Category Archives: Smart Glasses

Augmented Reality Eyewear

Augmented Reality Eyewear

Augmented reality glasses are eyewear that adds a layer of digital information to your visual surroundings. They can overlay messages, navigation, heart rate and other custom data fields that you can control with gestures.

While these devices look like traditional glasses, they usually contain a lot of tech that makes them bulky and heavy. Lumus aims to make AR glasses a little less cringeworthy with its second generation of the Z-Lens waveguide technology.

1. Nreal Air

Nreal Air is one of the most advanced AR glasses on the market, boasting a transparent 130in display in a lightweight form factor. These smart glasses can be paired with your smartphone and double as a second screen for streaming, games, and movies.

The displays themselves are impressive, pushing 1080p for each eye with 400 nits of brightness. They’re powered by micro OLEDs that pass their image downwards through a set of glass. The glasses can be connected to your phone via USB-C, and Nreal has a list of supported smartphones on its website that work with the device.

Unfortunately, the Nreal’s cameraless design isn’t without its faults. For starters, the glasses drain your smartphone’s battery quickly when you use them with Netflix or other apps. They also lack the ability to track movement, which would have been useful when using them for navigation. However, they’re still a great option for those who want to experience what AR has to offer with a minimal investment. If you’re already an EE customer, you can even spread the cost using its Add to Plan purchase option.

2. Rokid Max

Four years after Rokid’s first pair of AR glasses hit the market, the company has returned with an updated ar eyewear model — Rokid Max. Designed to work in tandem with your smartphone or laptop, these smart glasses offer an unmatched display projected right in front of your eyes.

With a 1920×1080 micro-OLED display and a contrast ratio of 100,000:1, Rokid Max offers theater-quality audiovisual experiences that will blow your mind. And it comes with HDCP support, enabling you to stream movies and TV shows from various streaming services without worrying about violating copyrights. Besides that, the device reduces forward light leakage by 90% and is TUV Rheinland certified to pass Low Blue Light, Flicker Free, and Eye Comfort tests.

Rokid Max is ideal for anyone who wants a portable monitor on the go, such as programmers, music producers, or gamers. But its biggest selling point is that it’s less than half the price of a similarly-specced portable monitor. Plus, it’s lightweight and comfortable to wear for long periods. You can get it on preorder for $439 starting today.

4. Ray-Ban

Originally developed in the 1930s to reduce glare for pilots, Ray-ban eyewear has since become an icon of retro style. Their iconic Wayfarer sunglasses have been seen on many celebrities and their Clubmaster frames are considered stylish for any occasion. The brand’s polarized lenses help eliminate glare and reduce eye strain, and they come in a variety of colors and materials.

The brand’s Stories smart glasses feature two 5-million-pixel cameras located at each corner of the frame for a panoramic view that mimics what your eyes see. You can take photos and videos, make calls, and upload content directly to social media. The glasses are water resistant and the battery lasts up to seven hours on a full charge.

The company’s culture scores poorly when compared to other large companies, with employees reporting low satisfaction with their total compensation (which includes pay, stock and equity), executive ratings, and work-life balance. But the brand’s quality products and extensive selection make it worth a look. Their virtual mirror is a great tool to try out the sunglasses before you buy them.

5. Echo Frames 2

Amazon may have gotten the basics of smart eyewear right, but it fell short in making them cool or at least a bit more invisible. Its Echo Frames essentially act as wireless open-ear headphones and let you control some core phone functions all with your voice. The Frames are easy to set up and use; simply power on, open the Alexa app and a couple button pushes later you’re good to go.

The frames sit on your ears and are considerably thicker than most glasses so they can house the speakers, microphones and battery. The underside of the right arm has a multifunction button that allows you to change settings, control customizable shortcuts and more. There’s also a touch and swipe sensor along the side to activate Alexa. The Frames are available with clear non-prescription lenses out of the box, but you can swap them for blue-light and polarized sunglasses lenses if you want.

The Echo Frames are part of Amazon’s Day 1 Edition program, which is designed to gather feedback on experimental products that would otherwise be too costly or time-consuming for a mass release. The $249 price ar eyewear tag makes them a solid choice if you’re an existing Alexa user that wants to take the assistant with you on the go, but it might be easier (and cheaper) to stick with traditional headphones or a smartwatch.

Augmented Reality for Manufacturing Companies

Augmented Reality for Manufacturing Companies

AR software allows engineers to view 3-D models of their products on a device’s screen. It also includes tools like a virtual ruler, which automatically creates precise dimensions for components and machines.

AR software lets manufacturing businesses offer complicated technical training for new hires and upskilling opportunities for experienced workers. It can also provide workforce access to clear illustrations, digital checklists, and step-by-step holographic instructions to reduce errors.

Identifying and Tracking Assets

AR has been shown to improve asset management by simplifying tracking and identifying equipment. Mobile computer vision-enabled smart devices that support AR can scan a piece of equipment to instantly display data on its condition, maintenance history, and more. The ability to quickly identify a specific machine in real-time allows staff to make more informed repair decisions and reduce the time required to complete tasks.

AR also provides the capability to see a 3D model of an object or part, as well as its dimensions. This information can help with planning, design, and development processes. AR can also enhance training by allowing instructors to remotely interact with students while they perform hands-on exercises in a virtual environment.

Augmented reality is a powerful tool that can help manufacturing companies reduce maintenance costs and downtime by providing remote assistance. For example, Rockwell Automation offers an AR app that lets operators, technicians, and engineers use their smartphone to request live help from a colleague for troubleshooting a mechanical issue that could slow down production.

