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全球防空与导弹防御市场Global Air and Missile Defense Market |
防空和导弹防御系统主要用于拦截中短程目标并对飞机和导弹提供威慑。 地对空导弹防御系统(SAM)是全球最常见的防空系统类型。 SAM 使用雷达数据引导您到达目标。 现代防空系统可以同时探测和跟踪多个目标,并同时攻击多个目标。
该系统通过远程雷达检测威胁,并将信息转发给指挥车辆以识别敌友。 然后,数据被传输到交战雷达,帮助引导导弹到达目标。 一些导弹防御系统还可以摧毁距离地面相当近的飞行物体。
海基防空和导弹防御系统被认为对于航空母舰等高价值目标的生存至关重要。 防空系统还用于保护军事设施、重要政府基础设施和总统府等重要资产。
通常由一到两名士兵操作 MANPADS(手持防空导弹系统)。 便携式防空系统可以在大约 60 秒内完成设置,并具有红外导航系统。 一些便携式防空系统配备了红外线和紫外线传感器,以避免耀斑对抗。 在有争议的战斗环境中,便携式防空系统通常针对直升机和飞机部署。 便携式防空系统允许士兵在射击时移动,从而使他们能够在不暴露位置的情况下与下一个目标交战。
现代防空和导弹防御系统旨在汇集联合部队的多种能力,以保护特定区域免受快速移动的飞机和导弹威胁。 来自所有防御能力的传感器必须以各种方式组合起来,以确定一个能够评估和确定如何最好地应对传入威胁的系统。
雷达和导弹防御系统的部队现代化计划是航空和导弹市场推动市场增长的趋势之一。 国家采购计划也将成为市场的主要推动力。
由于决策週期更短、数据更多、需要管理的技术系统更多,战斗人员负担过重,世界各地的军队正在意识到需要自动化决策支持系统来帮助管理战斗。 迄今为止,人们的注意力主要集中在数据收集、数据融合和数据分析上,以获得战场态势感知。
另一方面,利用这些数据来製定选项并预测军事行动的结果存在新的领域和机会。 人工智能防御AI的使用有望改善防空和导弹防御的时间敏感情况下的作战管理决策。 人工智能在空中和导弹防御系统中的集成预计将成为推动市场增长的关键市场趋势之一。
不断增长的国防开支推动着市场。 新的采购活动以及具有新功能的现有平台的更新正在增加。 国防开支的增加推动了新的防空和导弹防御系统的采购。 欧洲和亚太地区的地缘政治局势也支持采购。
市场预测包括全面的市场分析和市场规模。 市场分析包括按地区划分的市场规模、市场驱动因素、限制因素和机会。 区域分析还包括按国家/地区划分的市场规模。
在哈萨克斯坦,俄罗斯正在为其防空系统测试新型导弹,以防御空袭。 空军导弹防御部队司令谢尔盖·格拉布丘克少将表示,战斗计算已经完成,经过多次测试证明其内在品质,它现在可以以规定的精度摧毁条件目标。 俄罗斯空军使用导弹防御系统。
该技术旨在防止来自空域的攻击。 国防部还发布了导弹发射的视频。 不过,国防部尚未公布该导弹或反导防御系统的名称。 萨里-沙甘试验场成立于 1956 年,主要研究战略防空防御、反弹道导弹防御和反卫星系统。
土耳其已同意开始批量生产其本土防空系统和首款本土战术弹道导弹“泰丰”。 在埃尔多安总统主持的一次会议上,该委员会就25个重点国防工业项目做出了这样的决定。 埃尔多安此前曾表示,Tayfun 的续航里程为 1000 公里。
即将量产的国产防空系统包括“西佩尔”地对空导弹、“希萨尔”和“桑古尔”低空防空导弹、反舰导弹“阿特玛卡”、激光制导导弹TRLG-230、反舰导弹等。根据委员会声明,坦克导弹“卡拉OK”、空对空导弹“格克多安”和“博兹多安”。Air and missile defense systems are primarily employed to intercept targets at short to medium ranges and offer deterrence against aircraft and missiles. Surface-to-Air missile defense systems (SAM) are the most common type of air defense system in operation around the world. SAMs use radar data to guide them to their target. Modern air defense systems can detect and track numerous targets at the same time, as well as engage multiple targets at the same time.
