Virtual Reality
What distinguishes VR from adjacent technologies is the level of immersion it promises. When VR users look around their view of that world adjusts the same way it would if they were looking or moving in real reality. The key buzzword here is presence, shorthand for technology and content that can trick the brain into believing it is somewhere it’s not. When you flinch at a virtual dinosaur, or don’t want to step off an imaginary ledge, that’s presence at work. HTC Vive, Oculus Rift and Google Cardboard are examples of this type of immersion.
Augmented Reality
Augmented Reality (AR) takes your view of the real world and adds digital information and/or data on top of it. This might be as simple as numbers or text notifications, or as complex as a simulated screen. But in general, AR lets you see both synthetic light as well as natural light bouncing off objects in the real world. Pokemon Go is a game that fits this category based on the game's characters located at certain points on maps; however, the character, when found, is not tethered in that one spot as it moves around as your phone moves. Mixed Reality would give the object a "tethered" characteristic. Google Glass is the example of this type of augmentation.
Mixed Reality
At duPont-Ball, we do not have any technology that supports Mixed Reality (MR) but it seems like it is worth discussing since it is an option for your discovery in the game creation arena. Mixed Reality is the merging of real and virtual worlds to produce new environments and visualizations where physical and digital objects co-exist and interact in real time. Mixed reality takes place not only in the physical world or the virtual world, but is a mix of reality and virtual reality. It anchors those virtual objects to a point in real space, making it possible to treat them as "real," at least from the perspective of the person who can see the MR experience.
