Smd aug13 d_vbrief

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Space & Missile Defense Symposium August 15, 2013 Mr. Richard Matlock Program Executive For Advanced Technology Missile Defense Agency Approved for Public Release 13-MDA-7405 (14 August 13) DISTRIBUTION STATEMENT A. Approved for public release; distribution unlimited

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MDA missile defense briefing 2013

Transcript of Smd aug13 d_vbrief

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Space & Missile Defense Symposium

August 15, 2013 Mr. Richard Matlock

Program Executive For Advanced Technology Missile Defense Agency

Approved for Public Release 13-MDA-7405 (14 August 13)

DISTRIBUTION STATEMENT A. Approved for public release; distribution unlimited

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Today’s Ballistic Missile Defense System

2 ncr-113929 / 12/01/11 Approved for Public Release 12- MDA-6524 (17 January 2012)

Approved for Public Release 12-MDA-6946 (12 Jul 12)

Approved for Public Release 12-MDA-6946 (12 Jul 12)

Approved for Public Release 13-MDA-7405 (14 August 13)

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Technology Contributions to the BMDS

Boost Phase Tracking &

Engagement

Ascent Phase Tracking &

Discrimination

Midcourse Tracking & Discrimination

Kill Assessment

Forward-Based Platforms • Advanced Sensors • IR Precision Tracking

High Altitude Long Endurance Platforms • Advanced Sensors • Boost Phase Kill

Kill Vehicle Technologies • Multiple Kill Vehicles • Advanced Sensors • Flexible Divert

AEGIS

C2BMC GMD

Discrimination & Sensor Fusion

Space-Based Platforms • Advanced Sensors

Airborne Weapons

Layer

Requirements Defined by Systems Engineering

Approved for Public Release 13-MDA-7405 (14 August 13)

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DV Engineering Context

DV Sys Eng Lead DE/E Sys Eng Lead

Plan

Define

System Design

Field

Assess

Test & Verify

Element Design & Build

Warfighter

Feedback

Prototype Design & Build

Test & Verify

Assess

Experiment System Design

Define Experiment

System Prototype Fielding Option

Warfighter Involvement Process (WIP)

Materiel Solution

Analysis Phase

Technology Development

Phase Product Development Phase

MDD TDD

Phase Transition Decisions

Production

PDD PD

SDR SRR PDR

Initial Production

PD

Fielding

TODAY

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Planned Technology Investments

Common Kill Vehicle Technology

Advanced Research

Investment Area

High Power Lasers

Persistent Discrimination

Vision

Capitalize on persistent, multi-phenomenology

sensors to maximize the discrimination capability of

our BMDS architecture

Integrate high power lasers into the BMDS architecture for a broad range of missile

defense missions

Investment Roadmap

• Lab experiments

Develop common kill vehicle technology for insertion into GBI and SM-3 programs that addresses the future threat

Pursue high-risk and high pay-off technologies for the next Ballistic Missile

Defense System

• Component R & D

• Exploit emerging technologies

• Precision tracking demonstrations

• Discrimination demonstrations • Deploy Airborne or Space-based

Prototypes

• UAV-borne Laser Flight tests

• Demonstrate prototypes • Develop and Deploy

Discriminating and Multi-object kill vehicles

• Partner with our Nation’s small businesses and universities

• Transform new technologies into applications for insertion into the BMDS

MTS-C

Approved for Public Release 13-MDA-7405 (14 August 13)

Experimentation Proof of Concept Development

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Discrimination Sensor Technology

• Develop and demonstrate discriminating technology through robust tests

• Demonstrate engage-on-remote using Multispectral Targeting System sensors

• Design, build, and integrate advanced sensor upgrades to the sensors

• Evaluate the performance of advanced discrimination algorithms

• Mature sensor technology for multiple applications

Approved for Public Release 13-MDA-7405 (14 August 13)

Presenter
Presentation Notes
Investigate … use of advanced sensors to improve tracking and discrimination Integrate … into an experimental testbed to validate performance in a realistic environment Inform … acquisition decisions using a knowledge point approach to measure progress
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Common Kill Vehicle Technology

