The importance of precision engineering in aviation

The importance of precision engineering in aviation

The world of aviation has been catapulted into a safer, more streamlined industry as a result of precision engineering. Thanks to the innovations of precision engineering, things such as quality control and incredibly high standards can be met with ease in the aviation industry.


We are going to take a look at the importance of precision engineering in aviation, as well as how it benefits this innovative sector.


The importance of precision engineering in aviation


The aviation industry relies on aircraft to stay in the sky safely. Precision engineering is responsible for a great deal of this, as it allows manufacturers within the aviation industry to meet the strict quality controls and accurate specifications required for aviation components. It is also an essential part of ensuring that products are designed with exceptionally high quality and consistency.


Aircraft need to be manufactured quickly and safely in order for the aviation industry to flourish, which is why outsourcing work to precision engineering companies has become incredibly common. The ability to faithfully reproduce tiny components with CNC machines and designs is just a part of why precision engineering is so important to aviation.


What does precision engineering accomplish for the aviation sector?


Developing, designing and implementing components for aircraft requires careful planning and thought to ensure utmost safety during flights at all times. This means precision engineering can be found all over aircraft, including:


– Seatbelts

– Metalwork

– In-flight instruments

– Visual overlays

– Audio and visual equipment

– Doors and windows

– Exterior shell of aircraft


The reality is that precision engineering is everywhere on an aircraft because ensuring impeccable standards is a must. Due to the small nature of many of the components such as in-flight measurement devices, aircraft manufacturers depend on large batches of components that are built with precision in mind.


Precision engineering offers accountability


In the unlikely event that something were to go wrong mid-flight, it is vital that the aviation industry can trace the issue back to a single instrument, component or device. This allows for an iterative process that uses quality control and accountability to pinpoint what went wrong and to correct any design flaws.


Due to the high risk of a serious problem developing if something goes wrong mid-flight, the aviation industry is incredibly diligent in terms of tackling issues with designs. If a component is even a millimetre too short or not fitted correctly, that could spell the end of a business contract.


Precision engineering drives innovation in the aviation industry


By its very design, precision engineering creates innovative concepts and designs that improve aviation. By performing a range of iterative processes, precision engineers push the aviation industry further into advancement by refining components, creating new designs and implementing them safely.


Without precision engineers in the aviation industry, progress would grind to a halt and the entire sector would struggle to see any meaningful changes or innovations.


Precision engineering empowers the aviation industry to reach the lofty heights that it does. This is achieved through direct innovation, ensuring quality and consistency in precisely designed components and accountability should anything go wrong.

International Air Transport Association (IATA)

Employees in the aviation industry are likely to have heard of the International Air Transport Association (IATA). This influential trade association supports many areas within aviation and is instrumental in formulating industry policy. Because of the IATA’s widespread influence, it’s beneficial to know what it is and how it helps to shape the aviation industry.


What is the IATA?


The IATA is a global trade association for airlines throughout the world, currently counting 292 airlines, or 80% of all airline traffic, amongst its membership. Founded in Cuba in 1945, it is now headquartered in Montreal, with executive offices in Switzerland. Current members of the IATA include Turkish Airlines, WestJet, and Qantas.


The association’s overall mission is to represent, lead, and serve the aviation industry. The IATA’s Board of Governors set priorities for the industry each year, with the current key priorities being safety, financial resilience, environmental sustainability, and industry restart following the Coronavirus pandemic.


How does the IATA support the aviation industry?


The IATA sets industry-wide regulations and policies for airlines, with the aim of improving standards and simplifying processes for passengers, as well as continually improving safety and efficiency. The policy that the IATA develops covers a wide range of areas within aviation. These include consumer and passenger issues such as human trafficking, handling unruly passengers, and passenger security. Other policy areas that the IATA covers include environmental policy and sustainability, and the future development of the industry.


By shaping policy and the industry’s future, the IATA implements change and supports its members to successfully introduce changes to policies and processes. An example is implementing the electronic airline ticket, in response to requests from its membership. As well as giving travellers the benefit of increased convenience, this has improved the industry’s sustainability by reducing the use of paper tickets.