Companies can further develop AR technology to make it more useful for their customers by integrating it with other transformational technologies such as artificial intelligence and the Internet of Things. The combination of these three will allow manufacturers to better understand the context in which their products are used and offer solutions to address any issues that may arise.

Creating a Digital Twin

A digital twin is an immersive virtual replica of an object, system or process. It’s typically used to analyze, model and perform simulations to help improve performance and eliminate bottlenecks. Taking this approach can lead to cost savings and better decision-making.

In a manufacturing setting, augmented reality technology can quickly create a digital twin to allow workers to visualize products and systems. It can also provide access to engineering augmented reality manufacturing companies drawings, parts lists, technical documents and ergonomics data. This allows employees to troubleshoot and resolve issues faster and more efficiently, improving productivity.

For example, if a delivery drone sustains minor wing damage on a flight, the company can use a digital twin to determine whether it’s safe to land or continue flying. This type of real-time virtual assessment helps businesses avoid costly downtime and meet customers’ expectations.

The resulting digital twin can be made available to internal and external stakeholders via VR, AR, or even IoT applications. For instance, Matterport offers an easy-to-use platform that uses AI to capture images and digitize them into a navigable 3D virtual space. This enables construction teams to collaborate more effectively, iterate designs more rapidly and achieve photorealistic renderings with a high level of detail.

Another example is Passive Logic’s smart building platform that uses an AI engine to engineer and autonomously operate IoT systems in buildings. It delivers advanced monitoring and analytics, synchronizes devices through integrated control systems, and learns from sensor data to continuously optimize operations.

Providing Product Training

Augmented reality is a powerful tool for training employees, especially in the manufacturing industry. It helps them learn how to use equipment and understand complicated processes without having to rely on a human trainer. Additionally, augmented reality can help with safety training by using immersive environments to walk them through potentially hazardous scenarios augmented reality manufacturing companies and providing real-time reactions such as visual warnings or audio prompts if they don’t follow proper safety protocol.

Moreover, augmented reality can make it easier to assemble complex products by overlaying work instructions or information with 3D models. This can make the process simpler and faster, as well as reduce errors. For example, in a pilot project conducted by GE Renewable Energy and software provider Upskill, an AR-enabled smart glass helped a technician wire a wind turbine, saving him 34.5% of his assembly time compared to the traditional method.

Other applications of AR in manufacturing include enhancing warehouse operations by superimposing inventory management data such as barcodes and expiration dates onto physical entities. This can make it easier for employees to find items quickly. Snap and Farfetch are two companies that have already incorporated this technology into their apps. Both use gesture recognition to allow customers to signal to the app that they want to try on another handbag or see a piece of clothing in a different color.

Enhancing Workplace Safety

AR technology uses the camera on a mobile device to alter the real world by overlaying digital information onto it. The hardware needed for AR — processors, input devices and display sensors — is already available in most modern cell phones.

When it comes to industrial work, this kind of augmented reality can make a big difference in worker productivity and safety. It can help workers to quickly locate parts, complete maintenance tasks and stay on top of a project without having to leave their workspace.

AR can also enable employees to learn how to operate complex and dangerous equipment in a controlled environment. This virtual training can save time, reduce the hazard of attempting to operate unfamiliar equipment and ensure that all employees have the necessary skills before they begin working in an actual manufacturing facility.

For example, if a worker needs to replace a component in a machine, they can use AR to identify the exact part that is required. They can then connect remotely with a subject matter expert who can view the situation in AR and provide instructions to fix the issue.

Another way that augmented reality can improve manufacturing operations is by providing data that supports health and safety inspections. AR can be used to record and validate that a worker has visited all of the required checkpoints on a piece of machinery during an inspection. This can prevent an inspector from overlooking a crucial safety feature.

AR in the Industrial Industry

AR in the Industrial Industry

The growth of AR market raises new strategic questions. Every firm must consider how this next-generation human interface will impact customer needs, product capabilities, and value chain performance.

Simple AR experiences use markers to anchor digital information to objects. More advanced, higher-value AR experiences leverage shape-recognition technologies to automatically recognize physical objects and integrate information seamlessly.

Enhanced Productivity

In industrial settings, AR provides a seamless connection between the virtual world (all the digital information from the design team) and the real world (the operations that are happening on the manufacturing floor). By presenting work instructions directly in the operator’s line of sight, this technology helps them to get it right first time, reducing the need for costly quality issues.

In addition, AR can be used to provide a more immersive way to demonstrate and try out products or equipment before purchasing. This saves the company money on sales and training costs while also eliminating the risk of product return and other related expenses.

Another major benefit of AR is that it reduces the need for workers to perform hazardous tasks in an unsafe environment, such as working in high heat, dangerous chemicals or moving machinery. This not only improves worker safety and productivity but also helps companies comply with regulatory bodies in a more cost-effective way by removing the need for costly regulations like high energy consumption standards. This is especially useful for manufacturers in states that are more conservative when it comes to adopting new technologies. In these cases, the manufacturer can simply stop selling in certain markets or offer a different model that is compliant with regulatory bodies. This allows them to continue a successful business and still be competitive in other regions of the country.

More Accurate Inspections

The inspection process in infrastructure and manufacturing is a complex and time-consuming task. With AR, human errors are reduced, and more accurate results are delivered.

For example, Newport News Shipbuilding uses AR to inspect their US Navy aircraft carriers near the end of manufacturing to mark steel construction structures for removal. This helps reduce inspection time by 96% and allows workers to easily compare the structure to the original design in augmented reality, eliminating the need for paper blueprints.

