ONR Research Priorities and Thrusts · 2020-03-15 · 3/9/2005 2 Naval Research: Statutory Mission...
Transcript of ONR Research Priorities and Thrusts · 2020-03-15 · 3/9/2005 2 Naval Research: Statutory Mission...
3/9/2005 1
Dr. Richard CarlinOffice of Naval Research
1 March 2005
http://www.onr.navy.mil
ONR Research Priorities and ONR Research Priorities and ThrustsThrusts
3/9/2005 2
Naval Research:Statutory Mission
VannevarBush
Harry S Truman
Office of Naval Research (Public Law 588, 1946):“… plan, foster, and encourage scientific research in recognition of its paramount importance as related to
the maintenance of future naval power, and the preservation of national security.… ”
Transitioning S&T (Defense Authorization Act, 2001):
“…manage the Navy’s basic, applied, and advanced
research to foster transition from science and technology to
higher levels of research, development, test, and
evaluation.”
Naval Research Laboratory (Appropriations Act, 1916):“[Conduct] exploratory and research work…necessary… for the benefit of Government service, including the construction, equipment, and operation of a laboratory….”
Thomas Edison Josephus
Daniels
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Naval Science & Technology Vision
To inspire and guide innovation that will provide technology-based options for future Navy and Marine Corps capabilities…
…and to avoid technological surprise.
Superconducting electronicsDolphin genome
Free electron laser
Sea gliders
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S&T Support to USMC in Iraq
• Challenge: Improvised Explosive Devices (IEDs)–Neutralization of IEDs with Radio Frequencies (NIRF)–Explosive Resistant Coatings (ERC)
• Challenge: Persistent surveillance–Silver Fox UAV–Persistent Area Surveillance (PASS)
• Challenge: Weapons location–Gunslinger
• Challenge: Helicopter operations–Dust abatement
• Challenge: Language support–Coalition Chat Line–Handheld Language Translators
Marine and paratrooper secure an IED site, Al Fallujah, Iraq, 4 March 2004.
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Warfare Centers
Naval Research Lab
Assistant Secretary of the NavyResearch, Development and Acquisition
Acquisition
Basic Research
Applied Research
Advanced Tech. Development
Test & Evaluation
DEM/Val
EMD
Op. Systems Development
Office of Naval Research
11 Program Executive Officers
2 Direct Reporting Program managers
6 Systems Commands
PEOs, Systems Commands,
Warfare Centers
54 Major Program managers
467 Program managers
Aircraft carriers
Combat boots
Combat ships
Submarines
Weapons systems
Aircraft
Ammunition
Secretary of the Navy
Source: FY04 Blue Book, FY04 R-1
Orientation Overview
Research and Development
VCNO & ACMC
Here we are
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Discovery & Invention (D&I)• NRL Base Program• Science shortfalls in topics with Naval interest• Nurturing science opportunity• High impacts/surprises• Health of Academic pipeline – ideas/workforce• National Naval Responsibilities
• Ocean Acoustics• Undersea Weaponry• Naval Engineering• Naval Air
(proposed)
Quick Reaction• SwampWorks• Tech Solutions• MCWL
• Time Critical Strike (TCS)• Organic Mine
Countermeasures (OMCM)• Knowledge Superiority &
Assurance (KSA)• Littoral Antisubmarine Warfare
(LASW)• Expeditionary Logistics
(ExLog)
• Fleet/Force Protection (FFP)• Littoral Combat and Power
Projection (LCCP)• Missile Defense (MD)• Advanced Capability Electric
systems (ACES)• Autonomous Ops (AO)• Total Ownership Cost Reduction
(TOC)• Capable Manpower (CM)• Warfighter Protection (WP)
Future Naval Capabilities (FNCs)
S&T Investment Categories
Other• Pass-Through - to JFCOM• OSD Directed• Infrastructure - Efforts
enabling ONR’s mission execution such as IFO, conferences, outreach
Quick Reaction and Other
Innovative Naval Prototypes (INPs)• TBD
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Naval Research Diversity (Idea Exploration)• Science shortfalls in topics with Naval interest• Nurturing science opportunity• High impacts/surprises
Naval Unique/Partnerships• National Naval Responsibilities• Core Competencies• Health of Academic pipeline – ideas/workforce
