航太防卫用航空电子学的全球市场:2025年～2035年

全球航空航太和国防航空电子市场规模预计在 2025 年为 15.7 亿美元，预计到 2035 年将增长到 32.8 亿美元，在 2025-2035 年预测期内的复合年增长率 (CAGR) 为 7.65%。

航空航太与国防航空电子市场简介：

航空航太和国防航空电子设备是指战斗机、轰炸机、运输机、无人机 (UAV) 和直升机等军用飞机中使用的电子系统和子系统。这些系统包括导航、监视、通讯、雷达、电子战、飞行控制、任务规划、驾驶舱仪表等。全球航空航太国防航空电子市场在国家安全、力量投射和战略国防规划中发挥着至关重要的作用。随着威胁的演变和防御战略转向多领域作战，航空电子系统对于确保态势感知、任务有效性和作战准备至关重要。

科技对航太和国防航空电子市场的影响：

科技正以前所未有的速度改变航空航太和国防航空电子设备。最大的变化之一是开放式架构系统的集成，允许即插即用功能和快速升级。这种模组化降低了生命週期成本，并使军队能够透过整合新技术来更快地应对新出现的威胁，而无需彻底改造整个平台。人工智慧 (AI) 和机器学习 (ML) 正在嵌入航空电子系统，以实现决策、威胁侦测和资料分析的自动化。人工智慧航空电子设备可以即时分析大量感测器数据，帮助飞行员和操作员更快、更准确地识别潜在威胁、确定目标优先顺序并优化任务参数。这在电子战和 ISR（情报、监视和侦察）行动中尤其重要。下一代显示器和扩增实境（AR）也正在重塑驾驶舱环境。头盔显示器 (HMD) 和全景触控萤幕为飞行员提供了直觉的介面，增强了态势感知能力并减少了认知工作量。使用 AR 进行任务演练和飞行导航可以为飞行员的视野增加一层新的讯息，从而实现更快、更明智的决策。网路安全已成为现代航空电子设计的核心关注点。随着飞机系统日益网路化，它们变得更容易受到网路威胁。这就是为什么我们采用安全资料链路、加密通讯和入侵侦测系统来保护航空电子网路免受恶意入侵和欺骗。感测器融合技术的进步将多个感测器输入结合起来，形成单一、有凝聚力的影像，这将大大提高侦测准确性和威胁反应能力。现代雷达系统，例如主动电子扫描阵列 (AESA) 雷达，整合了红外线搜索和追踪 (IRST)、电子支援措施和被动感测器，为空对空、空对地和海上监视提供了多领域能力。

航空航太与国防航空电子市场的关键推动因素：

全球航空航太和国防航空电子市场受到战略、营运和技术因素的共同驱动。其中最主要的是对飞机现代化日益增长的需求。世界各地的许多空军都在寻求透过用新平台取代旧系统或升级其航空电子设备来保持作战相关性。这些升级通常包括改进的通讯系统、现代雷达、电子战套件和更有效率的任务控制系统。地缘政治紧张和地区衝突也是市场的主要推动因素。随着全球力量平衡的变化以及来自国家和非国家行为体的新威胁的出现，各国都将空中优势和战场意识放在首位。这促使重点地区的国防预算增加，重点放在用于预警、快速反应和部队保护的先进航空电子设备。

无人机和无人战斗机（UCAV）的普及为航空电子创新开闢了新的途径。这些系统需要紧凑、自主的航空电子设备套件，能够支援即时通讯、监视和武器投放，通常是在极其恶劣的条件下。该子行业对安全数据链路、感测器整合和人工智慧导航的需求正在迅速增长。另一个主要推动因素是人们越来越关注多域作战 (MDO)。现代战争不再局限于陆海空三军，也延伸到网路空间、太空领域。人们对能够在所有这些领域进行通讯和协调的航空电子系统有着很大的需求。盟军之间的互通性需求进一步加强了对标准化和适应性航空电子架构的推动。此外，政府和私人公司之间的研发投资和国防工业合作正在推动市场向前发展。美国国防部联合全局指挥与控制（JADC2）和欧洲未来作战航空系统（FCAS）等专案正在推动航空电子技术的创新，重点是更快的资料共享、感测器整合和任务自主性。

