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航空和航太 IoT

市場調查報告書

商品編碼

1733163

全球航空物聯網市場規模（按組件、應用、最終用戶、區域範圍和預測）

Global Aviation IoT Market Size By Component (Hardware, Service), By Application (Aircraft Operations, Asset Management), By End-User (Airline Operators, Airport), By Geographic Scope And Forecast

出版日期: 2025年04月29日 | 出版商:

Verified Market Research | 英文 202 Pages | 商品交期: 2-3個工作天內

價格

簡介目錄

航空物聯網市場規模及預測

2024 年航空物聯網市場規模價值 89.2 億美元，預計到 2032 年將達到 461 億美元，2026 年至 2032 年的複合年成長率為 22.80%。

航空物聯網是指物聯網（IoT）技術與航空業的整合。透過連接飛機、機場和空中交通管理內的各種組件和系統，物聯網實現即時數據收集、分析和自動化。
物聯網感測器可以監控飛機部件並在潛在問題導致故障之前檢測到它們，從而減少停機時間和維護成本。
支援物聯網的設備可以追蹤飛機、行李和乘客的位置和狀態，提高業務效率並增強客戶體驗。
物聯網感測器可以監測燃料消費量並確定需要改進的領域，從而顯著節省成本。
物聯網可以實現對飛機系統的遠端監控，從而實現主動維護和故障排除。
物聯網系統透過提供飛機性能、天氣狀況和空中交通的即時數據來提高安全性，有助於防止事故和事件的發生。
物聯網可以透過提供即時航班資訊、行李追蹤和客艙娛樂等個人化服務來提升乘客體驗。

全球航空物聯網市場動態

影響全球航空物聯網市場的關鍵市場動態是：

關鍵市場促進因素

更重視安全和效率：航空業始終將安全和效率放在首位。物聯網技術為這兩個領域帶來了顯著的優勢。物聯網感測器可以監控飛機部件並在潛在問題導致故障之前檢測到它們，從而減少停機時間和維護成本。支援物聯網的設備可以追蹤飛機、行李和乘客的位置和狀態，提高營運效率並增強客戶體驗。物聯網可以幫助最佳化航空業務的各個方面，包括燃料消耗、空中交通管理和地面處理，從而提高效率並節省成本。
不斷進步的技術：感測器、連接和數據分析等物聯網技術的進步使得航空業物聯網解決方案的實施更加實用且更具成本效益。現在可以將更小、更強大的感測器整合到飛機部件中，提供各種參數的即時數據。 5G 等無線通訊技術的進步為物聯網應用提供了可靠、高速的資料傳輸。物聯網平台利用先進的數據分析技術從收集的數據中提取有價值的見解並實現數據主導的決策。
強制性監管要求：世界各地的航空當局擴大要求使用物聯網技術來提高安全性和效率。這種監管推動為物聯網解決方案的採用創造了有利的環境，因為航空公司和機場被迫遵守這些要求。例如，國際民航組織（ICAO）已發布了在航空領域使用物聯網的指南，並鼓勵其採用。航空當局可能還會有特定的網路安全要求，以防範可能危及飛機和空中交通系統安全的網路威脅。
燃料成本上升：物聯網感測器可以監測燃料水平、消耗率和洩漏，為航空公司提供即時數據以確定需要改進的領域。航空燃油成本上漲是航空公司關注的一大問題。物聯網透過提供飛機性能、天氣和空中交通的即時數據來幫助最佳化燃料消耗。這使得航空公司能夠做出數據驅動的決策，例如最佳化航線和減少不必要的燃料消耗，從而顯著節省成本。物聯網還可用於開發和實施提高飛機燃油效率的新技術，例如更有效率的引擎和空氣動力學設計。

