2025-2035年全球航空航太与国防部门工程与研发

全球航空航太和国防 ER&D（工程研究、开发和发展）市场规模预计将从 2025 年的 950 亿美元增长到 2035 年的 1,650 亿美元，预测期内的复合年增长率为 5.68%。

全球航空航太与国防工程设计与研发市场：简介

全球航空航太和国防部门的工程研究与开发 (ER&D) 正在根据战略需求和不断发展的技术进步而快速发展。随着传统航空航太与网路防御、自主系统和低地球轨道太空应用等新兴领域之间的界限变得模糊，ER&D 正在被重新定义，以支援多领域功能和综合任务能力。ER&D 曾经主要由国防公司和国家航太机构的内部开发主导，现在则包括来自新创公司、私人航太公司、学术智库和其他机构的敏捷贡献。这些协作生态系统旨在加速创新，同时遵守严格的安全标准。此外，随着太空领域竞争日益激烈、商业化程度不断提高，工程与研发的范围也不断扩大。具体来说，这些包括卫星耐用性、可重复使用的太空船和空间态势感知(SSA：Space Situational Awareness) 技术。此外，随着国际紧张局势加剧和商用航空市场多样化，ER&D 不再只是一项技术支援职能；它作为各国和各企业在日益多极化的世界中确保优势的战略工具，正变得越来越重要。

航空航太与国防工程设计与研发市场：技术的影响

现代航空航太和国防工程设计与开发正在被一系列相互关联的新兴技术重塑。这些技术不仅在系统效能上而且在开发方法本身上带来重大变化。如今，先进的模拟和建模平台使工程师能够在建立实体原型之前评估系统在虚拟战斗和自然环境中的表现。这样，从实体验证到数位验证的转变对缩短设计週期和降低开发风险做出了重大贡献。此外，在国防领域，感测器融合技术整合了红外线、雷达和声学感测器等多种感测器的信息，提供了卓越的态势感知和目标识别能力。在航空航太领域，由即时分析驱动的机载健康监测系统正在彻底改变飞机的可靠性和维护计画。此外，用于协调自主无人机和无人水下航行器操作的群体智慧正在为监视和作战任务开闢新的作战范式。人机协作也是一个热门的研究领域，驾驶舱和指挥介面的发展可以动态适应人类的行为、压力程度和任务条件。这些技术的整合正在使航空航太和国防工程与研发发展到系统能够即时预测、学习和适应的程度。这正在创建一个能够确保自主性和弹性的发展框架，这在未来将变得越来越重要。

航空航太与国防工程与研发市场：关键推动因素

全球航空航太和国防部门工程与研发的演变受到多种战略、营运和市场推动因素的影响。最重要的推动因素之一是在竞争日益激烈的全球安全环境中需要具备韧性。对手在 A2/AD（反介入/区域拒止）技术方面的进步迫使国防组织重新思考系统的生存能力、冗余度和任务连续性。因此，分散式平台、隐形技术和弹性空间基础设施的研究和开发激增。此外，对即时情报和全球部署能力的需求日益增长，这需要具有高网路连接性的系统能够跨陆地、空中、海上、网路空间和太空等多个领域运作。同时，在商用航空航太领域，乘客期望的变化、城市交通的进步和永续发展目标正在加速超音速旅行、降噪技术和混合电力推进系统等新技术的研发。此外，国防采购模式也在发生变化，强调模组化和开放式架构设计。这使得快速升级和技术更新週期成为可能，使开发从传统的线性流程转变为持续的、数据驱动的创新过程。

本报告研究了航空航太和国防部门的全球 ER&D（工程研究与开发）市场，并概述了当前的市场状况、技术趋势、市场影响因素分析、市场规模趋势和预测、按地区进行的详细分析、竞争格局和主要公司的概况。

目录

全球航空航太与国防工程研发市场内容

全球航空航太与国防部门工程与研发市场：报告定义

全球航空航太与国防工程设计与研发市场：细分

按地区

按类型

按平台

按用途

全球航空航太与国防工程设计与研发市场分析：10 年预测

全球航空航太与国防工程研发市场技术

全球航空航太和国防领域工程研发市场预测

航空航太与国防工程设计与开发 (ER&D) 市场趋势及各地区预测

北美

推动因素、阻碍因素与课题

阻碍因素

市场预测与情境分析

主要公司

供应商层级格局

企业标竿管理

欧洲

中东

亚太地区

南美洲

各国门禁市场分析

美国

国防计划

最新消息

专利

目前技术成熟度

市场预测与情境分析

加拿大

义大利

法国

德国

荷兰

比利时

西班牙

瑞典

希腊

澳大利亚

南非

印度

中国

俄罗斯

韩国

日本

马来西亚

新加坡

巴西

市场机会矩阵

专家意见

概述

关于航空和国防市场报告

The global Aerospace & Defense ER&D market is estimated at USD 95 billion in 2025, projected to grow o USD 165 billion by 2035 at a Compound Annual Growth Rate (CAGR) of 5.68% over the forecast period 2025-2035.