The system detects threats with long-range radars and relays the information to a command vehicle for friend or foe identification. The data is then transmitted to the engagement radar, which aids in guiding the missile toward the target. Some missile defense systems may destroy objects that fly quite close to the ground.
Sea-based air and missile defense systems are thought to be critical for the survival of high-value targets like aircraft carriers. Air defense systems are also used to safeguard critical assets such as military installations, important government infrastructure, and presidential palaces.
One or two soldiers normally operate Man Portable Air Defense Systems (MANPADS). They can be set up in about 60 seconds and have an infrared navigation system. Some MANPADS missiles feature both IR and UV sensors to avoid flare countermeasures. In a disputed battle environment, MANPADS are typically deployed against helicopters and airplanes. MANPADS allow soldiers to shoot and scoot, allowing them to engage the next target without revealing their location.
Modern Air and Missile Defense Systems are intended to bring together multiple capabilities from across the combined force to protect a specific area against fast-moving air and missile threats. Sensors from all defense capabilities must be coupled in various ways to decide systems that assess and judge how best to deal with inbound threats.
Force modernization programs will for radar systems and missile defense systems be one of the air and missile market trends that will drive the growth of the market growth. National procurement programs will also be a primary driver of the market.
As warfighters become overburdened by shorter decision cycles, bigger volumes of data, and more technology systems to manage, the military around the world has realized the need for automated decision aids to support combat management. To date, great attention has been placed on data collecting, data fusion, and data analytics to obtain situational awareness on the battlefield.
However, there is a new frontier and opportunity for leveraging this data to develop choice options and anticipate the outcomes of military actions. The use of artificial intelligence defense AI is expected to improve battle management decisions in the time-sensitive context of air and missile defense. Integration of AI in air and missile defense systems will be one of the key market trends that will influence the growth of the market.
Increasing defense spending will drive the market. New procurement activities and upgrades to existing platforms with newer capabilities are increasing. The increase in defense spending will encourage the procurement of new air and missile defense systems. Procurement will also be driven by prevailing geo-political conditions in Europe and the Asia Pacific.
The market forecast includes a comprehensive market analysis and market size. The market analysis includes regional market size, drivers, restraints, and opportunities. The regional analysis also includes country-wise market size.
In Kazakhstan, Russia tests a new missile from its air defense system to defend against air-space attacks. According to Major General Sergey Grabchuk, chief of the Air Force missile defense unit, combat calculations completed the task, hitting a conditional target with defined precision, after multiple tests that demonstrated the inherent qualities. The Russian Air Force is using the missile defense system.
The technology is intended to protect against airspace attacks. The MOD also made a video of the missile launch available. However, the Ministry did not divulge the name of the missile or the anti-missile defense system. Established in 1956, the Sary-Shagan test site conducts research on strategic anti-aircraft defense, anti-ballistic missile defense, and anti-satellite systems.
Turkey has agreed to begin mass manufacturing of its indigenous air defense systems and its first national tactical ballistic missile Tayfun. According to Xinhua, the committee reached such judgments over 25 significant defense industry projects during a meeting presided over by President Recep Tayyip Erdogan. Erdogan previously stated that Tayfun will have a range of 1,000 kilometers.
According to a committee statement, the indigenous air defense systems that will go into mass production include the surface-to-air missile Siper, low-altitude air defense missiles Hisar and Sungur, anti-ship missile Atmaca, laser-guided missile TRLG-230, anti-tank missile Karaok, and air-to-air missiles Gokdogan and Bozdogan.