Virtual Reality’s 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, CAVE automatic virtual environments actively display virtual content onto room-sized screens. While they are fun for people in universities and big labs, consumer and industrial wearables are the wild west. https://www.youtube.com/watch?v=gc9H7UFzpPw&t=1s
A virtual environment should provide the appropriate responses – in real time- as the person explores their surroundings. The problems arise when there is a delay between the person’s actions and system response or latency which then disrupts their experience. The person becomes aware that they are in an artificial environment and adjusts their behaviour accordingly which results in a stilted, mechanical form of interaction. https://www.youtube.com/watch?v=MMmOLN5zBLY&t=1s
Morton Heilig wrote in the 1950s of an "Experience Theatre" that could encompass all the senses in an effective manner, thus drawing the viewer into the onscreen activity. He built a prototype of his vision dubbed the Sensorama in 1962, along with five short films to be displayed in it while engaging multiple senses (sight, sound, smell, and touch). Predating digital computing, the Sensorama was a mechanical device. Heilig also developed what he referred to as the "Telesphere Mask" (patented in 1960). The patent application described the device as "a telescopic television apparatus for individual use...The spectator is given a complete sensation of reality, i.e. moving three dimensional images which may be in colour, with 100% peripheral vision, binaural sound, scents and air breezes." https://www.youtube.com/watch?v=pFSuajyJcwY&t=1s
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.aliexpress.com/item/-/32822658286.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. https://www.youtube.com/watch?v=lYJgTFkCNYU&t=1s
The Labo VR Kit has you building a mobile VR headset out of cardboard, like the older Google Cardboard headsets, which you insert the Nintendo Switch into. You then build other controllers, like a camera or a blaster, and attach them to the headset to play games. It's fun and engaging, but even with an impressive game development kit in the software, it's ultimately just a novelty. The Labo VR Kit mostly provides 3DOF motion control, even if it uses the Joy-Cons' motion sensors in some very clever ways (one controller creates a triangulated 6DOF motion control system using both Joy-Cons in tandem), and the Switch's 720p screen offers some of the simplest and grainiest VR graphics we've seen in years. It scores so highly with us because as its own product, a crafts kit for kids who want to learn about VR and game development, it's excellent. It just isn't a feasible VR platform like the other systems discussed here.
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.
One place Microsoft has succeeded in how easy it is to set up its WMR headsets. It uses inside-out tracking, so you won't need to go plug in a bunch of sensors to make sure your headset is being seen. These headsets have built-in cameras and sensors that handle all of that. They'll even track the Windows Mixed Reality controllers, which suffer a bit because they rely on the headset being able to see them clearly to properly track. https://www.aliexpress.com/item/New-14-Joint-360-Degree-Rotation-Resin-Nude-Naked-Female-Body-For-Bar-bie-Doll/32884974971.html
Augmented reality (AR) is a type of virtual reality technology that blends what the user sees in their real surroundings with digital content generated by computer software. The additional software-generated images with the virtual scene typically enhance how the real surroundings look in some way. AR systems layer virtual information over a camera live feed into a headset or smartglasses or through a mobile device giving the user the ability to view three-dimensional images. https://www.youtube.com/watch?v=JI-ectchft8&t=1s
Magic Leap has been an investor and media darling since 2014, when Google dumped $540 million in seed money into its sizable coffers. The company has been a source of much fascination and hand-wringing by industry observers ever since. Magic Leap fed the public appetite for information with a string of vaporware demos before finally unveiling the Magic Leap One in 2018. Instead of a magical breakthrough device, the Magic Leap One was more of an updated Hololens, which produced good (but not great) 3D imagery that mixed decently (but not spectacularly) with the real world. The Magic Leap One remains more of a developer tool in search of a consumer application — much like the Hololens. Despite all the doubts now surrounding the company and their technology, Magic Leap’s presence in the industry continues to challenge well-established brands, making them an unusual, but a noteworthy company.
I knew the new year would come with new opportunities and new experiences, but I didn’t expect that just 1 week after New Years I would be told I had 2 weeks to create a 360° VR promo video for the construction company that does nationwide remodels of companies like McDonald’s, Starbucks, Chipotle, Chili’s, Home Depot, Walgreens, etc. This was a pretty big deal, and I had very little time to gather my thoughts, find models, locations, confirm scripts, shoot, and then edit (especially considering 360° shooting and editing was new to me).
