In 1991, Sega announced the Sega VR headset for arcade games and the Mega Drive console. It used LCD screens in the visor, stereo headphones, and inertial sensors that allowed the system to track and react to the movements of the user's head. In the same year, Virtuality launched and went on to become the first mass-produced, networked, multiplayer VR entertainment system that was released in many countries, including a dedicated VR arcade at Embarcadero Center. Costing up to $73,000 per multi-pod Virtuality system, they featured headsets and exoskeleton gloves that gave one of the first "immersive" VR experiences. https://www.youtube.com/channel/UCA0McsiXWJZu11MsiDdXvlw
Like the Go, you'll need the companion app on your smartphone to set the headset and the controllers up, but it doesn't take very long at all to do. Then you can start downloading apps, games and experiences from the app or through the headset and there's familiar titles here that have already popped up on the pricier Rift. So, Beat Saber, Thumper, Space Pirate Trainer, and Creed: Rise to Glory all make the cut. https://www.youtube.com/watch?v=_zUCMfYkgj0&t=1s
The more powerful Vive Pro offers a higher-resolution display, outward-facing cameras, and a handful of other enhanced features, but it isn't nearly as compelling as the regular Vive; it costs $300 more, and doesn't include the base stations and motion controllers needed to work, so you effectively need to already have a Vive or spend even more money to get set up with it. If that isn't enough power, the Vive Pro Eye adds built-in eye-tracking to the already advanced headset. https://www.aliexpress.com/item/Insta360-ONE-360-Camera-Sport-Action-Video-Camera-VR-Panoramic-Camera-24MP-7K-Photos-4K-Videos/32878260145.html
Tethered headsets like the Oculus Rift S, the HTC Vive, and the PlayStation VR are physically connected to PCs (or in the case of the PS VR, a PlayStation 4). The cable makes them a bit unwieldy, but putting all of the actual video processing in a box you don't need to directly strap to your face means your VR experience can be a lot more complex. The use of a dedicated display in the headset instead of your smartphone drastically improves image fidelity, and either external sensors or outward-facing cameras on the headset provide full 6DOF movement tracking. https://www.aliexpress.com/item/Lazy-Bracket-Universal-360-Degree-Rotation-Flexible-Phone-Selfie-Holder-Snake-like-Neck-Bed-Mount-Anti/32851857878.html
Bees are, like, super important to how our ecologies work. You probably learned all of this in elementary school, but have you ever seen the process, from beginning to end? The National Honey Board wants to show you, in 360. You'll be a bee flying from flower to flower, then going back into the hive with the queen bee. After that, you'll take a look at how they get the honey out of the honeycombs and onto your table. Warning: Tons of buzzing. https://www.youtube.com/watch?v=v7hofCnniJE&t=1s
To create a feeling of immersion, special output devices are needed to display virtual worlds. Well-known formats include head-mounted displays or the CAVE. In order to convey a spatial impression, two images are generated and displayed from different perspectives (stereo projection). There are different technologies available to bring the respective image to the right eye. A distinction is made between active (e.g. shutter glasses) and passive technologies (e.g. polarizing filters or Infitec). https://www.aliexpress.com/item/Insta360-EVO-5-7K-Video-180-3D-VR-Panoramic-360-Camera-for-Android-and-iPhone-XS/32989155438.html
Special input devices are required for interaction with the virtual world. These include the 3D mouse, the wired glove, motion controllers, and optical tracking sensors. Controllers typically use optical tracking systems (primarily infrared cameras) for location and navigation, so that the user can move freely without wiring. Some input devices provide the user with force feedback to the hands or other parts of the body, so that the human being can orientate himself in the three-dimensional world through haptics and sensor technology as a further sensory sensation and carry out realistic simulations. Additional haptic feedback can be obtained from omnidirectional treadmills (with which walking in virtual space is controlled by real walking movements) and vibration gloves and suits. https://www.youtube.com/watch?v=GiN4q5ThUxE&t=1s