主要問題

網路安全風險增加：物聯網與航空業（包括飛機系統、機場和空中交通管理）的整合增加了遭受網路攻擊的可能性。受損的物聯網系統可能會擾亂航班和地面業務，甚至對乘客安全構成威脅。確保物聯網設備和網路的強大網路安全措施至關重要，但互聯系統的複雜性使這成為一個巨大的挑戰。
互通性和標準化要求：航空業缺乏通用的標準，使得不同的物聯網設備和系統難以有效通訊。如果沒有統一性，將新的物聯網解決方案整合到現有的航空基礎設施中將會成本高昂且複雜。航空領域需要標準化通訊協定來實現無縫互通性，但就此類標準達成全球共識仍然是一個挑戰。
監管障礙不斷上升：航空業是一個受到嚴格監管的行業，引入新的物聯網技術需要遵守美國聯邦航空管理局 (FAA) 和歐盟航空安全局 (EASA) 等組織制定的嚴格的安全和操作標準。遵守這些法規、獲得認證以及處理責任問題可能會減緩物聯網解決方案的採用。

主要趨勢

預測性維護：預測性維護是物聯網在航空業的關鍵應用。透過利用物聯網感測器和數據分析，航空公司可以監控飛機零件的健康狀況，並在潛在問題導致故障之前發現它們。這使得主動維護成為可能，減少了停機時間並提高了營運效率。先進的數據分析演算法可以處理收集的數據以預測潛在故障並建議維護措施。預測性維護使航空公司能夠最佳化維護計劃，減少不必要的停機時間和成本。
即時追蹤的需求不斷增加：即時追蹤可讓乘客隨時了解其航班狀態、行李位置和其他相關資訊。這可以減輕壓力並改善您的整體旅行體驗。即時追蹤還可以提供可用於預防事故和事件的資訊，從而幫助提高安全性。例如，追蹤飛機的位置可以幫助防止碰撞，追蹤行李可以幫助防止其遺失或被盜。
燃油最佳化：在航空業中，燃油最佳化是指使用策略和技術來降低燃油消耗並提高燃油效率。這一部分對於航空公司來說至關重要，因為燃料成本佔其營運費用的很大一部分。減少燃料消耗可以減少溫室氣體排放，改善航空對環境的影響。燃油最佳化需要對飛行路線、飛機維護和空中交通管理等各種因素進行精心規劃和協調，以提高整體營運效率。

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Aviation IoT refers to the integration of Internet of Things (IoT) technology into the aviation industry. By connecting various components and systems within aircraft, airports, and air traffic management, IoT enables real-time data collection, analysis, and automation.
IoT sensors can monitor aircraft components and detect potential issues before they lead to failures, reducing downtime and maintenance costs.
IoT-enabled devices can track the location and status of aircraft, baggage, and passengers, improving operational efficiency and enhancing customer experience.
IoT sensors can monitor fuel consumption and identify areas for improvement, leading to significant cost savings.
IoT can enable remote monitoring of aircraft systems, allowing for proactive maintenance and troubleshooting.
IoT-powered systems can improve safety by providing real-time data on aircraft performance, weather conditions, and air traffic, helping to prevent accidents and incidents.
IoT can enhance the passenger experience by providing personalized services, such as real-time flight information, baggage tracking, and in-flight entertainment.

Global Aviation IoT Market Dynamics

The key market dynamics that are shaping the global aviation IoT market include:

Key Market Drivers

Increasing Focus on Safety and Efficiency: The aviation industry has always prioritized safety and efficiency. IoT technology offers significant benefits in both these areas. IoT sensors can monitor aircraft components and detect potential issues before they lead to failures, reducing downtime and maintenance costs. IoT-enabled devices can track the location and status of aircraft, baggage, and passengers, improving operational efficiency and enhancing customer experience. IoT can help optimize various aspects of aviation operations, such as fuel consumption, air traffic management, and ground handling, leading to improved efficiency and cost savings.
Growing Technological Advancements: Advancements in IoT technologies, such as sensors, connectivity, and data analytics, have made it more feasible and cost-effective to implement IoT solutions in the aviation industry. Smaller and more powerful sensors can be integrated into aircraft components, providing real-time data on various parameters. Advances in wireless communication technologies, such as 5G, have enabled reliable and high-speed data transmission for IoT applications. IoT platforms can leverage advanced data analytics techniques to extract valuable insights from the collected data, enabling data-driven decision-making.
Mandatory Regulatory Requirements: Aviation authorities worldwide are increasingly mandating the use of IoT technologies to improve safety and efficiency. This regulatory push creates a favorable environment for the adoption of IoT solutions, as airlines and airports are compelled to comply with these requirements. For example, the International Civil Aviation Organization (ICAO) has issued guidelines for the use of IoT in aviation, encouraging its adoption. Also, Aviation authorities may have specific cybersecurity requirements to protect against cyber threats that could compromise the safety and security of aircraft and air traffic systems.
Rising Fuel Costs: IoT sensors can monitor fuel levels, consumption rates, and leaks, providing airlines with real-time data to identify areas for improvement. The increasing cost of aviation fuel is a major concern for airlines. IoT can help optimize fuel consumption by providing real-time data on aircraft performance, weather conditions, and air traffic. This enables airlines to make data-driven decisions, such as optimizing flight paths and reducing unnecessary fuel burn, leading to significant cost savings. IoT can be used to develop and implement new technologies that improve aircraft fuel efficiency, such as more efficient engines and aerodynamic designs.