AR can also be used to streamline quality assurance processes. For instance, Vuforia’s Manifest software supports step-by-step instructions that allow workers to confirm each step before moving on. This ensures that the correct procedures are followed. In addition, Manifest can incorporate real-time, IoT sensor data into the process to enable dynamic guidance and workflow.

During inspections, remote experts can connect with local operators via ar industry AR to provide advice and guidance without having to travel to the site. This saves both time and money.

AR can also be used to monitor equipment in factories. This enables staff to view important machine performance data such as ar industry efficiency, error rates, and more in the context of the production process. This helps maintenance technicians understand problems and take proactive actions to prevent costly downtime. Using AR, telecommunications field engineers can access the product’s service history and diagnostics on their smart glasses, resulting in faster and more efficient repair times.

Improved Service Times

The ability to see a digital product representation with AR simplifies data access and accelerates problem-solving and process optimization. It also enables more efficient service, improving customer satisfaction, retention and loyalty. In the logistics industry, AR digitizes inventory management and supply chain processes to reduce tracking and shipping costs.

For manufacturing, AR allows workers to easily adapt to product variation without interrupting the flow of work. Work instructions can be programmed with sensory features like audio cues, flashing lights, animations and videos to simplify steps and make them more understandable. Integrated with MES or PLC systems, AR can automatically call up the correct process for new products without adding to cycle times. In addition, augmented inspection and verification saves time by allowing inspections to be conducted throughout the manufacturing process rather than at the end of an assembly line.

Moreover, using augmented work instructions in aerospace and defense helps improve traceability. With the capability to incorporate “no-fault-forward” steps that block a worker from continuing without completing the previous step, LightGuide AR software can record a “digital birth certificate” for each part and verify quality standards, improving efficiency by eliminating human error.

Because an AR user interface is purely software based, it can be adapted and expanded as needed. It can also eliminate the need for physical buttons, switches and dials, further reducing manufacturing costs.

Enhanced Training

Rather than just providing instructions or visual guidance, AR solutions allow employees to actually experience the tasks they’re working on. AR smart glasses like Google Glass and Microsoft HoloLens act as lightweight, hands-free computers that display digital information over a worker’s real-world surroundings. This allows workers to work faster, more accurately and improve safety while reducing training costs.

For example, one company used augmented reality to train its maintenance specialists on the process of repairing high-voltage equipment. The company’s AR hardware displayed the information overlaid on the actual machine and guided them in performing the task, thereby significantly reducing the time needed for training.

The technology also helps companies train employees at all skill levels. AR software can easily adapt to a worker’s experience level, whether they’re a new hire or a veteran with 30 years of manufacturing experience. This enables companies to bridge the skills gap between younger employees and senior management, resulting in improved productivity.

For instance, ThyssenKrupp used Microsoft’s HoloLens to enable 24,000 service technicians to visualize and solve elevator problems on-site. This helped them save time, cut down repair costs and improve customer satisfaction. It also eliminated the need for them to call experts for help in solving complicated issues, which can be a waste of both money and time. Unlike VR, which is accompanied by obvious simulation diseases and has poor visualization effects, AR is safer to use.

Virtual Reality Business Solutions

Virtual Reality Business Solutions

Virtual Reality Business Solutions can be an incredible way for businesses to stand out. It can be used for training, marketing and more. It can even be used to create a new type of customer experience.

A few years ago having a meeting with distributed teams was considered highly inefficient due to the high costs of travel. VR can help reduce those costs.


Virtual reality is a powerful training tool that can help businesses improve their employees’ skills, increase productivity, and boost business performance. It can even help businesses to stand out from their competitors by creating immersive experiences that are more engaging and fun than traditional methods.

One of the main benefits of VR is that it can be used to train employees on complicated tasks that are difficult or dangerous to perform in real life, such as flying a plane or handling hazardous materials. In addition, VR can be used to teach employees soft skills that are necessary for customer service and management roles, such as empathy and interpersonal communication.

Another benefit of VR is that it can be used to make employees feel more engaged and excited about their job. This can help to reduce employee turnover and boost morale. VR can also be used to train employees on new equipment and technology. For example, FedEx offers a virtual reality program to train workers on how to load and unload trailers.

Using VR can help to streamline and optimize the training process, which can save companies money. VR eliminates distractions and allows trainees to progress through training more quickly. Additionally, it can help to reduce downtime by providing learners with a more realistic experience of on-the-job scenarios. According to a study by PwC, workers who receive VR training learn up to four times faster than those who don’t.


Many consumers are familiar with VR through headsets like the HTC Vive and Oculus geared toward gaming audiences. However, there are also cheaper options such as Google Cardboard and the newer Google Daydream that work with select phones.

VR isn’t just fun, but it can be used as a marketing tool. Companies can take potential clients on virtual tours of properties or cities to help them make their purchasing decisions. This is especially useful for real estate, architecture, and construction businesses. Additionally, these immersive experiences are known to improve memory retention by creating a more personal and emotional connection with the customer.

Companies can even use VR to show their products before they go into production. This allows them to virtual reality business solutions analyze the product for functionality and correct any issues before it is sent out to customers. This also saves money by avoiding costly post-production issues.

Using virtual reality in business can be daunting, but it is easier than you might think. First, you need to determine your audience’s needs and how this technology will benefit them. Then, you can find the right solution and build it.

Virtual reality is becoming a powerful business tool for global organizations and remote sales teams. It is transforming design review, training, ecommerce and in-store retail sales processes. COVID-19 has accelerated the digitalization of these processes and increased demand for XR solutions.


