Abstract
Since the early 1990s, military air defence systems and programs have
transitioned from a Cold War mindset to focusing on a completely different
future enemy, one that launches terrorist attacks or military strikes in the
form of cruise missiles, UAVs and aircraft used as weapons. The technology
behind these systems, as well as the systems themselves, are therefore having
to change to meet the demands of 21st century warfare and national defence
strategies.
Today there is a significant bipolarisation within the air defence systems
market. Generally, the emphasis is on either cost-effective Short Range Air
Defence (SHORAD) and Very Short Range Air Defence (VSHORAD) systems, intended
to aid in the defence of the lightly armoured, mobile forces now widely
favoured for use in low-intensity warfare, or the almost prohibitively
expensive Ballistic Missile Defence (BMD) programmes, which are systems
intended for either national defence or for the protection of strategic assets
against ballistic missile attack.
What questions does the report answer?
- What factors are attributable to the dynamic growth in the land-based air
defence systems market?
- What are the key drivers of land-based air defence system development and
implementation?
- How is the land-based air defence system market likely to grow in the next
decade?
- What are the major trends in this fast-changing industry?
- Who are the main companies involved in the manufacturing of land-based air
defence systems?
- Where are the greatest opportunities for investment to be found in this
market?
Why should you buy the report?
This new visiongain report:
- Analyses the land-based air defence systems markets in 71 countries
- Identifies where the major industry players, including Lockheed Martin,
MBDA, Raytheon and Thales, are investing
- Provides an inventory of the major systems available or in development
(including contract information)
- Profiles the most significant manufacturers involved in this fast-changing
industry
- Forecasts the potential opportunities (and possible pitfalls) in the market
Table of Contents
1.0 Introduction
- Chart 1: Missile market share
- 1.1 Executive Summary
2.0 Methodology
- Chart 2: Land-based AD production value by type, 2015
- 2.1 Current and projected airborne threats: a discussion
- 2.2 Effective counters: how land-based AD systems work
3.0 Significant current and projected land-based AD systems
- 3.1 Anti-Tactical Ballistic Missiles (ATBMs) and long-range SAMs:
introduction
- 3.2 Solutions in Anti-Tactical Ballistic Missiles (ATBMs) and long-range
SAMs
- 3.2.1 Arrow
- 3.2.2 HQ-9
- 3.2.3 Land SAAM AD
- 3.2.4 MEADS
- 3.2.5 MIM-104 Patriot
- 3.2.6 PAC-3
- 3.2.7 S-200
- 3.2.8 S-300P (SA-10 ‘Grumble’)
- 3.2.9 S-300V (SA-12 ‘Giant’ and ‘Gladiator’)
- 3.2.10 S-400 Triumf
- 3.2.11 THAAD
- 3.2.12 Tien Kung
4.0 A gap in the middle? Medium-range SAMs
- 4.1 Medium-range SAMs: introduction
- 4.2. Solutions in medium-range SAMs
- 4.2.1 Akash
- 4.2.2 Buk (SA-11 ‘Gadfly’)
- 4.2.3 Kub (SA-6 ‘Gainful’)
- 4.2.4 Krug (SA-4 ‘Ganef’)
- 4.2.5 MIM-23 HAWK
- 4.2.6 S-75 (SA-2 ‘Guideline’)
- 4.2.7 S-125 (SA-3 ‘Goa’)
5.0 Battlefield air defence: SHORADS and VSHORADS
- 5.1 SHORADS: introduction
- 5.2 Solutions in SHORADS
- 5.2.1 Barak
- 5.2.2 Crotale
- 5.2.3 Crotale NG
- 5.2.4 HQ-7
- 5.2.5 HQ-61A
- 5.2.6 HQ-64
- 5.2.7 Osa (SA-8 ‘Gecko’)
- 5.2.8 Pantsyr-S1
- 5.2.9 Rapier
- 5.2.10 RBS 23 BAMSE
- 5.2.11 Roland
- 5.2.12 Shahine
- 5.2.13 Skyguard/Sparrow
- 5.2.14 Spada and Aramis/Aspide
