市場調查報告書
商品編碼
1465999
全球飛彈防禦系統市場:依產品、技術、射程、威脅類型、交戰階段、速度、領域、預測(2024-2030)Missile Defense System Market by Product, Technology, Range, Threat Type, Engagement Phase, Speed, Domain - Global Forecast 2024-2030 |
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預計2023年全球飛彈防禦系統市場規模為291.7億美元,2024年達318.8億美元,2030年達558.2億美元,複合年成長率為9.71%。
飛彈防禦系統市場包括用於探測、追蹤、攔截和摧毀來襲飛彈的先進技術的開發、生產和整合。飛彈防禦系統涵蓋廣泛的應用,從戰略威懾到戰術性戰場行動,並為各種最終用戶提供服務,包括國家軍隊、國際防禦組織、私人安全承包商和負責國防安全保障的政府機構。隨著新威脅範圍的擴大以及武器對抗精確性需求的增加,對先進飛彈防禦能力的需求也增加。此外,軍費開支和世界各國開支的增加正在擴大市場。與在軌道任何部分攔截核威脅的飛彈防禦系統相關的問題,以及高成本限制了市場。
主要市場統計 | |
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基準年[2023] | 291.7億美元 |
預計年份 [2024] | 318.8億美元 |
預測年份 [2030] | 558.2億美元 |
複合年成長率(%) | 9.71% |
加強先進推進系統、高超音速飛彈、定向能量武器(DEW)和網路中心戰等下一代技術的創新和研究,以改善飛彈防禦架構內平台之間的通訊和資料共用,從而創造市場擴張的前景。此外,隨著天基攔截平台擴大覆蓋範圍以利用潛在的市場擴張機會,利用衛星技術增強飛彈發射預警系統至關重要。
產品:更多地採用指向和追蹤系統,以在動態戰鬥環境中實現高精度
辨識系統對於區分敵對目標與非威脅和誘餌至關重要,特別是隨著隱形能力和多彈頭飛彈(多彈頭飛彈)等先進技術的出現。瞄準和追蹤系統能夠精確瞄準敵方飛彈,並為攔截飛彈提供即時導引,確保有效攔截。對這些系統的需求源於動態戰鬥環境中對高精度的需求,在這種環境中,瞬間決策可以挽救生命。監視和採集系統可偵測和追蹤傳入的威脅並提供早期預警。隨著越來越多的國家發展彈道飛彈能力,對這些系統的需求也增加。目標摧毀系統透過在威脅到達預定目標之前攔截和消除它們來減少附帶損害並挽救生命。彈道飛彈的快速擴散和高超音速武器的出現凸顯了目標摧毀系統的重要性。
技術:對指揮和控制系統提供及時、準確的資訊以進行有效決策的需求不斷增加
指揮和控制系統是飛彈防禦系統的重要組成部分,因為它們確保收集、處理和通訊促進有效決策所需的資訊。該系統包括感測器、通訊網路和資料處理單元等各種組件。這項技術的需求源於其在高壓情況下實現快速且準確響應的能力。作戰管理系統有助於為管理國防相關行動提供整合且有效率的平台。火控和雷達追蹤技術極大地有助於偵測、識別和追蹤來襲威脅,包括彈道飛彈和其他機載目標。對抗系統對於旨在透過部署誘餌或干擾制導系統來保護軍事資產免受傳入威脅的飛彈防禦技術至關重要。對策的需求主要源於透過擾亂敵方飛彈或在其到達目標之前使其失效來提高生存能力的能力。這些對策利用各種技術來降低敵方感測器的可偵測性和有效性,包括干擾、欺騙甚至破壞。針對敵方武器的對抗措施涵蓋多個領域,包括主動防護系統(APS)、定向能量武器(DEW)和網路作戰。指揮和控制系統專注於為有效決策提供及時、準確的資訊,而對策系統則透過消除傳入的威脅來保護資產。