VR is a powerful tool for businesses because it allows users to immerse themselves in a new environment. It also offers a more realistic experience than online videos and 2D photos.

One of the most popular uses for virtual reality is training. It provides a safe way for trainees to learn about dangerous situations without the risk of real-life consequences. This can be useful for a variety of industries and jobs, such as firefighting, pilots, astronauts and police officers.

Another use for virtual reality is data visualization. It helps companies to gather and analyze data in a new way, making it easier for people to understand what the information means. VR makes it easy to present research results and findings in a visually appealing manner, which is often more effective than text-based presentations.

VR can also be used for customer engagement and sales enablement. It can help brands stand out from their competitors and improve customer retention rates by providing a unique and engaging experience. For example, a hotel can use VR to allow potential customers to walk around their property before they book. Similarly, real estate developers can use VR to let potential buyers explore their new developments before construction begins. This can prevent buyer’s remorse and increase sales. It can also help companies reduce travel expenses by allowing employees to hold meetings in VR.


Virtual reality is a powerful tool that can enhance e-commerce. It allows consumers to see a product from multiple angles and perspectives, and it makes it easier to understand how the product will look in their home or workplace. This technology is also useful for businesses that don’t have physical stores, such as furniture companies or online retailers.

Creating virtual showrooms and retail environments using VR can help companies attract new customers and retain existing ones. For example, eBay and Myer collaborated to create a virtual department store that resembles physical stores. Other brands, such as Charlotte Tilbury and Rebecca Minkoff, have used VR to launch products and provide a more immersive shopping experience for their customers.

These technologies can also help reduce the cost of e-commerce and make it easier for buyers to complete their transactions. For example, a buyer can use an AR app to visualize how a piece of furniture will fit in their space before making a virtual reality business solutions purchase. Similarly, they can test out clothes in their own size or color using VR fitting rooms.

Developing a virtual reality business solution is an exciting opportunity for any company. However, it’s important to consider the specific goals of the application before starting the development process. Some goals may include gaining press attention or increasing sales. Others may focus on delivering an immersive experience to customers or reducing return rates. Once the objectives have been identified, companies can start developing their VR applications.

Industrial Augmented Reality

Industrial Augmented Reality

Augmented reality (AR) is one of the most promising technologies for industrial applications. It has the potential to improve productivity, safety and training, while reducing maintenance costs and mobilisation time.

Digital AR work instructions standardize training across enterprises. They are updated at the click of a button and display information for each worker, avoiding the pitfalls that can occur with oral or paper instructions.


Industrial AR systems provide valuable information and guidance for manual operations, reduce time spent on training and instruction and help workers perform tasks with less error. The benefits include reduced downtime, cost savings and improved production efficiency.

Using AR, employees can view structured 3D information in front of their eyes while having their hands free. This can be done with a headset or through mobile devices such as tablets and smartphones. In the case of headsets, there are several ways to implement this technology, including marker-based methods and natural feature tracking (NFT) technologies, which do not require physical markers to function.

NFT-based AR applications also allow for the display of virtual instructions that can be used in a real-world environment, without requiring the wearer to look down at their industrial augmented reality device or to move their head. This type of AR can be especially useful in assembly and quality control, where it can significantly reduce the time it takes to complete a task and identify errors quickly.

The use of AR can also improve safety in manufacturing, for example by allowing workers to access tracker data and real-time warnings on the performance of machines or other equipment. It can also be helpful in onboarding new employees, by providing them with a visual representation of the workflow and enabling them to understand their surroundings and responsibilities.


A growing body of research explores how AR can aid assembly operations, from providing digital work instructions to superimposing information onto physical objects. For example, when assembling automotive headliners, workers need to know exactly where to place the padding, glue, wire harness and other components. By using AR, they can see a template of what to produce in real time and avoid errors.

For more complex assembly tasks, tablet AR systems present digital work instructions in an easy-to-read format. The information is superimposed on the object, and the user can move the model in 3D to view it from different angles. Users can also zoom in to get a closer look at specific components. In addition, users can access important machine data such as barcodes and expiration dates.

The use of AR enables new employees to get up to speed quickly on processes that are often complex and time-consuming. In addition, existing employees can transfer their expert knowledge to junior colleagues. This helps to shorten the training period and make Volvo a more attractive employer.

Several studies have also explored the use of AR for maintenance tasks. In [151], a system that uses the Microsoft HoloLens to provide workers with instructions and visual assistance during a maintenance task is described. The system has been tested with four groups of test participants and found to be effective.


Maintenance of industrial equipment is an essential part of any production process, and it’s no secret that it can also be extremely time-consuming. But augmented reality is taking preventive, corrective and predictive maintenance to the next level, helping to reduce equipment downtime, increase productivity, improve product quality and profitability, and more.

AR can help to streamline and speed up routine tasks by bringing information directly into the user’s field of view. Using the same technology that powers smartphone games like Pokemon GO, AR allows for the superposition of real-time graphics and data on top of the physical world, making it easy for personnel to track and access equipment information.

This can be used for tracking and logging maintenance activities, providing remote support to technicians in the field, and improving training. Moreover, AR can be used to identify mechanical anomalies and provide the technician with suggested solutions for rapid repair.

AR can even be used to facilitate the replacement of a specific component or machine. This is achieved through the use of a digital model of the actual object that resides in the cloud, or by scanning and digitizing a physical product to generate a virtual replica. AR software can then link this virtual replica with business systems and external sources to dynamically display up-to-date information on the object.


