These glasses can display information, such as maps or messages, and provide hands-free access to technology.
Use cases, difficulties, and future potential of smart glasses
Simple front-end displays were the original form of smart glasses , the eyewear technology that overlays information onto a user’s field of vision. Over time, we observed it advance to the point where it could carry out challenging computer-powered tasks. We’ll discuss a few well regarded devices below, followed by some productive use cases.
Smart glasses provide users with a sense of both the physical and digital worlds concurrently, offering a considerably more realistic experience than fully immersive virtual reality headsets. An optical head-mounted display (OHMD), augmented reality (AR), or head-up display glasses are used to provide this experience (HUD).
These wearable computer glasses continue to experience growth and have significant value potential in the business and industrial sectors, but they still have to overcome obstacles before they can be widely used.
Smart eyewear firms are currently working to increase their market share as they are at a turning point. Although eyewear technology is helping organisations find excellent workflow solutions, the general people will still need to wait a little while longer to enjoy the advantages of widespread accessibility and usage.
The makers of smart glasses have understood that they must first overcome the difficulty of striking a balance between wearability and usefulness at a reasonable price if they are to become widely used.
It will be difficult to incorporate the sheer number of elements necessary to make AR glasses work into a design that you wouldn’t mind wearing all day, according to Fast Company.
. This entails cameras to determine your precise location, cameras to monitor your eye movement so you can see what you’re looking at, displays big enough to cover the entirety of your field of view, processors to drive the displays, the computer vision AI that recognises objects, a small and efficient power supply, and cameras to pinpoint your physical location. For widespread adoption, it will also be important to make sure that the comfort design and cooling methods can compensate for intense processing.
Despite these obstacles, there are currently several smart glasses available that offer a lot of value to different consumers. We’ll discuss a few well regarded devices below, followed by some productive use cases.
Lenovo Think Reality A6
Inside-out 6DoF tracking is a feature of the ThinkReality A6 AR headset that enhances AR experiences and provides industrial versatility. This mobile device is made to make it easier for the workforce to use augmented reality (AR) applications to get professional assistance, speed up repairs, cut down on errors, simplify complicated workflows, enhance training quality, and save money. Wikitude image and object recognition technology powers the gadget.
Epson Moverio BT-300
A front-facing camera, motion tracker, and a display are all included in one small pair of eyewear. The tool can be used for entertainment, production, medical research, and other things.
These smart glasses offer a flexible work environment with completely linked supervisors and employees. The large variety of apps accessible, as well as a built-in HD camera, AMLCD display, and other features, make industry operations easier.
Mira Prism Pro
An augmented reality headset provides an alternative method of interacting with holographic pictures since no plugs, computers, or wires are required. The business recently secured $10 million in finance and made the decision to concentrate only on the industrial application of the headsets. The Mira Prism Pro gadget has exterior cameras and a see-through interface that enable easy, hands-free interactions with the outside environment.
An untethered mixed reality device with an immediate value proposition is the HoloLens. Consumers gain advantages from using Microsoft’s cloud and AI services, including dependability, security, and scalability.
Wikitude, one of the top mixed reality headsets available, has enhanced its augmented reality SDK to work with and enhance the Microsoft HoloLens
Instead of focusing on a certain device’s capabilities, we would prefer to address a more significant issue. What are a few remedies that smart glasses can offer? What is now causing a stir in the market for computerized eyewear
Today, video collaboration is undoubtedly the most popular use for smart glasses. Working remotely with specialists in a “see-what-I-see” method is enhancing a wide range of industries. Remote help functionality encourages more businesses to integrate smartglasses technology into their processes because it can be used for everything from field service to intricate technical support.
Speed, productivity, precision, compliance, and quality control are the main focuses of assembly lines. Smart glasses can provide in these core areas, which just so happen to be those. Automotive and aerospace businesses use eyewear devices to provide real-time solutions to the factory floor for tasks where every detail counts.
Logistics and Warehousing
Warehouse workers can swiftly identify, gather, and distribute things while keeping their hands free and receiving instructions and visual signals immediately in their field of vision. Scanners, printed materials, and handheld gadgets are being replaced by smart eyewear. As a result, workers are producing more work while making fewer mistakes and incurring less costs.
Building and Construction
Construction workers have a safer, more productive hands-free workflow when wearing smart glasses (or smart hard hats). Using remote solutions provided in real-time, structural checks and mistakes can also be more precisely held and remedied.
Maintenance-related augmented reality solutions are invaluable. With the use of smart glasses, professionals can obtain step-by-step visual instructions to assist with activities like assembly, repair, or maintenance processes. Technicians can validate the actions to make sure that each step was correctly carried out by using the head-mounted displays.
Although the consumer market has room to expand, there are currently application cases in many other industries. For instance, augmented reality museum guides that improve the visitor experience. While travellers can quickly find their way about thanks to projected navigation directions and reviews, theatres rely on eyewear to instantly subtitle their audience members. Athletes can obtain real-time data on their speed, power, distance, and other metrics. The field of view on a drone is conveniently visible to the pilot. Even though they have a long way to go before becoming widely used, all of them are important and worthwhile niches.
More and more forward-thinking companies are joining the bandwagon thanks to the widespread adoption of smart glasses. Smart glasses have discovered useful niches in which to operate, advance, and expand—despite the fact that mainstream public adoption is still a ways off. It is therefore not unexpected to see that tech behemoths like Apple, Samsung, and Meta are developing their AR-enabled smart glasses (just consider Oculus’s market success!).
For those who are still unsure, let’s look at the promise this technology holds.
Imagine being able to directly edit an eyeglass database with the information you require. A hands-free workforce with immediate access to focused knowledge placed right in their line of sight is made possible by this scenario. In the long run, such an implementation would boost quality control, enhance maintenance, deliver quicker and more dependable solutions, save costs associated with management and training, and enable remote help, to mention a few.
This eyewear technology will continue working its magic behind closed doors in offices, storage facilities, and building sites all around the world until mass-market spectacles finally hit the shelves.