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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=ouqtjetglwI&t=1s
The Vive Pro sports a 2,880 x 1,600 resolution on a dual-OLED display, up from the Vive's 2,160 x 1,200 resolution. There's also dual cameras on the front that'll help track your hands and a 90Hz refresh rate with 70 sensors, giving you 360-degree head-tracking. It's not a leap to say that the Vive Pro is a monster. This is easily the most advanced VR headset out there, but it's also incredibly expensive, sitting at £799. If you don't need that added clarity, the Vive has all the same tricks. https://www.youtube.com/watch?v=HwolI3DQFhI&t=1s
Everything that we know about our reality comes by way of our senses. In other words, our entire experience of reality is simply a combination of sensory information and our brains sense-making mechanisms for that information. It stands to reason then, that if you can present your senses with made-up information, your perception of reality would also change in response to it. You would be presented with a version of reality that isn’t really there, but from your perspective it would be perceived as real. Something we would refer to as a virtual reality. https://www.youtube.com/watch?v=14O7AxqjiVY&t=1s
Leap Motion has been around for a while but now it's got a new lease of life as a VR peripheral compatible with both the Rift and HTC Vive. It attaches with an add-on mounted to the front of the headset and adds hand gesture controls to your virtual reality gaming. It's super precise, tracking each finger – the question is, how precise are your dumb human hands? https://www.youtube.com/watch?v=nEi6u2lAYHg&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=XBlhXKjSy6M&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.aliexpress.com/item/FeiyuTech-Feiyu-360-degree-Gimbal-Automatic-Rotation-Stand-for-Smartphones-Mirrorless-Action-Cameras-All-1-4/32907763034.html
However, because the Lighthouse sensors need good vantage points to track all your head and hand movements, it means mounting them up high. This makes setup for the Vive a bit convoluted compared to, say, the Rift or PSVR. For the Rift, you can just plop down the sensors on a desk, though to get the same 360 tracking you'll need to buy an extra sensor (the Touch bundle gets you two). However, when you get Lighthouse all ready the effect is next-level – enough to make using the PlayStation VR or Rift feel like a step back at times.
All this sounds fantastic and amazing, which it is, but it comes with its fair share of challenges when creating this content. Before I jump into those, take a look at the final product I created for the client, so you have a better understanding of what I’m talking about as I go (Note: For best experience, view on phone or tablet. If you’re on a computer, you can still view it just fine, just click and drag around the screen to change your view): https://www.youtube.com/watch?v=LEIg0xceJE4&t=1s
In projector-based virtual reality, modeling of the real environment plays a vital role in various virtual reality applications, such as robot navigation, construction modeling, and airplane simulation. Image-based virtual reality system has been gaining popularity in computer graphics and computer vision communities. In generating realistic models, it is essential to accurately register acquired 3D data; usually, camera is used for modeling small objects at a short distance. https://www.aliexpress.com/item/MYKPOP-BTS-Mobile-Phone-Holder-BT21-Holloween-360-Degree-Rotate-Desk-Holder-for-all-Smart/32952202244.html
At some point the 2.0 Lighthouse sensors will arrive with a new curved design and support to add up to four at once (right now it's just two). Meanwhile, the Vive's Trackers enable you to bring any object into VR, and some developers have already found some creative uses for them. These, combined with the TPCast's wireless adapter, gives the Vive the advantage in the tech battle. However, if you wait a little while you can get your hands on the new Vive Pro Eye, which adds new eye-tracking technology (more on that further below). https://www.youtube.com/watch?v=MMtkl_-jXC0&t=1s

David Em became the first artist to produce navigable virtual worlds at NASA's Jet Propulsion Laboratory (JPL) from 1977 to 1984.[8] 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=DO9U_XxN-Kc&t=1s