Performing inspections and quality assurance in industrial environments can be extremely time-consuming for workers. Especially for processes that require complex work steps and an individual knowledge base, such as inspections of complex infrastructure like bridges [6]. Using AR to support these types of tasks can save workers time and reduce the number of errors that occur during work.

Standardized work procedures can be excellently mapped with industrial augmented reality AR solutions, for example with structured AR work instructions that automatically appear in the worker’s field of vision. This allows employees to easily complete work without having to search for the corresponding paper work instruction.

This allows the employee to concentrate on the task at hand and to perform it in a more focused way. The result is a significantly shorter process times and a higher level of productivity.

However, it is important to note that the use of industrial augmented reality can only be successful if adequate training and education are provided before the technology is rolled out. Otherwise, the system can distract workers from their work and lead to increased error rates. In addition, it is advisable that an appropriate project team is responsible for the introduction of AR systems to ensure smooth implementation. This also includes identifying potential barriers and risks early on in the project and adjusting accordingly.

The Impact of AR Eyewear on the World Economy

The Impact of AR Eyewear on the World Economy

AR eyewear takes what you see and layers on digital information. It has been infiltrating industries across the globe and solving problems in ways that weren’t possible before.

These smart glasses resemble a pair of Ray-Bans and are only slightly heavier than traditional sunglasses. They tether to your phone via a Type-C cable and connect via WiFi or Bluetooth for immersive visuals.

How AR Eyewear is Making a Comeback

Augmented reality is a technology that takes our surroundings and enhances them with digital information. AR eyewear is ar eyewear becoming increasingly important in the workplace, as companies look for ways to improve productivity and provide their employees with the tools they need to do their jobs well.

AR eyewear can add a layer of digital information to the world around you, such as navigation or text messages. They can also display notifications from your phone, and can even be used to take photos or video footage. Some AR glasses even have touch controls along the arms, making them easy to use on the go.

In addition to enhancing your visual experience, AR eyewear can also be used for remote collaboration and training. This makes it ideal for use in industries like manufacturing and healthcare, where workers need to access real-time data and collaborate with other team members remotely. AR eyewear can also be useful in retail and customer service, where it can provide a more immersive shopping experience and allow customers to view products from a distance.

Although smart glasses were once considered a novelty, they are now making their way into everyday life. In fact, they’re already being used in some of the most prestigious industries in the world, including aviation and medicine. Currently, there are many different types of AR glasses on the market, from Google Glass to Snap Inc’s Spectacles. But as the technology advances, it is expected to become more widely available and affordable.

Liquid Controls

In the aviation space, a company called Liquid Controls has partnered with Finnish ar eyewear company Augumenta to improve flight connections through AR eyewear. Their AR glasses allow pilots to see flight information in real time, allowing them to anticipate changes and take action before they happen. They also provide safety alerts in the cockpit.

This kind of smart eyewear could have huge implications in industries where workers need to rely on streams of data to do their jobs, such as oil refineries or coal mines. But it can also help workers in dangerous situations where cell phones and other electronic devices are not allowed, such as a flour mill or an air force base.

To facilitate this type of smart AR eyewear, a company called AlphaMicron is working with the Air Force Research Laboratory, or AFRL, to develop a guest host liquid crystal technology that can be embedded into thin lightweight prescription lenses. This can then be fabricated into eyewear using standard ophthalmic processing equipment. The AR elements can be incorporated into a plastic lens that is molded, cast, or laminated to a frame. This makes it possible to integrate smart technology into a wide range of products, including sunglasses, eyeglasses, goggles and helmets.

FlightConnect Glass

The benefits of AR eyewear are being felt in many industries, but the impact on the airline industry is a significant one. Using AR, Changi airport has reduced flight connection times by 15 minutes. This is a huge benefit to both air travelers and companies shipping freight for airlines. The oil and gas industry also uses AR in unique ways like to review analyses, user manuals, and even to communicate with teams who work in hazardous locations. These are just a few examples of the deep impact AR is having on the world’s economy. The impact is only expected to increase.

Augmented Reality in Manufacturing

Augmented Reality in Manufacturing

Competition, technological trends, environmental regulations and customer expectations put pressure on manufacturing companies to increase speed and reduce costs. To meet these challenges, they need to look for efficient and innovative ways of improving business operations.

One such technology is augmented reality (AR). It is an immersive experience that overlays digital constructs directly in the field of view.

Product Development

Augmented reality (AR) can accelerate manufacturing production and rethink product design, prototyping, and testing. It also enables cost-saving operational efficiencies in engineering, service and field operations. For example, a manufacturer can use AR to visualize assembly processes, set up automation lines, and perform virtual quality assurance inspections in the field.

Choosing the right partner for your AR project depends on your business’s specific needs. Choose a company with a solid record of customer satisfaction and a strong reputation for high adaptability, responsiveness, and proactivity. Look for a partner who can provide you with the services you need, such as designing AR apps, developing 3D models, and creating VR experiences.

Some companies specialize in the development of AR platforms, experiences and content; other develop utility tools that aid manufacturers. Healthcare is another growing area for AR; companies like AccuVein and SentiAR have built AR tools to help doctors locate veins in patients during invasive procedures. These tools enable more accurate and efficient patient care. Similarly, AR can help streamline medical training and provide remote expert support during complicated surgical procedures.

Design Review

In large production facilities, every second of downtime can cost revenue. AR/VR can significantly cut that downtime by allowing workers to quickly identify and resolve issues with equipment and improve workflow efficiency.

Sophisticated AR applications require highly accurate and detailed digital product representations. These can be adapted from 3-D models created during product development or from digitization techniques such as 3D scanning. Some AR experiences may also tap real-time data streams from enterprise business systems or other sources to supplement the augmentations with contextual information.

