MTR: Launchers for
Unmanned Aerial Systems and Targets: Market Shares, Strategies, and Forecasts,
Worldwide, 2012 to 2018
Summary
Launchers for Unmanned Aerial Vehicles (UAVs) are
portable devices that support remote placement of ways to launch self-piloted
aircraft. These UAS aircraft can carry cameras, sensors, communications
equipment or other payloads. UAVs are smaller than manned aircraft. They are
cost-effectively stored and transported creating the need for portable
launchers. The UAS do not need an airfield to take off, creating significant
UAVs make significant contributions to the fighting capability of operational
war forces.
The designs developed by engineering staff are strong,
sturdy, and capable of operating in the most severe environmental conditions.
Modular designs create the capacity for interchangeable functions on the same
launcher. Modular systems support component replacement instead of complete
overhaul.
Since launchers may be used by someone who is
unfamiliar with them, it is important that they be user-friendly.
In-the-field serviceability is a necessity because the
unmanned systems may be located anywhere. The value of the systems is that they
are flexible and easily sent off in the place where there is trouble, where
they are needed. In this instance, quick re-configuration is a necessity.
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They provide extensive need for experience in weight
management, RFI problem solving, range maximization and optimization of system
performance, and integration of airframe, avionics and payloads. The aim is to
design launchers for UAVs/UATs of any geometric configuration and exit
velocity.
Launchers are used to launch drones. Drones are
technically known as unmanned aerial vehicles, or UAVs. The launchers for these
aircraft support remote take off for air strikes and surveillance without the
benefit fo an airport. They are used by governments.
According to lead author prepared the launchers for
unmanned aircraft market research study, "Launchers can be used to
eliminate the need for airports for a broad mix of unmanned aircraft. Unmanned
aircraft are smaller, lighter, and speedier. Unmanned aircraft promise to
remake the military mantra, paving the way for a new world order."
Unmanned aircraft systems promise to achieve a more
significant aspect of military presence. Markets for unmanned aircraft
launchers at $118 million in 2011 are anticipated to reach $1.3 billion by
2018. Growth will come as the drones are lighter and less expensive, performing
aerial warfighter tasks remotely, with no danger to a human pilot.
Companies Profiled
Market Leaders
Northrop Grumman
Textron / AAI
Raytheon
BAE Systems
Lockheed Martin
Textron / AAI
Raytheon
BAE Systems
Lockheed Martin
Market Participants
Arcturus UAV
Aries Ingenieria y Sistemas
Royal Navy's Type 45 Sampson Radars
Canadian Centre for Unmanned Vehicle Systems
Hood Tech Mechanical
Ilmor Engineering
Aries Ingenieria y Sistemas
Royal Navy's Type 45 Sampson Radars
Canadian Centre for Unmanned Vehicle Systems
Hood Tech Mechanical
Ilmor Engineering
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NASA
