Air Transport
Article | July 6, 2022
The aviation industry is going through a lot of technological and operational transitions. Every day, new technologies in manufacturing, airports, passengers, security measures and more are being introduced or being implemented in the entire aviation ecosystem.
5G technology is one of the most critical technologies that is currently raising concerns. 5G technology is becoming a hot topic of discussion for governments worldwide in inferior ways. Many discussions are going on the shelf of safety of consumers. Similarly, there has been rising concern about the new 5G technology in the aviation industry.
Yes. 5G technology promises to bring some of the best opportunities for airlines. But what will be its impact on airline safety? Before we discuss the 5G rollout, let's highlight its ability to benefit the busiest industry globally.
The Ecosystem of 5G
Multiple technologies play a vital role in 5G technology in terms of coverage, such as EDGE, IoT, SD-WAN, and more. The ecosystem is rapidly expanding, even the industry of suppliers to aviation. It includes device manufacturing, network supply and maintenance, system integration, testing, and more suppliers.
IATA says with regard to the aviation industry, a projected $3.9 billion will be invested in 5G by 2026. Moreover, the projections are taking the entire industry to new altitudes. GSA also forecasts that the growth of 5G will be faster than 4G.
The Impact of 5G on the Different Aviation Sectors
The deployments and implementations of 5G can be profitable for every aviation sector if used appropriately. Speaking of the aviation sectors, the new 5G technology will transform the industry in four crucial areas. They are:
Manufacturing
Airports & Airlines
Travel
Security
Manufacturing
The manufacturing sector has massively developed partnerships with telecom players. The partnerships have led to the launch of 5G initiatives.
Nokia and Lufthansa came forward for inspection of engine parts remotely. With AR visualization and 3D technology, customers can have a visual impact on cabin interiors. 5G technology is also being implemented to trace and track systems in aircraft parts and maintain of operations using transmissions, real-time signal processing, and more.
Airports & Airlines
With 5G technology, Gogo Business Aviation is developing new designs for antennas and modems. The designs will enable the world's first in-flight connectivity (IFC) and 5G air-to-ground (ATG) networks by 2022.
“Towards the end of 2022, we will have sites built, and we will start flight testing,”
-Mike Syverson, senior vice president of engineering at Gogo
Gogo's 5G network will be limited to North America. It will be leveraging the existing 250 towers with its current 3G and 4G IFC networks. The 5G network will use spectrum in the 2.4 GHz band with the help of other booming technologies to provide the airplane-to-ground station link with higher bandwidth.
Travel
Viasat Inc. is known globally for offering broadband digital satellite communications, wireless networking services, and satellite communications products.
Delta Airlines has partnered with Viasat for its next-generation Ka-band satellite in-flight connectivity (IFC) solution. Delta intends to integrate Viasat technology into 757-200 aircraft, A321ceo, and the 737-900ER (new aircraft) to provide customers with safe and secure air travel.
Network Security
The European Aviation Safety Agency (EASA) discloses that an average of 1,000 attacks per month occur on aviation systems. Thus, it is becoming a real threat to airport security, safety, and reputation.
SmartSky Networks LLC is a leading satellite solution. It's also a wireless data and networking services provider globally. It caters to the commercial aviation industry. It offers its innovative air-to-ground inflight Wi-Fi network with 5G technology.
In June 2021, Honeywell and SmartSky introduced their high-speed connectivity. They announced it for their business aviation operators in North America. The partnership agreement boosts seamless connectivity in the commercial aviation market.
Looking at these developments made possible by the new 5G technology in the aviation industry, how has it become one of the industry's obstacles in terms of safety?
Let's highlight the picture here.
Aviation Has Expressed a Serious Concern
The Federal Aviation Administration (FAA) has warned about significant safety concerns in the 5G wireless network setup roadmap. The plan for theusage of C-Band spectrum is the prime reason. 5G network operations can interfere with the radar altimeter performance of aircraft.
"It is engaging with other agencies. So that aviation and 5G cellular technology can safely coexist."
-A Federal Aviation Administration spokeswoman
But with the modifications in the manufacturing processes of aircraft, the industry is encouraging manufacturers. Therefore, the manufacturers could conduct tests for 5G interference and modify aircraft designs.