Using AR, warehouse employees can get instructions augmented reality manufacturing companies for picking and returning items to storage more efficiently. The location, specs inventory, and condition of the item can all be displayed on the worker’s display, and he or she can easily find what is needed.

Look for a VR/AR company that can build a metaverse platform based on your unique needs and business objectives. Make sure the vendor can offer a scalable solution that meets your budget. Check if they can provide services like design, production, and testing; and if they have an in-house team that works from start to finish.

Production Planning

AR enables companies to streamline processes within a manufacturing environment. Using headsets such as the Oculus and HoloLens, employees can access additional data and detailed context around the products they are working on, which reduces production time and improves quality.

In the product development stage, AR helps to refine and optimise designs at an early stage. This allows designers to review, adjust and modify digital models and prototypes quickly, which ultimately translates to great products. The technology can also help to communicate design changes in real-time to directors or executives, which can accelerate the process.

Once a project has been approved, it’s important to monitor and maintain the system. This includes regularly evaluating user feedback and adjusting the system accordingly. It also involves training employees to use the new technology. Projection-based AR, for instance, displays information directly in a worker’s line of sight without interfering with their vision or taking their hands off the task at hand. This provides more efficient access to manual and automated process data, such as cycle times or defects.


AR provides a venue for simulating real-world activities and situations in a semi-virtual way. It helps trainees practice different tasks without putting themselves or others at risk. It also reduces training time by allowing employees to access the necessary manual information and data in the virtual world.

When it comes to quality assurance, augmented reality helps manufacturers track manual process and automated metrics at the same time. The best AR solutions capture minute data points like cycle times, product defects and more. These consolidated data sets help identify the exact moments enterprise-level inefficiencies occur and offer insights on how to improve them.

Moreover, AR technology makes it easier for workers to augmented reality manufacturing companies inspect products before shipping them out. Previously, workers would have to physically walk around the product and look at it to check its condition. With augmented reality, workers can instantly see if the product has any dents or scratches on it. This is a significant improvement on previous inspection methods and can save companies money by eliminating the need to rework defective products.


Augmented Reality software for manufacturing is a valuable tool for companies that seek to boost productivity, increase efficiency, and provide a better work environment. However, the key to successful implementation is identifying and developing specific use cases for AR technology. This process involves assessing existing business processes and technologies to determine how they can be improved through the use of AR.

For example, an auto manufacturer could use AR to help technicians disassemble complex car engines. An augmented reality headset would display a detailed 3D model of the engine, overlaid with interactive controls that offer real-time step-by-step work instructions. Workers can view the model from any angle and zoom in to see the finer details. The augmented reality system will track manual processes and data points such as cycle times, defects, and more.

There are a variety of different AR development companies that develop platforms, experiences, and content for AR use in manufacturing. These include: development companies that build AR applications; production companies & studios that create immersive video content and products; and hardware manufacturers that vend AR devices, software, and content.

Augmented Reality Industry Applications

Augmented Reality Industry Applications

Augmented Reality (AR) is a growing technology that overlays additional information over the real world. It has numerous applications across many industries.

It is a great way to train & upskill your workforce. For example, an automotive company can use AR to give technicians a clear set of instructions on disassembling a car engine.

Product Design

Unlike traditional CAD models that are 2D renderings, AR allows designs to be dropped into the real world where engineers can experiment with them contextually. This contextual experimentation and iterative improvement of designs can lead to next-level products that meet customer needs better than their predecessors.

Additionally, AR can allow for multiple design iterations in a shorter period of time than would be possible with physical prototypes. For example, if an engineering team wants to try out different variations of the same design before they move on ar industry to the more labor-intensive process of creating and testing physical prototypes, an AR application can show a holographic 3D version of the model that they can manipulate. This allows for a far more efficient and cost-effective process than the manual comparison of 2D designs with physical prototypes that requires painstaking measuring and marking of each model.

Brenden Monahan CPO at Vusar, a company that develops augmented reality software and solutions including an AR app for viewing CAD models, spoke about the advantages of incorporating AR into product development processes during a presentation at the 2020 Pacific Design & Manufacturing Conference (PDM). He emphasized that one major benefit that AR offers developers is that it allows for faster prototyping, as it cuts down on the amount of time needed to iterate on designs. Another key advantage he mentioned is the potential for remote work, as AR can be used to collaborate with teams in virtual environments from various locations.

Asset Identification

Using AR for asset identification allows maintenance employees to work more efficiently and safely. They can wear AR smart goggles or smartphone cameras to see real-time data superimposed over a digital representation of a machine or equipment. This allows them to view instructions, access a library of previous solutions, or engage with remote support, all while keeping their hands free. This also gives them a better first-person perspective of a problem or issue. It can help reduce downtime and operational costs.

For example, Overlay, an augmented reality (AR) company, has developed AR technology that lets water utility workers assess city assets from a safe distance. This can include streetlights, fire hydrants, roads, cell towers, and other infrastructure. The technology enables the workers to perform a detailed inspection of an asset from a smartphone camera or AR smart goggles, and then come up with repair or maintenance strategies. This improves the safety and efficiency of the job, while reducing the need for travel expenses and time off for employees.

For high-value assets, tamper-evident labels can be used to prevent theft. These are usually made from a combination of optical markings, such as barcodes, data metric codes, and QR codes. They use a unique pattern that machines or cameras can read, and then return important information in the backend system.

Warehouse Picking

One of the main applications of AR for warehouses is order picking. The technology streamlines the process by giving workers visual instructions to pick items from their correct locations, cutting down on picking errors and increasing productivity. It also automates tasks that are repetitive or prone to error such as data entry and modification.