- 5.2.15 Spyder
- 5.2.16 Surface Launched AMRAAM
- 5.2.17 Tan-SAM Type 81
- 5.2.18 Tor (SA-15 ‘Gauntlet’)
- 5.2.19 VL Mica
- 5.3 VSHORADS: introduction
- 5.4 Solutions in VSHORADS
- 5.4.1 ADATS
- 5.4.2 ASRAD
- 5.4.3 Bolide
- 5.4.4 Chiron (Singung)
- 5.4.5 DK-9
- 5.4.6 Eagle Eye
- 5.4.7 FIM-92 Stinger
- 5.4.8 FN-6
- 5.4.9 Grom
- 5.4.10 HN-5
- 5.4.11 Igla (SA-18 ‘Grouse’)
- 5.4.12 Igla-1 (SA-16 ‘Gimlet’)
- 5.4.13 Javelin
- 5.4.14 Kin-SAM Type 91
- 5.4.15 M48 Chaparral
- 5.4.16 Mistral
- 5.4.17 NG leFla
- 5.4.18 QW-1
- 5.4.19 QW-2
- 5.4.20 RBS 70
- 5.4.21 SAHV-IR (Umkhonto-IR)
- 5.4.22 Sakr Eye
- 5.4.23 Sky Sword I
- 5.4.24 Starburst
- 5.4.25 Starstreak
- 5.4.26 Strela-1 (SA-9 ‘Gaskin’)
- 5.4.27 Strela-2 and Strela-2M (SA-7 ‘Grail)
- 5.4.28 Strela-3 (SA-14 ‘Gremlin’)
- 5.4.29 Strela-10 (SA-13 ‘Gopher’)
- 5.4.30 Yitian
- 5.5 Self-Propelled Anti-Aircraft Guns (SPAAGs): introduction
- 5.6 Solutions in Self-Propelled Anti-Aircraft Guns (SPAAGs)
- 5.6.1 AMX-30 SA
- 5.6.2 Biho
- 5.6.3 BOV-3
- 5.6.4 CV 9040 AAV
- 5.6.5 FLG-1
- 5.6.6 Gepard
- 5.6.7 LAV-AD
- 5.6.8 LD-2000
- 5.6.9 Loara
- 5.6.10 M42
- 5.6.11 M163 Vulcan
- 5.6.12 Marksman
- 5.6.13 S530
- 5.6.14 SIDAM 25
- 5.6.15 Sinai 23
- 5.6.16 Skyranger
- 5.6.17 Tunguska
- 5.6.18 Type 80
- 5.6.19 Type 87
- 5.6.20 Type 88
- 5.6.21 Type 95
- 5.6.22 VDAA
- 5.6.23 Ystervark
- 5.6.24 ZSU-23-4
- 5.6.25 ZSU-57-2
- 5.6.26 Zumlac
- 5.7 Towed AA guns: introduction
- 5.8 Solutions in towed AA guns (table)
6.0 Operators database including outstanding requirements
- Chart 3: Growth markets: China and India
- Chart 4: Asia-Pacific Rim defence expenditure
- Chart 5: US defence budget increases
- Chart 6: US missile defence spending
- Chart 7: US proportional land-based AD sector sales, 2005
- Chart 8: US land-based AD sector sales, 2005
- Chart 9: Latin American defence expenditures, 2000-2004
- 6.1 Asia
- 6.1.1 China
- 6.1.2 India
- 6.1.3 Indonesia
- 6.1.4 Japan
- 6.1.5 Malaysia
- 6.1.6 Pakistan
- 6.1.7 South Korea
- 6.1.8 Singapore
- 6.1.9 Taiwan
- 6.1.10 Thailand
- 6.1.11 Vietnam
- 6.2 Australasia
- 6.2.1 Australia
- 6.2.2 New Zealand
- 6.3 Middle East and North Africa
- 6.3.1 Algeria
- 6.3.2 Bahrain
- 6.3.3 Egypt
- 6.3.4 Iran
- 6.3.5 Israel
- 6.3.6 Jordan
- 6.3.7 Kuwait
- 6.3.8 Morocco
- 6.3.9 Oman
- 6.3.10 Qatar
- 6.3.11 Saudi Arabia
- 6.3.12 Syria
- 6.3.13 United Arab Emirates (UAE)
- 6.4 NATO
- 6.4.1 Belgium
- 6.4.2 Bulgaria
- 6.4.3 Canada
- 6.4.4 Czech Republic
- 6.4.5 Denmark
- 6.4.6 Estonia
- 6.4.7 France
- 6.4.8 Germany
- 6.4.9 Greece
- 6.4.10 Hungary
- 6.4.11 Italy
- 6.4.12 Latvia
- 6.4.13 Lithuania
- 6.4.14 Netherlands
- 6.4.15 Norway
- 6.4.16 Poland
- 6.4.17 Portugal
- 6.4.18 Romania
- 6.4.19 Slovakia
- 6.4.20 Slovenia
- 6.4.21 Spain
- 6.4.22 Turkey
- 6.4.23 United Kingdom
- 6.4.24 United States
- 6.5 Europe, non-NATO
- 6.5.1 Austria
- 6.5.2 Belarus
- 6.5.3 Croatia
- 6.5.4 Finland
- 6.5.5 Ireland
- 6.5.6 Russia
- 6.5.7 Sweden
- 6.5.8 Switzerland
- 6.5.9 Ukraine
- 6.6 Latin America
- 6.6.1 Argentina
- 6.6.2 Bolivia
- 6.6.3 Brazil
- 6.6.4 Chile
- 6.6.5 Colombia
- 6.6.6 Cuba
- 6.6.7 Ecuador
- 6.6.8 Mexico
- 6.6.9 Peru
- 6.6.10 Uruguay
- 6.6.11 Venezuela
- 6.7 Sub-Saharan Africa
- 6.7.1 South Africa
- 6.7.2 Sub-Saharan Africa, others
7.0 Conclusions
- 7.1 Addressing new threats - an assessment of current and future
technologies
- 7.2 Issues and trends in land-based AD
- 7.2.1 Deployment and mobility
- 7.2.2 ‘Plug and fight’ - network-centric AD
- 7.2.3 A shift in emphasis - has the fixed-wing threat really been
defeated?