Robonic UAV Launching Systems
Sea Corp
Tasuma
UAV Factory
UAVSI
VTI
Zodiac Aerospace
Robonic UAV Launching Systems
Sea Corp
Tasuma
UAV Factory
UAVSI
VTI
Zodiac Aerospace
Table of contents
Launchers for Unmanned Aerial Systems (UAS)
Executive Summary
Launchers for Unmanned Aerial Systems (UAS) and Targets
Market Driving Forces
Launchers for Unmanned Aerial Systems (UAS) and Targets
Market Shares
BAE Portable Launchers
Launchers for Unmanned Aerial Systems (UAS) and Targets
Market Forecasts
Executive Summary
Launchers for Unmanned Aerial Systems (UAS) and Targets
Market Driving Forces
Launchers for Unmanned Aerial Systems (UAS) and Targets
Market Shares
BAE Portable Launchers
Launchers for Unmanned Aerial Systems (UAS) and Targets
Market Forecasts
1. Launchers for Unmanned Aerial Systems (UAS) Market
Description and Market Dynamics
1.1 Sequestration Supports Military Robotics and Unmanned Aerial System Launchers
1.2 Tactical UAS (TUAS) Critical Part Of The Intelligence, Surveillance And Reconnaissance Architectures Of Armed Forces
1.3 UAV Launch Systems
1.4 UAS Offices at FAA
1.4.1 UAS Sense and Avoid Evolution
1.4.2 UAS Operational and Safety Impacts for General Aviation Aircraft GA Access
1.4.3 US Commitment to Unmanned Aerial Vehicles
1.5 Pre-Position UASs In Key Strategic Locations
1.5.1 Maritime Air Take-Off and Landing:
1.5.2 Unmanned Aerial Systems (UAS) Aerial Refueling
1.5.3 Unmanned Aerial Systems (UAS) Enhanced Strike Capability and Payloads
1.5.4 Unmanned Aerial Systems (UAS) Enhanced Resilience
1.1 Sequestration Supports Military Robotics and Unmanned Aerial System Launchers
1.2 Tactical UAS (TUAS) Critical Part Of The Intelligence, Surveillance And Reconnaissance Architectures Of Armed Forces
1.3 UAV Launch Systems
1.4 UAS Offices at FAA
1.4.1 UAS Sense and Avoid Evolution
1.4.2 UAS Operational and Safety Impacts for General Aviation Aircraft GA Access
1.4.3 US Commitment to Unmanned Aerial Vehicles
1.5 Pre-Position UASs In Key Strategic Locations
1.5.1 Maritime Air Take-Off and Landing:
1.5.2 Unmanned Aerial Systems (UAS) Aerial Refueling
1.5.3 Unmanned Aerial Systems (UAS) Enhanced Strike Capability and Payloads
1.5.4 Unmanned Aerial Systems (UAS) Enhanced Resilience
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1.5.5 Increased Use Of Stealth
1.5.6 Small and Micro-UASs
1.5.7 Unmanned Aerial Systems (UAS) Organization, Culture and CONOPS:
1.6 Unmanned Aerial Systems (UAS) Convoy-Following Mode
1.6.1 Unmanned Aerial Systems (UAS) Corridor Mapping
1.6.2 Unmanned Aerial Systems (UAS) Traffic Monitoring
1.6.3 Unmanned Aerial Systems (UAS) Agriculture Mapping
1.6.4 Unmanned Aerial Systems (UAS) Homeland Security
1.6.5 Unmanned Aerial Systems (UAS) for Scientific Research
1.7 Globalization and Technology
1.7.1 Proliferation of Conventional Military Technologies
1.7.2 UASs General Roles
1.8 Border Patrol:
1.9 Development Of Lighter Yet More Powerful Power Sources For UASs
1.5.6 Small and Micro-UASs
1.5.7 Unmanned Aerial Systems (UAS) Organization, Culture and CONOPS:
1.6 Unmanned Aerial Systems (UAS) Convoy-Following Mode
1.6.1 Unmanned Aerial Systems (UAS) Corridor Mapping
