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How AR Glasses Are Used With Industrial Drones

Did you know that the global market for augmented reality (AR) glasses is projected to reach $70.01 billion by 2024? This staggering statistic highlights the increasing popularity and potential of AR glasses in various industries.

But how exactly are these cutting-edge glasses used with industrial drones? Well, get ready to explore the exciting world where technology meets innovation.

In this article, we will uncover the ways in which AR glasses enhance the capabilities of industrial drones, providing professionals like you with unparalleled efficiency and accuracy.

So, read on to learn the applications of this powerful duo in sectors ranging from construction and agriculture to surveying and beyond.

What are AR glasses for professional use

AR glasses, also known as augmented reality glasses, are wearable devices that utilize display technology to project virtual objects into the physical space, providing an immersive experience that enhances productivity and efficiency in various industries. These glasses are specifically designed for industrial applications, such as working with industrial drones. By integrating augmented reality technology, these glasses enable workers to have real-time access to critical information and data, improving their decision-making process and overall performance.

When using AR Industrial glasses, users can see virtual objects superimposed onto the real world, creating a mixed reality environment. This allows workers to interact with virtual elements while still being aware of their physical surroundings. With the ability to project visuals directly into the user’s field of view, AR Industrial glasses provide a hands-free experience, enabling workers to keep their focus on the task at hand.

One of the key features of AR Industrial glasses is their connectivity options. These glasses can be wirelessly connected to industrial drones, allowing users to control and monitor the drones’ operations directly from their glasses. This integration streamlines the workflow, as workers no longer need to switch between multiple devices or rely on manual controls. With AR Industrial glasses, users can navigate through complex environments, visualize drone data in real-time, and perform tasks with greater precision and accuracy.

Comfort and functionality are crucial aspects of AR Industrial glasses. These glasses are designed to provide a comfortable fit, ensuring that workers can wear them for extended periods without discomfort. Additionally, the glasses offer adjustable features to accommodate different head sizes and minimize blur, ensuring a clear and crisp view of the augmented content.

Meta Quest Pro 3

Meta Quest Pro 3 offers a comfortable and lightweight design, making it the ideal choice for extended use without any discomfort. These AR smart glasses are equipped with premium features at a smart price, including high-performance processors, crystal-clear displays, an intuitive user interface, and long-lasting battery life. The glasses seamlessly integrate digital content into the physical world, providing a full AR experience. With Meta Quest Pro 3, you can enjoy a virtual screen right in front of your eyes, enhancing productivity and efficiency in various industries.

Meta Quest Pro 3 is committed to accessibility and innovation, investing in extensive research and development in spatial computing technology. These AR glasses prioritize user satisfaction by providing clear guidelines and policies. Your privacy is protected, and the glasses comply with international regulations and standards. Additionally, Meta Quest Pro 3 offers transparent return and refund policies, ensuring your peace of mind.

The vision pro of Meta Quest Pro 3 allows you to see the world in a new way. Whether you’re in the field or in a remote location, these AR glasses provide a seamless and immersive experience. You can access vital information, overlays, and instructions without the need to look away from your task. With Meta Quest Pro 3, you have the power to enhance your work and make informed decisions on the go.

HoloLens 2

HoloLens 2 revolutionizes spatial computing by seamlessly integrating digital content into the physical world. These AR glasses provide an immersive experience by overlaying virtual information onto the real world. With its birdbath optics, HoloLlens 2 offers a rich, full HD projection that ensures a high-quality display. You can expect at least 1080p resolution and a 45-degree field of view, allowing for a wide and immersive viewing experience.

One of the key features of Hololens 2 is its adjustable and comfortable fit. It’s designed to minimize blur and discomfort, enabling extended use without any issues. This is particularly important when using these smart glasses in industrial drone operations, where professionals need to focus on their tasks for extended periods.

HoloLlens 2’s seamless integration of digital content into the physical world has significant implications for industrial drones. These AR glasses allow drone operators to receive real-time data and information, such as flight parameters, navigation instructions, and live video feeds, directly in their field of view. This enhances situational awareness and improves operational efficiency.