- 7.3 ATBMs and long-range SAMs - future developments
- 7.4 Medium-range SAMs - future developments
- 7.5 SHORADS - future developments
- 7.6 VSHORADS - future developments
- 7.7 SPAAGs and towed AA guns - future developments
8.0 Market predictions, 2006-2015
- Chart 10: EADS revenues 2000-2005
- Chart 11: EADS revenue by sector
- Chart 12: Other leading defence contractors
- Chart 13: Market performance of land-based AD concerns: BAE Systems and
Boeing
- Chart 14: Market performance of land-based AD concerns, Part 2
- 8.1 The ATBM factor
- 8.2 System upgrades and MOTS technology
- 8.3 Prospects for growth: China and India
- 8.4 NATO renewal
- 8.5 Russian export prospects
- 8.6 The market leaders
- 8.7 Russian export prospects
- 8.8 Supplementary spending: ADC4I and sensors
- 8.9 Summary of market trends
- Alenia Marconi Systems SpA (Finmeccanica)
- Aero Industry Development Centre (Taiwan)
- Allied Ordnance (Singapore Technologies)
- Almaz/Antei Concern of Air Defence
- Arsenal Company
- Arsenalul Armatei
- Aselsan AS
- BAE Systems
- Bayern-Chemie/Protac
- Bofors Defence
- Boeing Integrated Defense Systems (including Boeing Missile Defence
Systems)
- China Aerospace Science and Industry Corporation (CASIC)
- China Academy of Defence Technology (CADT)
- China National Precision Machinery Import and Export Corporation (CNPMIEC)
- China North Industries Corporation (NORINCO)
- Chung Shan Institute of Science and Technology (CSIST)
- CNPEP Radwar SA (Bumar Group)
- Daewoo Heavy Industries Limited
- Defence Electronics (Singapore)
- Defence Research and Development Organisation (DRDO)
- Denel (Pty) Ltd
- Kentron (now Denel Aerospace Systems)
- Diehl Bodenseewerk Gerätetechnik GmbH & Co KG (Diehl Corporation)
- EADS/LFK GmbH (MBDA)
- Elta (IAI)
- Ericsson Microwave Systems AB
- Euromissile (EADS)
- Eurosam
- Fakel
- Finmeccanica
- General Dynamics Combat Systems
- Giat Industries
- Hellenic Arms Industry
- Hollandse Signaalapparaten (Thales Nederland)
- Israel Aircraft Industries
- KBP Instrument Design Bureau
- KBM Kolomna
- Kentron Aerospace Systems (Denel)
- Kongsberg Defence & Aerospace AS
- Krauss-Maffei Wegmann GmbH & Co KG
- LFK-Lenkflugkörpersysteme (EADS/LFK GmbH)
- LG Innotek Company Ltd
- Lockheed Martin Missiles and Fire Control
- MBDA
- MEADS International Inc.
- Mitsubishi Heavy Industries
- MPP Vozila Ltd
- Oto Melara SpA (Alenia Defence)
- Northrop Grumman Corporation
- Oerlikon Contraves (Rheinmetall Defence)
- Rafael Armament Development Authority Ltd
- Raytheon Company
- RH Alan doo
- Rheinmetall Defence Electronics GmbH
- Rosoboronexport
- Saab Bofors Dynamics
- Sagem SA
- SELEX Sistemi Integrati
- Société d’Applications des Machines Motrices (SAMM)
- STN Atlas Elektronik (Rheinmetall Defence Electronics GmbH)
- Teraedr Scientific Unitary Enterprise
- Thales Air Defence
- Thales Nederland
- Tikhomirov Instrument Research Institute
- Toshiba Corporation
- Ulyanovsk Mechanical Plant
- United Defense (BAE Systems Land and Armaments)
- Vazovski Machinostroitelni Zavodi (VMZ)
- Zaklady Mechaniczne Tarnow (Bumar Group)
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