1.6.2 Unmanned Aerial Systems (UAS) Traffic Monitoring
1.6.3 Unmanned Aerial Systems (UAS) Agriculture Mapping
1.6.4 Unmanned Aerial Systems (UAS) Homeland Security
1.6.5 Unmanned Aerial Systems (UAS) for Scientific Research
1.7 Globalization and Technology
1.7.1 Proliferation of Conventional Military Technologies
1.7.2 UASs General Roles
1.8 Border Patrol:
1.9 Development Of Lighter Yet More Powerful Power Sources For UASs
2. Launchers for Unmanned Aerial Systems (UAS) Market
Shares and Forecasts
2.1 Launchers for Unmanned Aerial Systems (UAS) and Targets Market Driving Forces
2.2 Launchers for Unmanned Aerial Systems (UAS) and Targets Market Shares
2.2.1 Northrop Grumman UAV Capsule Launch
2.2.2 BAE Portable Launchers
2.2.3 Textron Launcher
2.2.4 Lockheed Martin
2.2.5 Aries
2.2.6 Robonic UAV Launching Systems
2.2.7 Robonic 3rd Generation Launcher
2.2.8 Sea Corp
2.2.9 Zodiac
2.2.10 Hood Tech Mechanical
2.2.11 Boeing and The Insitu Group
2.3 Launchers for Unmanned Aerial Systems (UAS) and Targets Market Forecasts UAV Innovation: Solar Powered Endurance of 300 Hours
2.4 Launchers for Unmanned Aerial Systems (UAS) and Target Prices
2.5 Launchers for Unmanned Aerial Systems (UAS) and Targets Regional Market Segments
2.5.1 The Philippines
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2.1 Launchers for Unmanned Aerial Systems (UAS) and Targets Market Driving Forces
2.2 Launchers for Unmanned Aerial Systems (UAS) and Targets Market Shares
2.2.1 Northrop Grumman UAV Capsule Launch
2.2.2 BAE Portable Launchers
2.2.3 Textron Launcher
2.2.4 Lockheed Martin
2.2.5 Aries
2.2.6 Robonic UAV Launching Systems
2.2.7 Robonic 3rd Generation Launcher
2.2.8 Sea Corp
2.2.9 Zodiac
2.2.10 Hood Tech Mechanical
2.2.11 Boeing and The Insitu Group
2.3 Launchers for Unmanned Aerial Systems (UAS) and Targets Market Forecasts UAV Innovation: Solar Powered Endurance of 300 Hours
2.4 Launchers for Unmanned Aerial Systems (UAS) and Target Prices
2.5 Launchers for Unmanned Aerial Systems (UAS) and Targets Regional Market Segments
2.5.1 The Philippines
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3. Launchers for Unmanned Aerial Systems (UAS) and
Targets: Product Description
3.1 Northrop Grumman
3.1.1 Northrop Grumman UAV Capsule Launch
3.2 Aries Ingeniería y Sistemas
3.2.1 Aries BULL EL-01- Bungee UAV Light Launcher
3.2.2 Aries Atlas ME-01- Advanced Tactical UAV/UAT Launcher System
3.2.3 Aries Alppul LP-02- Advanced Low- Pressure Pneumatic UAV Launcher
3.2.4 Aries Hercules AH-01- High-Energy Rail Catapult UAV Launcher Evolved System
3.2.5 Aries LAE – High-Energy Launcher
3.3 BAE System
3.3.1 BAE Portable Launchers
3.4 Robonic UAV Launching Systems
3.4.1 Robonic 3rd Generation Launcher
3.4.2 Robonic Launching Tactical UAS
3.4.3 Robonic Launching High Performance Target Drones
3.4.4 Robonic Field Performance
3.5 Sea Corp
3.5.1 Sea Corp Inflator-Based UAV Launchers
3.5.2 Sea Corp Hellshot Launcher
3.5.3 Sea Corp CCLR Launcher
3.5.4 Sea Corp New Developments
3.6 Zodiac Aerospace
3.6.1 Zodiac ESCO UAV Launch & Recovery Systems and HP 2002 Expeditonary Launcher
3.7 VTI
3.7.1 VTI UAV Catapults and Launchers
3.8 NASA
3.8.1 NASA RF Transparent UAV Launcher
