일본의 항공우주 로봇 시장 보고서 : 구성요소, 유형, 기술, 적재량, 용도, 지역별(2025-2033년)
Japan Aerospace Robotics Market Report by Component, Type, Technology, Payload, Application, and Region 2025-2033
상품코드:1609722
리서치사:IMARC
발행일:On Demand Report
페이지 정보:영문 116 Pages
라이선스 & 가격 (부가세 별도)
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한글목차
일본의 항공우주 로봇 시장 규모는 2024년 2억 4,230만 달러로 추정됩니다. IMARC Group은 2025년부터 2033년까지 10.8%의 연평균 성장률(CAGR)로 2033년에는 6억 980만 달러에 달할 것으로 예측했습니다. 항공우주 제조의 정밀도에 대한 요구 증가, 로봇 공학 기술 혁신을 촉진하는 정부 지원 증가, 국가 안보에 대한 관심 증가, 국가의 높은 기술 전문성 등이 시장을 주도하는 주요 요인으로 꼽히고 있습니다.
본 보고서에서 다룬 주요 질문
일본의 항공우주 로봇 시장은 지금까지 어떻게 성장해 왔으며, 앞으로 어떻게 발전해 나갈 것인가?
코로나19가 일본 항공우주 로봇 시장에 미치는 영향은?
일본 항공우주 로봇 시장의 부품별 구성 요소는?
일본의 항공우주 로봇 시장 유형별 분류는?
일본의 항공우주 로봇 시장 기술별 현황은?
일본의 항공우주 로봇 시장 적재량별 시장 현황은?
일본의 항공우주 로봇 시장 용도별 현황은?
일본 항공우주 로봇 시장의 가치사슬에는 어떤 단계가 있는가?
일본 항공우주 로봇의 주요 추진 요인과 과제는?
일본 항공우주 로봇 시장의 구조와 주요 기업은?
일본의 항공우주 로봇 시장에서의 경쟁은 어느 정도인가?
목차
제1장 서문
제2장 조사 범위와 조사 방법
조사 목적
이해관계자
데이터 소스
시장 추정
조사 방법
제3장 주요 요약
제4장 일본의 항공우주 로봇 시장 : 서론
개요
시장 역학
업계 동향
경쟁 정보
제5장 일본의 항공우주 로봇 시장 구도
과거 및 현재 시장 동향(2019-2024년)
시장 예측(2025-2033년)
제6장 일본의 항공우주 로봇 시장 : 컴포넌트별 분석
컨트롤러
암 프로세서
엔드 이펙터
카메라 및 센서
기타
제7장 일본의 항공우주 로봇 시장 : 유형별 분석
관절식
데카르트
SCARA
평행
기타
제8장 일본의 항공우주 로봇 시장 : 기술별 분석
기존
협업
제9장 일본의 항공우주 로봇 시장 : 적재량별 분석
16.00KG까지
16.01-60.00KG
60.01-225.00KG
225.00KG 이상
제10장 일본의 항공우주 로봇 시장 : 용도별 분석
굴착
용접
코팅
평행
기타
제11장 일본의 항공우주 로봇 시장 : 경쟁 구도
개요
시장 구조
시장 기업 포지셔닝
주요 성공 전략
경쟁 대시보드
기업 평가 상한
제12장 주요 기업 개요
제13장 일본의 항공우주 로봇 시장 : 업계 분석
성장 촉진요인 및 억제요인과 기회
Porter의 Five Forces 분석
밸류체인 분석
제14장 부록
LSH
영문 목차
영문목차
Japan aerospace robotics market size reached USD 242.3 Million in 2024. Looking forward, IMARC Group expects the market to reach USD 609.8 Million by 2033, exhibiting a growth rate (CAGR) of 10.8% during 2025-2033. The increasing demand for precision in aerospace manufacturing, rising governmental support fostering innovation in robotics, heightened focus on national security, and advanced technological expertise of the country represent some of the key factors driving the market.
Aerospace robotics refers to the integration and application of robotic systems within the aerospace industry. This technology is currently transforming the way aircraft are manufactured, maintained, and operated. Utilizing robotics in aerospace facilitates high precision, operational efficiency, and a reduction in human error. The range of applications spans from the assembly of intricate aircraft components to autonomous drones that perform surveillance or cargo delivery. Advanced robotic arms, programmed with intricate algorithms, perform complex tasks such as welding, painting, and component installation. These systems increase production speed while maintaining or even improving quality standards. They are also employed in the maintenance, repair, and overhaul (MRO) sector, where robots assist technicians in the inspection and upkeep of aircraft. Moreover, aerospace robotics extends to space exploration. Robotic systems are integral to satellite deployments, space station operations, and planetary rovers. These machines work in extreme conditions, often unmanageable or hazardous for human beings. Given the critical nature of aerospace activities, the implementation of these robots is governed by stringent safety protocols involving exhaustive testing and quality assurance procedures. As a result, aerospace robotics is gaining immense traction in Japan, contributing to safer, more efficient, and more cost-effective aerospace operations.