Key Challenges:

Increasing Cybersecurity Risks: The integration of IoT in aviation, such as in aircraft systems, airports, and air traffic management, increases vulnerability to cyberattacks. A compromised IoT system could disrupt flights, ground operations, or even pose risks to passenger safety. Ensuring robust cybersecurity measures for IoT devices and networks is critical, but the complexity of interconnected systems makes this a major challenge.
Interoperability and Standardization Requirement: The lack of common standards across the aviation industry makes it difficult for different IoT devices and systems to communicate effectively. Without uniformity, integrating new IoT solutions into existing aviation infrastructure becomes costly and complex. The aviation sector requires standardized protocols for seamless interoperability, but reaching global consensus on these standards remains a challenge.
Rising Regulatory Barriers: Aviation is a heavily regulated industry, and introducing new IoT technologies requires compliance with stringent safety and operational standards set by organizations like the Federal Aviation Administration (FAA) and European Union Aviation Safety Agency (EASA). Navigating these regulations, ensuring certifications, and addressing legal liability issues can delay the adoption of IoT solutions.

Key Trends

Predictive Maintenance: Predictive maintenance is a key application of IoT in the aviation industry. By leveraging IoT sensors and data analytics, airlines can monitor the health of aircraft components and detect potential issues before they lead to failures. This enables proactive maintenance, reducing downtime, and improving operational efficiency. Advanced data analytics algorithms can process the collected data to predict potential failures and recommend maintenance actions. By using predictive maintenance, airlines can optimize their maintenance schedules, reducing unnecessary downtime and costs.
Rising Demand for Real-time Tracking: Passengers can use real-time tracking to stay informed about their flight status, baggage location, and other relevant information. This can help to reduce stress and improve the overall travel experience. Real-time tracking can help to improve safety by providing information that can be used to prevent accidents and incidents. For example, tracking the location of aircraft can help to avoid collisions, and tracking baggage can help to prevent lost or stolen items.
Increasing Fuel Optimization: Fuel Optimization in the aviation industry refers to the use of strategies and technologies to reduce fuel consumption and improve fuel efficiency. This is a critical area of focus for airlines, as fuel costs represent a significant portion of their operating expenses. Reducing fuel consumption helps to reduce greenhouse gas emissions and improve the environmental impact of aviation. Fuel optimization can lead to improved overall operational efficiency, as it requires careful planning and coordination of various factors, such as flight paths, aircraft maintenance, and air traffic management.

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Global Aviation IoT Market Regional Analysis

Here is a more detailed regional analysis of the global aviation IoT market:

North America

North America is substantially dominating the Global Aviation IoT Market and is expected to continue its dominance throughout the forecast period.
North America is home to some of the largest airlines in the world, aircraft manufacturers, and aerospace companies. These companies have been early adopters of IoT technology, driving its growth and adoption in the region.
North America has a well-developed technological infrastructure, including robust telecommunications networks and a skilled workforce, which supports the implementation and adoption of IoT solutions.
The regulatory environment in North America is generally supportive of technological advancements and innovation, including the use of IoT in aviation. This has encouraged companies to invest in and adopt IoT solutions.
The North American aviation industry places a high priority on safety and efficiency. This has driven the demand for IoT solutions that can improve these aspects of operations.