3.9 UAV Factory
3.9.1 UAV Factory 6 kJ Portable Pneumatic Catapult
3.10 Arcturus UAV
3.10.1 Arcturus Catapult Launcher System
3.10.2 Arcturus Pneumatic Capture System
3.11 Ilmor Engineering
3.1 Northrop Grumman
3.1.1 Northrop Grumman UAV Capsule Launch
3.2 Aries Ingeniería y Sistemas
3.2.1 Aries BULL EL-01- Bungee UAV Light Launcher
3.2.2 Aries Atlas ME-01- Advanced Tactical UAV/UAT Launcher System
3.2.3 Aries Alppul LP-02- Advanced Low- Pressure Pneumatic UAV Launcher
3.2.4 Aries Hercules AH-01- High-Energy Rail Catapult UAV Launcher Evolved System
3.2.5 Aries LAE – High-Energy Launcher
3.3 BAE System
3.3.1 BAE Portable Launchers
3.4 Robonic UAV Launching Systems
3.4.1 Robonic 3rd Generation Launcher
3.4.2 Robonic Launching Tactical UAS
3.4.3 Robonic Launching High Performance Target Drones
3.4.4 Robonic Field Performance
3.5 Sea Corp
3.5.1 Sea Corp Inflator-Based UAV Launchers
3.5.2 Sea Corp Hellshot Launcher
3.5.3 Sea Corp CCLR Launcher
3.5.4 Sea Corp New Developments
3.6 Zodiac Aerospace
3.6.1 Zodiac ESCO UAV Launch & Recovery Systems and HP 2002 Expeditonary Launcher
3.7 VTI
3.7.1 VTI UAV Catapults and Launchers
3.8 NASA
3.8.1 NASA RF Transparent UAV Launcher
3.9 UAV Factory
3.9.1 UAV Factory 6 kJ Portable Pneumatic Catapult
3.10 Arcturus UAV
3.10.1 Arcturus Catapult Launcher System
3.10.2 Arcturus Pneumatic Capture System
3.11 Ilmor Engineering
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3.11.1 Ilmor KJ Series UAV Launcher
3.12 Tasuma
3.12.1 Tasuma A3 Observer
3.12.2 Tasuma UAV Launcher LTL 1
3.12.3 Tasuma UAV Launcher TML 2
3.12.4 Tasuma UAV Launcher TML 3
3.12.5 Tasuma UAV Launcher TML 3 (Ultima version)
3.12.6 Tasuma UAV LaunchersTML 4
3.13 Canadian Center for Unmanned Vehicle System
3.13.1 CCUVS UAS Launcher
3.14 Hood Technology Mechanical
3.14.1 Hood Launcher
3.14.2 Hood Superwedge HP
3.14.3 Hood Mark 4
3.15 UAVSI
3.15.1 UAVSI Launcher
3.12 Tasuma
3.12.1 Tasuma A3 Observer
3.12.2 Tasuma UAV Launcher LTL 1
3.12.3 Tasuma UAV Launcher TML 2
3.12.4 Tasuma UAV Launcher TML 3
3.12.5 Tasuma UAV Launcher TML 3 (Ultima version)
3.12.6 Tasuma UAV LaunchersTML 4
3.13 Canadian Center for Unmanned Vehicle System
3.13.1 CCUVS UAS Launcher
3.14 Hood Technology Mechanical
3.14.1 Hood Launcher
3.14.2 Hood Superwedge HP
3.14.3 Hood Mark 4
3.15 UAVSI
3.15.1 UAVSI Launcher
4. Launchers For Unmanned Aerial Systems (UAS)
Technology
4.1 UAS Launcher Rapid Technological Advances
4.2 Substrate Layering Launcher Technology
4.3 Tasuma Epoxy Composites
4.4 Launchers For UAS Sense and Avoid Evolution Avionics Approach
4.5 Northrop Grumman.BAT UAV Open Architecture
4.6 Integrated Dynamics Flight Telecommand & Control Systems
4.6.1 AP 2000
4.6.2 AP 5000
4.6.3 IFCS-6000 (Integrated Autonomous Flight Control System)
4.6.4 IFCS-7000 (Integrated Autonomous Flight Control System)
4.6.5 Portable Telecommand And Control System (P.T.C.S.)
4.7 Integrated Radio Guidance Transmitter (IRGX)
4.7.1 Portable Telecommand And Control System (P.T.C.S.)
4.8 IRGX (Integrated Radio Guidance Transmitter)
4.8.1 Ground Control Stations
4.8.2 GCS 1200
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4.1 UAS Launcher Rapid Technological Advances