Additionally, Hololens 2 offers premium features such as high-performance processors and crystal-clear displays. These features ensure that professionals using industrial drones have access to the best technology available. Furthermore, the long-lasting battery life of HoloLlens 2 ensures uninterrupted use during critical drone operations.

Magic Leap

Magic Leap, another big player in the world of augmented reality glasses.

Magic Leap offers a range of smart glasses that provide an immersive experience by seamlessly integrating digital content into the physical world. These AR glasses have a comfortable and lightweight design, making them ideal for extended use in various industries, including the realm of industrial drones.

Magic Leap’s AR glasses boast premium features such as high-performance processors, crystal-clear displays, and an intuitive user interface. These features enhance the user’s ability to interact with digital information while maintaining a clear view of their surroundings. With Magic Leap, you can experience the power of augmented reality in a device that’s both technologically advanced and ergonomically designed.

When it comes to industrial drones, Magic Leap’s AR glasses can be a valuable tool. By wearing the glasses, drone operators can have real-time access to critical information, such as flight data, battery status, and camera feeds. This augmented reality integration enables operators to effectively navigate and control drones, increasing their efficiency and productivity in industrial settings.

Magic Leap is committed to accessibility and innovation, empowering individuals and businesses to embrace the future of AR. The company follows clear guidelines and policies to ensure user satisfaction, including privacy protection, return policies, and continuous updates based on user feedback. With Magic Leap’s AR glasses, the possibilities for integrating augmented reality into the world of industrial drones are limitless.

Drone night flight Jätkäsaari Evening

How AR glasses can be used to fly drones

To enhance the flying experience of drones, AR glasses provide a heads-up display for real-time telemetry and navigation data, allowing pilots to maintain visual line of sight while monitoring important flight information. These smart glasses are revolutionizing the way industrial drones are flown. With AR glasses, pilots can fly drones with ease and precision.

AR glasses offer a range of features that greatly enhance the pilot’s ability to fly drones. They can overlay augmented reality waypoints and flight paths onto the pilot’s field of view, providing a clear and intuitive interface for navigation. This not only improves situational awareness during flight, but also allows pilots to plan and execute complex flight missions with ease.

Furthermore, AR glasses can display live video feeds from the drone’s camera, allowing pilots to see the drone’s perspective without looking down at a separate screen. This real-time video feed provides a seamless and immersive flying experience, enabling pilots to make quick and accurate decisions while in flight.

In addition to these features, AR glasses can also integrate advanced capabilities like obstacle detection and avoidance. This means that pilots can fly drones with confidence, knowing that the AR glasses will alert them to potential obstacles and help them navigate around them safely.

Industrial AR goggles specifications

When selecting industrial AR goggles, it’s essential to consider their specifications, including resolution, field of view, comfort, connectivity options, and compatibility with different devices. These specifications play a crucial role in enhancing the user experience and ensuring seamless integration with industrial drones.

Firstly, resolution is a key factor to consider when choosing industrial AR goggles. Look for a minimum resolution of 1080p to ensure clear and detailed visuals. This high resolution is necessary for effectively overlaying digital information onto the real-world environment, allowing users to view critical data while operating industrial drones.

Additionally, the field of view (FOV) is another important specification to evaluate. Aim for a minimum FOV of 45 degrees to obtain a wide and immersive viewing experience. This wide FOV enables users to see a larger area of their surroundings, providing better situational awareness while operating industrial drones.

Comfort is also a crucial factor to consider. Look for AR goggles that offer a comfortable fit with adjustable features. This ensures that the goggles can be worn for extended periods without causing discomfort or strain on the user’s head or face. Minimizing blur is another aspect to consider, as it helps prevent eye fatigue during prolonged usage.

Connectivity options and compatibility with different devices are also important considerations. Industrial AR goggles should have seamless connectivity with drones and other devices, allowing for easy data transfer and control. Ensure that the goggles are compatible with the specific models of industrial drones being used to maximize their functionality.

Key features to look out for in AR Goggles

Consider the essential key features to enhance your AR goggles experience when operating industrial drones.