Accelerating Discovery into Innovative Technology• S&T specifically focused on enabling capability• Harvest other agency S&T toward Naval applications• Pushing toward Maturation
ONR Strategic Investment Schema
Discovery and Invention (D&I) Exploitation and Deployment (E&D)
Idea Exploration
Innovative Naval Prototypes
Support Acquisition
Bas
icR
esea
rch
Advanced
TechnologyUnique/Partnerships
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Discovery & Invention (D&I) Investment Approach
• Advance Basic Research: – Unique Naval needs– Pacing technology issues
• Promote research partnerships leveraging S&T investment– Other services, federal agencies, academia, industry, national and
international partners
• Advance awareness in diverse S&T areas to expand Naval technology options & prevent technology surprise
• Strengthen transition bridge to later development stages – Future Naval Capabilities & Innovative Naval Prototypes
• Nurture academic & Naval S&T human capital
Long-term Investment to Catalyze Naval Transformation
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HYSWACHYSWAC
National Naval Responsibilities
• Ocean Acoustics• Undersea Warfare• Naval Engineering
Deployed Autonomous Distributed System
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• Advanced Capability Electric Systems• Autonomous Operations• Capable Manpower• Fleet / Force Protection• Knowledge Superiority & Assurance• Littoral Antisubmarine Warfare• Littoral Combat & Power Projection• Expeditionary Logistics• Missile Defense• Organic Mine Countermeasures• Time Critical Strike• Total Ownership Cost Reduction• Warfighter Protection
What we do for tomorrow:
Future Naval Capabilities (FNCs)
Fleet/ Force Protection
Littoral Combat & Power Projection
Autonomous Operations
Missile Defense
WarfighterProtection
Investment: ~$500M per yearInvestment: ~$500M per year
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S&T for Naval Transformation
Sea StrikeSea StrikeFORCEnet
Sea BasingSea Basing
Sea ShieldSea Shield
Sea Trial
Sea Warrior
Sea Enterprise 36MW Superconducting motor
Virtual At-Sea Training
Half-length torpedo
Electric Ship
X-Craft
Affordable Weapon
Hy Fly - hypersonic strikeElectron Lasers
Autonomous Vehicles
CVN-21: EMALS
UESA
UCAV-N
Sea Basing
EM Gun
Virtual Technologies & Environments
Total Ownership costs: e.g., Tank Coatings
SEA POWER 21…Naval Transformational Roadmap
Selected transformational projects funded in FNCs and Innovative Naval Prototypes
Advanced Multi-function RF System
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PhysicalReview
&PhysicalReviewLetters
-Total
Submis-sions
AVERAGE AGEFY91 38.2 YRS
FY97 41.7 YRS
FY02 42.4 YRS
<31 31-40 41-50 51-60 >60Age (Yrs)
S&Es
0
2000
4000
6000
8000
10000 The”Bow Wave”
-65%
AVERAGE AGEFY91 38.2 YRS
FY97 41.7 YRS
FY02 42.4 YRS
<31 31-40 41-50 51-60 >60Age (Yrs)
S&Es
0
2000
4000
6000
8000
10000 The”Bow Wave”
-65%
Aging Workforce Fewer US S&E PhDs & Masters Degrees, More to Foreign Students
Global Scope of S&T
Future S&T Knowledge Base -Strategic Vulnerability
• Effect of aging workforce is putting future technical knowledge base at risk
• Graduate & PhD S&E trends make it harder to fill aging workforce gap with security cleared US citizens
• US no longer leads world in generation of new knowledge in fundamental, critical, areas of S&T
Source: American Physical Society - APS News August/September 2000
» Erosion of Military Technology Competitiveness» Increased Risk of Technological Surprise» Erosion of Military Technology Competitiveness» Increased Risk of Technological Surprise
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Naval Approach to Workforce Recapitalization
• NSF - Navy Collaboration• Virginia Demonstration
Project• N-STAR Connection to DoD
2. An Integrated Portfolio
Student
Academic AdvisorR&D Center MentorA rich & productive learning,
development & retention environment
Unique Facilities
Student
Academic AdvisorR&D Center MentorA rich & productive learning,
development & retention environment
Unique Facilities
1. Long-term Navy-University relationships