Introduction to Global Aerospace & Defense ER&D market:

The global aerospace and defense ER&D sector is evolving rapidly as industry stakeholders adapt to new strategic imperatives and technological frontiers. As the boundaries between traditional aerospace domains and emerging verticals like cyber defense, autonomous systems, and low-earth orbit operations blur, ER&D is being redefined to support cross-domain functionality and integrated mission capabilities. No longer confined to in-house development by defense contractors and national space agencies, ER&D now includes agile contributions from startups, private space companies, and academic think tanks. These collaborative ecosystems aim to accelerate innovation while maintaining rigorous compliance with security and safety protocols. Moreover, with space becoming an increasingly contested and commercialized domain, ER&D programs are broadening in scope to include satellite resilience, reusable space vehicles, and space situational awareness technologies. As global tensions rise and commercial aviation markets diversify, ER&D is positioned not just as a support function, but as a strategic lever that enables nations and corporations to stay ahead in an era of multipolar competition.

Technology Impact in Aerospace & Defense ER&D Market:

Modern aerospace and defense ER&D is being reshaped by a wave of interconnected technologies that are changing both the capabilities of systems and the methods used to develop them. Advanced simulation and modeling platforms now allow engineers to evaluate system performance in virtual combat and environmental scenarios long before a prototype is built. This shift from physical to digital validation accelerates design cycles and reduces development risk. Sensor fusion-combining data from infrared, radar, acoustic, and other sources-is enabling superior situational awareness and target recognition in defense applications. In the aerospace sector, onboard health monitoring systems powered by real-time analytics are revolutionizing aircraft reliability and maintenance planning. Furthermore, swarm intelligence-used in coordinating autonomous drones and unmanned underwater vehicles-introduces new operational paradigms for surveillance and combat operations. Human-machine teaming, another area of intense research, is driving the development of cockpits and command interfaces that dynamically adapt to human behavior, stress levels, and mission context. The convergence of these technologies is elevating aerospace and defense ER&D to a level where systems can anticipate, learn, and adapt in real time, aligning with future needs for autonomy and resilience.

Key Drivers in Aerospace & Defense ER&D Market:

A number of strategic, operational, and market-driven forces are shaping the trajectory of aerospace and defense ER&D worldwide. One of the most critical drivers is the imperative for resilience in an increasingly contested global security environment. Adversaries' advancements in anti-access/area denial (A2/AD) technologies are pushing defense organizations to rethink system survivability, redundancy, and mission continuity. This is leading to a surge in R&D for distributed platforms, stealth technologies, and resilient space architectures. Another influential driver is the growing demand for real-time intelligence and global reach, necessitating highly networked systems that can operate across multiple domains-land, air, sea, cyber, and space. Meanwhile, in the commercial aerospace realm, evolving passenger expectations, urban mobility trends, and sustainability goals are spurring ER&D into developing supersonic travel, noise-reduction technologies, and hybrid-electric propulsion systems. Additionally, defense procurement models are increasingly favoring modular and open-architecture designs, enabling rapid upgrades and technology refresh cycles. These shifts are encouraging more iterative and collaborative engineering models, which is transforming ER&D into a continuous, data-driven innovation process rather than a linear development cycle.

Regional Trends in Aerospace & Defense ER&D Market:

The global distribution of aerospace and defense ER&D efforts reveals how different regions prioritize and approach innovation based on their strategic needs, industrial base, and geopolitical outlook. In North America, particularly the United States, ER&D remains focused on maintaining a technological edge in multi-domain operations, with heavy investment in hypersonics, counter-space capabilities, and digital engineering environments. Canada complements this with initiatives in aerospace sustainability and dual-use technologies. In Europe, innovation is being shaped by increased emphasis on sovereignty and collective defense, particularly through frameworks such as the European Defence Fund. Programs like the Tempest fighter jet in the UK and the joint Franco-German FCAS demonstrate Europe's growing ambition in developing indigenous platforms supported by robust ER&D ecosystems. In Asia-Pacific, regional dynamics vary significantly-China prioritizes self-reliance in military technologies and space dominance, while India expands its indigenous programs like the Gaganyaan mission and the Tejas fighter. Japan and South Korea, meanwhile, are increasing their R&D investments in space security and next-gen surveillance systems to keep pace with regional threats. In the Middle East, nations like the UAE and Saudi Arabia are shifting from being customers to co-developers of defense systems, establishing R&D centers and forming technology transfer partnerships to build homegrown capabilities. This growing regional diversification in ER&D efforts is contributing to a more fragmented but highly competitive global landscape.