5G Still Provides Hope for a More Friendly Flying Future
Aviation has a 5G rollout despite having no proof. The rollout is about interfering with safety concerns. Instead, 5G in aviation is burgeoning the importance of safety and security more efficiently. The emphasis on safety and security is now even more powerful. Pilots have been equipped with high communication tools with air control towers, especially in weather or technical challenges.
The new 5G technology is way near to providing superior in-flight bandwidth connectivity while improving operational efficiency. It is going to improve overall operational efficiency. Passengers will be able to take advantage of high-speed internet on planes. Also, business passengers can conduct their business activities while flying and saving precious time and effort.
Frequently Asked Questions
Is the new 5G technology harmful to airplanes?
According to the FAA, aviation operators should be prepared for the possibility that 5G technology could interfere with transmitters. The effects of 5G could cause certain safety malfunctions for airplanes. This could affect flight operations as well.
What are the disadvantages of 5G in aviation?
Aviation is getting benefits from 5G technology. But there is always the other side of the coin. So, the disadvantages could be as follows:
Obstructions in connectivity
High costs of technology
Operational hindrance
Unmatched frequencies
What is the market size of 5G in the aviation industry?
The overall market size of 5G in the aviation market was valued at $698.45 million in 2020. Now, it’s projected to extent $4,682.12 million by 2030.
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Aviation Technology
Article | June 2, 2022
The coronavirus outbreak has put airline customer care teams on the front lines. Airlines that have adopted artificial intelligence are alleviating some of the stress that their customer care teams are under.
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Defense and Space
Article | June 8, 2022
The UK government has announced that from 11th February, fully vaccinated passengers arriving into the country will no longer have to take COVID-19 tests on arrival. The news follows the removal of pre-departure testing for fully vaccinated UK-bound passengers this month.
The relaxation of testing measures is something the aviation industry has been actively campaigning for, as it removes barriers to travel. Just today, IATA distributed a press release advocating for similar moves to be made by further governments. It cited a study focused on the UK carried out by Oxera and Edge Health which found that because Omicron is now highly prevalent in the UK, “if all travel testing requirements were removed there would be no impact on Omicron case numbers or hospitalizations.”
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Air Transport
Article | July 26, 2022
A New System That Aims to Create Carbon-Neutral Aviation
Scientists have achieved an amazing breakthrough in the development of carbon-neutral fuel for the aviation industry. An aviation fuel production system that uses water, sunlight, and carbon dioxide has been put into action. Its design was published on July 20th, 2022, in the journal Joule. The dream of achieving carbon-free aviation could become a reality with this development.
“We are the first to demonstrate the entire thermochemical process chain from water and CO2 to kerosene in a fully-integrated solar tower system.” - Aldo Steinfeld, Professor, Study Corresponding Author, ETH Zurich
The aviation industry accounts for approximately 5% of the global anthropogenic emissions that contribute to global climate change. The industry heavily relies on kerosene, commonly known as jet fuel, a liquid hydrocarbon fuel derived from crude oil. There are no clean options to power commercial flights on a global scale at the moment.
Production of Synthetic Kerosene
This breakthrough, with the help of solar energy, makes it possible to produce synthetic kerosene from water and carbon dioxide instead of crude oil. The amount of CO2 emitted during kerosene combustion in a jet engine equals what is consumed during its production in the solar plant. It is what makes the fuel carbon neutral, especially if the CO2 in the air is captured and directly used as an ingredient, which could be possible in the near future.
As part of the European Union's SUN-to-LIQUID project, Steinfeld and his colleagues put forward a system that uses solar power to generate drop-in fuels—synthetic alternatives to fossil-derived fuels like kerosene and diesel. Solar-produced kerosene is consistent with the current aviation infrastructure for allocation, fuel storage, and use in jet engines. It can also combine with fossil-derived kerosene, according to Steinfeld.
High Hopes for the Future
Steinfeld and his team began scaling the construction of a solar fuel manufacturing plant at the IMDEA Energy Institute in Spain half a decade ago. The plant has 169 sun-tracking reflective panels that redirect and concentrate solar radiation into a tower-mounted solar reactor. This concentrated solar energy then powers redox reaction cycles in the reactor’s porous ceria structure, which is not absorbed but can be reused. It transforms the water and carbon dioxide into syngas, a customized mixture of hydrogen and carbon monoxide. This syngas is then injected into a gas-to-liquid converter and is finally converted into liquid hydrocarbon fuels such as kerosene and diesel. Steinfeld and his team are working on amping up the reactor’s efficiency from the current 4% to more than 15%.
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