4.2 Substrate Layering Launcher Technology
4.3 Tasuma Epoxy Composites
4.4 Launchers For UAS Sense and Avoid Evolution Avionics Approach
4.5 Northrop Grumman.BAT UAV Open Architecture
4.6 Integrated Dynamics Flight Telecommand & Control Systems
4.6.1 AP 2000
4.6.2 AP 5000
4.6.3 IFCS-6000 (Integrated Autonomous Flight Control System)
4.6.4 IFCS-7000 (Integrated Autonomous Flight Control System)
4.6.5 Portable Telecommand And Control System (P.T.C.S.)
4.7 Integrated Radio Guidance Transmitter (IRGX)
4.7.1 Portable Telecommand And Control System (P.T.C.S.)
4.8 IRGX (Integrated Radio Guidance Transmitter)
4.8.1 Ground Control Stations
4.8.2 GCS 1200
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4.8.3 GCS 2000
4.9 Antenna Tracking Systems
4.9.1 ATPS 2000
4.9.2 Gyro Stabilized Payloads
4.9.3 GSP 100
4.9.4 GSP 900
4.9.5 GSP 1200
4.10 Civilian UAV’s - Rover Systemstm
4.11 CPI-406 Deployable Emergency Locator Transmitter (ELT)
4.11.1 Deployable Flight Incident Recorder Set (DFIRS)
4.11.2 Airborne Separation Video System (ASVS)
4.11.3 Airborne Separation Video System –
Remote Sensor (ASVS – RS)
4.11.4 Airborne Tactical Server (ATS)
4.12 Aurora Very High-Altitude Propulsion System (VHAPS)
4.13 Aurora Autonomy & Flight Control
4.13.1 Aurora Guidance Sensors And Control Systems
MAV Guidance
4.13.2 Aurora Multi-Vehicle Cooperative Control for
Air and Sea Vehicles in Littoral Operations (UAV/USV)
4.13.3 Aurora and MIT On-board Planning System for UAVs
Supporting Expeditionary Reconnaissance and
Surveillance (OPS-USERS)
4.13.4 Aurora Flare Planning
4.13.5 Aurora Distributed Sensor Fusion
4.13.6 Aurora Aerospace Electronics
4.13.7 Aurora is CTC-REF
4.14 Space Technologies: Autonomous Control of Space
Nuclear Reactors (ACSNR)
4.14.1 Rule-based Asset Management for Space
Exploration Systems (RAMSES)
4.14.2 Synchronized Position Hold, Engage & Reorient
Experiment Satellites (SPHERES)
4.15 Positive Pressure Relief Valve (PPRV)
4.9 Antenna Tracking Systems
4.9.1 ATPS 2000
4.9.2 Gyro Stabilized Payloads
4.9.3 GSP 100
4.9.4 GSP 900
4.9.5 GSP 1200
4.10 Civilian UAV’s - Rover Systemstm
4.11 CPI-406 Deployable Emergency Locator Transmitter (ELT)
4.11.1 Deployable Flight Incident Recorder Set (DFIRS)
4.11.2 Airborne Separation Video System (ASVS)
4.11.3 Airborne Separation Video System –
Remote Sensor (ASVS – RS)
4.11.4 Airborne Tactical Server (ATS)
4.12 Aurora Very High-Altitude Propulsion System (VHAPS)
4.13 Aurora Autonomy & Flight Control
4.13.1 Aurora Guidance Sensors And Control Systems
MAV Guidance
4.13.2 Aurora Multi-Vehicle Cooperative Control for
Air and Sea Vehicles in Littoral Operations (UAV/USV)
4.13.3 Aurora and MIT On-board Planning System for UAVs
Supporting Expeditionary Reconnaissance and
Surveillance (OPS-USERS)
4.13.4 Aurora Flare Planning
4.13.5 Aurora Distributed Sensor Fusion
4.13.6 Aurora Aerospace Electronics
4.13.7 Aurora is CTC-REF
4.14 Space Technologies: Autonomous Control of Space
Nuclear Reactors (ACSNR)
4.14.1 Rule-based Asset Management for Space
Exploration Systems (RAMSES)
4.14.2 Synchronized Position Hold, Engage & Reorient
Experiment Satellites (SPHERES)
4.15 Positive Pressure Relief Valve (PPRV)