Result – a Pipeline of S&E Intellectual Capital for the Naval Research Enterprise
NREIP
YIPSSEAP
Science Fairs
NDSEG
SMART
HBCU/MIFuture Faculty
Undersea Weapons ULI
University LevelHigh School Level “Bridging” Efforts
“Bridging & Retention”EffortsScholarships
R&D Centers
NSF-Navy
Summer FacultyIncl. USNA
ILIR/IARIncl. Virginia Demo
NREIPNREIP
YIPSYIPSSEAPSEAP
Science FairsScience Fairs
NDSEGNDSEG
SMARTSMART
HBCU/MIFuture Faculty
HBCU/MIFuture Faculty
Undersea Weapons ULIUndersea Weapons ULI
University LevelHigh School Level “Bridging” Efforts
“Bridging & Retention”EffortsScholarships Scholarships
R&D Centers
NSF-NavyNSF-Navy
Summer FacultyIncl. USNA
Summer FacultyIncl. USNA
ILIR/IARIncl. Virginia Demo
ILIR/IARIncl. Virginia Demo
Funding:Funding:6.16.1 $17M$17M6.26.2 $4M$4M
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• Investments with potentially significant cost reductions– Materials and processes– Training and manning
• Persistent surveillance technologies• Autonomous systems• Hypersonic strike: EM gun and hypersonic
cruise missile• New surface ship technologies: materials,
propulsion, surveillance systems
What’s coming
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Backup
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Electromagnetic Gun
Transformational Sea Strike Capability
Successful launch
Demonstrates structural integrity of launch package and clean sabot/ armature separation (4 meters from muzzle)
• Increased range– Increased littoral coverage– Greater ship mission flexibility
• Reduced time-of-flight• Greater and focused KE
provides higher lethality• Enhanced ship survivability
– Greater stand-off – Eliminate propellants & explosives
• Simplified logistics• Reduced cost (volume fires)
5X5 meter target with 1 meter bullseye at range of 1 KM
9
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Dual-CombustionRamjet
Detonation MergingFollow-Thru Warhead
HyFly Flight Demonstration
Launch Platform
Descend and Decelerate
Deploy BAT/Surrogate
Boost, Accelerate and Climb
Mach 6.+ 90,000 ft Cruise
600 NMi. Powered Flight Range
Axisymmetric Missile Configuration
Hypersonic Strike Weapon
10
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Enabling Technologies:• High Power Solid State Amplifiers
•Improved efficiencies and multi-octave bandwidths.•Achieved factor of 5 increase in power levels over GaAs•Projected replacement of all Vacuum Electronics in fleet
• Direct Digital Beamforming at Microwave Frequencies•Demonstrated word record DDS at 4.6 GHz RF•Projected DDS to 20 GHz frequency•Multiple simultaneous beam capacity
• 80+ GHz Flip-Flops achieved @ (120GHz projected)• 100 GHz sources with 120dBc @ 1Khz (projected)• 5GHz Center Frequency, up to 500 MHz programmable bandwidth ADC’s (projected)• New Software Definable RF Apertures and Architectures
Advanced Multi-Function RFNext Generation Radar Requirements:• High dynamic range• Wide instantaneous bandwidth• High sensitivity• Multi-functionality • Multi-beam capability • Search, track, and discriminate capability• Clutter rejection• Low sidelobes• Adaptive nulling• Illumination• Detection
Ultra-High Speed InP
DHBT integrated
circuits 100 GHz Low Phase Noise
Clock
Broad Bandwidth
GaNPower Amp
Broad Broad Bandwidth Bandwidth
GaNGaNPower Power AmpAmp
Low-Power AlSb/InAsSensor Devices
11
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•Nanostructured coatings with unprecedented damage tolerance & bond strength
•Qualified under MIL STD 1687A for a growing number of Fleet applications
Zero Maintenance Materials
•Seedling: a totally new coating process based on miniature pulsed rocket motors and capable of coating restricted surfaces
•Process computer modeling and initial feasibility studies complete
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Unmanned Aviation:Part of the Mission Force
HARM
Global Hawk
Predator
LCS
Pioneer
JDAM
VTUAV
(Fire Scout)
JSOW
SLAM-ER
Tomahawk
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Enabling Technologies:• High Power Solid State Amplifiers
•Improved efficiencies and multi-octave bandwidths.•Achieved factor of 5 increase in power levels over GaAs•Projected replacement of all Vacuum Electronics in fleet