The IATA’s current priorities


The IATA’s priorities for 2021 cover four main areas. A key performance target for this year for airline safety is to reduce the 5-year all accident rate from 2017-2021 compared to between 2016-2020. In the area of financial resilience, the IATA is aiming to secure $75-95 billion in government relief measures for airlines. This is closely linked to its goals for industry restart following the Coronavirus pandemic. In this area, the association plans to work with governments to build plans for reopening borders and allowing quarantine-free travel.


The final 2021 priority for the IATA is to support the industry’s environmental sustainability by offsetting 2.2 million tons of carbon dioxide through the IATA Aviation Carbon Exchange.


The future of aviation


As well as having priorities for the current year, the IATA also looks ahead. The association has a fundamental influence on the future of the airline industry. A key policy for the industry’s future is to increase female representation. The IATA’s campaigns aim to increase the proportion of women in senior roles and roles where women are typically under-represented by 25%, or up to a minimum of 25%, by 2025. This voluntary campaign is aimed at aircraft manufacturers and airports, as well as airlines themselves. Making these changes by 2025 represents a step towards the industry achieving gender balance.

Innovations in sustainability for airports, marine, oil and gas

Innovations in sustainability for airports, marine, oil and gas

The aeronautics and marine industries have long been early adopters of new innovations and technologies. Now that sustainability is becoming an increasingly important subject globally, these industries are embracing new innovations in sustainability. With organisations like the International Maritime Organisation making commitments to reduce emissions and greenhouse gasses, new innovations in sustainability are vital. The aeronautics and maritime industries are not the only ones – oil and gas companies are also looking towards these innovations. This blog outlines innovations in sustainability for airports, marine, oil and gas.


  • Airports


Airports consume a vast amount of energy, and reducing this is a key way to become more sustainable. Innovations like LED lighting can drastically reduce the amount of energy an airport needs. Some airports are also looking at alternative ways of generating energy. Dublin Airport is one example, having installed 268 solar panels on the airport’s reservoir system in partnership with Ireland’s largest energy supplier. These panels are capable of generating more than half of the airport’s energy requirements each year. Other airports are also deploying this approach, including Orlando International Airport.


Cutting pollution and emissions is another way that airports can increase their sustainability. Innovations like advanced aircraft technology and low-carbon sustainable fuel help airports to make a more immediate contribution to limiting the aeronautics industry’s emissions. Vancouver International Airport has an initiative to reduce its carbon emissions to net-zero by 2030 by taking advantage of the availability of low-carbon aircraft fuel.


  • The marine industry


Shipping alone accounts for around 2-3% of the world’s greenhouse gas emissions, so the marine industry is also taking steps to increase its sustainability. One innovative option is decarbonising the industry’s fuel. With most commercial vessels relying on low-cost heavy oil for fuel, adapting to zero-carbon fuels can make a great impact on the health of our oceans. Making the supply chains for zero-carbon fuels more sustainable and demonstrating the viability of these fuels industry-wide can help to achieve the International Maritime Organisation’s mandate to reduce the sulphur levels in ship fuels to 0.5%.


Wind power is another innovation that’s driving the marine industry towards greater sustainability. Research is being conducted to inform the development of innovative technologies that will allow for hybrid vessels. Such solutions could include the use of kite sails above ships, more traditionally designed sails using lighter and more efficient fabrics, as well as Flettner rotors, spinning cylinders mounted onto a ship to provide force.


  • The oil and gas industries


Whilst renewable energy is becoming more widely used, it’s likely that oil and gas will continue to be part of the energy we typically use in the future. This means it’s essential for oil and gas companies to develop more sustainable practices and adopt sustainability innovations. Many companies are seeking to innovate themselves, continuing to work with oil and gas whilst simultaneously exploring ways to transition to low-carbon fuels.


Another way that oil and gas companies can work towards sustainability is by switching to more environmentally-friendly transport and delivery methods. The industry is increasingly turning towards low-mileage and low-emission solutions that help to reduce its overall carbon footprint, as well as operating in an energy-efficient way.

Airport, port, rail, and military terminology.

If you’re involved in aeronautics or have even simply visited a large airport, you’re likely to have heard particular terminology that might be difficult to understand at times. Knowing what these terms mean can give you greater confidence when you travel or when you’re working with transport systems. In this publication, we present a guide to airport, port, rail, and military terminology.


Airport terminology


There are a lot of technical terms in use in airports that can be unclear for some people. Below is a list of common terminology you might see or hear in connection with airports.