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/watch?v=ChMM4ndknKI&t=1s
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 they’re actually walking through a simulation, rather than sitting in a chair or on a couch. Haptic technologies, also known as kinesthetic or touch 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. https://www.aliexpress.com/item/4K-Resolution-Lens-1-21mm-Fisheye-Lens-220-Degree-IR-1-2-3-Inch-16MP-M12/32837407907.html
These are 360 degree panoramic images captured using rotational cameras with ultra wide-angle lenses. Our award winning 360VR images are full 360 degree spherical panoramic images used in building photographic "Virtual Reality" style virtual tours. You can interactively "be there and look around" with the full realism that expert digital photography can capture. https://www.youtube.com/watch?v=pO4DV5KZClk&t=1s
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/Insta360-PRO-8-K-360-VR-Kamera-Video-4-K-100fps-Gerakan-Lambat-Anti-Shake-Kamera/32832297122.html
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.youtube.com/watch?v=huROjodx9Lk&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.
In our hands-on time with the Odyssey, we felt it was the one Mixed Reality headset that's on the same level as Oculus Rift. It has a premium, comfortable feel that the other headsets, from the likes of Lenovo, Acer and HP don't have. For Windows Mixed Reality right now, Samsung holds the bar. With the arrival of the Odyssey+, Samsung has improved things further with double the pixel count than the first Odyssey and an Anti-SDE (Screen-Door Effect) Display, aimed at mitigating a condition that can lead to mild dizziness and nausea. https://www.aliexpress.com/item/1-PCS-Dual-4K-Lens-360-degree-panoramic-camera-support-wifi-app-7k-photo-and/32852955742.html
Morton Heilig wrote in the 1950s of an "Experience Theatre" that could encompass all the senses in an effective manner, thus drawing the viewer into the onscreen activity. He built a prototype of his vision dubbed the Sensorama in 1962, along with five short films to be displayed in it while engaging multiple senses (sight, sound, smell, and touch). Predating digital computing, the Sensorama was a mechanical device. Heilig also developed what he referred to as the "Telesphere Mask" (patented in 1960). The patent application described the device as "a telescopic television apparatus for individual use...The spectator is given a complete sensation of reality, i.e. moving three dimensional images which may be in colour, with 100% peripheral vision, binaural sound, scents and air breezes." https://www.youtube.com/watch?v=wczdECcwRw0&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=eIho2S0ZahI&t=1s
Will Greenwald has been covering consumer technology for a decade, and has served on the editorial staffs of CNET.com, Sound & Vision, and Maximum PC. His work and analysis has been seen in GamePro, Tested.com, Geek.com, and several other publications. He currently covers consumer electronics in the PC Labs as the in-house home entertainment expert... See Full Bio https://www.youtube.com/watch?v=nuM0Z4a7kMs&t=1s
It really is that simple. You do need the companion app on your phone first, which will make you log in. You'll also have to grant location access and pair the Go to your Wi-Fi. Once you've done that, and inserted and paired your controller, you're all good to go. There will be a little video that tells you a bit about safety, but that's it. That's how simple it is to set up. https://www.aliexpress.com/item/VR-360-Camera-HD-Video-Panoramic-View-190-degree-Wide-Angle-Dual-Fisheye-Lens-Panorama-360/32824775874.html
In 2016, HTC shipped its first units of the HTC Vive SteamVR headset. This marked the first major commercial release of sensor-based tracking, allowing for free movement of users within a defined space. A patent filed by Sony in 2017 showed they were developing a similar location tracking technology to the Vive for PlayStation VR, with the potential for the development of a wireless headset. https://www.youtube.com/watch?v=zm3oZFu3rO4&t=1s
This is more difficult than it sounds, since our senses and brains are evolved to provide us with a finely synchronised and mediated experience. If anything is even a little off we can usually tell. This is where you’ll hear terms such as immersiveness and realism enter the conversation. These issues that divide convincing or enjoyable virtual reality experiences from jarring or unpleasant ones are partly technical and partly conceptual. Virtual reality technology needs to take our physiology into account. For example, the human visual field does not look like a video frame. We have (more or less) 180 degrees of vision and although you are not always consciously aware of your peripheral vision, if it were gone you’d notice. Similarly when what your eyes and the vestibular system in your ears tell you are in conflict it can cause motion sickness. Which is what happens to some people on boats or when they read while in a car. https://www.aliexpress.com/item/SDETER-Bulb-Lamp-Wireless-IP-Camera-Wifi-960P-Panoramic-FishEye-Home-Security-CCTV-Camera-360-Degree/32839173184.html