航空航太与国防航空电子市场的区域趋势：

航空航太国防航空电子市场根据军事优先事项、国防预算和独特能力呈现不同的区域趋势。北美，尤其是美国，在技术开发和采购方面引领全球航空电子市场。美国国防部继续为 F-35 Lightning II、B-21 Raider 和各种无人机平台等项目投资尖端航空电子设备。该国在开发人工智慧系统、网路安全航空电子设备和电子战解决方案方面也处于领先地位。加拿大也致力于北美防空司令部的现代化建设和采购多用途战斗机，为市场做出贡献。

欧洲也是一个重要的市场，受到英国的 "暴风" 计画、法国、德国和西班牙的 "未来作战航空系统" （FCAS）计画以及欧洲战斗机 "颱风" 机队正在进行的升级等项目的推动。该地区非常重视北约内部的互通性，法国（泰雷兹）、德国（亨索尔特）和英国（BAE系统）等国家都拥有强大的国内航空电子设备製造能力。环境问题和出口管制法律决定了系统的设计、製造和跨境共享方式。亚太地区正在迅速扩大其在航空航太和国防航空电子领域的影响力。中国正大力投资歼-20隐形战斗机和不断壮大的无人机队等平台的国产航空电子系统。我们非常重视实现技术自给自足，特别是在出口管制方面。印度也正在推行 Tejas 和 AMCA 项目，并希望开发本土航空电子设备，以减少对海外供应商的依赖。在区域安全威胁和战略联盟的推动下，日本、韩国和澳洲也在提升其能力。

主要航空航太与国防航空电子专案：

GE 航空航太公司已获得一份合同，为全球的 F/A-18、AV-8B 和 AH-1Z 飞机的航空电子系统提供基于性能的物流 (PBL) 支援。该合约包括对在世界各地操作这些平台的美国海军舰队的关键任务中使用的商店控制系统提供全面支援。根据合同，GE航空集团将管理备件供应链、仓储和物流，并将提供飞机零件和子组件的站级维修服务。此外，该公司还将在海军主要设施提供现场舰队支持，包括技术培训和援助。

RTX 的子公司柯林斯航空航天公司获得了一份价值 8000 万美元的成本加固定费用合同，为美国陆军的 H-60M 直升机航空电子系统开发模组化开放系统架构。根据国防部最近的公告，资金和工作地点将根据任务顺序决定。该合约预计将于 2029 年 3 月 7 日完成。陆军合约司令部（位于阿拉巴马州红石兵工厂）负责管理采购流程，并在线上提交了一份投标书。

本报告提供全球航太防卫用航空电子学市场相关调查，彙整10年的各分类市场预测，技术趋势，机会分析，企业简介，各国资料等资讯。

目录

航太防卫用航空电子学市场报告定义

航太防卫用航空电子学市场区隔

未来 10 年航太与国防航空电子市场分析

本章透过十年的航空航太国防航空电子市场分析，详细概述了航空航太国防航空电子市场的成长、变化趋势、技术采用概述和整体市场吸引力。

航空航太与国防航空电子市场技术

本部分涵盖预计将影响该市场的十大技术以及这些技术可能对整个市场产生的影响。

全球航空航太与国防航空电子市场预测

上述部分详细解释了该市场 10 年航空航太国防电子市场预测。

区域航空航太与国防航空电子市场趋势与预测

本部分涵盖航空航太和国防航空电子市场的区域趋势、推动因素、阻碍因素、课题以及政治、经济、社会和技术方面。它还提供了详细的区域市场预测和情境分析。区域分析包括主要公司概况、供应商格局和公司基准测试。目前市场规模是根据正常业务情境估算的。

北美

促进因素，阻碍因素，课题

PEST

市场预测与情势分析

主要企业

供应商阶层的形势

企业基准

欧洲

中东

亚太地区

南美

航空航太与国防航空电子市场国家分析

本章重点介绍该市场的主要防御计划，并介绍该市场的最新新闻和专利。它还提供国家级的 10 年市场预测和情境分析。

美国

最新消息

专利

这个市场上目前技术成熟度

市场预测与情势分析

加拿大

义大利

法国

德国

荷兰

比利时

西班牙

瑞典

希腊

澳洲

南非

印度

中国

俄罗斯

韩国

日本

马来西亚

新加坡

巴西

航太防卫用航空电子学市场机会矩阵

航太防卫用航空电子学市场报告相关专家的意见

结论

关于航空·国防市场报告

The Global Aerospace Defense Avionics market is estimated at USD 1.57 billion in 2025, projected to grow to USD 3.28 billion by 2035 at a Compound Annual Growth Rate (CAGR) of 7.65% over the forecast period 2025-2035.

