What is augmented reality (AR)?
Augmented Reality (AR) is the integration of digital data in real time. Unlike virtual reality (VR), which creates a virtual environment, AR users experience the real world through sensory information.
Augmented reality is used to visually alter the appearance of the natural environment in some way or to provide additional information to the user. The main advantage of AR is its ability to combine digital and three-dimensional (3D) components with one’s perception of the real world. AR has many uses, from decision support to entertainment.
AR provides visual content, audio and other desired information to users through devices such as smartphones or glasses. This information is embedded into the device to create an interaction where digital information alters the user’s perception of the real world. Media can be added to surrounding or unseen parts of the natural environment.
How does augmented reality work?
Augmented reality can be delivered in many ways, including smartphones, tablets and glasses. AR delivered through lenses is also in development. Technology requires hardware such as processors, sensors, displays, and input devices. Most mobile devices are already equipped with these devices equipped with sensors such as cameras, accelerometers, global positioning system (GPS) and status devices. This helps make AR accessible to everyday users. GPS is used to identify the user’s location and compass is used to identify the navigation device.
Best AR Uses
AR can be used in the following areas:
Manufacturing. Customers can use the store’s online app to see how items like furniture will look in their home before purchasing.
Fun and games. AR can be used to broadcast virtual games into the real world or enable users to express themselves differently and creatively on social media.
Navigation. AR can be used to traverse the user’s path to the target traversal view, depending on the path. AR for navigation can display local business information in the customer’s environment.
Tools and measurement. Mobile devices can use AR to measure different 3D content in the user environment.
Architecture. AR can help architects visualize construction projects.
Army. Information such as directions, distance, weather and traffic can be displayed on the vehicle’s dashboard.
Archaeology. AR aids archaeological research by helping archaeologists reconstruct sites. 3D models help museum visitors and future archaeologists experience the excavation site as if they were there.
Differences between AR and VR
VR is a virtual environment created with software and presented to the user in a way that allows the brain to suspend belief long enough to accept a reality-based virtual world. . environment. Virtual reality is usually experienced through vision and headsets.
The biggest difference between AR and VR is that augmented reality uses the existing world environment and puts virtual data on top of it, while VR allows the user to enter a good environment. While VR places the user in a new simulated environment, AR places the user in a type of reality.
The tools used to achieve this are different. VR uses a VR headset that sits on the user’s head and presents them with visual and auditory information. AR devices are less restrictive and often include devices such as mobile phones, glasses, projectors, and car HUDs.
In VR, people are placed in a 3D environment where they can move and interact with the built environment. However, AR allows users to be themselves in a real-world environment by overlaying virtual information based on visible processes in the environment.
The Future of AR Technology
AR technology will continue to grow as it becomes more popular and accessible. More experience in apps and games like Pokemon Go or shopping AR apps. Expanding 5G networks will make it easier to support cloud-based augmented reality, such as providing higher throughput and lower latency for AR applications.