Japan Aerospace Robotics Market Trends:
The Japan aerospace robotics market is experiencing substantial growth, fueled by a multitude of factors. One of the most significant drivers is the country's advanced technological landscape, particularly in robotics and artificial intelligence. Japan has a strong technological expertise in robotics, which naturally extends into aerospace applications, thus providing fertile ground for innovation and development in aerospace robotics. In addition, the rising demand for precision and efficiency in the aerospace sector represents another major growth-inducing factor. As Japan focuses on manufacturing high-quality aerospace components, the role of robotics in ensuring precision, speed, and quality control becomes increasingly critical. Automation via robotics can significantly reduce production time, lower costs, and enhance product quality, which in turn is accelerating product adoption rates. Besides this, Japan's strategic geographical position and a heightened focus on national security make the aerospace sector a high-priority industry. The application of robotics in surveillance, reconnaissance, and disaster response activities is among the focal points in the country's defense policy. Consequently, robotics capable of functioning in challenging terrains and conditions are gaining prominence, driving investments and research in this sector. Furthermore, the escalating governmental support in the form of various incentives, grants, and policy frameworks that aim to foster innovation and technological advancements in aerospace robotics is propelling market growth. In line with this, the growing number of public-private partnerships, channeling resources into research and development (R&D) projects that push the envelope in this domain, is positively influencing the market. Moreover, there is a shifting trend toward the development of unmanned aerial vehicles (UAVs) and drones for commercial use, such as delivery services, agricultural monitoring, and even human transportation. This proliferation has catalyzed the demand for advanced robotics for control systems, navigation, and operations. Along with this, the presence of numerous aerospace companies and suppliers in Japan has spurred the adoption of the latest technologies to maintain competitiveness, thus supporting market growth.
Japan Aerospace Robotics Market Segmentation:
Component Insights:
Controller
Arm Processor
End Effector
Camera and Sensors
Others
Type Insights:
Articulated
Cartesian
SCARA
Parallel
Others
Technology Insights:
Traditional
Collaborative
Payload Insights:
Up to 16.00 KG
16.01-60.00 KG
60.01-225.00 KG
More Than 225.00 KG
Application Insights:
Drilling
Welding
Painting
Inspection
Others
Competitive Landscape:
The market research report has also provided a comprehensive analysis of the competitive landscape. Competitive analysis such as market structure, key player positioning, top winning strategies, competitive dashboard, and company evaluation quadrant has been covered in the report. Also, detailed profiles of all major companies have been provided.
Key Questions Answered in This Report:
How has the Japan aerospace robotics market performed so far and how will it perform in the coming years?
What has been the impact of COVID-19 on the Japan aerospace robotics market?
What is the breakup of the Japan aerospace robotics market on the basis of component?
What is the breakup of the Japan aerospace robotics market on the basis of type?
What is the breakup of the Japan aerospace robotics market on the basis of technology?
What is the breakup of the Japan aerospace robotics market on the basis of payload?
What is the breakup of the Japan aerospace robotics market on the basis of application?
What are the various stages in the value chain of the Japan aerospace robotics market?
What are the key driving factors and challenges in the Japan aerospace robotics?
What is the structure of the Japan aerospace robotics market and who are the key players?
What is the degree of competition in the Japan aerospace robotics market?