• Develop modular, open kill vehicle architecture

• Capitalize on the innovation of our industrial base

• Develop scalable technology at the component level in phases

• Integrate and test kill vehicle component technology on a prototype

• Phased transition of discriminating kill vehicle technology to Ground Based Interceptor (GBI) and Standard Missile-3 (SM-3)

• Evolve to a multiple kill vehicle payload for GBI

Multiple Kill Vehicle (MKV)

Payload with Long Range

Discriminating Seeker and

Common KVs Components

NOTIONAL

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Advanced Technology Concept Assessment and Model-Based Engineering Approach Exploiting Simulation-Based Tools

• Leverages expertise gained developing government-owned, non-proprietary tools

• Provides leadership with independent assessment of industry-provided

concept performance

• Provides options for conducting trade studies to support requirements and concept development, assessment of alternatives, design decisions, and performance assessments

• Provides the foundation for successful development, demonstration, and

implementation of emerging BMDS technology

“Smart Buyer” Approach to Acquisition

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Integrated Approach Single Source Multiple Uses

Matlab/Simulink

OASIS Simitar

• Flexible platform

• Requirements

• Design architecture

• Simulation

• Algorithm test bed

• Dynamic visualization and data reduction

Model-Based Engineering Tools Provide Code Generation for Simulation through Concept Demonstration and Flight

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Advanced Systems Engineering Capabilities Exploiting Simulation-Based Tools

• Flexible modeling platform

• Sophisticated algorithm test bed

• Probabilistic variability and monte carlo sampling

• Dynamic visualization and data reduction tools

Simulation-Based Engineering Tools

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University Engagement / Domestic

Technical Objectives • Fund relevant, advanced Research and

Development (R&D) at domestic universities and academic institutions

• Exploit breakthroughs in science to offer robust technical improvements to BMDS

• Build portfolio of revolutionary technology to support and enhance BMDS

• Develop holistic partnerships • Educate future scientists and engineers

Solid Divert & ACS High Energy Lasers

Data Fusion and Tracking Algorithms

Plume Signature Modeling High Velocity Impact

Studies

“Notional”

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• Missile Defense requires cutting edge technology - Over $50M/year available for university research

• Small Business Research - Small Business Technology Transfer (STTR) program

– Universities partner with small business – Annual call for proposals from 26 Jul – 25 Sep 2013 – Efforts could provide up to $1.9M per project for Universities

- Small Business Innovation Research (SBIR) program – Universities subcontract with small business – Annual call for proposals from 24 Apr – 26 Jun 2013 – Efforts could provide up to $1.5M per project for Universities - Link:

• Missile Defense Science & Tech Adv Research (MSTAR) - Annual call for proposals begins in Jun and closes Sep 2013 - $0.6M/year is available - Link: http://www.mda.mil/business/research_opportunities.html

• Advanced Technology Innovation Broad Area Announcement (ATI BAA)

- Continuously open call for new ideas - Funding available as required - Link: http://www.mda.mil/business/research_opportunities.html

University Research To Satisfy Missile Defense Needs

SEP STTR/MSTAR ATI BAA Continuous SBIR

JUN 2013 JAN DEC

http://www.dodsbir.com http://www.mdasbir.com

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Technology Contributions

To The Missile Defense Architecture

BMD Technology Contribution to the BMDS:

‒Assess performance … of advanced concepts through models and simulations prior to and throughout development

‒Bridge warfighter capability gaps

… through the development and demonstration of discriminating technology

‒Hedge future threats

… through exploration and development of advanced technology for homeland and regional defense

MTS-C Diode Pumped Alkali Laser

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Presenter
Presentation Notes
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Program Mission Summary

Past technology investments shape the BMDS of today and tomorrow • Lightweight Exo-Atmospheric Projectile (LEAP) – Standard Missile

• STSS – launch-on-remote

• Develop game changing technology that is: • Tangible, Feasible, Fieldable, Deployable, Upgradeable

• Develop through innovative technical and programmatic approaches

• Investments based on warfighter needs, architecture, and

threat evaluation • Technical drivers Investment Area Capability

Approved for Public Release 13-MDA-7405 (14 August 13)