Aircraft maintenance, repair, and overhaul (MRO) is on the brink of a transformation and AI is set to play a significant role in this evolution. From accelerating the industry’s digitisation to enabling predictive maintenance and cost savings, its potential is vast.
Recognising the need for rapid and continuous advancement in the MRO space, Lufthansa Technik Philippines (LTP) has launched the LTP Startup Challenge 2024 in collaboration with Seedstars. This initiative seeks to catalyse MRO related innovation through exploring the potential of cutting-edge AI technologies.
LTP, a joint venture company of Lufthansa Technik AG and MacroAsia Corporation, offers a wide range of MRO services to customers worldwide. Building on the success of their previous LTP Startup Challenge in 2022, this year’s initiative focuses more exclusively on AI.
Sharing more details about the challenge, LTP specified round one will focus on AI algorithms, machine learning, automation, and predictive analytics for optimising MRO operations, while round two looks for solutions designed to enhance aviation MRO operations and address significant challenges related to efficiency, particularly from a high attrition rate among mechanics, time-consuming manual processes in production and support departments.
Stefan Yordanov, VP Finance and Strategy and Corporate Projects at Lufthansa Technik Philippines said:
“This year, we are particularly excited to focus on AI-powered solutions that can revolutionize aviation MRO. We believe that the integration of AI will unlock unprecedented efficiency and help us deliver superior services to our customers.”
The LTP Startup Challenge 2024 highlights not only the critical importance of innovation within aircraft MRO, but also the essential role startups play in driving that innovation. Find out more about the challenge here.
The MRO landscape is on the brink of a transformation and Karen Miller believes its digitalisation will unlock “phenomenal opportunities.”
In a recent interview, Miller, GM, Connected Aero highlighted the critical importance of digitalisation in the MRO landscape. The 10-minute conversation looked at why modernisation is so crucial, how the landscape is already changing, and the technologies that will shape its development years into the future.
Miller explained that with a declining workforce and substantial growth projected for the industry, modernisation followed by digitisation can unlock much needed additional capacity. Through automating routine tasks and optimising data utilisation, workers can be empowered to tackle the tasks requiring human skill, enhancing both efficiency and productivity.
During the interview, Miller also selected emerging technologies like machine learning, AI, and natural language processing as having the potential to shape the future of the MRO landscape for years to come.
Acknowledging the transformative power of digitalisation comes with a degree of adversity, Miller highlighted a couple of innate challenges that will need to be overcome. Watch the full interview below to find out Miller’s thoughts on:
Key challenges anticipated during the transition to a digitalised industry.
The crucial role of digitalisation in today’s industrial landscape.
Factors that have slowed down the rate of modernisation in the industry compared to other sectors.
The evolution of the MRO ecosystem with the advent of digitisation.
Changes in the day-to-day operations for workers in MRO facilities and the long-term benefits.
Extensive labour shortages the aviation industry is currently facing have been identified as a critical challenge with the potential to slow progress, and the MRO sector is no exception. In fact, McKinsey & Company research indicates that by 2033, one-fifth of aviation maintenance technician jobs will go unfilled.
However, generative AI (gen AI) is seen as a potential way to bridge this growing gap, and the MRO industry is particularly is well positioned to benefit from the innovative technology. Gathering research on this topic, a recent McKinsey article looked at the transformative potential of gen AI for the MRO sector, here are some of its key insights.
The major ways gen AI can assist the MRO industry are as:
Virtual AI maintenance and repair experts (“co-pilots”)
AI-augmented reliability engineering tools
Assistants who take care of busywork
Permanent quality control supervisors
Supply chain managers
Accelerators of onboarding hires through skills training
Key challenges with its integration include:
Striking the right balance between careful and agile
Preserving strict safety and regulatory compliance
Finding the right talent
Having the right data
Highlighting gen AI’s potential, the article references a mining company that is scaling its support tools. The company is projected to see “at least a 35 per cent reduction in the time it will take technicians to troubleshoot equipment problems and at least a 25 per cent reduction in the time needed to do unplanned repairs.”
“Given the acute labour shortages in the MRO industry, these capabilities could turn out to be substantial productivity levers. There is also reason to believe that gen AI platforms could boost the quality, consistency, and accuracy of maintenance work, ultimately keeping more aircraft in the sky and minimizing aircraft out-of-service periods.”
Gen AI has the potential to transform the MRO sector, providing a range of solutions to the industry’s workforce challenge. Although its integration comes with a set of obstacles, if successful, the technology could help establish a more efficient, accurate, and safe industry.
Historically, augmented reality (AR) has opened up possibilities within the industry, especially around training and inspection. As the technology becomes more refined, its use cases evolve symbiotically. Recently, KLM Royal Dutch Airlines shared how they are using Apple’s Vision Pro to elevate technical maintenance and training.
In 2023, Apple debuted the AppleVision Pro, “a revolutionary spatial computer that seamlessly blends digital content with the physical world.” With AR, users can overlay digital information and interactive elements onto their surroundings while virtual reality (VR) offers users a fully simulated and immersive digital experience.
Its debut restarted excitement around the potential use cases of extended reality (XR) across industries. This month, Apple showcased how KLM Royal Dutch Airlines is using the Vision Pro. The airline’s Engine Shop app allows technicians to see a step by step breakdown of the task ahead of them with detailed instructions overlayed on an accurate 3D model of the exact engine.
Bob Tulleken, Vice President of Operations Decision Support, KLM said:
“We see Apple Vision Pro as a tremendous value-add that will improve our fleet availability and operations […] Training our employees with spatial computing will lead to fewer costly errors because the most current information they need to do their job is there in front of them as they perform the task. This means we not only get vastly more efficient in our work, but also provide a better work environment for our employees to succeed.”