  • Air traffic management – this refers to all of the systems in place to manage air traffic to and from an airport, including planes taking off and landing. It includes systems like air traffic control and airspace management and is vital for ensuring aviation safety.


  • Remote control tower – this is a concept where air traffic control is performed remotely rather than at an airport’s local control tower.


  • Electronic flight strip – this is an efficient way of providing air traffic controllers with all of the vital information they need about a particular aircraft. This includes where the aircraft is travelling to.


Port terminology


Ports are similar to airports but concern boats and ships as opposed to aircraft. Again, specific terminology is used in these environments that can sometimes be unclear if you’re not familiar with a port’s setting and operations.


  • Backhaul – this refers to moving cargo back over part of a route that it has already travelled. This is usually the opposite direction to the cargo’s final destination.


  • Controlled atmosphere – this refers to a sophisticated computer-controlled system that manages the gases within a container during a shipment. It’s vitally important to prevent the decay of the items inside the container.


  • Plimsoll mark – also known as load lines, these are specific markings on the hull of a vessel that marks the level that must remain above water to ensure that the ship is stable.


Rail terminology


Railways and rail networks also use a variety of technical terminology. Below are some common terms used within the rail industry.


  • Overhead line equipment – this term is often abbreviated to OLE. It refers to the wires and support structures that deliver a traction supply current to traction units.


  • AC systems – a line with overhead line equipment that supplies an alternating current to electric trains.


  • Failed to calls – this term refers to incidents when a train has failed to make a scheduled stop at a train station. Failed to calls can happen for a variety of different reasons.


Military terminology


A lot of specific terminologies are used within a military context. Sometimes using technical terminology in this context is important for security purposes.


  • Airship – a type of aircraft that is lighter than air and navigates through the air under its own power. Since the 1960s most airships use helium to lift themselves but some use hot air.


  • Electronic intelligence – also known as signals intelligence, this is an approach that uses electronic sensors to gather intelligence, focusing on non-communications signals.

Climate change

Climate change is the biggest challenge facing humanity and efforts to tackle it have been stepping up around the world, with innovative technological solutions and more investment than ever before. From algae farms to artificial trees and solar radiation management, we take a look at new ways technology can be used to prevent climate change.


What is climate change?


Climate change is a term used to describe the changing weather patterns and climate conditions around the world. This is a natural process, however, due to human interactions with the environment such as deforestation and increased carbon dioxide emissions, the climate is experiencing rapid, large changes which are having negative impacts around the world.


Carbon Capture technology


Global warming is a real problem, and one of the biggest causes is the huge amount of carbon dioxide we are releasing and the reduction of natural carbon capture solutions like trees. In order to reduce the amount of carbon dioxide in the atmosphere, innovative companies have been designing carbon capture and storage technologies to mimic this process. The carbon dioxide which would be released into the atmosphere is instead captured from a large point source (like a power plant or steelworks) and then transported and stored deep underground in a geological formation.




Some scientists have argued that drastic times call for drastic measures, and geoengineering is one of the more controversial climate change prevention technologies that has been proposed. Geoengineering involves large scale interventions in the earth’s natural systems to combat climate change. This could include releasing volcanic ash as a coolant, using mirrors in space to redirect the sun’s rays or cloud seeding.


More sustainable transport


Another way that we can reduce our carbon dioxide emissions is by switching to more sustainable and eco-friendly transport measures. This could include hybrid electric buses, electric cars and using biofuel made from waste. Electric cars have seen a huge rise in popularity as technology continues to offer cleaner, greener methods of transport and research into more effective sustainable transport is ongoing.


Clean energy


Most of the power generated around the world comes from fossil fuels, and this continues to increase temperatures and speed up climate change. With global temperatures on the rise, the emission of greenhouse gases like carbon dioxide needs to be drastically reduced over the coming years and switching to greener energy is going to be crucial. Clean energy sources like wind, solar and geothermal power can offer a sustainable and climate-friendly solution. From solar-powered road signs to offshore wind farms and huge solar farms, clean energy technology continues to improve.


Greener food


Providing enough food for the world, without damaging the environment has been a problem for decades. Recent innovations are tackling the huge impact of the meat industry with alternative, greener options such as algae farms, locally grown produce and artificial meat. This is having a positive impact as more and more people are choosing these eco-friendly food options, especially in large organisations like universities, airports and hospitals.