Introduction to Aerospace Defense Avionics Market:

Aerospace defense avionics refers to the electronic systems and subsystems used in military aircraft, including fighters, bombers, transport planes, unmanned aerial vehicles (UAVs), and helicopters. These systems include navigation, surveillance, communication, radar, electronic warfare, flight control, mission planning, and cockpit instrumentation. The global aerospace defense avionics market plays a crucial role in national security, force projection, and strategic defense planning. As threats evolve and defense strategies shift toward multi-domain operations, avionics systems have become essential for ensuring situational awareness, mission effectiveness, and operational readiness.

Technology Impact in Aerospace Defense Avionics Market:

Technology is transforming aerospace defense avionics at an unprecedented pace. One of the most significant changes is the integration of open architecture systems, allowing for plug-and-play capabilities and faster upgrades. This modularity reduces lifecycle costs and enables armed forces to adapt quickly to emerging threats by integrating newer technologies without needing to overhaul entire platforms. Artificial intelligence (AI) and machine learning (ML) are being embedded into avionics systems to automate decision-making, threat detection, and data analysis. AI-driven avionics can analyze vast amounts of sensor data in real-time, helping pilots and operators identify potential threats, prioritize targets, and optimize mission parameters with greater speed and accuracy. This is particularly crucial in electronic warfare and ISR (Intelligence, Surveillance, and Reconnaissance) operations. Next-generation displays and augmented reality (AR) are also reshaping cockpit environments. Helmet-mounted displays (HMDs) and panoramic touchscreens provide intuitive interfaces for pilots, enhancing situational awareness and reducing cognitive workload. The use of AR in mission rehearsal and in-flight navigation adds an additional layer of information to the pilot's field of vision, enabling faster and more informed decision-making. Cybersecurity has become a core concern in modern avionics design. As aircraft systems become more networked, they are increasingly vulnerable to cyber threats. This has led to the incorporation of secure data links, encrypted communications, and intrusion detection systems to protect avionics networks from hostile intrusions and spoofing. Advancements in sensor fusion, where multiple sensor inputs are combined to create a single cohesive picture, significantly improve detection accuracy and threat response. Modern radar systems such as AESA (Active Electronically Scanned Array) radars, integrated with IRST (Infrared Search and Track), electronic support measures, and passive sensors, provide multi-domain capabilities for air-to-air, air-to-ground, and maritime surveillance.

Key Drivers in Aerospace Defense Avionics Market:

The global aerospace defense avionics market is driven by a combination of strategic, operational, and technological factors. Foremost among them is the rising demand for fleet modernization. Many air forces across the globe are replacing legacy systems with newer platforms or upgrading their avionics to remain operationally relevant. These upgrades often include enhanced communication systems, modern radars, electronic warfare suites, and more efficient mission control systems. Geopolitical tensions and regional conflicts have also become significant market drivers. As global power dynamics shift and new threats emerge-from both state and non-state actors-nations are prioritizing air superiority and battlefield awareness. This has led to increased defense budgets in key regions and an emphasis on advanced avionics for early warning, rapid response, and force protection.

The proliferation of UAVs and unmanned combat aerial vehicles (UCAVs) has opened new avenues for avionics innovation. These systems require compact, autonomous avionics suites that can support real-time communication, surveillance, and weapons delivery, often under highly contested conditions. The demand for secure data links, sensor integration, and AI-enabled navigation is growing rapidly in this sub-sector. Another major driver is the increasing focus on multi-domain operations (MDO). Modern warfare is no longer confined to air, land, or sea-it spans cyber and space domains as well. Avionics systems that can communicate and coordinate across all these spheres are in high demand. The need for interoperability among allied forces further reinforces the push for standardized and adaptable avionics architectures. Additionally, R&D investments and defense-industrial collaborations between governments and private firms are propelling the market forward. Programs like the U.S. Department of Defense's Joint All-Domain Command and Control (JADC2) and the European Future Combat Air System (FCAS) are fostering innovation in avionics technologies that focus on faster data sharing, sensor integration, and mission autonomy.