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4.15.1 Chip-Scale Atomic Clock (CSAC)
4.15.2 Low–design-Impact Inspection Vehicle (LIIVe)
4.15.3 Synthetic Imaging Maneuver Optimization (SIMO)
4.15.4 Self-Assembling Wireless Autonomous Reconfigurable
Modules (SWARM)
4.16 Persistent, Long-Range Reconnaissance Capabilities
4.16.1 United States Navy's Broad Area Maritime Surveillance
(BAMS) Unmanned Aircraft System (UAS) program
4.16.2 Navy Unmanned Combat Air System UCAS Program:
4.16.3 Navy Unmanned Combat Air System UCAS: Objectives:
4.17 Search and Rescue (SAR)
4.18 L-3 Communications LinkTEK™ IDS
4.19 L-3 Communications flightTEK® SMC
4.19.1 Helicopter Main Limiting Factor Retreating Blade Stall
4.20 Draganflyer X4 Applications
4.20.1 Draganflyer X4 Large Project Management
4.20.2 Draganflyer Remote Supervision and Investigation of
Equipment
4.20.3 Draganflyer Remote Supervision and Investigation of
Agricultural Land and Equipment
4.20.4 Draganflyer Advanced RC Flight Research
4.20.5 Aerial Archeology
4.20.6 Environmental Assessment
4.20.7 The Draganflyer X4 is Fun to Fly
4.21 White Blood Cell Counter
5. Launchers Company Description
5.1 Arcturus UAV
5.1.1 Arcturus UAV, sub-contractor to CSC, Award from U.S. Navy, NAVAIR
5.2 Aries Ingenieria y Sistemas
5.2.1 Aries Ingeniería y Sistemas Continues Growing Globally
5.3 BAE Systems
5.3.1 BAE Systems Organization
5.3.2 BAE Systems Performance
4.15.2 Low–design-Impact Inspection Vehicle (LIIVe)
4.15.3 Synthetic Imaging Maneuver Optimization (SIMO)
4.15.4 Self-Assembling Wireless Autonomous Reconfigurable
Modules (SWARM)
4.16 Persistent, Long-Range Reconnaissance Capabilities
4.16.1 United States Navy's Broad Area Maritime Surveillance
(BAMS) Unmanned Aircraft System (UAS) program
4.16.2 Navy Unmanned Combat Air System UCAS Program:
4.16.3 Navy Unmanned Combat Air System UCAS: Objectives:
4.17 Search and Rescue (SAR)
4.18 L-3 Communications LinkTEK™ IDS
4.19 L-3 Communications flightTEK® SMC
4.19.1 Helicopter Main Limiting Factor Retreating Blade Stall
4.20 Draganflyer X4 Applications
4.20.1 Draganflyer X4 Large Project Management
4.20.2 Draganflyer Remote Supervision and Investigation of
Equipment
4.20.3 Draganflyer Remote Supervision and Investigation of
Agricultural Land and Equipment
4.20.4 Draganflyer Advanced RC Flight Research
4.20.5 Aerial Archeology
4.20.6 Environmental Assessment
4.20.7 The Draganflyer X4 is Fun to Fly
4.21 White Blood Cell Counter
5. Launchers Company Description
5.1 Arcturus UAV
5.1.1 Arcturus UAV, sub-contractor to CSC, Award from U.S. Navy, NAVAIR
5.2 Aries Ingenieria y Sistemas
5.2.1 Aries Ingeniería y Sistemas Continues Growing Globally
5.3 BAE Systems
5.3.1 BAE Systems Organization
5.3.2 BAE Systems Performance
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5.1.1 BAE Systems Key Facts
5.1.2 BAE Systems Strategy
5.1.3 BAE Systems Operational Framework
5.1.4 Key Performance Indicators (KPIs)
5.1.5 BAE Systems Risk Management
5.1.6 BAE Systems Orders
5.1.7 BAE Systems Received $313 Million Contract for Continued Research and Development of PIM
5.1.8 BAE Systems’ Paladin Integrated Management
5.1.9 BAE Systems Awarded £46m Contract To Support Royal Navy’s Type 45 Sampson Radars
5.4 Canadian Centre for Unmanned Vehicle Systems