射程:增加遠距飛彈防禦系統的開發與投資
遠距飛彈防禦系統旨在攔截洲際彈道飛彈(ICBM)和其他射程超過3000公里的高空威脅。這些系統為持有先進飛彈技術的潛在對手提供戰略防禦。中程飛彈防禦系統針對 1,000 至 3,000 公里範圍內的威脅。這些系統提供區域和廣域保護,抵禦彈道飛彈和其他空中威脅。短程飛彈防禦系統重點防禦射程小於1000公里的威脅。這些系統通常是移動的,包括點防禦和戰場防空和飛彈防禦。一般來說,遠距飛彈用於戰略防禦,中程飛彈用於戰場防禦,近程飛彈用於戰術性防禦。遠距飛彈可以保護國家免受洲際彈道飛彈構成的最嚴重威脅,但在攔截短程飛彈方面可能無效。中程系統提供強大的區域保護,但在應對低空威脅的覆蓋範圍上仍存在差距。短程系統透過提供本地化防禦能力來消除這些差距,這些能力可以消除靠近領土的直接威脅。
威脅類型:擴大飛彈防禦系統的使用以減少核子攻擊的威脅
傳統型飛彈威脅的特徵是非核彈頭,通常是高爆炸彈或碎片有效載荷。這些導彈可以是短程、中程或遠距的,這取決於它們到達目標所需飛行的距離。為了應對常規飛彈威脅,基於需求的首要任務是建立分層防禦系統,能夠在飛行軌跡的各個階段攔截和摧毀來襲飛彈。核彈威脅攜帶核彈頭,撞擊後可造成大規模破壞。洲際彈道飛彈(ICBM)因其攜帶核能載荷的長射程和高速再入飛行器而構成重大威脅。應對核子飛彈威脅需要高度複雜的預警系統和先進的攔截技術,以便在威脅到達目標之前將其消除。傳統的飛彈防禦著重於提供通用的解決方案,可以應付不同類型、不同射程的非核彈。然而,核彈防禦優先考慮先進技術來檢測和壓制攜帶毀滅性有效載荷的遠距洲際彈道飛彈。
交戰階段:發展具有助推交戰階段的資料解決方案,以有效應對飛彈威脅
助推階段從飛彈發射時開始,一直持續到到達頂點。在此期間,導彈的火箭引擎仍在運行,使得導彈高度可見且容易被攔截。當飛彈的助推引擎燒毀並建立其彈道時,中段階段開始。在此階段,彈頭在太空中滑行,很容易被攔截。當飛彈在擊中目標之前重新進入地球大氣層時,最後階段開始。在此期間,攔截飛彈試圖在撞擊前和重返大氣層期間摧毀撞擊的彈頭。助推階段攔截在理論上是有利的,但也面臨反應時間短和靠近敵方領土等挑戰。因此,很少系統只關注這一階段,提供結合所有交戰階段的分層防禦。中段系統主要依賴陸基或海基雷達和衛星感測器來追蹤來襲飛彈。末段攔截飛彈面臨交戰窗口顯著縮短、閉合率高和彈頭機動性等挑戰。然而,它仍然是全面導彈防禦戰略的重要組成部分。
速度:資料技術的快速進步增強了對高超音速系統的攔截
高超音速飛彈是一種尖端武器,其移動速度超過 5 馬赫。這種高速移動砲彈因其速度、敏捷性和低空彈道而具有無與倫比的穿透先進防空系統的能力。因此,它引起了一些尋求加強國家安全基礎設施的國家的濃厚興趣。亞音速飛彈的速度低於1馬赫,比超音速和高超音速飛彈慢。這些飛彈在現代戰爭場景中仍然具有重要意義,因為它們具有成本效益和更隱密的操作等優勢。超音速飛彈是指移動速度在 1 馬赫到 5 馬赫之間的飛彈。與亞音速飛彈相比,其高速外形提高了穿透敵方防空系統的能力,同時比高超音速飛彈更具成本效益。高超音速飛彈因其能夠繞過傳統防禦系統而成為發展最快的領域。此外,亞音速和超音速系統根據特定任務的要求繼續保持價值。
領域:在空域增加使用飛彈防禦系統,能夠更好地應對空中威脅。