Apple shared this short video demonstrating how the airline is leveraging spatial computing for technical maintenance. Video credit: Apple.
The Apple Vision Pro may have re-ignited excitement around XR but the aviation industry has been leveraging immersive technologies that merge the physical and virtual worlds in a multitude of ways for some years. As the technology evolves, it will open doors to more applications across the industry giving way to transformative advancements.
I think maintenance can be a little more efficient, don’t you? Maintenance Scheduling & Supply Chain Optimization
An application of AI that has many use cases is optimization, which includes maintenance scheduling optimization.
An optimization engine that can schedule maintenance at the best possible time at the best possible location has the potential to greatly reduce maintenance costs and improve maintenance yield fleet wide. At the same time, optimizing the order that are performed in, and how personnel are assigned to tasks can result in more efficient maintenance—reducing costs, improving turnaround time, getting the aircraft back in the air sooner—thereby generating more revenue.
Are you sure that’s correct? Error Detection & Reclassification
Another use of AI is to identify errors made in entering data, or to reclassify data after the fact to ensure accuracy of data and improve the overall quality of the dataset. A common problem across the airline industry is the misclassification of the failed ATA system when raising a fault. These misclassifications can impact the data quality in the system.
IFS Customer Southwest Airlines has rolled out a solution to use AI to identify misclassified faults and improve the overall quality of their data. This is an excellent application of LLMs that learn to identify patterns in the text entered by the technicians to classify faults more accurately. Using AI to identify potential errors and surface those potential errors to a person helps to make the whole process vastly more efficient while maintaining authorized human oversight.
Let’s try this again—Automated Failure, Troubleshooting, and Repair Identification
When a fault is raised, a technician is often required to spend a considerable amount of time researching the correct source of a fault, what troubleshooting steps to take and what repairs to apply.
The logical extension of fault classification is to take the same kind of LLM model which will suggest potential sources of the failure, and recommend troubleshooting activities or even make repair suggestions. Suggestions would be based on previous success rates.
By providing first time fix rate percentages to the technician, they may choose options that save time by resolving the issue quicker, meaning the aircraft may be able to get back in the air sooner, or even prevent recurrences in the future. Avoiding or reducing has real value, according to Airlines for America, in 2023, delays have a direct cost of $101.18 for every minute a flight is delayed.
Now what will happen? Predictive Maintenance & Anomaly Detection
The concept of predictive maintenance is nothing new. However, what is new is the application of newer types of AI, namely Anomaly Detection and Pattern Recognition. Predictive maintenance uses time-series data—which is gathered over long periods of time recoded at fixed known points along the way, i.e., discrete data points in time.
Live feeds of sensor data changed that with IoT, allowing current data to be considered—but that huge amount of data is difficult to interpret, requiring highly trained data scientists. Then Machine Learning (ML) came into the picture. Using ML means that data scientists are now focussed on creating the current learning model for the AI, rather than developing the algorithm themselves.
Unsupervised learning models are lowering the barrier to entry for the use of AI in predictive maintenance applications. “Unsupervised” learning models for AI means that you can plug the AI into a set of data and it can figure out its own algorithm. This reduces the time and cost of implementing a solution, and also has the power to remove bias from the process, particularly when dealing with large amounts of unlabeled data like multiple terabytes of data points generated from a modern aircraft .
Anomaly Detection means that you can plug the AI into the sensor data to figure out what “normal” looks like, it then warns you whenever a deviation from “normal” occurs. Coupled with Pattern Recognition, the AI can learn to detect patterns in the sensor data that indicate certain events are about to occur—providing an early warning system that can warn what is about to happen with extremely accurate results.
AI is here to stay
By using AI to streamline tasks, to provide decision support to the human, to pare down the noise of information—while keeping the human in the loop, still requiring them to be the ultimate decision maker—cutting edge companies have the ability to make huge strides in terms of efficiency and accuracy.
These improvements can represent real value to airlines & air operators and ultimately, their customers.
Article by Rob Mather, Vice President, Aerospace and Defense Industries at IFS
The electric vertical takeoff and landing aircraft (eVTOL) market is estimated to be worth $1 trillion by 2030.
While these aircraft are currently in various stages of development, one of the front runners is Joby Aviation, which plans to start commercial operations in 2025. As the California-based transportation company continues its journey to a fully operational fleet, it has selected IFS Cloud for Aviation Maintenance solution for its eVTOL aircraft maintenance processes.
Capable of supporting Joby’s expansion plans, IFS Cloud for Aviation Maintenance is set to provide an advanced end-to-end maintenance software solution for its eVTOL aircraft across key areas including engineering, records management, operations, and planning. This will help to ensure the “safety and efficiency” of the aircraft and has the flexibility to cater to Joby’s rapidly evolving circumstances.
Matthew Lykins, Aircraft Maintenance Lead, Joby Aviation said:
“At Joby, we are at the forefront of revolutionizing travel with our eVTOL aircraft. Ensuring the seamless operation and maintenance of these aircraft throughout their lifecycle requires an equally innovative software solution. That’s why we have chosen IFS as our trusted partner. The IFS solution offers a robust software foundation that can evolve and adapt to meet our growing needs, from the initial testing and regulatory approval phases to the full-scale operations of Joby aircraft.”
At ATW Europe, Robert Mather, Vice President – Aerospace & Defence Industries, IFS will be exploring the practical applications of AI in aviation maintenance.
Additionally, Advanced Air Mobility will be explored across the event, with Balkiz Sarihan, CEO & Head of UAM, Airbus speaking on paving the way of new means of transportation and Andreas Perotti, CMO Europe, EHang discussing “Developing, certifying, and pushing the boundaries of unmanned eVTOLs.”
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