Regional Trends in Aerospace Defense Avionics Market:

The aerospace defense avionics market exhibits distinct regional trends based on military priorities, defense budgets, and indigenous capabilities. North America, particularly the United States, leads the global avionics market both in terms of technological development and procurement. The U.S. Department of Defense consistently invests in cutting-edge avionics for programs like the F-35 Lightning II, B-21 Raider, and various UAV platforms. The country is also a leader in developing AI-driven systems, cyber-secure avionics, and electronic warfare solutions. Canada also contributes to the market with its focus on NORAD modernization and multi-role fighter acquisitions.

Europe is another significant market, driven by programs such as the UK's Tempest, France-Germany-Spain's FCAS, and continued upgrades to Eurofighter Typhoon fleets. The region emphasizes interoperability within NATO and has strong domestic avionics manufacturing capabilities in countries like France (Thales), Germany (Hensoldt), and the UK (BAE Systems). Environmental concerns and export control laws shape how systems are designed, manufactured, and shared across borders. Asia-Pacific is rapidly expanding its presence in aerospace defense avionics. China is heavily investing in indigenous avionics systems for platforms like the J-20 stealth fighter and its expanding UAV fleet. Emphasis is placed on achieving technological self-sufficiency, especially in the face of export restrictions. India is following suit with its Tejas and AMCA programs, aiming to develop homegrown avionics to reduce dependence on foreign suppliers. Japan, South Korea, and Australia are also advancing their capabilities, driven by regional security threats and strategic alliances.

Key Aerospace Defense Avionics Program:

GE Aerospace has secured a contract to deliver performance-based logistics (PBL) support for the avionics systems of the F/A-18, AV-8B, and AH-1Z aircraft worldwide. This agreement includes comprehensive support for the stores management systems used in critical missions by the U.S. Navy fleets operating these platforms globally. Under the contract, GE Aerospace will manage the supply chain, warehousing, and logistics of spare parts, while also providing depot-level repair services for aircraft components and subassemblies. Additionally, the company will offer on-site fleet support at key naval installations, including technical training and assistance.

Collins Aerospace, a subsidiary of RTX, has been awarded an $80 million cost-plus-fixed-fee contract to develop a modular open systems architecture for the U.S. Army's H-60M helicopter avionics system. According to a recent Department of Defense announcement, funding and work locations will be determined on a per-task-order basis. The contract is scheduled for completion by March 7, 2029. The Army Contracting Command at Redstone Arsenal, Alabama, managed the procurement process, which resulted in a single bid submitted online.

Table of Contents

Aerospace Defense Avionics Market Report Definition

Aerospace Defense Avionics Market Segmentation

By Region

By End User

By Fitment

Aerospace Defense Avionics Market Analysis for next 10 Years

The 10-year aerospace defense avionics market analysis would give a detailed overview of aerospace defense avionics market growth, changing dynamics, technology adoption overviews and the overall market attractiveness is covered in this chapter.

Market Technologies of Aerospace Defense Avionics Market

This segment covers the top 10 technologies that is expected to impact this market and the possible implications these technologies would have on the overall market.

Global Aerospace Defense Avionics Market Forecast

The 10-year aerospace defense avionics market forecast of this market is covered in detailed across the segments which are mentioned above.

Regional Aerospace Defense Avionics Market Trends & Forecast

The regional aerospace defense avionics market trends, drivers, restraints and Challenges of this market, the Political, Economic, Social and Technology aspects are covered in this segment. The market forecast and scenario analysis across regions are also covered in detailed in this segment. The last part of the regional analysis includes profiling of the key companies, supplier landscape and company benchmarking. The current market size is estimated based on the normal scenario.

North America

Drivers, Restraints and Challenges

PEST

Market Forecast & Scenario Analysis

Key Companies

Supplier Tier Landscape

Company Benchmarking

Europe

Middle East

APAC

South America

Country Analysis of Aerospace Defense Avionics Market

This chapter deals with the key defense programs in this market, it also covers the latest news and patents which have been filed in this market. Country level 10 year market forecast and scenario analysis are also covered in this chapter.