空基飛彈防禦系統主要專注於攔截短程和遠距空中威脅,例如飛機、無人機和來襲飛彈。該領域的主要子類別包括地面防空系統和空中平台。陸基飛彈防禦系統在保護軍事基地和城市中心等戰略地點免受地面攻擊方面發揮重要作用。該領域的子類別包括彈道飛彈防禦和巡航飛彈防禦。海軍飛彈防禦系統確保關鍵的海上通訊線路的安全,並保護海軍資產免受水面和水下威脅。主要子類別包括艦載飛彈防禦和潛射彈道飛彈。天基飛彈防禦系統旨在增強預警能力並能夠在飛彈助推階段對其進行攔截。值得注意的子類別包括衛星預警系統和天基攔截飛彈。
區域洞察
由於美國大力投資旨在國防安全保障的研發舉措,美洲對飛彈防禦系統市場做出了重大貢獻。美國部署了各種高性能系統,包括陸基中段防禦(GMD)系統等陸基系統和Aegis艦彈道彈道防禦系統(宙斯盾BMD)等海軍平台。在拉丁美洲,巴西等國家已開始投資飛彈防禦技術,以增強軍事能力。歐洲面臨各種威脅,包括俄羅斯等傳統國家對手以及敘利亞和利比亞等捲入區域衝突的新興非國家行為體。歐洲主要國家投資了強大的飛彈防禦系統,以保護其領土和人民免受這些潛在對手的侵害。在地緣政治衝突持續的中東地區,對先進飛彈防禦能力的需求大幅增加。由於中國、北韓、印度和巴基斯坦之間的衝突以及亞太主要大國之間的軍備競賽等地緣政治緊張局勢不斷升級,亞太地區對飛彈防禦系統的需求正在迅速增加。日本、韓國、澳洲和印度等主要國家正在大力投資以獲得尖端飛彈防禦能力,以確保區域穩定並保護其領土免受潛在活動的影響。
FPNV定位矩陣
FPNV定位矩陣對於評估飛彈防禦系統市場至關重要。我們檢視與業務策略和產品滿意度相關的關鍵指標,以對供應商進行全面評估。這種深入的分析使用戶能夠根據自己的要求做出明智的決策。根據評估,供應商被分為四個成功程度不同的像限:前沿(F)、探路者(P)、利基(N)和重要(V)。
市場佔有率分析
市場佔有率分析是一種綜合工具,可以對飛彈防禦系統市場中供應商的現狀進行深入而深入的研究。全面比較和分析供應商在整體收益、基本客群和其他關鍵指標方面的貢獻,以便更好地了解公司的績效及其在爭奪市場佔有率時面臨的挑戰。此外,該分析還提供了對該行業競爭特徵的寶貴見解,包括在研究基準年觀察到的累積、分散主導地位和合併特徵等因素。詳細程度的提高使供應商能夠做出更明智的決策並制定有效的策略,從而在市場上獲得競爭優勢。
1. 市場滲透率:提供有關主要企業所服務的市場的全面資訊。
2. 市場開拓:我們深入研究利潤豐厚的新興市場,並分析其在成熟細分市場的滲透率。
3. 市場多元化:提供有關新產品發布、開拓地區、最新發展和投資的詳細資訊。
4. 競爭評估和情報:對主要企業的市場佔有率、策略、產品、認證、監管狀況、專利狀況和製造能力進行全面評估。
5. 產品開發與創新:提供對未來技術、研發活動和突破性產品開發的見解。
1.導彈防禦系統市場的市場規模和預測是多少?
2.在飛彈防禦系統市場的預測期內,有哪些產品、細分市場、應用程式和領域需要考慮投資?
3.導彈防禦系統市場的技術趨勢和法規結構是什麼?
4.導彈防禦系統市場主要廠商的市場佔有率是多少?
5. 進入飛彈防禦系統市場的適當形式和戰略手段是什麼?
[191 Pages Report] The Missile Defense System Market size was estimated at USD 29.17 billion in 2023 and expected to reach USD 31.88 billion in 2024, at a CAGR 9.71% to reach USD 55.82 billion by 2030.