Get in touch


At Bayanat Engineering, we understand the huge impact climate change is having on our world and we are passionate about helping our clients utilise new technologies in order to reduce their environmental impact. Call us today to discuss how we can transform your business into a climate-friendly, sustainable and low-emission company that’s prepared for a better future.

Security measures for 2022 World Cup

Qatar improves on previous host security measures for 2022 World Cup

Qatar looks primed and ready to host the upcoming FIFA World Cup in 2022 and will become the first Middle Eastern country to host the world’s biggest sporting tournament. The World Cup always draws in big crowds, which makes the subject of security particularly relevant. The Middle East has previously been chastised for its poor uptake of technology and security, but Qatar is hoping to change that with the upcoming World Cup. With a society that is keen to adopt technological innovation, Qatar looks ready to transition into a more digitally inclined age – which is great news for security during the Qatar 2022 World Cup.


This article is going to look at the security measures and technologies that Qatar will be implementing for the upcoming FIFA world cup, and compare it to previous hosts.




As the world’s largest sporting event, it is no surprise that host countries fall foul of various cyberattacks. With the huge sums of money and traffic that go in and out of Qatar during the World Cup, they will need to be prepared to defend against all types of cybercrime.


Russia was the last World Cup host and they claim to have dealt with over 25 million different cyberattacks during the tournament. Whether it is malware, phishing, or other online scams, cybercrime became an ever-present threat during the Russian World Cup in 2018.


Qatar looks to learn from Russia’s previous mistakes by implementing numerous countermeasures to defend against cybercrime during the 2022 World Cup. The biggest announcement for Qatar was Project Stadia, an initiative designed to help Interpol member countries effectively collaborate and execute security preparations during major sports events.


The project covers key areas such as physical security and cyber security and brings global experts together to discuss methods of security. Project Stadia is designed to work across borders and help other countries, such as the UK, to co-operate with cybersecurity efforts.


On-site security


During the World Cup in Russia, the Government installed a number of policies to crack down on antisocial and disorderly behavior. From enforcing a heavy police presence across the major football fan locations to restricting the sale and consumption of alcohol, it was clear that Russia intended to take an aggressive approach to on-site security.


Qatar intends to use a more subtle approach to security during their World Cup in 2022, using technology to assess threats before they become a problem. From facial recognition scanners to CCTV surveillance, Qatar officials are looking to keep an eye on events from afar rather than through an aggressive presence.


The Tala2 Project is the pinnacle of Qatar’s security and surveillance efforts for the World Cup. Tala2 creates an all-in-one surveillance platform for all of the CCTV cameras in the region. Moreover, it includes functions such as night-vision and solar panels to make for a more efficient surveillance system.


The upcoming World Cup in 2022 promises to be a safe, secure, and memorable experience for fans and Qatari’s alike. It is clear that the Government has taken positive steps to ensure the safety and security of everyone attending the tournament by using technology to improve on the efforts of previous host countries.

A guide to data buoys and sensors

A guide to data buoys and sensors

Safety and accurate navigation is essential for maritime vessels, whether they’re passenger or cargo ships, or naval vessels. The marine industry has always been an early adopter of new technologies and innovations. New ways of gathering and making sense of data in order to improve safety, navigation, and performance, such as the use of automatic data sensors housed in buoys, is an important development that we expect to see becoming even more sophisticated in the future. Marine industries make use of data buoys and sensors as a means of monitoring conditions and then sharing the information with vessels. This blog post looks in more detail at data buoys and sensors.


What are data buoys and sensors?


Data buoys are floating buoys that are equipped with delicate sensors used to monitor a variety of atmospheric and sea conditions. Highly sensitive sensors are housed within the buoy itself to ensure it is protected at sea.


Data buoys have a variety of different applications that promote safety and navigation. Weather buoys are one common example. They monitor changing weather conditions at sea, much like a land-based weather station. The conditions that a weather buoy monitors include air temperature, wind direction and speed, and rainfall levels. All of these conditions have an impact on the course of a vessel. Data buoys warn crews of danger and help them to be responsive to changing conditions.