Table of Contents
1 Preface
2 Scope and Methodology
2.1 Objectives of the Study
2.2 Stakeholders
2.3 Data Sources
2.3.1 Primary Sources
2.3.2 Secondary Sources
2.4 Market Estimation
2.4.1 Bottom-Up Approach
2.4.2 Top-Down Approach
2.5 Forecasting Methodology
3 Executive Summary
4 Japan Aerospace Robotics Market - Introduction
4.1 Overview
4.2 Market Dynamics
4.3 Industry Trends
4.4 Competitive Intelligence
5 Japan Aerospace Robotics Market Landscape
5.1 Historical and Current Market Trends (2019-2024)
5.2 Market Forecast (2025-2033)
6 Japan Aerospace Robotics Market - Breakup by Component
6.1 Controller
6.1.1 Overview
6.1.2 Historical and Current Market Trends (2019-2024)
6.1.3 Market Forecast (2025-2033)
6.2 Arm Processor
6.2.1 Overview
6.2.2 Historical and Current Market Trends (2019-2024)
6.2.3 Market Forecast (2025-2033)
6.3 End Effector
6.3.1 Overview
6.3.2 Historical and Current Market Trends (2019-2024)
6.3.3 Market Forecast (2025-2033)
6.4 Camera and Sensors
6.4.1 Overview
6.4.2 Historical and Current Market Trends (2019-2024)
6.4.3 Market Forecast (2025-2033)
6.5 Others
6.5.1 Historical and Current Market Trends (2019-2024)
6.5.2 Market Forecast (2025-2033)
7 Japan Aerospace Robotics Market - Breakup by Type
7.1 Articulated
7.1.1 Overview
7.1.2 Historical and Current Market Trends (2019-2024)
7.1.3 Market Forecast (2025-2033)
7.2 Cartesian
7.2.1 Overview
7.2.2 Historical and Current Market Trends (2019-2024)
7.2.3 Market Forecast (2025-2033)
7.3 SCARA
7.3.1 Overview
7.3.2 Historical and Current Market Trends (2019-2024)
7.3.3 Market Forecast (2025-2033)
7.4 Parallel
7.4.1 Overview
7.4.2 Historical and Current Market Trends (2019-2024)
7.4.3 Market Forecast (2025-2033)
7.5 Others
7.5.1 Historical and Current Market Trends (2019-2024)
7.5.2 Market Forecast (2025-2033)
8 Japan Aerospace Robotics Market - Breakup by Technology
8.1 Traditional
8.1.1 Overview
8.1.2 Historical and Current Market Trends (2019-2024)
8.1.3 Market Forecast (2025-2033)
8.2 Collaborative
8.2.1 Overview
8.2.2 Historical and Current Market Trends (2019-2024)
8.2.3 Market Forecast (2025-2033)
9 Japan Aerospace Robotics Market - Breakup by Payload
9.1 Up to 16.00 KG
9.1.1 Overview
9.1.2 Historical and Current Market Trends (2019-2024)
9.1.3 Market Forecast (2025-2033)
9.2 16.01-60.00 KG
9.2.1 Overview
9.2.2 Historical and Current Market Trends (2019-2024)
9.2.3 Market Forecast (2025-2033)
9.3 60.01-225.00 KG
9.3.1 Overview
9.3.2 Historical and Current Market Trends (2019-2024)
9.3.3 Market Forecast (2025-2033)
9.4 More Than 225.00 KG
9.4.1 Overview
9.4.2 Historical and Current Market Trends (2019-2024)
9.4.3 Market Forecast (2025-2033)
10 Japan Aerospace Robotics Market - Breakup by Application
10.1 Drilling
10.1.1 Overview
10.1.2 Historical and Current Market Trends (2019-2024)
10.1.3 Market Forecast (2025-2033)
10.2 Welding
10.2.1 Overview
10.2.2 Historical and Current Market Trends (2019-2024)
10.2.3 Market Forecast (2025-2033)
10.3 Painting
10.3.1 Overview
10.3.2 Historical and Current Market Trends (2019-2024)
10.3.3 Market Forecast (2025-2033)
10.4 Parallel
10.4.1 Overview
10.4.2 Historical and Current Market Trends (2019-2024)
10.4.3 Market Forecast (2025-2033)
10.5 Others
10.5.1 Historical and Current Market Trends (2019-2024)
10.5.2 Market Forecast (2025-2033)
11 Japan Aerospace Robotics Market - Competitive Landscape
11.1 Overview
11.2 Market Structure
11.3 Market Player Positioning
11.4 Top Winning Strategies
11.5 Competitive Dashboard
11.6 Company Evaluation Quadrant
12 Profiles of Key Players
12.1 Company A
12.1.1 Business Overview
12.1.2 Product Portfolio
12.1.3 Business Strategies
12.1.4 SWOT Analysis
12.1.5 Major News and Events
12.2 Company B
12.2.1 Business Overview
12.2.2 Product Portfolio
12.2.3 Business Strategies
12.2.4 SWOT Analysis
12.2.5 Major News and Events
12.3 Company C
12.3.1 Business Overview
12.3.2 Product Portfolio
12.3.3 Business Strategies
12.3.4 SWOT Analysis
12.3.5 Major News and Events
12.4 Company D
12.4.1 Business Overview
12.4.2 Product Portfolio
12.4.3 Business Strategies
12.4.4 SWOT Analysis
12.4.5 Major News and Events
12.5 Company E
12.5.1 Business Overview
12.5.2 Product Portfolio
12.5.3 Business Strategies
12.5.4 SWOT Analysis
12.5.5 Major News and Events
13 Japan Aerospace Robotics Market - Industry Analysis