Key Aerospace & Defense ER&D Program:

The British Army recently conducted its largest-ever trial of a UK-developed radiofrequency directed energy weapon (RF DEW) system, successfully testing it against drone swarms. Held at a weapons range in West Wales, the trial saw UK troops use the system to bring down two drone swarms in a single engagement. In total, the system tracked, engaged, and neutralized over 100 drones throughout the series of tests. The project was spearheaded by Team Hersa, a collaboration between Defence Equipment & Support and the Defence Science and Technology Laboratory, with Thales UK developing the system under a £40 million ($50 million) government investment.

Table of Contents

Global aerospace and defense engineering and R&D (ER&D) Market - Table of Contents

Global aerospace and defense engineering and R&D (ER&D) market Report Definition

Global aerospace and defense engineering and R&D (ER&D) market Segmentation

By Region

By Type

By Platform

By Application

Global aerospace and defense engineering and R&D (ER&D) market Analysis for next 10 Years

The 10-year Globalaerospace and defense engineering and R&D (ER&D) market analysis would give a detailed overview of Globalaerospace and defense engineering and R&D (ER&D) market growth, changing dynamics, technology adoption overviews and the overall market attractiveness is covered in this chapter.

Market Technologies of Global aerospace and defense engineering and R&D (ER&D)

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 and defense engineering and R&D (ER&D) market Forecast

The 10-year Globalaerospace and defense engineering and R&D (ER&D) market forecast of this market is covered in detailed across the segments which are mentioned above.

Regional aerospace and defense engineering and R&D (ER&D) market Trends & Forecast

The regional Globalaerospace and defense engineering and R&D (ER&D) 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 Access Control 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

Defense Programs

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 Global aerospace and defense engineering and R&D (ER&D) market

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

Expert Opinions on Global aerospace and defense engineering and R&D (ER&D) 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 Technology Focus, 2025-2035
• Table 19: Scenario Analysis, Scenario 1, By Application, 2025-2035
• Table 20: Scenario Analysis, Scenario 1, By Domain, 2025-2035
• Table 21: Scenario Analysis, Scenario 2, By Region, 2025-2035
• Table 22: Scenario Analysis, Scenario 2, By Technology Focus, 2025-2035
• Table 23: Scenario Analysis, Scenario 2, By Application, 2025-2035
• Table 24: Scenario Analysis, Scenario 2, By Domain, 2025-2035

