1. a Force Multiplier in a Network-Enabled Environment
Space,
a Force Multiplier in a Network-Enabled Environment
May, 2010
Linda Reiners
Vice President
Lockheed Martin Space
This presentation includes “basic marketing information on function or purpose or general system descriptions” as defined in the ITAR (Sec , Article (5) and Sec ) and therefore is not controlled ITAR information. This document is not a proposal or offer.

2. New paradigms and systems needed for the 21st century
Transition from stovepiped platforms and circuit- switched communications to network centric architectures
Increased emphasis on standard interfaces to achieve joint interoperability for U.S. and allies
Increased reliance on satellite-based remote sensing and increased use of advanced sensors
Affordability requires shared technology development by U. S. and allies
Integrated architectures with space, UAVs, air and ground tied together with information management technologies
Space systems provide an essential complement to air and ground assets in remote sensing, communications and navigation

3. Elements of Space Enabled Regional Defense
Detect/Track
(early)
Threat
Analyze
Locate
Credit: NASA
Dr. Short’s Remote Sensing Tour
Information
Gathering
Navigation
Early Warning
Detect/Track
Interoperate
Launch
Ship and Ground-Based Radars and Air Sensors
Communications
Detect/Track
Target
Engage
Missile Defense

4. Regional Security Phases
Phase 1: Information Gathering (Remote Sensing)
Detect and analyze potential threat
Monitor threat & intent
Indications and warning
Phase 2: Early Warning (Space-Based)
Detect launch and generate trajectory
Focus sea- and land-based tracking assets for early acquisition
Phase 3: Engage
Track, target and launch defensive missiles; engage target
Space capabilities are a critical part of
an integrated Net-Centric Security Architecture

5. Phase 1: Space-Based Remote Sensing - Monitor & Understand Threats
Credit: Space Imaging
Credit: NASA
Dr. Short’s Remote Sensing Tour
IKONOS Supplying over 2,000,000 Images Since 1999

6. Phase 2: Space-Based Infrared Missions
Missile Warning (MW)
Early and reliable reporting to all Users
Precise threat Launch and Impact Point determination for accurate Attack Assessment
Missile Defense (MD)
Alerts start kill chains for attack & intercept
Launch locations ID’ed for attack
Missile Burnout state vector cues MD systems to intercept inbound threats
Battlespace Awareness (BA)
Rapid updates for new insight on battlefield
Allows more efficient resource management
Technical Intelligence (TI)
Infrared sensors detect valuable information to characterize threats and tactics
Orbital persistence & wide area collection for evolving threat development
OPIR
Sensor
Missile Warning / Missile Defense
Battlespace Awareness
Theater
Space
Technical Intelligence
Missile characterization
Space object signatures and characteristics
Phenomenology
Other target data
IR Intensity
Event Duration
Mission data processing and dissemination
enables all 4 Space-Based Early Warning missions

7. Phase 3: Space Support to Missile Defense Engagement
Space-Based Early Warning Functions
Acquire In Boost Phase – Provides Launch Warning
Track to Near Booster Burnout – Provides State Vector
Transmit Messages to C2BMC and GFC
Support Radar Cueing and MD Radar Range Extension
Space-Based
Sensor
Intercept
BMDS C2BMC
and GMD Fire
Control Sites
Mission
Control Station
Ground-Based
Radar
Interceptor
Space-Based Early Warning Messages
Launch Warning
State Vector
Ballistic Missile
Boost Phase
IR-Cued Tracking Beam
Reduced Range Search Beam
Launch Point Attack

8. SATCOM-Based Internet Paradigm Provides Connectivity
Integrated Telecommunications Network

9. A Tiered Approach to Global Communications Systems Provides Interoperability
Protected
Wideband
Narrowband
Operational Programs
UFO
MILSATCOM Heritage
Development Programs
WGS
Next Generation Warfighter Capability
New Pursuits
Evolving our Core – and Expanding
50 Years of Protected Communications Operations
200 Years of Wideband Communications Operations
New Capabilities
DSCS
Milstar
AEHF
MUOS
AEHF Block II
International/Other
Iridium Next

10. GPS Provides World-wide Location and Timing Information
GPS System Overview
Program Facts
24-satellite constellation/ 34 on-orbit
6 Orbital Planes, Min of 4 Satellites/Plane
Semi-Synch Orbit (20,200 km / 10,900 miles)
Launched from Cape Canaveral on Delta II/EELV
First launch 1978; FOC 1995
Prime Contractors
Boeing - II, IIA and IIF
Lockheed Martin - IIR, IIR-M and III
Program Description
Space-based radio-navigation system
Satellites broadcast precise time signals to allow users to estimate their own position, velocity, and time
Two levels of service
Standard Positioning Service (SPS)
Precise Positioning Service (PPS)
Current/Future Constellation
34 satellites / 31 healthy to users (As of Jan 1, 2010)
15 IIA
3 inactive spares; set to test mode (LADO)
12 IIR + 7 IIR-M
12 satellites on the watch list
12 IIF
planned launch starting in 2009
increased capabilities
32 III
planned launch starting in 2014
GPS Provides World-wide Location and Timing Information

11. Lockheed Martin Summary
Providing space and missile systems for five decades
Satellite communications
Strategic missile programs
Missile defense systems
Surveillance and navigation
Remote sensing and exploration systems
Human spaceflight
Applying advanced technology solutions to meet our Customer’s security and information needs
Mission Success and Operational Excellence

12. PIRA SSC _17 Mar 2010
K _SSC_Overview 12