Title: Power Projection
1Power Projection Survivability Self-Defense 1
August 2007
Michael B. Deitchman Deputy, Chief of Naval
Research, Code 35 Power Projection/Survivability
Self-Defense Focus Area Lead
1
2Power Projection
- Vision Precise extended range indirect fires,
time-critical power on target and control of
collateral damage through electromagnetic kinetic
projectiles, hypersonic missile propulsion and
scalable effects weapons. - Objectives
- Future Navy Fires
- Increased fires volume accuracy
- GPS denial compensation
- Indirect fires to 250 miles from safe offshore
locations - Control Collateral Damage
- Scalable effects weapons
- Selectable/directional lethality
- Time Critical Strike
- Hardened target/moving target reach destroy
- Worldwide to meet warfighter requirements
- Small Unit Combat Power
- Increased small unit weapon lethality
- Neutralize larger hostile forces
- Combat Insensitive Munitions
- Reduce system sensitivity to sympathetic
detonation
Key Research Topics Advanced
Energetics Directed Energy Electromagnetic
Guns High Speed Weapons Technologies Precision
Strike Undersea Weaponry ASW Rapid
Attack Mining Non-Lethal Weapons Signature
Control Sensors (LO/CLO) EW Attack Expeditionary
Firepower
3ST Process (ex. Power Projection)
Naval Focus Areas
N81/MCCDC Analysis
Naval ST Strategic Plan
Enterprise Science Technology Objectives
ST Focus Area Power Projection
Technology Transitions
Power Projection Objectives
Combat Safe Insensitive Munitions
Small Unit Combat Power
Control Collateral Damage
Future Naval Fires
Time-Critical Strike
4Future Naval Fires Conceptual Roadmap
Sample STO USMC Fires STO-9 Advanced Gun and
Propulsion Technologies
Increased fires volume accuracy
3D Laser Imaging for real-time Cruise
Retargeting (35 FNC)
Real time Precision Targeting Radar (35 FNC)
GPS denial compensation
Optical Clocks (31 DI)
Enabling Technologies for Optical Clocks (31
MURI)
GPS (31 DI)
Indirect fires to 250 miles from safe offshore
locations
Advanced Gun Barrel Technology (30 FNC)
Electro Magnetic Railgun Projectile (35 DI)
Electro Magnetic Railgun (35 INP)
Near Mid Far
5Control Collateral Damage Conceptual Roadmap
Sample STOs Naval Aviation Enterprise STR STO-1
Persistent Capability to Engage Time Critical
Targets USMC Fires STO-5 Low-cost scaleable,
modular, and enhanced-effects munitions
Scaleable Effects Weapons
MW Free Electron Laser (35 INP)
100 KW Free Electron Laser (35 INP)
Maritime Beam Control (35 DI)
Free Electron Laser (35 DI)
Tactical Fiber Laser Weapon (35 FNC)
High Energy Laser POD for Naval Aviation (35 DI)
Tactical Fiber Laser (35 DI)
Selectable/ Directional Lethality
Scalable Effect Weapon Concept (30 DI)
Multi-Mode Sensor Seeker (35 FNC)
Weapon Data Link (35 FNC)
Near Mid Far
6Time Critical Strike Conceptual Roadmap
Hardened Target/Moving Target Reach Destroy
Low Cost Imaging Terminal Seeker (35 FNC)
TSSS (35 ED)
RATTLRS (35 ED)
HyFly (35 ED)
Worldwide to meet Warfighter Requirements
Supercavitating Weapons (33 DI)
Direct Attack Seeker Head (35 FNC)
Enhanced Weapon Technologies (35 FNC)
IHPRPT (35 DI)
Near Mid Far
7Small Unit Combat Power Conceptual Roadmap
Sample STO USMC Fires STO-10 Lightweight Optics
Increased Small Unit Weapon Lethality
