In 1979, Eric Howlett developed the Large Expanse, Extra Perspective (LEEP) optical system. The combined system created a stereoscopic image with a field of view wide enough to create a convincing sense of space. The users of the system have been impressed by the sensation of depth (field of view) in the scene and the corresponding realism. The original LEEP system was redesigned for NASA's Ames Research Center in 1985 for their first virtual reality installation, the VIEW (Virtual Interactive Environment Workstation) by Scott Fisher. The LEEP system provides the basis for most of the modern virtual reality headsets.
A head-mounted display (HMD) more fully immerses the user in a virtual world. A virtual reality headset typically includes two small high resolution OLED or LCD monitors which provide separate images for each eye for stereoscopic graphics rendering a 3D virtual world, a binaural audio system, positional and rotational real-time head tracking for six degrees of movement. Options include motion controls with haptic feedback for physically interacting within the virtual world in a intuitive way with little to no abstraction and an omnidirectional treadmill for more freedom of physical movement allowing the user to perform locomotive motion in any direction. https://www.aliexpress.com/item/AliBlissWig-360-Short-Bob-Wig-Human-Hair-150-Density-Swiss-Lace-Brazilian-Remy-Medium-Cap-Natural/32866086695.html
By the 1980s, the term "virtual reality" was popularized by Jaron Lanier, one of the modern pioneers of the field. Lanier had founded the company VPL Research in 1985. VPL Research has developed several VR devices like the DataGlove, the EyePhone, and the AudioSphere. VPL licensed the DataGlove technology to Mattel, which used it to make the Power Glove, an early affordable VR device.
So far, Apple has been very cool on VR, but that's slowly starting to change, at least from a software development side. OS X High Sierra enables VR development on three major VR software platforms: Steam, Unity, and Unreal. It also uses Apple's Metal 2 framework, which the company says provides the performance necessary for VR. No plans for any Apple-branded VR headset have been announced—we'll much more likely see Rift or Vive compatibility added to Macs. https://www.youtube.com/watch?v=Pl9JS8-gnWQ&t=1s
While they can offer a taste of VR, mobile headsets don't provide the full experience. They tend to offer three-degrees-of-freedom (3DOF) motion tracking, following your direction but not your position. They also only come with one motion controller, which is also 3DOF-only. You don't get the same immersiveness you do with six-degrees-of-freedom (6DOF) motion tracking and dual motion controllers, which might be why Google and Samsung have been largely quiet lately about their mobile headsets. The Nintendo Labo VR Kit is its own unique case, but it's more of a novelty for Switch owners. https://www.youtube.com/channel/UC6IVy__hc9NgrBYqpgfIQeg
Google and Samsung still offer phone-based VR headsets in the form of the Daydream View and the Gear VR, and even Nintendo has gotten into the game with its Labo VR Kit for the Nintendo Switch. However, these shell-like headsets, which require a phone or some other device physically inserted into them, feel like novelties next to more powerful headsets that can provide more immersive experiences. https://www.aliexpress.com/item/XM-Panoramic-360-VR-960P-1080P-3MP-HD-IP-Camera-Smart-LED-Lights-Cam-Starlight/32836066891.html
Because of just how expensive it is to invest in high-end VR, companies have worked hard to bring us affordable VR that can run on those handy supercomputers we all carry around in our pockets. Thus, here are the best headsets you can slip your phone into. They're generally wireless and many are under £100, so it's a whole different ball game to the beasts above. Be careful though, certain devices only work with certain phones, so check before putting down any cash. https://www.youtube.com/watch?v=3j_-FPNHY7U&t=1s
To fully experience PC games and other software in 3D, you'll need a player or computer that is capable of delivering high-quality graphics to a virtual reality headset. This requires a player or computer with a powerful graphics card and processor. It's also recommended that your computer have at least 8GB of RAM in order to download VR content. The number of VR-ready PCs continues to grow, so you'll have a variety of options to choose from in order to enjoy smooth gameplay, even when running graphics-heavy games. https://www.aliexpress.com/item/Baseus-360-Degree-Rotation-Magnetic-Mount-Car-Holder-Stand-For-iPhone7-6-6s-Plus-Samsung-Galaxy/32694707035.html
Sony’s entry into the market is the lowest powered of the three best-selling VR HMDs, but the PSVR has a big advantage over the Rift and Vive. Because it’s tethered to the Playstation 4 gaming system, there was an enormous, pre-existing user base of 10s of millions of gamers, many of whom were eager to try their hand at VR. Because that user base already had a PS4, Sony’s customers didn’t have to purchase/upgrade their computer hardware, making the PSVR the most “affordable” of the high-end HMDs. As such, the PSVR is the best-selling Virtual Reality HMD on the market, moving over 4 million units since its initial release, and showing that, if nothing else, VR gaming is here to stay. https://www.youtube.com/watch?v=eBO_C_WY41M&t=1s
Now I can start actually editing the timeline, put things to music, figure out transitions and where graphics will go. When I have a first cut of the timeline, I export sections at a time where motion graphics will be. Inside After Effects I can create a 3D camera using their “immersive” tools, convert all motion graphic to 3D layers and create the motion inside the immersive camera view. Viewing and editing on the flat, equirectangular format does little good to anyone. When motion graphics are done, I can export them and replace the original footage in the timeline with the newly exported motion graphic versions.
Beyond video games, there are several other exciting ways to experience VR. College students can use VR technology to learn complex, dangerous tasks — like piloting an airplane or performing surgery — in a safe environment. Architects and engineers can incorporate VR technology to see their works rendered in 3D before a single brick is laid or a screw is turned. Real estate agents can give virtual tours of buildings for sale, even if the potential buyer is hundreds of miles away, using VR technology.
David Em became the first artist to produce navigable virtual worlds at NASA's Jet Propulsion Laboratory (JPL) from 1977 to 1984. The Aspen Movie Map, a crude virtual tour in which users could wander the streets of Aspen in one of the three modes (summer, winter, and polygons), was created at the Massachusetts Institute of Technology (MIT) in 1978. https://www.youtube.com/watch?v=ORWsm8qMaZ4&t=1s
Speaking of medicine, the treatment of mental illness, including post-traumatic stress disorder, stands to benefit from the application of Virtual Reality technology to ongoing therapy programs. Whether it’s allowing veterans to confront challenges in a controlled environment, or overcoming phobias in combination with behavioral therapy, VR has a potential beyond gaming, industrial and marketing applications to help people heal from, reconcile and understand real-world experiences. https://www.youtube.com/watch?v=bNqBEwmrH8o&t=1s
By 2016, there have been at least 230 companies developing VR-related products. Amazon, Apple, Facebook, Google, Microsoft, Sony and Samsung all had dedicated AR and VR groups. Dynamic binaural audio was common to most headsets released that year. However, haptic interfaces were not well developed, and most hardware packages incorporated button-operated handsets for touch-based interactivity. Visually, displays were still of a low-enough resolution and frame rate that images were still identifiable as virtual. https://www.youtube.com/watch?v=BNqW6uE-Q_o&t=1s
David Em became the first artist to produce navigable virtual worlds at NASA's Jet Propulsion Laboratory (JPL) from 1977 to 1984. The Aspen Movie Map, a crude virtual tour in which users could wander the streets of Aspen in one of the three modes (summer, winter, and polygons), was created at the Massachusetts Institute of Technology (MIT) in 1978. https://www.youtube.com/watch?v=EPyNwTmkvIc&t=1s