Data buoys can also measure sea levels, and are capable of detecting changes of only 1mm. They can also detect the temperature and salt levels both at the surface of the sea and below the surface. More widely, data sensors refer to any type of device that responds to external input from the physical environment and then transmits that data.


The purpose of data buoys and sensors


Data buoys and sensors can be used to obtain a vast range of valuable information. Meteorological sensors are instrumental to ships being able to navigate safely. They also help to predict upcoming weather patterns; drifting data buoys, in particular, can be used for predicting hurricane or cyclone activity that could have severe implications for the safety of ships and their personnel.


The data gathered from data buoys can be also be used for other purposes. Wind and current information from data buoys has recently been used to locate missing ships, leading to significant improvements in safety and the effectiveness of search and rescue operations. Information about the sea surface temperature is also valuable for the fishing industry and can help with locating specific types of fish. This can then be used to control and assist fishing activity.


The future for data buoys and sensors


We can expect data sensors to become more sophisticated and more prolific as technology continues to develop. Ongoing advancements to data and cyber security mean that transmitting data will become safer, faster, and performance and accuracy will be enhanced. This might lead to an increased reliance on data from sensors. Moving into the future, we can expect to see data buoys and sensors used for a wider range of purposes and being an even more significant element in how the maritime industry launch and navigate sea vessels.

Digital NOTAM

What are the benefits of a Digital NOTAM Tower system?

Why are NOTAMs so important?

A NOTAM (notice to airmen) is a notice which is filed with the relevant aviation authority to let pilots know about any hazards which might occur along a flight route or at a location that could put the safety of the flight at risk. These NOTAMs are distributed across networks so pilots, airport controllers and operational personnel can access the latest information relating to a particular flight route.

Issues with traditional analogue NOTAM systems

The number of NOTAMs has increased dramatically over the past few years, as international travel has become far more commonplace, with more flight routes in play than ever before. There are now almost a million international NOTAM messages a year, which is triple what it was ten years ago. As the volume of data has increased, several problems with the traditional analogue NOTAM reporting systems used have become more apparent, meaning an innovative digital approach was necessary. Current NOTAM reports only use upper case which is an ADTN character set limitation and can make the reports hard to read. They also have a free text nature, which makes the automatic processing of the reports unreliable. It is vital that pilots and air traffic controllers have access to all the relevant NOTAM messages, so changing to a digital system is the only way to effectively accomplish this.

The benefits of a digital NOTAM system

By introducing a digital NOTAM tower system, aviation authorities can reduce the potential misunderstandings that can be caused by complex or unclear NOTAM reports. By changing the NOTAM format into a clear digital system, aviation authorities will be able to easily track NOTAM data, as well as organise, filter and manage the electronic data. For airport management professionals, a digital NOTAM system is essential for accessing up to date and accurate information about any given flight route.

Creating digital NOTAM systems for the future

As machine learning and automation become even more essential to the aviation industry, the outdated analogue NOTAM system has shown just how important it is to innovate and embrace digital systems. By creating clear data templates and efficient ways to write and share NOTAMs digitally, airports can prepare for the future, where no doubt even more aviation data will be necessary to process.

Transitioning to a digital system

As airports across the world introduce more and more technologies into their day to day operations, flight information has become easier to access, process and communicate. We are experts in aeronautics and we have helped airports across the region to embrace and integrate new technology to speed up and improve current operations. By using software systems such as a digital NOTAM system, airports can make sure pilots, air traffic controllers and airport operation staff can access clear, concise and accurate information when they need it.

Get in touch

At Bayanat Engineering Qatar, we have the tools, technology and expertise to make sure air travel and airport operations are as efficient and safe as possible. To find out more about our airport and air traffic management services, get in with touch our experienced team today.

Marine solutions & technology trends 2021

The maritime sector has long been one that relies upon age-old traditions and customs, but in 2021, marine industries are becoming more and more reliant on new technology. Tracking and communication technologies are essential for managing cargo shipments, while other technological innovations new to the field are streamlining shipments and boosting safety onboard.


Let’s take a look at some of the most transformative marine solutions that are being adopted by various marine sectors including shipping, leisure, and naval vessels. The potential for these technologies to transform these industries is huge, with almost limitless potential to increase efficiency in the future.


Smart shipping


Shipping is a global business that relies on complex logistics and supply chains. Cargo management software can let shippers manage inventory, delivery dates, and shipment destinations from one platform.