When choosing AR goggles for use with industrial drones, it’s important to look out for certain key features that can greatly improve your overall experience.

First and foremost, ensure that the smart glasses you select have a high-resolution display technology. This will ensure crisp and clear visuals, allowing you to easily see important information overlaid on your real-world environment.

Comfort is also crucial, so look for AR glasses that offer a comfortable fit with adjustable features. This will prevent discomfort during extended use and allow you to focus on your tasks without distractions.

Connectivity options are another important aspect to consider. Make sure the AR glasses you choose are compatible with different devices and offer ease of setup. This will enable seamless integration with your industrial drones and other equipment, making your workflow more efficient.

Additionally, consider the premium features offered by the AR goggles. Look for smooth operation, vibrant displays, and long-lasting battery life. These features will ensure that you can rely on your AR glasses for extended periods of use without any performance issues.

Variations in Display Explained

Birdbath optics position the picture downward, providing a rich projection for an immersive experience with AR glasses.

When it comes to the display of AR glasses, there are variations that can enhance your experience while using them with industrial drones.

One important aspect to consider is the field of view. AR glasses offer a wide field of view, allowing you to see virtual objects seamlessly integrated into your real-world environment. This wide field of view ensures that you don’t miss any important information while operating the drone. It enhances your situational awareness and enables you to make informed decisions quickly.

Another factor to consider is peripheral vision. AR glasses provide an expanded peripheral vision, which means you can see virtual objects and data even when you’re not directly looking at them. This is particularly useful when flying industrial drones as it allows you to monitor multiple data points simultaneously without taking your eyes off the drone’s flight path.

Furthermore, AR glasses use micro OLED displays to create vibrant and high-resolution images. These displays ensure that the virtual objects projected into your field of view are clear, detailed, and visually engaging. This is crucial when using AR glasses with industrial drones, as you need to accurately interpret the information presented to you.

Operating systems used

Smart glasses used with industrial drones can have different operating systems depending on the model and manufacturer. Some smart glasses have their own operating system, while others rely on separate devices for connectivity. When choosing smart glasses with an operating system, it’s important to evaluate the compatibility with different devices. Consider the ease of connectivity and setup process to ensure smooth integration with your industrial drone.

One aspect to consider is power consumption. Some smart glasses draw power from the devices they’re connected to, such as smartphones or tablets. This can be advantageous as it reduces the need for separate charging or battery replacement. However, it’s important to ensure that the connected device has sufficient battery life to support both the drone operations and the smart glasses.

Additionally, the operating system of the smart glasses may influence the functionality and features available. Look for smart glasses with a customizable augmented reality (AR) workspace or a private screen, depending on your preferences and specific use cases. These features can enhance your experience and productivity while using the smart glasses with industrial drones.

Another consideration is the availability of software and applications compatible with the operating system. Certain operating systems may have a wider range of AR applications and tools specifically designed for industrial use, allowing you to perform tasks such as real-time data visualization, object recognition, or remote collaboration.

Fields of View

When evaluating smart glasses for use with industrial drones, one important aspect to consider is the field of view (FOV), which refers to the extent of the visible environment or screen content that the wearer can see at any given moment. The FOV in AR smart glasses is measured in degrees and plays a crucial role in determining the immersive experience and range of vision provided by the glasses. A wider field of view can offer a more immersive and natural experience as it allows for a broader range of virtual content to be seamlessly integrated into the physical environment.

The field of view directly impacts your ability to interact with and perceive virtual elements in your surroundings, making it an important factor when choosing AR smart glasses. A wider field of view contributes to a more comprehensive and seamless integration of digital content into the physical world, enhancing the overall user experience and practical applications of the smart glasses in industrial drone operations.

When using smart glasses with industrial drones, a wider field of view can provide you with a better understanding of your surroundings, allowing for more efficient and precise control of the drone. It enables you to view important information, such as telemetry data, flight paths, and real-time video feeds, without obstructing your natural field of vision.

However, it’s important to note that a wider field of view may come at the cost of reduced battery life and picture quality. Some smart glasses may compromise on these aspects to achieve a wider field of view. Additionally, it’s crucial to consider the privacy policy of the smart glasses manufacturer to ensure the protection of sensitive information and data transmitted through the glasses.