5.4.1 Canadian Centre for Unmanned Vehicle Systems
(CCUVS)
5.4.2 CCUVS Knowledge, Awareness, Learning & Skills
5.5 Hood Tech Mechanical
5.6 Ilmor Engineering
5.7 NASA
5.7.1 NASA’s Future
5.7.2 NASA Exploration
5.7.3 NASA International Space Station
5.7.4 NASA Aeronautics
5.7.5 NASA Science
5.8 Northrop Grumman
5.8.1 Northrop Grumman Business Sectors
5.8.2 Northrop Grumman Electronic Systems
5.8.3 Northrop Grumman Information Systems
5.8.4 Northrop Grumman Technical Services
5.8.5 Northrop Grumman
5.8.6 Northrop Grumman Supplies Marine Navigation Equipment
5.8.7 Northrop Grumman Recognized by UK Ministry of Defense for Role in Supporting Sentry AWACS Aircraft During Military Operations in Libya
5.8.8 Northrop Grumman Corporation subsidiary Remotec Inc. Upgrade the U.S. Air Force fleet of Andros HD-1
5.8.9 Northrop Grumman NAV CANADA Supplier
5.1.2 BAE Systems Strategy
5.1.3 BAE Systems Operational Framework
5.1.4 Key Performance Indicators (KPIs)
5.1.5 BAE Systems Risk Management
5.1.6 BAE Systems Orders
5.1.7 BAE Systems Received $313 Million Contract for Continued Research and Development of PIM
5.1.8 BAE Systems’ Paladin Integrated Management
5.1.9 BAE Systems Awarded £46m Contract To Support Royal Navy’s Type 45 Sampson Radars
5.4 Canadian Centre for Unmanned Vehicle Systems
5.4.1 Canadian Centre for Unmanned Vehicle Systems
(CCUVS)
5.4.2 CCUVS Knowledge, Awareness, Learning & Skills
5.5 Hood Tech Mechanical
5.6 Ilmor Engineering
5.7 NASA
5.7.1 NASA’s Future
5.7.2 NASA Exploration
5.7.3 NASA International Space Station
5.7.4 NASA Aeronautics
5.7.5 NASA Science
5.8 Northrop Grumman
5.8.1 Northrop Grumman Business Sectors
5.8.2 Northrop Grumman Electronic Systems
5.8.3 Northrop Grumman Information Systems
5.8.4 Northrop Grumman Technical Services
5.8.5 Northrop Grumman
5.8.6 Northrop Grumman Supplies Marine Navigation Equipment
5.8.7 Northrop Grumman Recognized by UK Ministry of Defense for Role in Supporting Sentry AWACS Aircraft During Military Operations in Libya
5.8.8 Northrop Grumman Corporation subsidiary Remotec Inc. Upgrade the U.S. Air Force fleet of Andros HD-1
5.8.9 Northrop Grumman NAV CANADA Supplier
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5.8.10 Northrop Grumman Electronic Systems Segment
5.9 Robonic UAV Launching Systems
5.10 Sea Corp
5.10.1 Sea Corp Growth
5.10.2 Sea CorpSmall Business Partnering
5.11 Tasuma
5.12 UAV Factory
5.12.1 UAV Factory - 54.5 Hour Nonstop Flight – New World Endurance Record
5.13 UAVSI
5.13.1 UAVSI Product Deployment
5.13.2 UAVSI Products
5.14 VTI
5.15 Zodiac Aerospace
5.15.1 Zodiac Strategy
5.9 Robonic UAV Launching Systems
5.10 Sea Corp
5.10.1 Sea Corp Growth
5.10.2 Sea CorpSmall Business Partnering
5.11 Tasuma
5.12 UAV Factory
5.12.1 UAV Factory - 54.5 Hour Nonstop Flight – New World Endurance Record
5.13 UAVSI
5.13.1 UAVSI Product Deployment
5.13.2 UAVSI Products
5.14 VTI
5.15 Zodiac Aerospace
5.15.1 Zodiac Strategy
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Table Of Contents at http://marketstoreports.com/products/launchers-for-unmanned-aerial-systems-and-targets-market-shares-strategies-and-forecasts-worldwide-2012-to-2018
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