Assault Weapon Propulsion (30 DI)
MEMS Fuze (30 DI)
Advanced Assault Weapons (30 DI)
Tactical Urban Breaching Munition (30 FNC)
Neutralize Larger Hostile Forces
Advanced Weapons Technology (30 DI)
Advanced Ammunition Technology (30 DI)
Extended Range Munition (30 DI)
Future Mortar Munition (30 DI)
Targeting and Engagement Technology (30 DI)
Near Mid Far
8Combat Insensitive Munitions Conceptual Roadmap
Maintain Payload Range Lethality
High Speed Penetrator (35 DI)
Advance Reactive Materials (35 DI)
High Temperature Thermal Radiation Materials
(35 DI)
ARM and Structural Components(35 DI)
HTTR and Penetrating Hypersonic Warhead(35 DI)
Integration of Penetrator, Structural Reactive
and HTTR Materials Ordnance (35 DI)
Reduce system Sensitivity to sympathetic Detonat
ions
Combat Safe Insensitive Munitions (35 DI)
Advanced Energetics Research (35 DI)
Near Mid Far
9Survivability and Self-Defense
- Vision Enable manned and unmanned platforms
to operate in any hostile environment and
avoid/survive attack through innovative
materials, sensors, countermeasures and
counter-weapons. - Objectives
- Platform Stealth
- Reduce above water and subsurface signatures
- Multi-spectral LO technologies
- Countermeasures Counterweapons
- Threat weapon tracking
- Automated decision making
- Low False alarm rate 360 degree detection
- Hard kill and soft kill against threat kinetic
weapons - Increase standoff to outside threat damage range
- Directed energy weapons for speed of light
engagement - Counter-LO
- Survivable Platforms
- Advanced materials in platform construction
Layered Defense
Recoverability
Survivability
Key Research Topics Signature Control
(LO/CLO) Undersea Weaponry Torpedo
Defense Directed Energy Survivable Platforms
Structures Functional Materials Electro-Optics Sol
id State Electronics EW Attack ISRT
EM Expeditionary Force Protection Non-Lethal
Weapons
10ST Process (ex. Survivability Self-Defense)
Naval Focus Areas
N81/MCCDC Analysis
Naval ST Strategic Plan
Enterprise Science Technology Objectives
ST Focus Area Power Projection
Technology Transitions
Survivability Self-Defense Objectives
Countermeasures Counterweapons
Force Protection
Platform Stealth
Survivable Platforms
11Platform Stealth Conceptual Roadmap
Reduce above water And subsurface signatures
UW Signatures - Acoustic Signatures (33 DI)
Above Water Signatures RF/IR/EO/VIS Signature
Control (33 DI)
UW Signatures Electromagenetics (33 DI)
Surface Ship Flow Noise (33 DI)
Multi-spectral LO technologies
Aperstructures (33 DI)
Near Mid Far
12Countermeasures Counterweapons Conceptual
Roadmap
Sample STOs Naval Aviation Enterprise TAMD
STO-2 Improved Missile Defense STR STO-8
Directed Energy Weapons USMC Fires STO-2 Fires
detection and engagement systems against incoming
direct and indirect fires FP STO-3 Incorporation
of improved materials for future vehicles and
aircraft that provide improved levels of
protection at reduced weight and volume
Directed Energy Weapons For speed of
light engagement
MW Free Electron Laser (35 INP)
100 KW Free Electron Laser (35 INP)
Maritime Beam Control (35 DI)
Free Electron Laser (35 DI)
Tactical Fiber Laser Weapon (35 FNC)
High Energy Laser POD for Naval Aviation (35 DI)
Tactical Fiber Laser (35 DI)
