencySensors,orKuRFS,andCoyoteeffectorstodetectandneutralizeunmannedaircraft.Thecompanyreceivedfollow-upcontractsworthUS$237millionandUS$75millioninApril2023
andJanuary2024,respectively.TheseinvolvedtheprocurementofadditionalKuRFSandCoyoteeffectorsand600Coyote2Cdroneinterceptors.
Additionally,aspertheacquisitionplanoutlinedinthebudget
document,RTXisexpectedtoreceiveanothercontractinApril2025fortheprocurementandintegrationofKuRFSandXBAEUradar
systems.DeliveriesoftheradarsareslatedtobegininMarch2027.
Notably,theArmy’s2025budgetrequestincludesUS$13.5
millionforhand-heldanti-dronedevices,andUS$54.2millionforbackpack-sizejammers.Moreover,by2029,theArmyisprojectedtoacquireapproximately7,000Coyoteinterceptors,250fixed-sitelaunchersystems,25mobilelaunchersystems,and150KuRFS.TheArmyhasallocatedatotalofUS$2.8billionfortheacquisitionoftheseplatformsuntil2029,withapproximatelyUS$1.8billionallocatedfortheperiod2024to2029.
TheArmyisalsoactivelyengagedinthedevelopmentofothernovelsolutionstocountertheincreasingthreatposedbyUAVsandhasallocatedapproximatelyUS$717.7millionforassociatedResearch,Development,Test,andEvaluation(RDT&E)efforts
between2024and2029.
KINETICANDNON-KINETIC-COUNTERSMALLUNMANNEDAERIALSYSTEM
(C-SUAS)INTERCEPTORS(PLANNED):
Forfiscalyear2025,theU.S.Armyhasoutlineditsplansto
implementanewprogramaimedatcounteringsmallunmannedaerialsystems(C-SUAS).Theobjectiveofthisprogramistodetect,track,classify,evaluate,andneutralizethreatsposedbyGroups
1and2unmannedaerialsystems.Underthisnewinitiative,theArmyplanstoacquireCoyotekineticandnon-kineticinterceptorsdevelopedbyRTX.
Coyoteisaground-launched,radar-guidedsystemavailableinbothkineticandnon-kineticvariants,designedtocounterGroups1-3
UASthreats.Thekineticvariantisequippedwithaturbineengine,aforward-firingwarhead,andanonboardradiofrequencyseeker,enablingittoachievehighspeedandmaneuverability.Thenon-kineticvariantisspecificallydesignedtodefeatmultipleGroups1and2UASthreatsinasingleengagement,andincludesboth
theinterceptorandlauncher,whichcanbeconfiguredforfixedormobileplatforms.
Accordingtotheacquisitionplanoutlinedinthebudgetdocument,acontracttoprocurekineticandnon-kineticCoyoteinterceptorsisscheduledtobeawardedtoRTXinJune2025,withdeliveriescommencinginDecember2026.AbudgetofUS$351.1millionhasbeenallocatedforthisprocurementbetween2025and2029,withthepossibilityofadditionalspendingbeyondthistimeframe.
KINETIC-COUNTERSMALLUNMANNED
AIRCRAFTSYSTEM(C-SUAS)TECHNOLOGY(RDT&E):
TheU.S.Army’sfiscalyear2025budgetprioritizesthedevelopmentofCounter-smallUnmannedAircraftSystem(C-SUAS)capabilities.Thisincludesresearchanddesignactivitiesforinnovativekinetic
missileinterceptorsspecificallytailoredforcounteringsmall
unmannedaircraftsystems(SUAS).Thegoalistoimprovetherange,reactiontime,lethality,reliability,andreloadtimeforbothfixed-siteandmobileC-SUASconfigurations.Theresultantrapid-response,
high-speed,long-rangekineticinterceptorsareexpectedtoenablemaneuverforcestoeffectivelyengageGroup3sUAS,whichoperateathigheraltitudesandhaveextendedstandoffranges.
Additionally,theprogramaimstodevelopsmall,lightweight,
andcost-effectivemissileinterceptortechnologiestoneutralize
multipleshort-rangeSUASthreats.TheU.S.Armyhasallocated
approximatelyUS$56.7millionforresearchanddevelopment(R&D)effortsbetween2025and2029tosupportthisendeavor.
9
THEU.S.COUNTER-UNMANNEDAERIALSYSTEMSMARKETREPORT2024-2029
Kinetic-M-SHORAD
(Maneuver-ShortRangeAirDefense)–Inc.2
AspartofM-SHORADIncrement2(Inc2)program,theU.S.Armyisacquiringadvancedlasercapabilitieswhichwillbeintegrated
initsStrykerCombatVehicle(SCV)andInfantrySquadVehicle
(ISV).TheSCVwillbeequippedwitha50-kilowatt(kW)-classlasercapability,enablingittoeffectivelyengageanddefeatrotarywingaircraft,unmannedaerialsystems(UAS),rockets,artillery,and
mortar(RAM),aswellasconductIntelligence,Surveillance,and
Reconnaissance(ISR)operations.Additionally,theArmywillprocurea20-kilowatt(kW)-classlasercapabilityforintegrationontothe
ISV,specificallydesignedtocounterGroup1and2UASthreats.
TheU.S.ArmyhasbudgetedaroundUS$1.16billionby2029,outofwhicharoundUS$887.9millionisexpectedtobespentduringtheforecastperiod2024and2029.
KINETIC-INTERIMMANEUVERSHORT-
RANGEAIRDEFENSE(IM-SHORAD)C-UASSYSTEMS:
InOctober2020,GeneralDynamicsLandSystems(GDLS)securedacontractworthUS$1.219billionfromtheU.S.Armyforthe
production,testing,anddeliveryofInterimManeuverShort-
RangeAirDefense(IM-SHORAD)systems.Theinitialorderunderthecontractentailsthemanufactureof28StrykerIM-SHORADvehicles,valuedatUS$230million.
TheIM-SHORADsystemisspecificallydesignedtocounterthreatsposedbyunmannedaerialsystems(UAS),aswellasawiderangeofrotaryandfixed-wingaircraft.ItofferstheArmyacost-effective,mobile,survivable,sustainable,andtransportableplatformthatcanaddressthesethreatseffectively.
Thespecificlocationsforworkandfundingallocationwillbe
determinedforeachorderplaced,andtheestimatedcompletiondatefortheoverallcontractisSeptember30,2025.TheArmyisestimatedtospendaroundUS$450milliononthisprogramduringtheforecastperiod2024-2029.
KINETIC-EAGLSC-UAS:
InApril2024,theU.S.NavyawardedaUS$24millioncontracttoMSIDefenseSolutions,toprocuretheElectricallyAidedGunneryLaserSystem(EAGLS)Counter-UnmannedAerialSystems(C-UAS)system.Thisadvancedsystemintegratesaremotelyoperated
weaponstation,asensorturretequippedwithelectro-optical
andinfraredcapabilities,andacompactAESAradarprovidedbyLeonardoDRS.TheAESAradarhasarangeofupto10kilometers,significantlyenhancingsituationalawarenessandenablingthe
earlydetectionofpotentialt
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