Smart shipping, which refers to unmanned ships that are inbuilt with autonomous technology, is the latest trend, with almost 10% of new builds being smart ships. Modern smart ships will use cutting-edge technology to monitor weather and environmental conditions and carry out advanced decision-making to improve efficiency, compliance, and safety.


Faster, better communication


Ships and maritime vessels have been using technology to communicate with other vessels and land teams for decades. Today’s ships use very-high frequency (VHF) radio waves, satellites, and WiFi to communicate increasing volumes of data at an ever-growing speed.


The introduction of 5G and new generations of satellites is going to further improve communication between ships, as well as between stakeholders and vessels. Live video and audio monitoring can now be used to keep track of the status of ships remotely, while radio-frequency identification (RFID) can be used to support asset management throughout the life of a vessel.


Accurate, reliable sensors


Sensor technology has come a long way in the last decade. Today, a single sensor can monitor a variety of parameters, including location and environmental data. Real-time monitoring and data analysis can not only be used to improve efficiency in commercial shipping but can also be used to improve operational effectiveness and extend the average lifespan of a shipping vessel.


In addition to monitoring onboard sensors remotely from land, new satellite navigation systems are able to pinpoint the precise location of vessels anywhere in the world using GPS or other tracking methods. With this increased accuracy comes increased reliability: if an error does occur with these new sensors, it’s much easier for ship operators to determine where they should go next.


What’s coming next?


Marine technology is advancing every year. We can expect to see continued advancement in digital monitoring, satellite navigation, and data analysis which will increase the reliability of ship operators across the globe, boosting both profitability and value of marine services. It’s important for marine officers and shipping managers to keep up with the latest technology to ensure they remain competitive in a changing market.


How we can help


At Bayanat Engineering, we deliver tailored marine solutions using cutting-edge IT and technology to improve efficiency, safety, and quality of air and marine transportation systems. We can design and supply sensors, communication systems, and tracking systems to marine vessels for use in naval, commercial, leisure, and energy sectors. To find out more about how we can help bring your fleet up to speed, contact us today.

The Need for People Counting at Airports

The Need for People Counting at Airports

Airports see thousands of people coming and going every day, and this passenger traffic can cause chaos for staff. To combat this, some airports have started to implement People Counting Systems, which use real-time data to enhance the efficiency of the services so passengers can spend less time in queues and more time at ease. Here are just a few core benefits afforded by People Counting Systems and how they help airports reduce congestion.


They help you prepare for the peak


With a People Counting System, you will be able to track certain peak times for popular and regular flights, meaning you will prepare better for a sudden influx of people. This is especially helpful during the holiday season, where the foot traffic might be nothing short of constant. You can reorganise queues or even open additional gates and counters as required.


This will make sure that a greater amount of people does not have to add up to a significantly larger level of congestion. Being able to focus your efforts on peak times is a much more efficient solution than leaving the gates and counters open at all times or on the fly. Knowing when and where to have your staff on call helps save you money too.


They help stay COVID compliant


The coronavirus pandemic has mostly subsided, but it is by no means a thing of the past – travel regulations of all kinds are still present in virtually every country, for example. Airports must help reduce the anxiety surrounding travel, and people counting is a good way forward for this. These systems can monitor congestion in a way that emphasises social distancing and even enforce it to a degree.


In addition, congestion and foot traffic might be more uncomfortable than ever for many people – even those with two vaccinations and a negative test result will likely want to keep their distance. Airports have a certain capacity in mind, and they can struggle to maintain this when you add social distancing. For this reason, people counting might be the best way to accommodate the new density of people.


They boost your duty-free shops


Queues are not just a problem at the terminals. Plenty of people reconsider shopping at an airport based on the queues. If people leave an airport shop because of the long line, then not only does that hurt their airport experience, it also means the shops and the airport at large lose money.


People Counting Systems can work the same way here as they do during a busy check-in. This gives you space to work with the venues and understand their needs at certain times, as well as helping them to combat their congestion. These systems revolve around maximising value and keeping on top of your opportunities, and the duty-free shop is as central to the airport as any other part of the experience.


At Bayanat Engineering, we provide specialized solutions that can benefit everyone at your airport – from you to your staff and the passengers.