Using smart glasses with AR, ar industry warehouse associates can receive instructions to locate the right product at its designated location. The system’s map and aisle layout is displayed on the device, overlaid with optimal operator routes for the specific task.

Once the employee reaches the desired item, the Smartpick app can automatically find it by simply pointing at it. The app can then display more details about the product and check that it matches the warehouse inventory list. The app can also be triggered to verify the item once the associate has picked it, further reducing picking failures.

Besides reducing travel time, the Smartpick solution improves ergonomics by allowing warehouse employees to work hands-free with clear instructions displayed on their headsets. This eliminates the need for paper lists and reduces manual movement around the warehouse. The system can also optimize the pick route to avoid congestion and increase worker performance. Moreover, it enables warehouse managers to plan and test logistics routes based on historic data.


For industries and professions that are prone to dangerous situations, AR is a safe and efficient training tool. Whether it is learning to fly a plane, undergoing surgery or working with equipment that can cause life-threatening accidents, AR gives trainees the opportunity to develop their skills in a digital environment. This type of augmented reality training can help prevent the risk of injuries and save valuable time, money and resources.

For example, a company that specializes in industrial welding software has created an AR app that allows workers to see the overlay of a welded part on the actual machine, which improves accuracy and reduces the risk of errors. Similarly, an oil and gas company uses AR to train workers on how to operate heavy machinery and to ensure that they understand the instructions correctly.

As the technology matures, it is expected that more companies will adopt AR in their workforce training. This will amplify the demand for better mobile devices and improved AR solutions that facilitate quicker cognitive absorption, safer remote collaboration and more effective content access. This will lead to the creation of a more holistic experience that integrates learning, training and workflow, resulting in higher productivity and efficiency. This will be especially important for companies that are looking to remain competitive in the face of rising labor costs and a shortage of skilled employees.

Virtual Reality Business Solutions

Virtual Reality Business Solutions

Virtual reality (VR) is a powerful business tool that can be used in various ways to increase productivity. It can be used to train employees in life-and-death situations, to conduct meetings with remote teams, and to visualize products.

Customers will be able to try and modify your product in a virtual showroom, eliminating the need for physical displays and saving on inventory costs.


Construction is one of the biggest industries that will benefit from the new virtual reality business solutions. With a 3D model, clients can see what their new building will look like. virtual reality business solutions This allows them to better communicate their desires with the contractor and reduces scope creep. It also gives the client more transparency into what is going on, which can save time by eliminating the need for constant site visits.

Another advantage of VR in construction is that it enables the creation of computer prototypes, which can be used by inspectors to assess job sites for safety standards and expedite planning permission. In addition, VR can help with training, allowing workers to practice their jobs in a safe environment that is not at risk of real-life harm.

It is essential that all employees on a construction site have a full understanding of their responsibilities, including any safety procedures. However, it can be difficult to get this experience in a traditional workplace setting, especially for those working remotely. VR can enable new employees to train in a realistic construction simulator that is far more effective than a textbook or video. Likewise, it can also be used to train engineers and architects in the use of specialised equipment before they work on a live project. This can avoid costly mistakes that would put lives in danger.


The e-commerce business requires innovation to attract consumers and keep them coming back. Virtual reality has been a game-changer for businesses in this space, allowing them to take their online presence to the next level.

E-commerce companies can use VR to create immersive shopping experiences that give customers a better feel for products, which in turn increases customer satisfaction and sales. One example is Lowe’s home improvement, which uses VR to help customers design their dream bathrooms or kitchens. Consumers can then walk through a virtual rendering of their completed spaces, which makes it much easier to imagine how the finished product will look in their own homes.

VR can also be used to train employees in specific tasks, such as how to handle or package a product safely, or how to operate certain machinery. This is especially useful for companies that need to ensure compliance with safety and security regulations. VR can also be used to improve teamwork by providing a more interactive experience than a video call.

In addition, virtual and augmented reality are transforming 3D design, making it easier to create models and see them in VR before they are built. This can save time and money for e-commerce companies, and can make them more competitive in the market.


VR business solutions are becoming a powerful tool in employee training and retraining. The technology allows employees to practice new skills in a safe virtual environment that mimics real-world scenarios without risking their safety. It also provides an immersive learning experience that increases retention and engagement.

This is especially important in high-risk or dangerous work environments. It’s been reported that surgical trainees using VR made 40% fewer mistakes than traditional students. Additionally, VR can help train employees on difficult or complex tasks. The technology has been used to train employees in virtual reality business solutions a variety of fields, from the defence and aerospace industries to oil & gas and medical training.

The initial cost of a VR solution can be a deterrent for many companies, but the investment can pay off in the long run. Investing in an immersive learning programme can be a way to stand out from competitors and create a more forward-thinking brand image. However, it’s essential to develop a clear ROI proposition and implementation plan with stakeholders.

If you’re thinking about implementing a VR solution, be sure to select a vendor with XR-specific management software. This software can allow for streamlined firmware and software updates, as well as a central platform to manage all devices and applications. It can also track the location of each headset and erase data on them.


In the world of marketing, companies compete for customers’ attention by offering unique experiences that will make them memorable. Virtual reality can help you achieve this by creating a digital experience for your audience. It is also a great way to showcase your products or services in a more realistic manner. In addition, VR allows you to create a virtual space that your audience can explore, which makes it easy for them to see what a product or service will look like in their own environment.

