Apr 19, 2024
6 mins read
6 mins read

5G in Aviation Market Intense Competition but High Growth by 2028

5G in Aviation Market Intense Competition but High Growth by 2028

The global market for 5G in aviation was worth $0.35 billion in 2020 and is expected to reach $9.92 billion in 2028, growing at a compound annual growth rate of 47.03% from 2021 to 2028. The COVID-19 pandemic had a negative impact on the demand for 5G aviation services worldwide. However, the market showed a year-on-year growth of 25.40% in 2020, and it is projected to return to pre-pandemic levels once the situation improves.

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5G in aviation refers to the use of advanced wireless communication and networking systems to connect aviation infrastructure and enable data exchange. It is an upgrade from previous technologies like 4G LTE and offers faster internet connectivity. The main objective of implementing 5G in aviation is to expand the use of technologies like the Internet of Things (IoT), Augmented Reality (AR), and Virtual Reality (VR) in the aviation industry. This integration of digital technology has the potential to transform the aviation industry and drive market growth. While the adoption of 5G in aviation is still in its early stages, its low latency and high reliability make it attractive for various applications in digital aviation.

Key Companies Covered in 5G in Aviation Market are:

  • AeroMobile Communications Limited (U.K.)
  • Cisco Systems Inc. (The U.S.)
  • Telefonaktiebolaget LM Ericsson (Sweden)
  • ANUVU Inc. (Global Eagle Entertainment Inc.) (U.S.)
  • Gogo LLC (U.S.)
  • Huawei Technologies Co., Ltd. (China)
  • Inseego Corp. (U.S.)
  •  Intelsat Corporation (U.S.)
  •  Nokia Corporation (Finland)
  •  OneWeb Ltd (U.K.)
  •  Panasonic Avionics Corporation (U.S.)
  •  SmartSky Networks LLC (U.S.)

The Seamless Air Alliance, formed in 2019, is a non-profit organization that aims to promote the use of 5G technology in mobile devices during travel. It is composed of leading technology companies such as OneWeb, Airtel, GoGo, and Sprint. These companies leverage their expertise to provide advanced infrastructure and enable 5G connectivity in the aviation industry. The alliance offers benefits such as in-cabin broadband services, allowing passengers to use their mobile devices and connect to the internet using satellite systems. Standardizing technology will address challenges related to passenger access to the internet and onboard login systems, requiring a more sophisticated network. Commercial availability of 5G roaming in aircraft cabins began in 2019.

Furthermore, several industry players have already invested in 5G infrastructure to enable IoT applications in airport operations such as baggage handling, passenger boarding, and security check-ins. Implementing 5G technology would enhance the passenger experience and improve operational efficiency. Additionally, IoT can assist aviation MRO (Maintenance, Repair, and Overhaul) operations by predicting and resolving issues before they become problematic.

The dawn of 5G technology promises a revolution across industries, and aviation is no exception. This next-generation cellular network boasts unparalleled speed, capacity, and low latency, poised to transform everything from passenger experiences to air traffic management. However, its integration with aviation raises unique challenges and complexities. This in-depth exploration delves into the potential of 5G in aviation, unveiling its transformative applications, addressing safety concerns, and charting a course for a seamless integration that unlocks a new era of air travel.

The Power of 5G: Unveiling its Advantages for Aviation

5G offers a multitude of benefits for the aviation industry, with the potential to revolutionize operations on the ground and in the air:

Enhanced In-Flight Connectivity: Imagine seamless, high-speed internet access for passengers throughout the flight. 5G can enable passengers to stream videos, make video calls, and stay connected throughout their journey. This can significantly improve passenger experience and satisfaction, particularly on long-haul flights.

Streamlined Airport Operations: 5G can facilitate real-time communication and data exchange between various airport stakeholders – airlines, ground handlers, air traffic control, and security personnel. This can lead to faster baggage handling, improved aircraft turnaround times, and more efficient overall airport operations.

Revolutionizing Air Traffic Management (ATM): Imagine a smarter, more efficient air traffic control system. 5G's low latency allows for real-time data exchange between aircraft and air traffic control towers. This enables more precise flight path optimization, potentially reducing delays and congestion in busy airspace.

Advanced Maintenance and Safety Systems: 5G can empower predictive maintenance by enabling real-time monitoring of aircraft health and performance data. Imagine sensors on board the aircraft constantly transmitting data to maintenance crews on the ground, allowing for proactive identification and resolution of potential issues. This can enhance safety and reduce the risk of mechanical failures.

Unlocking the Potential of Drone Technology: Imagine a future where drones seamlessly integrate into aviation operations. 5G's high bandwidth and low latency can enable real-time control and data transfer for drones used for airport inspections, search and rescue operations, and even future applications like urban air mobility.

Navigating the Challenges: Addressing Safety Concerns with 5G

While the potential of 5G in aviation is undeniable, safety remains paramount. Concerns have been raised regarding potential interference between 5G signals and radio altimeters, critical instruments used by aircraft for landing:

Understanding C-Band Spectrum: The crux of the issue lies in the C-Band spectrum, a specific frequency range used by both 5G networks and radio altimeters. Concerns exist that powerful 5G ground stations operating in this band might interfere with the delicate signals received by radio altimeters, potentially leading to inaccurate altitude readings during landing.

Mitigation Strategies: Extensive collaboration between aviation and telecommunication industries has led to the development of mitigation strategies. These include establishing buffer zones around airports where 5G base stations operate at lower power levels or utilize different frequencies. Additionally, airlines are upgrading radio altimeters to improve their filtering capabilities and resistance to interference.

Global Collaboration: The safe integration of 5G requires international cooperation. Regulatory bodies worldwide are working together to establish standardized guidelines for 5G deployment near airports, ensuring the safety of air travel across borders.

Charting the Course: A Future of Seamless Integration

The successful integration of 5G in aviation hinges on a collaborative approach:

Open Communication: Continuous dialogue between aviation and telecommunication industries is crucial to ensure a smooth rollout of 5G technology while addressing safety concerns effectively.

Rigorous Testing and Certification: Before widespread deployment, thorough testing and certification of 5G equipment and aircraft systems operating in the C-Band spectrum are essential. This ensures the reliability and safety of both technologies.

Investment in Infrastructure: Upgrading airport infrastructure and aircraft systems to leverage 5G's capabilities is critical. This includes installing 5G-compatible communication systems at airports and equipping aircraft with the necessary hardware and software.

Training and Education: Preparing all stakeholders, including pilots, air traffic controllers, and maintenance crews, for the integration of 5G technology is vital. Comprehensive training programs ensure a smooth transition and effective utilization of 5G's benefits.

Conclusion: A New Horizon for Aviation

The arrival of 5G presents a unique opportunity to revolutionize the aviation industry. By addressing safety concerns, fostering collaboration, and investing in infrastructure, the industry can unlock the immense potential of 5G. Imagine a future where passengers enjoy seamless connectivity, airports operate with unprecedented efficiency, and air traffic management systems optimize flight paths for a safer and more sustainable