US

Latest News

Patents

Current levels of technology maturation in this market

Market Forecast & Scenario Analysis

Canada

Italy

France

Germany

Netherlands

Belgium

Spain

Sweden

Greece

Australia

South Africa

India

China

Russia

South Korea

Japan

Malaysia

Singapore

Brazil

Opportunity Matrix for Aerospace Defense Avionics Market

The opportunity matrix helps the readers understand the high opportunity segments in this market.

Expert Opinions on Aerospace Defense Avionics Market Report

Hear from our experts their opinion of the possible analysis for this market.

Conclusions

About Aviation and Defense Market Reports

List of Tables

• Table 1: 10 Year Market Outlook, 2025-2035
• Table 2: Drivers, Impact Analysis, North America
• Table 3: Restraints, Impact Analysis, North America
• Table 4: Challenges, Impact Analysis, North America
• Table 5: Drivers, Impact Analysis, Europe
• Table 6: Restraints, Impact Analysis, Europe
• Table 7: Challenges, Impact Analysis, Europe
• Table 8: Drivers, Impact Analysis, Middle East
• Table 9: Restraints, Impact Analysis, Middle East
• Table 10: Challenges, Impact Analysis, Middle East
• Table 11: Drivers, Impact Analysis, APAC
• Table 12: Restraints, Impact Analysis, APAC
• Table 13: Challenges, Impact Analysis, APAC
• Table 14: Drivers, Impact Analysis, South America
• Table 15: Restraints, Impact Analysis, South America
• Table 16: Challenges, Impact Analysis, South America
• Table 17: Scenario Analysis, Scenario 1, By Region, 2025-2035
• Table 18: Scenario Analysis, Scenario 1, By Platform, 2025-2035
• Table 19: Scenario Analysis, Scenario 1, By Fit, 2025-2035
• Table 20: Scenario Analysis, Scenario 2, By Region, 2025-2035
• Table 21: Scenario Analysis, Scenario 2, By Platform, 2025-2035
• Table 22: Scenario Analysis, Scenario 2, By Fit, 2025-2035