Voice controls

Voice controls revolutionize the way you operate AR smart glasses and industrial drones, allowing for hands-free operation and seamless interaction with your surroundings. With voice controls, you can easily give commands and navigate interfaces without the need for manual input, enhancing convenience and efficiency. This feature enables you to initiate tasks, access information, and interact with AR content simply by speaking, freeing up your hands to focus on other important tasks.

The integration of voice recognition technology with AR smart glasses and industrial drones ensures accurate interpretation of your commands, minimizing errors and streamlining operations. This advanced technology enables your smart glasses or drones to understand your voice and respond accordingly, enhancing user experience and productivity in various work environments.

Imagine being able to control your industrial drone’s flight path or access specific AR content on your smart glasses just by speaking commands. Voice controls enable you to do exactly that, making it easier than ever to interact with your devices and surroundings. Whether you’re a technician in a factory, a field engineer inspecting infrastructure, or a first responder in an emergency situation, voice controls provide a convenient and efficient way to operate your AR glasses and drones.

In addition to hands-free operation, voice controls also enhance safety by minimizing distractions. Instead of having to manually input commands or interact with physical interfaces, you can focus on your surroundings while still maintaining control over your devices. This is particularly crucial in high-risk environments where your attention needs to be fully engaged.

Learn how to fly a drone in your office

AR or VR what’s the difference?

The distinction between augmented reality (AR) and virtual reality (VR) lies in their fundamental approaches to enhancing the user’s environment.

AR glasses, such as smart glasses, overlay digital information onto the real world, enriching the user’s surroundings with additional digital elements. On the other hand, VR creates a completely immersive experience by transporting the user to a simulated environment.

AR glasses are commonly used in various applications, including industrial drones. They allow users to view real-time data and information overlaid onto their field of vision, providing valuable insights and enhancing situational awareness during drone operations. This integration of AR technology with industrial drones enables operators to have a more comprehensive understanding of their surroundings and make informed decisions in real-time.

In contrast, VR is primarily utilized in gaming and entertainment, where users are fully immersed in virtual worlds. VR headsets replace the user’s real-world environment with a simulated one, offering a completely different experience from AR. While AR enhances the user’s perception of the real world, VR provides a more isolated and immersive experience that disconnects users from their physical surroundings.

To summarize, the key difference between AR and VR lies in their approaches to enhancing the user’s environment. AR glasses overlay digital information onto the real world, while VR headsets immerse users in virtual environments. AR is commonly used with industrial drones to provide real-time data and enhance situational awareness, while VR is predominantly used for gaming and entertainment purposes.

How are smart glasses for the industry different from consumer versions?

Smart glasses for the industry differ from consumer versions in several key aspects, catering specifically to the needs and demands of industrial environments.

When it comes to display technology, industrial smart glasses prioritize features like birdbath optics and a minimum resolution of 1080p, providing a clear view of digital information overlaid onto the real-world environment. With a 45-degree field of view, these smart glasses offer a wide perspective for enhanced productivity in industrial settings.

Fit and comfort are crucial factors in industrial smart glasses. They’re designed with adjustable features and built-in diopter tuning to minimize blur and accommodate individuals with nearsightedness. The goal is to ensure that workers can wear the glasses comfortably for extended periods without experiencing discomfort or vision issues.

Connectivity options for industrial smart glasses also differ from consumer versions. These glasses offer a range of options, from a private screen to a customizable augmented reality workspace. They draw power from connected devices and are compatible with different devices commonly used in industrial environments. This flexibility allows workers to integrate the smart glasses seamlessly into their workflow.

Furthermore, industrial smart glasses come with specialized features that cater to the unique demands of the industry. These features may include dimmable options for varying lighting conditions, audio integration for hands-free communication, and integration with top conferencing platforms for remote collaboration. The focus is on providing comfort, versatility, and seamless integration into existing workflows.