The missile defense system market encompasses developing, producing, and integrating advanced technologies for detecting, tracking, intercepting, and destroying incoming missiles. The missile defense system encompasses applications ranging from strategic deterrence to tactical battlefield operations, serving various end-users such as national military forces, international defense organizations, private security contractors, and government agencies responsible for homeland security. The growing range of emerging threats and the increased necessity for the accuracy of weapons countermeasures have intensified the need for advanced missile defense capabilities. In addition, growing military expenditure and spending by nations worldwide is expanding the market. Problems associated with missile defense systems to intercept nuclear threats on any part of trajectory and the high cost associated with research and development (R&D) activities required to develop state-of-the-art technologies capable of countering security threats limit the market.
KEY MARKET STATISTICS | |
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Base Year [2023] | USD 29.17 billion |
Estimated Year [2024] | USD 31.88 billion |
Forecast Year [2030] | USD 55.82 billion |
CAGR (%) | 9.71% |
Increasing innovation and research in next-generation technologies such as advanced propulsion systems, hypersonic missiles, directed energy weapons (DEWs), and network-centric warfare for improved communication and data sharing among platforms within missile defense architectures are creating prospects for expansion of market. Moreover, leveraging satellite technology for enhanced early-warning systems against missile launches is crucial, along with space-based interceptor platforms expanding coverage area to develop potential opportunities for market expansion.
Product: Growing adoption of pointing and tracking systems for high accuracy in a dynamic battle environment
Discrimination systems are essential for discerning hostile targets from non-threats or decoys, particularly with the advent of advanced technologies such as stealth capabilities and multiple independently targetable reentry vehicles (MIRVs). Pointing and tracking systems enable precise targeting of enemy missiles and ensure effective interception by providing real-time guidance to interceptors. The necessity for these systems stems from the need for high accuracy in a dynamic battle environment where split-second decisions can save lives. Surveillance and acquisition systems detect, track, and issue early warnings against incoming threats. The need for these systems has grown due to the increasing number of countries developing ballistic missile capabilities. Target destruction systems intercept and neutralize incoming threats before reaching their intended targets, thereby reducing collateral damage and saving lives. The importance of target destruction systems is emphasized by the rapid proliferation of ballistic missiles and the emergence of hypersonic weapons.
Technology: Increasing demand for command & control systems for timely and accurate information for effective decision-making
The command & control system is an integral part of a missile defense system, as it ensures that necessary information is collected, processed, and disseminated to facilitate effective decision-making. It encompasses various components such as sensors, communication networks, and data processing units. The need for this technology arises from its ability to enable rapid and accurate response in high-pressure situations. Combat management systems help in providing an integrated and efficient platform to manage defense-related operations. Fire control and radar tracking technologies contribute significantly to detecting, identifying, and tracking incoming threats including ballistic missiles or other airborne targets. A countermeasure system is essential to missile defense technology designed to protect military assets from incoming threats by deploying decoys or jamming guidance systems. The need for countermeasures arises primarily from their capacity to increase survivability by confusing enemy missiles or rendering them ineffective before they reach their targets. These countermeasures utilize various techniques to reduce the detectability or effectiveness of enemy sensors, such as jamming, deception, and even destruction. Countermeasures against enemy weapons span various domains, such as active protection systems (APS), directed energy weapons (DEW), and cyber operations. Command & control systems focus on providing timely and accurate information for effective decision-making, while countermeasure systems concentrate on protecting assets by neutralizing incoming threats.
Range: Increasing development and investments in long-range missile defense systems
Long-range missile defense systems are designed to intercept intercontinental ballistic missiles (ICBMs) and other high-altitude threats with ranges exceeding 3,000 kilometers. These systems provide strategic protection against potential adversaries possessing advanced missile technologies. Medium-range missile defense systems target threats within 1,000 to 3,000 kilometers. These systems offer regional and extended area protection against ballistic missiles and other airborne threats. Short-range missile defense systems focus on protecting against threats with ranges below 1,000 kilometers. These systems are typically mobile, including point and battlefield air and missile defenses. Generally, long-range missiles are used for strategic defense, medium-range for theater defense, and short-range for tactical defense. Long-range missile defense systems serve to protect nations against the most significant threats posed by ICBMs; however, they may not be effective in intercepting shorter-range missiles. Medium-range systems provide robust regional protection but can still leave gaps in coverage against low-altitude threats. Short-range systems address these gaps by offering localized defense capabilities that can neutralize imminent threats close to their territories.
