市场调查报告书
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全球航空航天防御航空电子设备市场Global Aerospace Defense Avionics Market |
航空电子设备,顾名思义,是指飞机上使用的电气系统。 防御性航空电子设备是航空电子设备的战备战术分支。 各种系统的通信、导航、管理和显示,以及飞机上执行特定任务的数百个设备都属于航空电子系统的范畴。 这些系统的复杂性多种多样,从机载预警平台的战术系统到警用飞机的探照灯等简单的系统。
术语“军用航空电子设备”包括飞行控制、导航、通信、活动监视器、光电和红外威胁传感器、武器跟踪设备、安全战术通信、对抗分配器和其他功能,以及内置 A各种电子支持、攻击和保护功能 因此,集成到军事技术中的系统结合了硬杀伤和软杀伤对抗措施。
由于其军事方向,这些航空电子设备的构造更加坚固。 它们被安置在更能抵抗敌人火力的容器中,或者它们是使用特殊材料定制的,这些材料本身在必须运行的恶劣环境中更能抵抗损坏。 所有这些特殊预防措施都已到位,以支持任务并确保依赖该任务的军事人员的安全。
不断加剧的地区衝突增加了对作战应用的复杂国防航空电子设备的需求。 此外,一些国家正在通过采购计划和现代化计划大力投资于机队升级。 因此,这可能会导致随后的投资增加。 美国和中国之间有一场众所周知的军事权力斗争。
国防和军事领域投资的增加也推动了市场扩张,因为现有飞机采用最新的航空电子系统进行更新,以满足安全和完整性标准。 军事预算的增加将增加飞机及相关技术的采购。
军用飞机越来越频繁地用于执行部队运输、人道主义援助和自然灾害救援等辅助任务,这推动了市场的增长。 因此,所有上述因素近期都对市场增长产生了重大影响,并且预计未来将继续产生这种影响。
延长飞机的使用寿命是当今面临的主要市场挑战之一。 延长飞机的使用寿命将导致拥有的飞机数量增加,并随之增加飞机的使用量。 延长整个飞机系统寿命的最关键因素之一是提高航空电子系统的容量。 当关键部件不再生产或过时时,许多军用级供应商就会倒闭。
此外,为满足历史需求而构建的传统飞机航电系统,无法有效地用于执行新任务、应对新威胁或新的信息密集型战场环境,但可能没有足够的能力发挥作用。 随着机队的成熟,管理和维护航空电子设备将变得更加困难。
虽然每个航空电子功能都是独立实现的,但现代航空电子系统严重依赖军事要求和标准。 其结果是军事硬件、软件和支持环境的激增,所有这些的开发、获取和维护都非常昂贵。 因此,国防航空电子市场分析表明,军用航空电子硬件和软件主要基于现成技术。
Joby Aviation 最近扩大了与美国国防部 (DoD) 的合同。 美国陆军、海军和空军目前正在测试和研究乔比的电动垂直起降(eVTOL)飞机。 最近的扩张使合同的潜在价值增加了□□超过 4500 万美元,使总潜在价值超过 7500 万美元。 该公司计划在获得美国联邦航空管理局的型号认证后于 2024 年推出 eVTOL。 此外,Joby团队已正式申请同步英国FAA型号认证验证。
本报告探讨了全球航空航天和国防航空电子市场,彙编了技术趋势、市场趋势和预测、区域和国家趋势以及市场机会。
Avionics as the name suggests are typically electrical systems used on an aircraft. Defense avionics is a combat-ready, tactical branch of avionics. Communications, navigation, the management and display of various systems, and the hundreds of devices installed on airplanes to carry out specific tasks are all included in the category of avionic systems. These can range in complexity from the tactical system for an airborne early warning platform to something as straightforward as a searchlight for a police aircraft.
The term "military avionics" refers to a variety of embedded electronic support, attack, and protection capabilities, as well as flight control, navigation, communications, activity monitors, electro-optic and infrared threat sensors, weapons trackers, secure tactical communications, countermeasures dispensers, and other capabilities. Therefore, the systems integrated into military technology have both hard-kill and soft-kill measures embedded into the technology.
Due to their military orientation, these avionics are also constructed more robustly. They are either housed in containers that are more resistant to enemy attack or they are made to order using special materials that are inherently more able to withstand damage in the harsh environments in which they must operate. These extra precautions are all in place to support the mission and guarantee the security of the military men who depend on them.
The demand for sophisticated defense aerospace avionics for combat applications is increasing because of the rise in regional conflicts. Moreover, several countries have been investing heavily in upgrading their fleet through modernization as well as acquisition programs. Therefore, this could lead to a subsequent increase in investment. One of the prominently known military struggles for power is between the US and China.
By updating existing aircraft with modern aerospace avionics systems to fulfill safety and integrity standards, increased investments in the defense and military sectors are also assisting market expansion. An increased military budget is hereby poised to increase the procurement of aircraft and related technology.
Military aircraft are being employed more frequently for supplementary tasks such as troop transportation, humanitarian aid, and natural disaster rescue, which is boosting the market growth. Because of this, all of the aforementioned factors have recently had a significant impact on market growth and are expected to do so going forward.
Increasing the life associated with an aircraft is one of the key market challenges faced today. The increased lifespan of an aircraft translates to an increase in fleet size and subsequent usage of the same. One of the most essential elements of extending the lifespan of a whole aircraft system is increasing the capacity of an avionics system. As vital components stop being produced or become outdated, many former providers of military-grade components go out of business.
Additionally, traditional aircraft avionics systems that were created to meet historical needs might not have the full capability to carry out new missions, respond to new threats, or function effectively in new information-intensive battlefield settings. As the fleet of aircraft matures, managing and maintaining avionics equipment will get harder.
Even though each avionic function is implemented separately, modern avionic systems heavily rely on military requirements and standards. Military hardware, software, and support environments have multiplied as a result, all of which are expensive to develop, acquire, and maintain. As a result, commercial off-the-shelf technologies are predominantly used in military avionics hardware and software as per defense avionics market analysis.
Recent contract expansion by Joby Aviation with the US Department of Defense (DoD). The Army, Navy, and Air Force of the United States are now testing and investigating uses for Joby's electric vertical take-off and landing (eVTOL) aircraft. Following the recent expansion, the contract's potential value climbed by over $45 million, bringing the total potential value to over $75 million. Following type certification with the Federal Aviation Administration, the business anticipates launching the eVTOL in 2024. Additionally, Joby's team formally applied concurrent validation of its UK FAA-type certification.