Transcript No Slide Title

Keeping America’s Navy #1 in the World
Mine Warfare A Total Force Approach
for the Future
Dr Dave Skinner
D A H L G R E N
N A V A L
D I V I S I O N
S U R F A C E
W A R F A R E
C E N T E R
A Systems Engineering
Approach for the Future
JV 2020 CONCEPT
NAVAL OPERATIONS
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EXPERIMENTATION
REQUISITE COMPONENTS OF A
MINE WARFARE STRUCTURE
ROADMAP
SYSTEMS
ALLOCATION
FUNCTIONAL
ARCHITECTURE
CONOPS
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2
VISION
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4
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MIW BATTLELAB
MIREM
FBE
TECH INSERTION/
P3I
OMCM FNC
1ST GEN
..
FUTURE
ARES
CRD
PEO inst 3370
READY FOR SIGNATURE
MIW PLAN
FLEET ENGAGEMENT STRATEGY
MAINSTREAMING MIW
Progressing Rapidly, Future of MIW is NOW!
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System Allocation
Self Protection
Clearance
Reconnaissance
RAMICS
Battlespace Prep
COBRA
ALMDS
OASIS
LRS
RMS
LMRS
Intel
AMNS
Advanced Degaussing
AQS-20
Environmental
Assessment
Acoustic Quieting
MCM/MHC
MCM/MHC
Bottom Mapping
Second Generation
The Future…
First Generation
P3I
Next Generation Systems
Total Force Structure
The Future of MIW is NOW!
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Unmanned Systems
Keep Warfighters Out Of Minefield
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Unmanned Systems Technology
CURRENT
UGVs ( > 10 Vehicles)
UAVs ( > 45 Vehicles)
UUVs ( > 30 Vehicles)
USVs ( > 10 Vehicles)
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Shaping the Future
“ it shall be the goal of the Armed Forces to
achieve the fielding of unmanned, remotely
controlled technology such that-…”
Public Law 106-398, sec 220
“Some of the investment options we have
discussed include…Unmanned systems,
including robotic ground, air, sea and space
sensors and vehicles;”
Sec. Defense Donald Rumsfeld, 21 June 2001
Unmanned Systems – Historical Perspective
• Used in Naval warfare early-on ... 1st as mines
• Use has grown steadily
• Today – many specialized systems/concept
• Tomorrow – an opportunity to Augment
Fleet capability
Shaping the Future
of Naval Warfare
with Unmanned Systems
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Current Fleet Trends
Reduced Manning
Increased Automation
Less Casualties
More Complex Threats
Reduced Force Structure
Independent (Split) Ops
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Unmanned Systems Technology
AFFORDABILITY
• “Smart” Standardization
• “Smart” Modularity
LOGISTICS
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Standard Containers
Flexible “Retail” Delivery
“Low Impact” Lift
Training
AUTOMATION
• Common Control
• Automated Launch & Recovery
• Automated Sustainment
Technology “Triad” for Unmanned Systems
….. Requires a Systems Engineering Approach
What it will Take to Augment the Fleet with Unmanned Systems
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Force Structure - MCM 2020
All Combatants
(DD/CG/CV/L/SSN)
DDs/L-Ships/SSNs
Self-Protection
• Avoidance/Jamming
• Signature Control
Organic MIW Capable Ships
• Self-Protection, plus
• Off-board Autonomous Recon
• “Punch-Through” Neutralization
Future MIW Ships
?
• Self-Protection, plus
• Wide Area Off-Board Autonomous Recon
• Wide Area Neutralization
• VSW/SZ Recon & Neutralization
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Future MCM Ship(s)
MCM-”Next”
MCS-”Next”
Future MCM Force Needs
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Counter the Spectrum of Threats in Variety of Environments
Perform Wide Range of MCM Operations
Deploy with Naval Battle Groups
Eliminate the Need for Manned Operations in a Minefield
Provide Robust MCM C4ISR Capability
1 or 2 Ship
Classes?
Analysis of Alternatives
Required to
Determine Cost
Effective Solutions
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Potential Concepts
?
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MIW C4ISR Future
Network
Centric
Common
Undersea
Picture
Intuitive
Comprehensive
Battlespace
Awareness
COLLABORATIVE
PLANNING &
EXECUTION
(CUP)
• National ISR
• Environmental Database
• Threat Database
• Ship Vulnerability
Timely
Accurate
Relevant
Information
REDUCE
MCM
TIME
RIGHT
DECISION
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The Grand Challenge
Enable Assured Access and Dominant Maneuver,
with Decisive Speed and Overwhelming
Operational Tempo in the Presence of Enemy
Forces, Mines & Obstacles
Enablers
• Unmanned Systems
• MIW Force Structure
• C4ISR
• Navy-Industry Commitment
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