Threat Type: Rising use of missile defenses systems to reduce the threat of nuclear attacks
Conventional missile threats are characterized by non-nuclear warheads, typically high explosive or fragmentation payloads. These missiles can be short-range, medium-range, or long-range, depending on the distance they travel to reach their target. The need-based preference for addressing conventional missile threats is a multi-layered defense system that can intercept and destroy incoming missiles at various stages of their flight trajectory. Nuclear missile threats carry nuclear warheads capable of causing massive destruction upon impact. Intercontinental ballistic missiles (ICBMs) pose a significant threat due to their long ranges and high-speed re-entry vehicles carrying nuclear payloads. Addressing nuclear missile threats requires highly sophisticated early warning systems and advanced interceptor technologies capable of neutralizing the threat before it reaches its target. Conventional missile defenses focus on providing versatile solutions that can engage various types of non-nuclear missiles with differing ranges. However, nuclear missile defenses prioritize advanced technology to detect and neutralize long-range ICBMs carrying devastating payloads.
Engagement Phase: Development of MDS solutions with boost engagement phase for effectively countering missile threats
The boost phase starts when a missile is launched and lasts until it reaches its apex. During this period, the rocket engines of the missile are still active, making it highly visible and vulnerable to interception. The midcourse phase begins when the booster engines of the missile have burned out, and the trajectory has been established. In this phase, the warhead coasts through space and is vulnerable to interception. The terminal phase commences as a missile re-enters the Earth's atmosphere before hitting its target. During this period, interceptors attempt to destroy incoming warheads just before impact and during atmospheric re-entry. Boost-phase interception is theoretically advantageous and poses challenges such as short response times and proximity to enemy territory. Therefore, few systems focus exclusively on this phase, and they provide multiple-layered protection, combining all engagement phases. Midcourse systems primarily rely on ground or sea-based radar and satellite sensors to track incoming missiles. Terminal phase interceptors face challenges such as a significantly shorter engagement window, high closing velocities, and warhead maneuverability. However, they remain an essential component of a comprehensive missile defense strategy.
Speed: Rapid advancements in technology of MDS leading toward increased interception of hypersonic systems
Hypersonic missiles are a cutting-edge class of weapons designed to travel at speeds surpassing Mach 5. These high-speed maneuverable projectiles exhibit unparalleled capabilities to penetrate advanced air defense systems due to their speed, agility, and low-altitude trajectory. As a result, they have garnered significant interest from several countries that aim to strengthen their national security infrastructure. Subsonic missiles have speeds below Mach 1, making them slower than supersonic and hypersonic counterparts. These missiles remain relevant in modern warfare scenarios as they offer advantages such as cost-effectiveness and stealthier operations. Supersonic missiles are those that travel at speeds between Mach 1 and Mach 5. Their high-speed profile offers improved penetration capabilities against enemy air defense systems compared to subsonic missiles while being more cost-effective than hypersonic alternatives. The hypersonic missiles represent the fastest-growing segment due to their ability to bypass conventional defenses. Moreover, subsonic and supersonic systems continue to hold value based on mission-specific requirements.
Domain: Increasing use of missile defense system on air domain to excel at countering aerial threats
Air-based missile defense systems primarily focus on intercepting short- and long-range aerial threats such as aircraft, drones, and incoming missiles. Key subcategories within this domain include ground-based air defense systems and airborne platforms. Land-based missile defense systems play a crucial role in protecting strategic locations such as military bases and urban centers against ground-to-ground attacks. Subcategories in this domain include ballistic missile defenses and cruise missile defenses. Naval missile defense systems secure vital sea lines of communication and protect naval assets against threats above and below the water surface. Key subcategories include ship-based missile defenses and submarine-launched ballistic missiles. Space-based missile defense systems aim to enhance early warning capabilities and enable intercepting missiles during their boost phase. Notable subcategories include satellite-based early warning systems and space-based interceptors.