Asia-Pacific

Asia-Pacific is anticipated to be the fastest-growing region in the global aviation IoT market during the forecast period, attributable to the experiencing rapid economic growth, leading to increased air travel and a growing demand for aviation services.
Many countries in the region are investing in the modernization of their aviation infrastructure, including airports, air traffic management systems, and aircraft fleets. This creates opportunities for the adoption of IoT solutions.
Governments in the Asia-Pacific region is increasingly supporting the adoption of new technologies, including IoT, in the aviation industry. This provides a favorable environment for the growth of the market.
As the aviation industry in the Asia-Pacific region grows, there is a greater focus on safety and efficiency. IoT solutions can help improve both areas, driving demand for the technology.

Global Aviation IoT Market: Segmentation Analysis

The Aviation IoT Market is segmented based on Component, Application, End-User, And Geography.

Aviation IoT Market, By Component

Hardware
Software
Services

Based on Component, the Global Aviation IoT Market is bifurcated into Hardware, Software, and Service. The hardware segment is dominating the global aviation IoT market. The factors contributing to the rising market share of this segment include the growing implementation of sensors, actuators, gateways, and various devices in aircraft and airports, aimed at collecting and analyzing data in real-time to facilitate informed decision-making. Furthermore, the growing emphasis on safety and efficiency within the aviation sector is anticipated to drive the demand for IoT hardware, as it offers capabilities for monitoring and automating certain repetitive tasks. Consequently, the hardware component segment is anticipated to play a crucial role in the industry. The software segment is growing at a rapid CAGR within the aviation IoT market.

Aviation IoT Market, By Application

Ground Operations
Passenger Experience
Aircraft Operations
Asset Management
Others

Based on Application, the Global Aviation IoT Market is bifurcated into Ground Operations, Passenger Experience, Aircraft Operations, Asset Management, Others. The asset management segment is dominating in the global aviation IoT market. The aviation sector manages numerous high-value assets that may contribute to increased operational expenses. Currently, the expanding fleet in response to rising passenger traffic underscores the critical need for effective asset management and tracking to enhance operational efficiency. The passenger experience segment is expected to grow at a robust CAGR during the forecast period.

Aviation IoT Market, By End-use

Airport
Airline Operators
MRO
Aircraft OEM

Based on End-Use, the Global aviation IoT Market is bifurcated into Airport, Airline Operators, MRO, and Aircraft OEM. The airport segment is dominating the global aviation IoT market, reflecting the increasing adoption of the smart airport concept in multiple regions. The Internet of Things presents significant opportunities for established players in the aviation sector to enhance solutions related to passenger traffic monitoring, baggage handling, and facilities management, ultimately leading to improved operational flow and efficiency within airports. The emerging collaborations between IoT service providers and airport operators are expected to generate substantial growth prospects for the segment throughout the forecast period. The airline operators' segment is expected to grow at a robust CAGR during the forecast period.

Aviation IoT Market, By Geography

North America
Europe
Asia Pacific
Rest of the world

Based on Geography, the Global Aviation IoT Market is classified into North America, Europe, Asia Pacific, and the Rest of the world. North America is substantially dominating the Global Aviation IoT Market and is expected to continue its dominance throughout the forecast period. The market in this region is being driven by the presence of key players, the growing R&D expenditure by the Government and major market players present in the region. North America is home to some of the world's largest airlines, aircraft manufacturers, and aerospace companies. These companies have been early adopters of IoT technology, driving its growth and adoption in the region. Asia-Pacific is anticipated to be the fastest-growing region in the global aviation IoT market during the forecast period.

Key Players

The "Global Aviation IoT Market" study report will provide valuable insight with an emphasis on the global market. The major players in the market are Honeywell International, Inc., Tata Communications Ltd., Cisco Systems, Inc., Huawei Technologies Co. Ltd., IBM Corp., Aeris Communication, Microsoft Corp., Tech Mahindra Limited, Wind River Systems, Inc., SAP SE.

Our market analysis also entails a section solely dedicated to such major players wherein our analysts provide an insight into the financial statements of all the major players, along with its product benchmarking and SWOT analysis. The competitive landscape section also includes key development strategies, market share, and market ranking analysis of the above-mentioned players globally.