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.
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.aliexpress.com/item/HairUGo-Straight-Human-Hair-Bundles-With-Closure-Peruvian-Hair-Bundles-With-360-Lace-Frontal-Closure-Double/32924394427.html
Although we talk about a few historical early forms of virtual reality elsewhere on the site, today virtual reality is usually implemented using computer technology. There are a range of systems that are used for this purpose, such as headsets, omni-directional treadmills and special gloves. These are used to actually stimulate our senses together in order to create the illusion of reality. https://www.youtube.com/watch?v=iNWHHhIsE00&t=1s
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 user’s eyes are located within the simulated environment. If the user’s 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. https://www.youtube.com/watch?v=hTFe95oFnDM&t=1s
HTC has branched out beyond tethered headsets with the standalone Vive Focus series. Originally launched only in China, the Vive Focus came to North America late last year, and its 6DOF follow-up, the Vive Focus Plus, will see worldwide release later this year. Both are completely self-contained VR headsets similar to the Lenovo Mirage Solo, capable of full motion tracking and room mapping. The Vive Focus headsets are currently being aimed at the enterprise market rather than consumers, emphasizing their ability to offer virtual training and conferencing in a business context. https://www.aliexpress.com/item/Professional-720P-3D-video-VR-Camera-with-free-download-Android-phone-APP/32766408346.html
In medicine, simulated VR surgical environments under the supervision of experts can provide effective and repeatable training at a low cost, allowing trainees to recognize and amend errors as they occur.[53] Virtual reality has been used in physical rehabilitation since the 2000s. Despite numerous studies conducted, good quality evidence of its efficacy compared to other rehabilitation methods without sophisticated and expensive equipment is lacking for the treatment of Parkinson's disease.[54] A 2018 review on the effectiveness of mirror therapy by virtual reality and robotics for any type of pathology concluded in a similar way.[55] Another study was conducted that showed the potential for VR to promote mimicry and revealed the difference between neurotypical and autism spectrum disorder individuals in their response to a two-dimensional avatar.[56]
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.
Google keeps taking stabs at Virtual Reality, but the company’s impact has thus far been limited. The lack of a big-time success hasn’t been for lack of trying. Google was there in the earliest days of this current VR cycle with Google Cardboard, a do-it-yourself approach to mobile VR that has become a staple of trade shows — Cardboard was even given out free to New York Times subscribers, bundled with their Sunday paper. Google famously stumbled with Google Glass (itself a Mixed Reality HMD, not VR — more on this below). But Google is not deterred! In 2018, the company launched its Daydream platform and Daydream View HMD. https://www.youtube.com/watch?v=yVLfEHXQk08&t=1s
The Vuzix Blade are the first Mixed Reality glasses to look like, well, glasses. A close cousin of the “Buddy Holly” style or those 3D spectacles you get at the movie theater, Vuzix Blade moves many core smartphone features from the touchscreen to in front of your face. Thing Uber ordering, GPS, fitness tracking, weather updates, messages, and more. Vuzix Blade is compatible with iOS and Android devices, and will set you back a cool $999. https://www.youtube.com/channel/UCyKa1YNZLio6XfjMR7fw45Q

Virtual Reality is a fascinating way to travel using nothing more than the power of technology. With a headset and motion tracking, VR lets you look around a virtual space as if you're actually there. It's also been a promising technology for decades that's never truly caught on. That's constantly changing with the current wave of VR products, especially as the biggest names in the industry are starting to really hone and tweak their headsets.