Regional Insights
In the Americas, the United States significantly contributes to the missile defense system market owing to its significant investments in research and development initiatives aimed at improving homeland security. The U.S. has deployed various sophisticated land-based systems, such as the ground-based midcourse defense (GMD) system and naval platforms, including the Aegis ballistic missile defense system (Aegis BMD). In Latin America, countries such as Brazil have started focusing on enhancing their military capabilities with investments in missile defense technology. Europe faced diverse threats, including traditional state adversaries such as Russia and emerging non-state actors involved in regional conflicts, including Syria and Libya. Major European countries have invested in robust missile defense systems to protect their territories and populations against these potential hostiles. Due to ongoing geopolitical conflicts, the Middle East is witnessing a significant increase in need for advanced missile defense capabilities. The APAC region witnesses rapid increase in need for missile defense systems due to increasing geopolitical tensions involving China, North Korea, the India-Pakistan conflict, and an ongoing arms race among major powers in the Asia-Pacific. Key players such as Japan, South Korea, Australia, and India are investing significantly in acquiring state-of-the-art missile defense capabilities to ensure regional stability and protect their territories against potential activities.
FPNV Positioning Matrix
The FPNV Positioning Matrix is pivotal in evaluating the Missile Defense System Market. It offers a comprehensive assessment of vendors, examining key metrics related to Business Strategy and Product Satisfaction. This in-depth analysis empowers users to make well-informed decisions aligned with their requirements. Based on the evaluation, the vendors are then categorized into four distinct quadrants representing varying levels of success: Forefront (F), Pathfinder (P), Niche (N), or Vital (V).
Market Share Analysis
The Market Share Analysis is a comprehensive tool that provides an insightful and in-depth examination of the current state of vendors in the Missile Defense System Market. By meticulously comparing and analyzing vendor contributions in terms of overall revenue, customer base, and other key metrics, we can offer companies a greater understanding of their performance and the challenges they face when competing for market share. Additionally, this analysis provides valuable insights into the competitive nature of the sector, including factors such as accumulation, fragmentation dominance, and amalgamation traits observed over the base year period studied. With this expanded level of detail, vendors can make more informed decisions and devise effective strategies to gain a competitive edge in the market.
Key Company Profiles
The report delves into recent significant developments in the Missile Defense System Market, highlighting leading vendors and their innovative profiles. These include Airbus SE, ASELSAN Elektronik Sanayi ve Ticaret Anonim Sirketi'ne, BAE Systems PLC, Bechtel Corporation, Booz Allen Hamilton Holding Corporation, CACI International Inc., Defence R&D Organisation, General Dynamic Corporation, Hanwha Corporation, Huntington Ingalls Industries, Inc., Israel Aerospace Industries Ltd., KBR, Inc., Kongsberg Gruppen ASA, L3Harris Technologies, Inc., Leidos Holdings, Inc., Leonardo S.p.A., Lockheed Martin Corporation, Mitsubishi Heavy Industries, Ltd., Northrop Grumman Corporation, Rafael Advanced Defense Systems Ltd., Rheinmetall AG, Roketsan A.S., RTX Corporation, Saab AB, Safran Group, Science Applications International Corporation, Tactical Missiles Corporation, Thales Group, and The Boeing Company.
Market Segmentation & Coverage
1. Market Penetration: It presents comprehensive information on the market provided by key players.
2. Market Development: It delves deep into lucrative emerging markets and analyzes the penetration across mature market segments.
3. Market Diversification: It provides detailed information on new product launches, untapped geographic regions, recent developments, and investments.
4. Competitive Assessment & Intelligence: It conducts an exhaustive assessment of market shares, strategies, products, certifications, regulatory approvals, patent landscape, and manufacturing capabilities of the leading players.
5. Product Development & Innovation: It offers intelligent insights on future technologies, R&D activities, and breakthrough product developments.
1. What is the market size and forecast of the Missile Defense System Market?
2. Which products, segments, applications, and areas should one consider investing in over the forecast period in the Missile Defense System Market?
3. What are the technology trends and regulatory frameworks in the Missile Defense System Market?
4. What is the market share of the leading vendors in the Missile Defense System Market?
5. Which modes and strategic moves are suitable for entering the Missile Defense System Market?