Aviation IoT Market Recent Developments
In March 2023, Honeywell International, Inc. collaborated with Lufthansa Technik to create a digital platform called AVIATAR, which focuses on enhancing customer experience through aviation analytics.
In June 2021, Honeywell broadened its partnership with SmartSky to deliver optimal and comprehensive in-flight connectivity services to its customers. Furthermore, Honeywell offers safety solutions that enable direct data communication between pilots and air traffic controllers through L-band satellite networks.

1 INTRODUCTION OF GLOBAL AVIATION IOT MARKET

1.1 Overview of the Market
1.2 Scope of Report
1.3 Assumptions

2 EXECUTIVE SUMMARY

3 RESEARCH METHODOLOGY OF VERIFIED MARKET RESEARCH

3.1 Data Mining
3.2 Validation
3.3 Primary Interviews
3.4 List of Data Sources

4 GLOBAL AVIATION IOT MARKET OUTLOOK

4.1 Overview
4.2 Market Dynamics
- 4.2.1 Drivers
- 4.2.2 Restraints
- 4.2.3 Opportunities
4.3 Porters Five Force Model
4.4 Value Chain Analysis

5 GLOBAL AVIATION IOT MARKET, BY APPLICATION

5.1 Overview
5.2 Ground Operations
5.3 Passenger Experience
5.4 Aircraft Operations
5.5 Asset Management

6 GLOBAL AVIATION IOT MARKET, BY COMPONENT

6.1 Overview
6.2 Hardware
6.3 Software
6.4 Services

7 GLOBAL AVIATION IOT MARKET, BY END-USER

7.1 Overview
7.2 MROs
7.3 Airline Operators
7.4 Airports

8 GLOBAL AVIATION IOT MARKET, BY GEOGRAPHY

8.1 Overview
8.2 North America
- 8.2.1 U.S.
- 8.2.2 Canada
- 8.2.3 Mexico
8.3 Europe
- 8.3.1 Germany
- 8.3.2 U.K.
- 8.3.3 France
- 8.3.4 Rest of Europe
8.4 Asia Pacific
- 8.4.1 China
- 8.4.2 Japan
- 8.4.3 India
- 8.4.4 Rest of Asia Pacific
8.5 Rest of the World
- 8.5.1 Latin America
- 8.5.2 Middle East And Africa

9 GLOBAL AVIATION IOT MARKET COMPETITIVE LANDSCAPE

9.1 Overview
9.2 Company Market Ranking
9.3 Key Development Strategies

10 COMPANY PROFILES

10.1 Honeywell International, Inc.
- 10.1.1 Overview
- 10.1.2 Financial Performance
- 10.1.3 Product Outlook
- 10.1.4 Key Developments
10.2 Tata Communications Ltd.
- 10.2.1 Overview
- 10.2.2 Financial Performance
- 10.2.3 Product Outlook
- 10.2.4 Key Developments
10.3 Cisco Systems, Inc.
- 10.3.1 Overview
- 10.3.2 Financial Performance
- 10.3.3 Product Outlook
- 10.3.4 Key Developments
10.4 Huawei Technologies Co. Ltd
- 10.4.1 Overview
- 10.4.2 Financial Performance
- 10.4.3 Product Outlook
- 10.4.4 Key Developments
10.5 IBM Corp
- 10.5.1 Overview
- 10.5.2 Financial Performance
- 10.5.3 Product Outlook
- 10.5.4 Key Developments
10.6 Aeris Communication
- 10.6.1 Overview
- 10.6.2 Financial Performance
- 10.6.3 Product Outlook
- 10.6.4 Key Developments
10.7 Microsoft Corp
- 10.7.1 Overview
- 10.7.2 Financial Performance
- 10.7.3 Product Outlook
- 10.7.4 Key Developments
10.8 Tech Mahindra Limited
- 10.8.1 Overview
- 10.8.2 Financial Performance
- 10.8.3 Product Outlook
- 10.8.4 Key Developments
10.9 Wind River Systems, Inc
- 10.9.1 Overview
- 10.9.2 Financial Performance
- 10.9.3 Product Outlook
- 10.9.4 Key Developments
10.10 SAP SE.
- 10.10.1 Overview
- 10.10.2 Financial Performance
- 10.10.3 Product Outlook
- 10.10.4 Key Developments