Maintenance of Industrial AR glasses

To maintain optimal visibility and functionality of your industrial AR glasses, it’s important to regularly clean the lenses and frames. The lenses can accumulate dust, smudges, or other debris, which can obstruct your view and affect the overall performance of the glasses. Use a soft, lint-free cloth or lens cleaning solution to gently wipe the lenses and remove any dirt or marks. Avoid using harsh chemicals or abrasive materials that could scratch or damage the lenses.

In addition to cleaning, proper storage of your AR glasses is also crucial for their maintenance. When not in use, store them in a protective case to shield them from dust, moisture, or accidental impact. This will help prolong their lifespan and prevent any potential damage.

To ensure uninterrupted usage during industrial operations, regularly check and replace the batteries of your AR glasses as needed. Keeping the batteries fully charged or having spare batteries readily available will help avoid any power-related disruptions.

Software updates and maintenance are also important to keep your AR glasses up to date with the latest features and security enhancements. Regularly check for updates provided by the manufacturer and follow the recommended procedures for installing them. This will ensure that your glasses operate efficiently and provide the best user experience.

Lastly, conduct periodic inspections of your AR glasses for any signs of wear and tear. Address any issues promptly to prevent further damage and maintain the overall performance and durability of your industrial AR glasses.

Training to use AR Glasses

When using AR glasses, it’s important to undergo training to familiarize yourself with the display technology and its functionalities. Training for the use of smart glasses is crucial to ensure that you can maximize their potential when working with industrial drones. During the training process, you’ll learn about the various features and capabilities of AR glasses, allowing you to use them effectively in conjunction with industrial drones.

One aspect of training involves understanding the fit and comfort of the smart glasses. You’ll learn about the adjustability options available to personalize the fit and ensure that they’re comfortable to wear for extended periods of time. This knowledge will help you avoid discomfort and potential distractions while operating the industrial drones.

Connectivity features are another important aspect covered in training. You’ll learn how to connect the AR glasses to different devices and optimize their performance for various operating systems. This knowledge will enable you to seamlessly integrate the glasses with the drones, allowing you to access real-time data and visuals.

Furthermore, training will provide you with information about the best AR smart glasses available in the market and their unique features. This knowledge will help you make an informed choice when selecting the most suitable glasses for your specific needs.

Lastly, training will cover the diverse applications of AR glasses in different industries. You’ll learn how to utilize the glasses for video streaming, spatial computing, or collaborative working. This understanding will enable you to leverage the full potential of AR glasses when working with industrial drones.


In conclusion, AR glasses have completely transformed the way industrial drones are used across various sectors. With the ability to seamlessly overlay digital information onto the real world, professionals can achieve unprecedented efficiency and accuracy.

Imagine the excitement and thrill of being able to see live drone footage and important metrics right before your eyes, without any distractions.

This powerful duo of AR glasses and drones opens up a world of possibilities, revolutionizing industries and taking them to new heights.

Stay Informed – Heads up Display for emergency response

We want to help first responders save lives and become much more cost efficient.

Augmented reality and drones are being used by search and rescue teams, firefighters and law enforcement in order to increase the speed and efficiency of life-saving operations.

Imagine a world where first responders are able to locate people faster than ever before and train without risking damage to equipment or put anyone at risk.

This white paper will explore how augmented reality can be used to help drone pilots assist in search and rescue operations, firefighting and law enforcement, making hazardous tasks faster, safer and more efficient.

Stay Informed – Heads up Display With relation to SORA Guidelines

As the drone industry continues to grow at an exciting pace, we propose that augmented reality (AR) technology can play a pivotal role in enhancing drone infrastructure.

By leveraging AR technology, we can improve safety, efficiency, and accuracy in drone operations, while also creating new opportunities for innovation and growth in the industry.

However, to fully realise the potential of AR in the drone industry, we need the backing of industry stakeholders to integrate AR into the regulatory process. This white paper presents a compelling case for why AR should be part of the regulatory process for drones, and outlines the benefits of AR for improving safety, efficiency, and accuracy in drone operations.

We call upon industry stakeholders to join us in supporting the integration of AR technology into the regulatory process, and to work together to unlock the full potential of the drone industry.