List of Figures

• Figure 1: Global Aerospace Defense Avionics Market Forecast, 2025-2035
• Figure 2: Global Aerospace Defense Avionics Market Forecast, By Region, 2025-2035
• Figure 3: Global Aerospace Defense Avionics Market Forecast, By Platform, 2025-2035
• Figure 4: Global Aerospace Defense Avionics Market Forecast, By Fit, 2025-2035
• Figure 5: North America, Aerospace Defense Avionics Market, Market Forecast, 2025-2035
• Figure 6: Europe, Aerospace Defense Avionics Market, Market Forecast, 2025-2035
• Figure 7: Middle East, Aerospace Defense Avionics Market, Market Forecast, 2025-2035
• Figure 8: APAC, Aerospace Defense Avionics Market, Market Forecast, 2025-2035
• Figure 9: South America, Aerospace Defense Avionics Market, Market Forecast, 2025-2035
• Figure 10: United States, Aerospace Defense Avionics Market, Technology Maturation, 2025-2035
• Figure 11: United States, Aerospace Defense Avionics Market, Market Forecast, 2025-2035
• Figure 12: Canada, Aerospace Defense Avionics Market, Technology Maturation, 2025-2035
• Figure 13: Canada, Aerospace Defense Avionics Market, Market Forecast, 2025-2035
• Figure 14: Italy, Aerospace Defense Avionics Market, Technology Maturation, 2025-2035
• Figure 15: Italy, Aerospace Defense Avionics Market, Market Forecast, 2025-2035
• Figure 16: France, Aerospace Defense Avionics Market, Technology Maturation, 2025-2035
• Figure 17: France, Aerospace Defense Avionics Market, Market Forecast, 2025-2035
• Figure 18: Germany, Aerospace Defense Avionics Market, Technology Maturation, 2025-2035
• Figure 19: Germany, Aerospace Defense Avionics Market, Market Forecast, 2025-2035
• Figure 20: Netherlands, Aerospace Defense Avionics Market, Technology Maturation, 2025-2035
• Figure 21: Netherlands, Aerospace Defense Avionics Market, Market Forecast, 2025-2035
• Figure 22: Belgium, Aerospace Defense Avionics Market, Technology Maturation, 2025-2035
• Figure 23: Belgium, Aerospace Defense Avionics Market, Market Forecast, 2025-2035
• Figure 24: Spain, Aerospace Defense Avionics Market, Technology Maturation, 2025-2035
• Figure 25: Spain, Aerospace Defense Avionics Market, Market Forecast, 2025-2035
• Figure 26: Sweden, Aerospace Defense Avionics Market, Technology Maturation, 2025-2035
• Figure 27: Sweden, Aerospace Defense Avionics Market, Market Forecast, 2025-2035
• Figure 28: Brazil, Aerospace Defense Avionics Market, Technology Maturation, 2025-2035
• Figure 29: Brazil, Aerospace Defense Avionics Market, Market Forecast, 2025-2035
• Figure 30: Australia, Aerospace Defense Avionics Market, Technology Maturation, 2025-2035
• Figure 31: Australia, Aerospace Defense Avionics Market, Market Forecast, 2025-2035
• Figure 32: India, Aerospace Defense Avionics Market, Technology Maturation, 2025-2035
• Figure 33: India, Aerospace Defense Avionics Market, Market Forecast, 2025-2035
• Figure 34: China, Aerospace Defense Avionics Market, Technology Maturation, 2025-2035
• Figure 35: China, Aerospace Defense Avionics Market, Market Forecast, 2025-2035
• Figure 36: Saudi Arabia, Aerospace Defense Avionics Market, Technology Maturation, 2025-2035
• Figure 37: Saudi Arabia, Aerospace Defense Avionics Market, Market Forecast, 2025-2035
• Figure 38: South Korea, Aerospace Defense Avionics Market, Technology Maturation, 2025-2035
• Figure 39: South Korea, Aerospace Defense Avionics Market, Market Forecast, 2025-2035
• Figure 40: Japan, Aerospace Defense Avionics Market, Technology Maturation, 2025-2035
• Figure 41: Japan, Aerospace Defense Avionics Market, Market Forecast, 2025-2035
• Figure 42: Malaysia, Aerospace Defense Avionics Market, Technology Maturation, 2025-2035
• Figure 43: Malaysia, Aerospace Defense Avionics Market, Market Forecast, 2025-2035
• Figure 44: Singapore, Aerospace Defense Avionics Market, Technology Maturation, 2025-2035
• Figure 45: Singapore, Aerospace Defense Avionics Market, Market Forecast, 2025-2035
• Figure 46: United Kingdom, Aerospace Defense Avionics Market, Technology Maturation, 2025-2035
• Figure 47: United Kingdom, Aerospace Defense Avionics Market, Market Forecast, 2025-2035
• Figure 48: Opportunity Analysis, Aerospace Defense Avionics Market, By Region (Cumulative Market), 2025-2035
• Figure 49: Opportunity Analysis, Aerospace Defense Avionics Market, By Region (CAGR), 2025-2035
• Figure 50: Opportunity Analysis, Aerospace Defense Avionics Market, By Platform (Cumulative Market), 2025-2035
• Figure 51: Opportunity Analysis, Aerospace Defense Avionics Market, By Platform (CAGR), 2025-2035
• Figure 52: Opportunity Analysis, Aerospace Defense Avionics Market, By Fit (Cumulative Market), 2025-2035
• Figure 53: Opportunity Analysis, Aerospace Defense Avionics Market, By Fit (CAGR), 2025-2035
• Figure 54: Scenario Analysis, Aerospace Defense Avionics Market, Cumulative Market, 2025-2035
• Figure 55: Scenario Analysis, Aerospace Defense Avionics Market, Global Market, 2025-2035
• Figure 56: Scenario 1, Aerospace Defense Avionics Market, Total Market, 2025-2035
• Figure 57: Scenario 1, Aerospace Defense Avionics Market, By Region, 2025-2035
• Figure 58: Scenario 1, Aerospace Defense Avionics Market, By Platform, 2025-2035
• Figure 59: Scenario 1, Aerospace Defense Avionics Market, By Fit, 2025-2035
• Figure 60: Scenario 2, Aerospace Defense Avionics Market, Total Market, 2025-2035
• Figure 61: Scenario 2, Aerospace Defense Avionics Market, By Region, 2025-2035
• Figure 62: Scenario 2, Aerospace Defense Avionics Market, By Platform, 2025-2035
• Figure 63: Scenario 2, Aerospace Defense Avionics Market, By Fit, 2025-2035
• Figure 64: Company Benchmark, Aerospace Defense Avionics Market, 2025-2035