With VR, businesses can take their product prototyping to a new level and save money by eliminating the need to build full-scale working prototypes. This process can be performed in a virtual environment where any problems are quickly detected and fixed before production starts. This is already used by large aircraft manufacturers, such as Boeing and Airbus, where they use simulated virtual spaces to model and test their designs.

Another great benefit of VR is its ability to increase engagement and brand awareness. For example, Pepsi used augmented reality to transform bus stops into places of entertainment. People could watch a digital tiger attack, the arrival of a UFO or robot uprising while waiting for their bus. This was an effective way to grab the attention of passengers and generate positive emotions, which in turn increased brand awareness and customer loyalty.

Industrial Augmented Reality for the Automotive and Aerospace Industries

Industrial Augmented Reality for the Automotive and Aerospace Industries

Getting AR into the hands of workers in the field can reduce return rates, improve customer service and differentiate brands. Typical applications include remote assistance, annotated virtual models and see-what-I-see video sharing.

AR can also help with training new industrial workers on procedures and equipment operation, which reduces costs and risk. Other benefits include capturing and analyzing manual process data like cycle times and defects, which can drive operational efficiency.

Real-time Training

Whether it’s for service inspection, quality checks or assembly, AR allows employees to sharpen their skills without being exposed to real-life danger. In addition, it helps them perform tasks more quickly and accurately, thus reducing production costs.

Moreover, it provides a safe digital environment for a variety of training scenarios including high-risk ones like defense, disaster management, firefighting and riot control. It also reduces the learning curve for new machinery or equipment, which saves time and money.

Once the CAD and other data are prepared, AR authoring software is used to create an application customized for the hardware platform it will be deployed on. This tool features 2D and 3D graphical editing tools, scripting options and visual editors to streamline the creation of AR applications. It also stores libraries in the cloud, making it easy to access and update them.

AR applications for knowledge transfer close the manufacturing skills gap by enabling workers to quickly access and understand complex work instructions. For example, a worker can get step-by-step instruction on how to operate an industrial machine through visual representations of nuts, bolts, wires and part numbers. This kind of task assistance can greatly reduce the error rate during production, improve the quality of the final product and decrease the training duration. It can even replace trainers who are either unavailable or too costly to travel.

Visual Guidance

As a real-time on-the-job instructor, industrial AR delivers training to workers as they perform their jobs. Whether they need to disassemble an engine, repair a machine, industrial augmented reality or perform a routine inspection, this technology provides clear illustrations and digital checklists directly in front of the worker’s eyes while leaving their hands free to continue working. In automotive and aerospace industries, for example, AR solutions from Vuzix enable technicians to instantly access detailed maintenance instructions or assembly steps so that they can quickly execute tasks with minimal training time.

For new technicians, remote visual guidance in AR eliminates the need for costly human instructors. For example, an AR-enabled smartphone can display a virtual 3D model of a machine, with interactive controls that allow the technician to select a particular part and follow step-by-step instructions. This makes it easy for novices to learn as they work, increasing their confidence and accuracy, while speeding up the process of onboarding new employees.

For more complex machines, AR also supports predictive and proactive maintenance, reducing unexpected downtimes. It enables the quick transfer of critical information between teams and facilitates collaborative efforts in remote locations. Moreover, the ability to compare machine performance data with goals and results — a key element of Industry 4.0 — takes place in real-time on an AR screen, with no need for manual transfer to paper, which can be error-prone or delayed.

Real-time Data Collection

Industrial AR allows workers to access technical documents, stream instructional videos and receive 3D guidance while they work hands-free. It also supports remote collaboration and allows teams to share virtual workspaces.

Manufacturers can use this technology to improve workflows, reduce waste and increase productivity across multiple sites. It can also help with training new staff, particularly in unfamiliar protocols, equipment operating procedures and standard factory floor conventions. This can cut down on production inefficiencies, safety issues and training costs.

The real-time data collected by AR provides a clearer picture of operational efficiency, tracking manual process metrics as well as machine automation. This includes cycle times, defects and other data points. Using this information, manufacturers can quickly identify and fix problems in real time and drive operational consistency.

Augmented reality can also support assembly, providing detailed digital work instructions that guide employees. For example, if you were assembling an automotive headlining, the instructions could superimpose visual representations of nuts, bolts and wires to ensure proper placement. This would not only save time, but also eliminate errors resulting in quality improvements and productivity gains. This is similar to the way that a 3d model can show you the correct placement for a piece of machinery, but without the need for a trained engineer or technician to be physically present.


As industrial companies grapple with the industry’s worst workforce shortage in decades and the most experienced workers retire at an unprecedented rate, it’s vital to find new ways to improve worker productivity and efficiency. Industrial augmented reality is one way to accomplish that goal.

AR can help industrial processes with a variety of tasks including visual quality control, maintenance, assembly, and training. Unlike 2D drawings or PDF instructions, industrial AR displays information directly on the product to give employees clear and concise visual guidance. This saves time and minimizes errors.

For example, Siemens’ AssistAR uses an AR headset to guide technicians through the process of disassembling or repairing an engine. The software highlights and animates each element to show how to remove, replace industrial augmented reality or assemble components. It also gives step-by-step instructions and enables the technician to view the engine in 3D.

Aveva’s Richmond adds that “Augmented reality solutions are a great fit for manufacturing operations because they allow for remote, hands-free interaction with digital content that is displayed right in front of the worker’s line of sight. This allows them to process the information while keeping their hands free to continue working, which is very important for manufacturing processes.” For more advanced applications, project-based AR uses a combination of vision sensors and projectors to overlay virtual steps-by-step interactive graphics onto any work surface.