What to Look For in AR Eyewear
Whether you’re a professional athlete, or just like to look good while doing your daily activities, there are many AR eyewear products on the market to choose from. But how do you know which ones are the best? Read on to learn more about the most important factors to look for in your next pair of AR glasses.
Lumus’ Z-Lens architecture
Lumus, an Israeli-based company, has developed an AR architecture known as the Z-Lens. This architecture enables augmented reality eyeglasses that are much smaller than existing models. The new architecture also offers a 50 degree field of view. It allows for more customization, better image quality, and lower power solutions.
With the new architecture, AR glasses will be thinner, lighter, and more flexible than ever before. Lumus is working with industry-leading supply chain partners, such as SCHOTT, to develop the manufacturing processes needed to bring the technology to market.
The Z-Lens architecture features a smaller optical engine and partial mirrors that expand the image to fill the field of view. This results in a brighter image with full colour and a resolution of 2K x 2K.
Another feature is dynamic focal lens integration. This reduces vergence-accommodation conflict (VAC) – a conflict that causes blurred images. VAC occurs when the brain receives mismatched cues from the visual display.
Other advantages include the tenfold increase in battery efficiency, a negligible forward light leakage, and a large field of view. This means that you will be able to enjoy a full-color, distortion-free, and realistic picture in the real world.
Lumus hopes that this breakthrough will unlock the future of AR and the metaverse. These new glasses could transform society, and lead to new experiences in gaming, communications, and more.
If this is possible, Lumus believes it can lead to an exponential uptick in the uptake of AR eyeglasses. While the Z-Lens architecture isn’t the first in the market, it’s the first to be designed to meet the needs of mainstream consumers.
Until now, many of the current AR devices have had weight and size issues. In order to solve this, Lumus developed a new technique that can make these devices more comfortable to wear.
Infrared picosecond pulse lasers
Picosecond pulse lasers are used for many applications, including cutting conventional glasses. They can also be used to ar eyewear study interactions between charged particles and electromagnetic fields. The ultra-short pulses are capable of excitation molecular absorption modes. These ultra-short pulses are ideal for spectroscopy, especially when they are pumped by a high-power thin-disc pump laser.
Long-wave infrared (LWIR) picosecond pulse lasers can be pumped by a variety of sources. These include diode-pumped optical parametric oscillators (DPOPOs), erbium fiber lasers, and OPGaAs. Some of these sources have demonstrated multi-terawatt peak powers. However, the technology is still in development.
One promising source is a GaSb diode laser. It generates an infrared output in the 2.8 um range, a promising wavelength for generating optical pumping in mid-IR. This type of laser has a grating period that is tuned by temperature.
Another interesting source is OPGaP. This material has similar mid-IR transmission to ZGP, but the transparency range is shorter. Moreover, it can produce very short pulses in the mid-IR with 350 mW of pump power.
Various nonlinear crystals have been used in short-pulse lasers. Some of them are orientation-patterned gallium phosphide and Ag2GaS2. Both of these semiconductors absorb light and provide a tunable infrared output. Several studies have investigated the use of these materials for the generation of ultra-short pulses.
Among these, the femtosecond-pumped picosecond OPGaP OPO represents the first such device. A 1.5-um or 2-um femtosecond laser is used to pump the OPGaP. Synchronously pumped OPGaP OPOs have shown better performance than asynchronously pumped versions.
Several other lasers have been investigated as potential sources for the generation of ultra-short pulses. Besides OPGaP, Fe:ZnSe, Er:YSGG, and Zn:GaAlSe are all promising materials.
Innovega’s vision
Innovega, a technology company, has developed an innovative new lens to improve vision for those with impaired sight. This revolutionary device combines high tech glasses with soft contact lenses to help people view the world beyond eyeglasses.
According to the American Optometric Association, more than 60 percent of the population requires some form of corrective vision. Many of these people have problems reading, watching TV, and using computers. But these technological innovations can provide a sense of independence for these individuals.
Innovega has developed an augmented reality (AR) wearable that allows users to see images on the inside surface of their glasses. These wearables are designed for both consumers and medical applications.
The company has already begun testing its smart glasses in clinical trials. They expect to bring these new technologies to the market in 2014. Aside from its glasses, Innovega also offers its patented iOptik augmented reality system.
iOptik is an augmented reality system that overlays transparent AR data on the lens. It’s designed to give the wearer control over the contrast, brightness, and color of the image. With Innovega’s iOptik system, users can experience a full field of view, which can be magnified 30x.
Although iOptik is still in development, Innovega plans to produce a consumer-oriented version of the technology. The company has made a point to say that the technology is not only for military use.
Another important aspect of the Innovega glasses is that they are designed to be used with Apple and Google apps. This could offer a competitive advantage over other optical wearables.
As an innovator in the field of augmented and virtual reality, Innovega has been a pioneer in the technology industry. Its lenses are designed to be comfortable and easy to use.
Microoled’s Enterprise model
The ActiveLook(r) model from Microoled is the first smart glasses model developed for the industrial market. This fully self-contained tech package has been engineered to deliver mission critical information directly in your field of vision. It is also designed to be easily recharged in any environment using a pogo connector.
Aside from the fact that the Enterprise model is the only ActiveLook smart glasses on the market, it boasts many other features including a high resolution display and a battery that lasts for 12 plus hours. Other features include adjustable temples and a nose bridge that ensures the glasses stay in place. Lastly, the Enterprise model is the only model available with FCC and CE certifications in the USA and Europe.
With these features and other functionalities, the Enterprise model is an obvious choice for companies looking to improve safety and reduce environmental impact. For example, the glasses are made of recyclable materials and boast a lightweight design that is easy on the eyes. Additionally, they are powered by a lithium-ion battery that can be charged in seconds.
Another notable feature is the patented lens technology, which is able to display sports performance data. In addition, the augmented reality glasses are accompanied by a cleverly designed smartphone app that is compatible with other devices such as a Garmin Virb. Finally, the model boasts a futuristic look, which is fitting considering it was developed for a company with a name like Microoled.
Ultimately, the enterprise model is a winning product for a company looking to upgrade their current offerings or add a smart AR display to their next order of business. As such, it is the perfect time for companies to consider the Microoled brand.
Changi’s AR safety glasses
The Changi Airport in Singapore has started a pilot project using augmented reality glasses to monitor ramp handling operations. By incorporating this technology into its operations, the airport hopes to reduce loading times by up to 15 minutes. This will also reduce the risk of errors during the process.
Smart glasses allow the ground handler to view baggage and cargo loading instructions in real-time. The visual markers are similar to QR codes and can be scanned by the handler. This will help them identify where the container is located, its dimensions and other details.
SATS, the largest ground handler at the Changi Airport, has commissioned the use of these smart glasses. They will be worn by 600 ramp handling staff at the airport. A week of training was given to the crew to get them used to wearing the glasses.
According to the company, the glasses will allow ramp handlers to scan visual markers on the cargo and baggage. The glasses ar eyewear will project the loading instructions on top of the visual marker’s image.
Currently, the crew uses paper to provide loading instructions. These instructions are not fully accurate and can result in errors. The glasses will eliminate the need for paper and the margin of error will be significantly reduced. In addition to the improved accuracy, the glasses will also help improve efficiency. It is estimated that each flight will have a 15 minute reduction in loading time.
The glasses are being used at the Changi East site, which is under construction at the airport. The smart glasses are being used by safety inspectors at the site and cost about $1,500.
The glasses can be custom-made to suit the specific needs of the employees. They can be used for regular maintenance of critical equipment or for analyses.