• Direct Digital Beamforming at Microwave Frequencies•Demonstrated word record DDS at 4.6 GHz RF•Projected DDS to 20 GHz frequency•Multiple simultaneous beam capacity
• 80+ GHz Flip-Flops achieved @ (120GHz projected)• 100 GHz sources with 120dBc @ 1Khz (projected)• 5GHz Center Frequency, up to 500 MHz programmable bandwidth ADC’s (projected)• New Software Definable RF Apertures and Architectures
Information Emphasis—FORCENet and Multi-Functionality
Next Generation Radar Requirements:• High dynamic range• Wide instantaneous bandwidth• High sensitivity• Multi-functionality • Multi-beam capability • Search, track, and discriminate capability• Clutter rejection• Low sidelobes• Adaptive nulling• Illumination• Detection
Ultra-High Speed InP
DHBT integrated
circuits 100 GHz Low Phase Noise
Clock
Broad Bandwidth
GaNPower Amp
Broad Broad Bandwidth Bandwidth
GaNGaNPower Power AmpAmp
Low-Power AlSb/InAsSensor Devices
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Platform Emphasis—Autonomous Vehicles
Tactically Adaptable Crawlers
• Magnetic Sensors• CCD Camera• Long Base Line
Gliders
• Environmental sensors• Transoceanic range
Easily deployed, affordable, adaptable systems do the dangerous work.
Battlespace Preparation AUV
• Recon/minehunting• Long endurance (17hrs)
-Klein 5400 SidescanSonar- GPS/INS -
CAD/CAC
REMUS• Sidescan sonar• CAD / CAC• DIDSON sonar• Integrated comms/nav
system• Long baseline/GPS• Payload Delivery
Naval Special Clearing Team 1 deploys REMUS for very shallow water minehunting
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Weapons Emphasis—Speed and Affordability
Hy-Fly
Electromagnetic guns
Speed kills
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HSLA Tougher, higher quality steels
In-house labs deliver integrated S&T products
USS Chafee
USS NormandyUSS George Washington
Saved the Navy more than
$100M over 10 years in
shipbuilding costs
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Nanostructured coatings with unprecedented damage tolerance & bond strength—now in service
Zero Maintenance Materials:Nanostructured ceramics
First coatings applied to USS Chief’s propulsion shafts in 2003—diver inspection indicates no detectable wear. Since installed in USS Ardent (shown) and Champion.
Saves $1M annually across MCM-1 Avenger class
Nanostructured ceramic coatings for high-wear components
Total Ownership Cost Reduction FNC product
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Advanced Enclosed Mast / Sensor System
Replacing steel with graphite-epoxy composites
Demonstration—USS Radford
Design—LPD 17
Deployment—USS Austin
•Reduced topside weight•Lower maintenance costs•Reduced topside signature•Improved sensor performance
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…new tanks will look like this after 20 years
Advanced Corrosion Control
Old tanks look like this after 5 years…
Better coatings for ships’ tanks…
…means no maintenance for 20 years
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Virtual At Sea Training (VAST)(instead of Vieques)
Constructive Air ASW Training in PortRealistic fire support
training no longer needs a range
USS O’Bannon trains with VAST
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Investment Priorities(Integrated Breakout)
Naval Unique–S&T important to Naval operations and funded largely by DoN S&T.–Ocean acoustics, naval engineering, undersea weaponry.
Naval Participation– S&T with elements vital to Naval operations, but where significant
funding sources other than DoN exist. –Airborne radars, communications and networks, materials sciences,
advanced energetic materials.
Naval Harvest–Science or technology with potential to generate new Naval
capabilities or savings, and which DoN should monitor–Nanoscience (potential new material properties), behavioral
sciences.
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Naval S&T Investment
• Value proposition ~ Output product/Investment– Competitive advantage, cost-savings, time-to-market
• Level of impact:– Transformational concept of operation– Technological opportunity– Capability gap