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In the software industry, augmented reality (AR) is one of the most exciting technological advancements that is now transforming the industry. It is almost certain that it will gain in popularity in the coming years. This technology garnered the most attention and interest following the development of optical, head-mounted displays and the launching of goods such as Google Glass.

Augmented reality is a technology that overlays graphics, music, video, and other sensor-based inputs over real-world objects using computer vision recognition algorithms. The user is able to interact with them through this technology. This is enabled via the camera on the user’s device. Integrating virtual reality into a user’s real-world environment is an excellent way to incorporate virtual elements into their daily lives.

A Brief Overview of augmented reality (AR)

During the 1950s and 1960s, a filmmaker named Morton Heilig created the first patented device. He called it the “Sensorama Simulator”.The origins of augmented reality can be traced back to this point. Because of the usage of virtual reality technology, this device provides users with a view of the streets of Brooklyn as well as the feeling of riding a motorcycle down those same streets.

According to the inventors, it mixes visual pictures with aromas, fans, sounds, and even the sensations of the bike in a virtual reality environment to present the user with an accurate experience of pedaling in a virtual reality environment. Unfortunately, he was unable to secure the necessary financial assistance, and as a result, he was unable to carry out his experimental venture.

However, in 1968, Ivan Sutherland, a Harvard professor, invented the world’s first head-mounted augmented reality system. The device, named the “Ultimate Display,” would show a simple wireframe room through a pair of head-mounted binoculars. The user’s perspective on their surroundings would change if the head and vision tracking was used.

Following the initial breakthroughs, substantial development in the field of augmented reality only began to pick up speed in the late 1990s and early 2000s. Major technology companies began showing interest in and exploration of this technology. And have since launched gadgets built to work with it. Google Glass, a head-mounted display that looks like a pair of spectacles, is the company’s most recent innovation. This was first introduced in 2013. Following that was Microsoft’s HoloLens, an augmented reality headgear that allows you to see computer images in the context of the real world around you.

How Can AR Help Designers and Engineers?

Create lifelike designs

One of the most important advantages of augmented reality for designers and engineers is the ability to build and visualize an architectural plan as it would appear in the real world. A real-world target can properly insert augmented 3D data onto a live image using this technology.

Multi-disciplinary Usage

Designers and engineers use Ar practically in every stage of design and production from concept to production. Designers from all over the world use AR to superimpose assembly samples, quality control data, and process phases over the actual work environment. By quickly overlaying the overlay on the part of the entire machine, also provides significant maintenance information.

Create Flawless Workable Model

Engineers and designers use augmented reality to visualize products before building them. This guarantees that the design of the product happens under strict guidelines. Using augmented reality, engineers may create a superior, perfect model while remaining aware of their surroundings and space limits.


Many people use AR to run promotional campaigns for a design or a product by showcasing numerous features. And also marketers use AR to demonstrate how the product will perform in the client’s environment. AR also assists architects in assuring clients that projects are on time.

Viewing AR using a tablet or a smartphone

Engineers and designers now have greater access to augmented reality (AR) owing to recent technical advances. By allowing them to watch it on a tablet or smartphone, you may accomplish this. Furthermore, the Head-mounted Display (HMD) alternation method enables the use of see-through glasses or goggles. These glasses or goggles project graphics over what you see in real life.

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