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全球5G市场规模、份额、成长分析以及在航空领域的应用-2024-2031年产业预测Global 5G in Aviation Market Size, Share, Growth Analysis, By Application(In-flight connectivity, airport operations) - Industry Forecast 2024-2031 |
2022年全球5G航空市场规模将为7.6亿美元,从2023年的11.2亿美元成长到2031年的245.1亿美元,在预测期间(2024年-2031年)预计将以47.1%的复合年增长率增长。
航空业5G市场的主要驱动力包括航空旅行的扩张、行业中物联网(IoT)等互联连网型的日益使用、更快的互联网接入和更好的飞行体验服务,其中包括不断增长的需求为了。全球范围内,多家企业在5G应用程式上进行大量投资。在航空领域,这一增长是由乘客数量的增加以及对更快、更高频宽互联网的需求所推动的。航空公司和机场相关人员还要求平稳、安全和高速的连接,以改善整体乘客体验并支援必要的技术。作为全球数位化趋势的一部分,航空业越来越多地采用物联网。机场和其他需要高速通讯网路的航空设施的物联网网路推动了对 5G 应用的需求。例如,荷兰史基浦机场使用约 70,000 个感测器来收集电梯和过道运行的即时资料。机场还可以使用穿戴式装置来提高业务效率。辛辛那提/北肯塔基国际机场透过部署行动装置、智慧感测器和蜂巢式网路的组合改进了设施管理。航空业协会对于推动产业内5G应用的实施至关重要,并致力于改善消费者的机上连接体验。无缝航空联盟由 OneWeb、Airtel、GoGo、Sprint、空中巴士和达美航空等组织组成,旨在透过协作努力增强连结性并改善旅客体验。透过纳入与 5G 连接的人工智慧 (AI),机场、边防安全和其他航空设施将显着改善。例如,人工智慧可以透过识别摺痕、磨损痕迹和材料品质等独特特征来区分看似相似的行李,并将其与合适的人进行匹配,从而帮助乘客与其行李建立联繫。此外,5G 应用带来的更快的通讯速度使机场和其他航空基础设施的自动化成为现实。 5G与人工智慧、物联网等最尖端科技融合,将大幅改善航空业。然而,飞机高度计可能受到干扰以及航空领域 5G 部署的安全担忧等障碍可能会阻碍市场扩张。
Global 5G in Aviation Market size was valued at USD 0.76 billion in 2022 and is poised to grow from USD 1.12 billion in 2023 to USD 24.51 billion by 2031, growing at a CAGR of 47.1% during the forecast period (2024-2031).
Some of the main factors propelling the 5G market in aviation are the expansion of air travel, the growing use of connected technologies like the Internet of Things (IoT) in the industry, and the growing demand for faster Internet access and better flight experience services. Globally, a variety of businesses are making large investments in 5G applications. In the aviation sector, this growth is being attributed to the increasing number of passengers and their need for higher internet speeds and greater bandwidth. For the purpose of improving the general passenger experience and supporting necessary technology, airline businesses and airport stakeholders are also looking for smooth, secure, and high-speed connectivity. As part of the global trend toward digitalization, the aviation industry is adopting IoT more and more. The need for 5G applications is being driven by the IoT networks in airports and other aviation facilities, which necessitate high-speed communication networks. For instance, Schiphol Airport in the Netherlands uses about 70,000 sensors to gather data in real-time about the operation of the lift and walkway. Airports can also use wearables to improve operational efficiency. The implementation of a mobile device, smart sensor, and cellular network combination resulted in an improvement in the facility management at Cincinnati/Northern Kentucky International Airport. Aviation industry groups are crucial in propelling the implementation of 5G applications in the industry, emphasizing the enhancement of consumers' in-flight connectivity experiences. With cooperative efforts, the Seamless Air Alliance-which includes organizations like OneWeb, Airtel, GoGo, Sprint, Airbus, and Delta Airlines-aims to increase connectivity and elevate the traveler experience. Airports, border control, and other aviation facilities are likely to experience significant improvements with the incorporation of 5G-connected Artificial Intelligence (AI). AI, for example, can help connect passengers to their luggage by identifying distinctive features like creases, scuff marks, and material qualities to distinguish seemingly identical bags and match them with the right individuals. Furthermore, the faster communication speeds made possible by 5G applications are making the automation of airports and other aviation infrastructure a reality. When integrated with cutting-edge technologies like AI and IoT, 5G has significantly improved the aviation industry. But obstacles including possible interference with aircraft altimeters and safety worries over 5G adoption in the aviation sector could stifle market expansion.
Top-down and bottom-up approaches were used to estimate and validate the size of the Global 5G in Aviation Market and to estimate the size of various other dependent submarkets. The research methodology used to estimate the market size includes the following details: The key players in the market were identified through secondary research, and their market shares in the respective regions were determined through primary and secondary research. This entire procedure includes the study of the annual and financial reports of the top market players and extensive interviews for key insights from industry leaders such as CEOs, VPs, directors, and marketing executives. All percentage shares split, and breakdowns were determined using secondary sources and verified through Primary sources. All possible parameters that affect the markets covered in this research study have been accounted for, viewed in extensive detail, verified through primary research, and analyzed to get the final quantitative and qualitative data.
Global 5G in Aviation Market Segmental Analysis
Based on application, end user, and geographic factors, the global 5G aviation market is divided into segments. The market is divided into three application categories: airport operations, aircraft operations, and in-flight connectivity. The market is divided into airlines, airports, and other aviation stakeholders based on the end user. The market is divided into North America, Europe, Asia Pacific, Middle East and Africa, and Latin America based on geographic regions.
Drivers of the Global 5G in Aviation Market
The airline industry is adopting 5G due to the growing demand from passengers for high-speed internet connectivity during flights. In order to work, stream video, and remain connected while traveling, passengers demand quick and dependable internet connectivity. For instance, in 2021, passengers will be able to enjoy the first-ever in-flight 5G connectivity thanks to a partnership between Qatar Airways and Vodafone Qatar. By utilizing 5G technology, this partnership seeks to improve passenger internet access, allowing them to take use of high-speed connectivity and a range of online services while in flight.
Restraints in the Global 5G in Aviation Market
The aviation sector is confronted with obstacles with spectrum allocation and regulatory frameworks while implementing 5G networks. The two main obstacles that must be cleared are guaranteeing interference-free operations and resolving issues with frequency spectrum allotment for aviation services. For instance, the aviation sector is worried about possible interference between aircraft altimeters-which are essential tools for altitude measurement-and 5G networks. There have occasionally been discussions about the potential for 5G transmissions to tamper with altimeter readings, thereby compromising flight safety. These worries emphasize the significance of comprehensive testing, regulatory cooperation, and mitigating techniques.
Market Trends of the Global 5G in Aviation Market
In the aviation sector, edge computing and 5G network integration are becoming more popular. Latency can be reduced by placing computer resources closer to the network's edge, close to the data source. This allows for real-time processing and decision-making for crucial applications like air traffic management and autonomous drones. For instance, Deutsche Telekom successfully tested the advantages of 5G edge computing for aircraft maintenance in 2021 in collaboration with Lufthansa Technik and Nokia. Real-time analytics and maintenance chores were carried out on-site at the aircraft by merging 5G connectivity with edge computing capabilities, which decreased data transfer delays and improved operational efficiency.