Modern VR headsets now fit under one of three categories: Mobile, tethered, or standalone. Mobile headsets are shells with lenses into which you place your smartphone. The lenses separate the screen into two images for your eyes, turning your smartphone into a VR device. Mobile headsets like the Samsung Gear VR and the Google Daydream View are relatively inexpensive at around $100, and because all of the processing is done on your phone, you don't need to connect any wires to the headset. https://www.youtube.com/watch?v=EjW4N9qxZjk&t=1s
The big upside to Oculus is that its ecosystem is pretty robust. There are over 1,000 apps and games available to you for the Go. Now you're not going to get some of the more high-end experiences, like Robo Recall, but you're not going to be hurting for content. Oculus' home screen is also probably the best in VR, even on the standalone Go. Finally, you're going to get about 1.5 hours of battery life if you're gaming and 2.5 hours if you're watching videos. The basic version comes with 32GB of storage, you camp bump up to 64GB of storage for a cool £50 more. https://www.youtube.com/watch?v=P-o5HhGK-EY&t=1s
We know the world through our senses and perception systems. In school we all learned that we have five senses: taste, touch, smell, sight and hearing. These are however only our most obvious sense organs. The truth is that humans have many more senses than this, such as a sense of balance for example. These other sensory inputs, plus some special processing of sensory information by our brains ensures that we have a rich flow of information from the environment to our minds.
Expand your media adventures and social gaming communities with accessories and peripherals created for virtual reality. For example, a VR controller offers seamless integration with virtual reality games to give you more control over your virtual environment. Beyond PC gaming, virtual reality experiences also encompass other forms of video. Virtual reality-compatible cameras capable of filming in 360 degrees offer you the chance to view and edit your footage, along with other VR-ready components. https://www.aliexpress.com/item/-/32820356522.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

The Oculus Touch controllers have made a world of difference since their arrival. Compared to the other headsets' controllers, they're our favourite – they conform to your hand and allow for some finger recognition, like a thumbs-up. Not just that, but when it comes to games Oculus has come on leaps and bounds. That's been largely helped by some developer cash injections from Facebook, giving us quality, polished titles like Lone Echo and Robo Recall. Room-scale support has been added too, though you'll need to purchase at least one additional sensor to get it to Vive-level tracking, and even then the Vive tracking experience is a little better in our experience. https://www.youtube.com/watch?v=izRZxhqfk0Y&t=1s
In 2013, Valve Corporation discovered and freely shared the breakthrough of low-persistence displays which make lag-free and smear-free display of VR content possible.[31] This was adopted by Oculus and was used in all their future headsets. In early 2014, Valve showed off their SteamSight prototype, the precursor to both consumer headsets released in 2016. It shared major features with the consumer headsets including separate 1K displays per eye, low persistence, positional tracking over a large area, and fresnel lenses.[32][33] HTC and Valve announced the virtual reality headset HTC Vive and controllers in 2015. The set included tracking technology called Lighthouse, which utilized wall-mounted "base stations" for positional tracking using infrared light.[34][35][36] https://www.youtube.com/watch?v=LD4ryByjVyo&t=1s
Unsurprisingly, the video games industry is one of the largest proponents of Virtual Reality. Support for the Oculus Rift headsets has already been jerry-rigged into games like Skyrim and Grand Theft Auto, but newer games like Elite: Dangerous come with headset support built right in. Many tried-and-true user interface metaphors in gaming have to be adjusted for VR (after all, who wants to have to pick items out of a menu that takes up your entire field of vision?), but the industry has been quick to adapt as the hardware for true Virtual Reality gaming has become more widely available. https://www.youtube.com/watch?v=1bhq5-eXuVQ&t=1s
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. https://www.youtube.com/watch?v=90nDMSIgt7I&t=1s

In 1999, entrepreneur Philip Rosedale formed Linden Lab with an initial focus on the development of VR hardware. In its earliest form, the company struggled to produce a commercial version of "The Rig", which was realized in prototype form as a clunky steel contraption with several computer monitors that users could wear on their shoulders. The concept was later adapted into the personal computer-based, 3D virtual world program Second Life.[23] https://www.youtube.com/watch?v=q-keAwnqwRQ&t=1s
Virtual Reality is a fascinating way to travel using nothing more than the power of technology. With a headset and motion tracking, VR lets you look around a virtual space as if you're actually there. It's also been a promising technology for decades that's never truly caught on. That's constantly changing with the current wave of VR products, especially as the biggest names in the industry are starting to really hone and tweak their headsets. https://www.aliexpress.com/item/FW1S-USB-2-0-Webcam-12-0-Mega-Pixel-HD-Camera-Webcam-360-Degree-MIC-Clip/32659656232.html
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. https://www.youtube.com/watch?v=5szCIv22-qE&t=1s
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