What is Virtual Reality? VR Definition and Examples | Marxent

See some real examples ofVirtual Reality shopping apps; or fora look ahead, check out the5 top Virtual Reality and Augmented Reality technology trends for 2019.

Virtual Reality (VR) is the use of computer technology to create a simulated environment. Unlike traditional user interfaces, VR places the user inside an experience. Instead of viewing a screen in front of them, users are immersedand able to interact with3D worlds. By simulating as many senses as possible, such as vision, hearing,touch, evensmell,the computer is transformed into agatekeeper to thisartificial world.The only limits to near-real VR experiences are the availability of content and cheapcomputing power.

Virtual Reality and Augmented Reality are two sides of the same coin. You could think of Augmented Reality as VR with one foot in the real world: Augmented Reality simulates artificial objects in the real environment; Virtual Reality creates an artificial environment to inhabit.

In Augmented Reality, the computer uses sensors and algorithms to determine the position and orientation of a camera. AR technology then renders the 3D graphics as they would appear from the viewpoint of the camera, superimposing the computer-generated images over ausers view of the real world.

In Virtual Reality, the computer uses similar sensors and math. However,rather than locating a real camera within a physical environment, the position of the users eyes are located within the simulated environment. If the users head turns, the graphics react accordingly. Rather than compositing virtual objects and a real scene, VR technology creates a convincing, interactive world for the user.

Virtual Realitys most immediately-recognizable component is the head-mounted display (HMD). Human beings are visual creatures, and display technology is often the single biggest difference between immersive Virtual Reality systems and traditional user interfaces. For instance,CAVEautomatic virtual environments actively display virtual content onto room-sized screens. While they arefun for people in universities and big labs, consumer and industrial wearables are the wild west.

With a multiplicity of emerging hardware and software options, the future of wearables is unfolding but yet unknown. Concepts such as the HTC Vive Pro Eye, Oculus Quest and Playstation VR are leading the way, but there are also players like Google, Apple, Samsung, Lenovo and others who may surprise the industry with new levels of immersion and usability. Whomever comes out ahead, the simplicity of buying a helmet-sized device that can work in a living-room, office, or factory floor has made HMDs center stage when it comes to Virtual Reality technologies.

Convincing Virtual Reality applications require more than just graphics. Both hearing and vision are central to a persons sense of space. In fact, human beings react more quickly to audio cues than to visual cues. In order to create truly immersive Virtual Realityexperiences, accurate environmental soundsand spatial characteristics are a must. Theselenda powerful sense of presence toa virtual world. To experience the binaural audio details that go into a Virtual Reality experience, put on some headphones and tinkerwith this audio infographicpublished byThe Verge.

While audio-visual information is most easily replicated in Virtual Reality, active research and development efforts are still being conducted into the other senses. Tactile inputs such as omnidirectional treadmills allow users to feel as though theyre actually walking through a simulation, rather than sitting in a chair or on a couch. Haptic technologies, also known as kinesthetic ortouch feedback tech, have progressed from simple spinning-weight rumble motors to futuristic ultrasound technology. It is now possible to hear and feel true-to-life sensations along with visual VR experiences.

Read more:

What is Virtual Reality? VR Definition and Examples | Marxent

Related Posts

Comments are closed.