List of Figures

• Figure 1: Global Aerospace and Defense R&D Forecast, 2025-2035
• Figure 2: Global Aerospace and Defense R&D Forecast, By Region, 2025-2035
• Figure 3: Global Aerospace and Defense R&D Forecast, By Technology Focus, 2025-2035
• Figure 4: Global Aerospace and Defense R&D Forecast, By Application, 2025-2035
• Figure 5: Global Aerospace and Defense R&D Forecast, By Domain, 2025-2035
• Figure 6: North America, Aerospace and Defense R&D, Market Forecast, 2025-2035
• Figure 7: Europe, Aerospace and Defense R&D, Market Forecast, 2025-2035
• Figure 8: Middle East, Aerospace and Defense R&D, Market Forecast, 2025-2035
• Figure 9: APAC, Aerospace and Defense R&D, Market Forecast, 2025-2035
• Figure 10: South America, Aerospace and Defense R&D, Market Forecast, 2025-2035
• Figure 11: United States, Aerospace and Defense R&D, Technology Maturation, 2025-2035
• Figure 12: United States, Aerospace and Defense R&D, Market Forecast, 2025-2035
• Figure 13: Canada, Aerospace and Defense R&D, Technology Maturation, 2025-2035
• Figure 14: Canada, Aerospace and Defense R&D, Market Forecast, 2025-2035
• Figure 15: Italy, Aerospace and Defense R&D, Technology Maturation, 2025-2035
• Figure 16: Italy, Aerospace and Defense R&D, Market Forecast, 2025-2035
• Figure 17: France, Aerospace and Defense R&D, Technology Maturation, 2025-2035
• Figure 18: France, Aerospace and Defense R&D, Market Forecast, 2025-2035
• Figure 19: Germany, Aerospace and Defense R&D, Technology Maturation, 2025-2035
• Figure 20: Germany, Aerospace and Defense R&D, Market Forecast, 2025-2035
• Figure 21: Netherlands, Aerospace and Defense R&D, Technology Maturation, 2025-2035
• Figure 22: Netherlands, Aerospace and Defense R&D, Market Forecast, 2025-2035
• Figure 23: Belgium, Aerospace and Defense R&D, Technology Maturation, 2025-2035
• Figure 24: Belgium, Aerospace and Defense R&D, Market Forecast, 2025-2035
• Figure 25: Spain, Aerospace and Defense R&D, Technology Maturation, 2025-2035
• Figure 26: Spain, Aerospace and Defense R&D, Market Forecast, 2025-2035
• Figure 27: Sweden, Aerospace and Defense R&D, Technology Maturation, 2025-2035
• Figure 28: Sweden, Aerospace and Defense R&D, Market Forecast, 2025-2035
• Figure 29: Brazil, Aerospace and Defense R&D, Technology Maturation, 2025-2035
• Figure 30: Brazil, Aerospace and Defense R&D, Market Forecast, 2025-2035
• Figure 31: Australia, Aerospace and Defense R&D, Technology Maturation, 2025-2035
• Figure 32: Australia, Aerospace and Defense R&D, Market Forecast, 2025-2035
• Figure 33: India, Aerospace and Defense R&D, Technology Maturation, 2025-2035
• Figure 34: India, Aerospace and Defense R&D, Market Forecast, 2025-2035
• Figure 35: China, Aerospace and Defense R&D, Technology Maturation, 2025-2035
• Figure 36: China, Aerospace and Defense R&D, Market Forecast, 2025-2035
• Figure 37: Saudi Arabia, Aerospace and Defense R&D, Technology Maturation, 2025-2035
• Figure 38: Saudi Arabia, Aerospace and Defense R&D, Market Forecast, 2025-2035
• Figure 39: South Korea, Aerospace and Defense R&D, Technology Maturation, 2025-2035
• Figure 40: South Korea, Aerospace and Defense R&D, Market Forecast, 2025-2035
• Figure 41: Japan, Aerospace and Defense R&D, Technology Maturation, 2025-2035
• Figure 42: Japan, Aerospace and Defense R&D, Market Forecast, 2025-2035
• Figure 43: Malaysia, Aerospace and Defense R&D, Technology Maturation, 2025-2035
• Figure 44: Malaysia, Aerospace and Defense R&D, Market Forecast, 2025-2035
• Figure 45: Singapore, Aerospace and Defense R&D, Technology Maturation, 2025-2035
• Figure 46: Singapore, Aerospace and Defense R&D, Market Forecast, 2025-2035
• Figure 47: United Kingdom, Aerospace and Defense R&D, Technology Maturation, 2025-2035
• Figure 48: United Kingdom, Aerospace and Defense R&D, Market Forecast, 2025-2035
• Figure 49: Opportunity Analysis, Aerospace and Defense R&D, By Region (Cumulative Market), 2025-2035
• Figure 50: Opportunity Analysis, Aerospace and Defense R&D, By Region (CAGR), 2025-2035
• Figure 51: Opportunity Analysis, Aerospace and Defense R&D, By Technology Focus (Cumulative Market), 2025-2035
• Figure 52: Opportunity Analysis, Aerospace and Defense R&D, By Technology Focus (CAGR), 2025-2035
• Figure 53: Opportunity Analysis, Aerospace and Defense R&D, By Application (Cumulative Market), 2025-2035
• Figure 54: Opportunity Analysis, Aerospace and Defense R&D, By Application (CAGR), 2025-2035
• Figure 55: Opportunity Analysis, Aerospace and Defense R&D, By Domain (Cumulative Market), 2025-2035
• Figure 56: Opportunity Analysis, Aerospace and Defense R&D, By Domain (CAGR), 2025-2035
• Figure 57: Scenario Analysis, Aerospace and Defense R&D, Cumulative Market, 2025-2035
• Figure 58: Scenario Analysis, Aerospace and Defense R&D, Global Market, 2025-2035
• Figure 59: Scenario 1, Aerospace and Defense R&D, Total Market, 2025-2035
• Figure 60: Scenario 1, Aerospace and Defense R&D, By Region, 2025-2035
• Figure 61: Scenario 1, Aerospace and Defense R&D, By Technology Focus, 2025-2035
• Figure 62: Scenario 1, Aerospace and Defense R&D, By Application, 2025-2035
• Figure 63: Scenario 1, Aerospace and Defense R&D, By Domain, 2025-2035
• Figure 64: Scenario 2, Aerospace and Defense R&D, Total Market, 2025-2035
• Figure 65: Scenario 2, Aerospace and Defense R&D, By Region, 2025-2035
• Figure 66: Scenario 2, Aerospace and Defense R&D, By Technology Focus, 2025-2035
• Figure 67: Scenario 2, Aerospace and Defense R&D, By Application, 2025-2035
• Figure 68: Scenario 2, Aerospace and Defense R&D, By Domain, 2025-2035
• Figure 69: Company Benchmark, Aerospace and Defense R&D, 2025-2035