Threat Weapon Tracking
GUNSLINGER Hostile Fire Detection (30 FNC)
Multifunction Capabilities for Missile Warning
Sensors (31 FNC)
Shipboard EO/IR Closed Loop Self Protection (31
FNC)
Near Mid Far
13Countermeasures Counterweapons Conceptual
Roadmap (contd)
Increased Standoff to Outside threat Damage range
Maritime Video Verification of Identity (35 FNC)
Sonochute Launch UAV (35 FNC)
Integrated Topside (31 INP)
S-Band DAR Program (31 FNC)
Automated Decision Making
Active RPG Defense (30 FNC)
Distributed Intelligence for Automated
Survivability (33 DI)
Low False Alarm Rate 360 degree detection
S-Band DAR Program (31 FNC)
Integrated EO/IR Self Protection for Rotor Wing
(31 FNC)
Counter-Torpedo Detection (33)
Hard kill and Soft Kill against threat Kinetic
weapons
Advanced Threat Aircraft Countermeasures (31 FNC)
EWISSP (31 FNC)
TACAIR Laser Jammer (31 FNC)
Integrated Topside (31 INP)
Multi Function EW (31 FNC)
CM for Anti-Ship Missiles (31FNC)
Next Generation Countermeasure (33)
Common Very Lightweight Torpedo (33)
Anti-Torpedo Torpedo (ATT Tripwire) (33 FNC)
Organic Mine Jamming (32 DI/FNC)
Countermeasures for Anti-Helicopter Mines (31 DI)
Near Mid Far
14Survivable Platforms Conceptual Roadmap
Sample STO USMC MVR STO-2 Advanced and
composite materials to enhance the performance
and survivability of combat vehicles
Adv. Mat. For Self Healing platforms
Structural Cellular Materials (DI 33)
Explosion Resistant Coating (33 DI)
Damage Tolerant Platform Arch.
Implosion (33 DI/FNC)
Survivability Systems Materials (30 DI)
Advanced Armor (30 DI)
Survivable Structures (33 DI)
Aut. Damage Control Focusing
Distributed Intelligence for Automated
Survivability (33 DI)
Damage Control Firefighting (33 DI)
Adv. Mat. In Platform Construction
Littoral Platform Survivability (33 DI)
Near Mid Far
15Force Protection Conceptual Roadmap
Anti-Swimmer Technologies
Terminal Swimmer Detection and Targeting (32 FNC)
Low Cost Swimmer Detection (32 FNC)
Underwater Threat Neutralization (32 FNC)
Detect and Determine Threat Intent
Automated Pattern Recognition (30 FNC)
Multifunction Capabilities for Missile Warning
Systems (31 DI)
Integrated Topside (31 INP)
Unambiguous Warning Devices (31 FNC)
Non-Lethal Response
Coordinated with Joint Non-Lethal Weapons
Directorate (USMC)
Near Mid Far
16Contact Information
- Power Projection
- Future Naval Fires
- Major Michael Ries, Fires
- riesmr_at_onr.navy.mil
- (703) 696-2572
- Control Collateral Damage
- Lew DeSandre, Directed Energy
- desandl_at_onr.navy.mil
- (703) 696-0330
- Time Critical Strike
- Gil Graff, High Speed Weapons
- graffg_at_onr.navy.mil
- (703) 588-0703
- Joe Doychak, High Speed Propulsion
- doychaj_at_onr.navy.mil
Survivability and Self Defense Ship
Survivability Steven Russell, Topside
Signatures steven.J.russell_at_navy.mil (703)
696-4714 Deborah Nalchajian, Acoustic
Signatures deborah.nalchajian_at_navy.mil (703)
696-5753 George Stimak, EM Signatures
george.stimak_at_navy.mil (703) 588-0616 G. Roshdy
Barsoum, Survivable Structures roshdy.barsoum_at_nav
y.mil (703) 696-4306 Countermeasures
Counterweapons Peter Craig, Electronic
Warfare craigp_at_onr.navy.mil (703)
696-0114 Force Protection CDR Chris Rouin, C4ISR
Applications rouinc_at_onr.navy.mil (703) 696-0107