By 1994, Sega released the Sega VR-1 motion simulator arcade attraction, in SegaWorld amusement arcades. It was able to track head movement and featured 3D polygon graphics in stereoscopic 3D, powered by the Sega Model 1 arcade system board. Apple released QuickTime VR, which, despite using the term "VR", was unable to represent virtual reality, and instead displayed 360 photographic panoramas. https://www.aliexpress.com/item/Z-Flex-Tilt-Tripod-Head-Aluminum-Alloy-Folding-Z-Tilt-Head-360-Rotary-Quick-Release-Plate/32881546188.html
Many other companies are developing Virtual Reality headsets and other peripherals. Upcoming hardware includes the GenBasic Quad HD, StarVR StarOne, Vrgineers XTAL and Pansonite VR Headset. As more and better hardware hits the market, it will continue to power a growing ecosystem of hardware manufacturers, software developers, and content providers. https://www.youtube.com/watch?v=H6SsB3JYqQg&t=1s
Virtual reality (VR) is an experience taking place within simulated and immersive environments that can be similar to or completely different from the real world. Applications of virtual reality can include entertainment (i.e. gaming) and educational purposes (i.e. medical or military training). Other, distinct types of VR style technology include augmented reality and mixed reality. https://www.youtube.com/watch?v=--yhkb7g9-0&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.aliexpress.com/item/Insta360-Nano-S-4K-360-VR-Video-Panoramic-Camera-20MP-photos-for-iphone-X-iPhone-8/32968666887.html
There's no wires here at all and no sensors to unlock the room scale tracking. Instead, you can draw out your VR space using the bundled Touch controllers, which are the same ones included with the Rift. The ability to draw multiple Guardians (as Oculus calls it) means you can freely move from different spaces and the headset will remember your safe VR territory. https://www.youtube.com/watch?v=KLGSLCaksdY&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.
Currently standard virtual reality systems use either virtual reality headsets or multi-projected environments to generate realistic images, sounds and other sensations that simulate a user's physical presence in a virtual environment. A person using virtual reality equipment is able to look around the artificial world, move around in it, and interact with virtual features or items. The effect is commonly created by VR headsets consisting of a head-mounted display with a small screen in front of the eyes, but can also be created through specially designed rooms with multiple large screens. Virtual reality typically incorporates auditory and video feedback, but may also allow other types of sensory and force feedback through haptic technology.
This may seems like a lot of effort, and it is! What makes the development of virtual reality worthwhile? The potential entertainment value is clear. Immersive films and video games are good examples. The entertainment industry is after all a multi-billion dollar one and consumers are always keen on novelty. Virtual reality has many other, more serious, applications as well.
HTC's Vive is a comprehensive package that includes a headset, two motion controllers, and two base stations for defining a "whole-room" VR area. It's technically impressive, and can track your movements in a 10-foot cube instead of just from your seat. It also includes a set of motion controllers more advanced than the PlayStation Move. PC-tethered VR systems like the Vive need plenty of power, with HTC recommending at least an Intel Core i5-4590 CPU and a GeForce GTX 970 GPU. https://www.youtube.com/watch?v=A6aRkhlqWuE&t=1s
There are few worse feelings than putting on a VR headset and having someone else's sweat drip down your face. That's why, if you're likely to be sharing your headset with others, we'd recommend some sort of cover. The company VR Cover does exactly what it suggests, selling covers for the Rift, Vive, Gear VR and Windows Mixed Reality headsets. You can get a couple of machine-washable covers or, if you prefer, some cheaper disposable ones. https://www.aliexpress.com/item/kebidu-For-PS3-PS4-Xbox-One-Xbox-360-USB-Controller-Converter-Adapter-For-Nintendo-Switch-NS/32863100869.html
Although much more time and data intensive, I do foresee 360° and VR as being a growing trend of the future. I think the tools and software will continue to improve and the real world applications will start to become more obvious (i.e. behind-the-scenes where you could actually see everything, car cams so that every angle was captured, real estate videos, etc). I’m excited to continue learning about it and continue shooting on my 360° camera.
But the competition is closer than ever. Vive is also excellent (and still offers the best room scale), while the Sony PlayStation VR is a big seller thanks to its significantly lower price and the ubiquity of PlayStation 4 consoles ready to run it. There are now better standalone VR headsets too if you want a hassle-free route to the immersive realms. https://www.youtube.com/watch?v=JrAd-c1ZQ6g&t=1s
From the different headsets we've tested, the hardware is sound and the setup is simple, but position tracking isn't as accurate as tethered headsets with external sensors or the Rift S' new outward-facing tracking cameras. Also, the Windows Mixed Reality store doesn't have as many compelling VR experiences as the Rift and SteamVR stores, though you can use SteamVR games on Windows Mixed Reality headsets, again with some software wrestling. https://www.aliexpress.com/item/Insta360-Nano-S-4K-20MP-360-VR-Video-Camera-w-Panoramic-Livestream-Video-Chat-MultiView-Free/32850583692.html
There are few worse feelings than putting on a VR headset and having someone else's sweat drip down your face. That's why, if you're likely to be sharing your headset with others, we'd recommend some sort of cover. The company VR Cover does exactly what it suggests, selling covers for the Rift, Vive, Gear VR and Windows Mixed Reality headsets. You can get a couple of machine-washable covers or, if you prefer, some cheaper disposable ones. https://www.youtube.com/watch?v=lWb_ibK-Log&t=1s
No conversation about Mixed Reality HMDs is ever complete until someone brings up Apple. Yes, the company has no available or announced devices in this space — but there isn’t a soul following technology trends that doesn’t believe the Cupertino giant isn’t a) working on some kind of AR glasses, b) acquiring companies that make lenses and materials that are perfect for some kind of AR glasses, and c) talking about AR as a transformational technology every time a microphone appears. The rumor mill says Apple’s glasses could appear in 2019, but we have our money on a 2020 launch, alongside a newly redesigned and reimagined iPhone that moves away from the “iPhone X design” for the first time since it launched. Stay tuned. https://www.youtube.com/watch?v=MGO4_8YRKro&t=1s
No conversation about Mixed Reality HMDs is ever complete until someone brings up Apple. Yes, the company has no available or announced devices in this space — but there isn’t a soul following technology trends that doesn’t believe the Cupertino giant isn’t a) working on some kind of AR glasses, b) acquiring companies that make lenses and materials that are perfect for some kind of AR glasses, and c) talking about AR as a transformational technology every time a microphone appears. The rumor mill says Apple’s glasses could appear in 2019, but we have our money on a 2020 launch, alongside a newly redesigned and reimagined iPhone that moves away from the “iPhone X design” for the first time since it launched. Stay tuned. https://www.youtube.com/watch?v=tz8rHmosvbs&t=1s
^ Bukhari, Hatim; Andreatta, Pamela; Goldiez, Brian; Rabelo, Luis (2017-01-01). "A Framework for Determining the Return on Investment of Simulation-Based Training in Health Care". INQUIRY: The Journal of Health Care Organization, Provision, and Financing. 54: 0046958016687176. doi:10.1177/0046958016687176. ISSN 0046-9580. PMC 5798742. PMID 28133988. https://www.youtube.com/watch?v=GEFPqEVlKEk&t=1s
Virtual reality sickness (also known as cybersickness) occurs when a person's exposure to a virtual environment causes symptoms that are similar to motion sickness symptoms. Women are significantly more affected than men by headset-induced symptoms, at rates of around 77% and 33% respectively. The most common symptoms are general discomfort, headache, stomach awareness, nausea, vomiting, pallor, sweating, fatigue, drowsiness, disorientation, and apathy. For example, Nintendo's Virtual Boy received much criticism for its negative physical effects, including "dizziness, nausea, and headaches". These motion sickness symptoms are caused by a disconnect between what is being seen and what the rest of the body perceives. When the vestibular system, the body's internal balancing system, does not experience the motion that it expects from visual input through the eyes, the user may experience VR sickness. This can also happen if the VR system does not have a high enough frame rate, or if there is a lag between the body's movement and the onscreen visual reaction to it. Because approximately 25–40% of people experience some kind of VR sickness when using VR machines, companies are actively looking for ways to reduce VR sickness. https://www.youtube.com/watch?v=VaZ2btqTvwI&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=41RWJgIjlTA&t=1s