360 VR - 360 VR Video - 360 Video Software -

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.
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/Insta360-EVO-5-7K-Video-VR-Panoramic-360-3D-Camera-for-Android-and-iPhone-HoloFrame-3D/32988584687.html
The PlayStation VR is compelling thanks to Sony backing development for it and the affordability and availability of the PlayStation 4 compared with gaming PCs. All you need is the headset, a PlayStation 4, and a PlayStation Camera (now included with most PlayStation VR bundles). There are some excellent games on PS VR like Moss, Rez Infinite, and Until Dawn: Rush of Blood, with Sony and other developers working on several more (including Five Nights at Freddy's VR).
^ 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
The Oculus Rift was the first big name in the current wave of VR, and Oculus is still a major player. The Rift S has a higher resolution than the Vive (but not as high as the Vive Pro or, strangely, the Oculus Quest) and newer and lighter Oculus Touch motion controllers, and doesn't need external sensors to work. It does, however, need DisplayPort; if your PC only has an HDMI output, you might want to hunt for the previous Rift and deal with the extra cables. https://www.youtube.com/watch?v=LU6r78pDLDw&t=1s
Details remain scarce on the Cosmos, which looks like it may attempt to bridge the quality gap between tethered and untethered headsets. The Cosmos will require tethering to another device, but it may not be limited to high-end gaming PCs. A VR headset that can tether to a smartphone? Interesting idea. The Vive Cosmos promises “crystal-clear graphics” thanks to a new pixel-packing process that aims to minimize screen door effect as much as possible. The HMD’s tracking system promises wide and accurate tracking, gesture controls, and a 6 Degrees of freedom (DOF) headset-and-controller setup. No word on price or release date for the Cosmos yet, but expect it sometime in the second half of 2019.

Vive's Tracker might not look like much, but stick it on something and that "thing" becomes a controller. Yes, HTC is redefining how we think of mixed reality with this accessory, and now anyone can buy one. Developers have been busily finding exciting and unique ways to use the Tracker in games, which will require mounts for certain props, like guns and baseball bats.
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.
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.
In 1968, Ivan Sutherland, with the help of his students including Bob Sproull, created what was widely considered to be the first head-mounted display system for use in immersive simulation applications. It was primitive both in terms of user interface and visual realism, and the HMD to be worn by the user was so heavy that it had to be suspended from the ceiling. The graphics comprising the virtual environment were simple wire-frame model rooms. The formidable appearance of the device inspired its name, The Sword of Damocles. https://www.aliexpress.com/item/Universal-Tablet-Car-Holder-Aluminum-Alloy-Arm-Ergonomic-360-Degree-Rotatable-Double-Sucker-Lazy-People-Stand/32811535175.html
Microsoft HoloLens is shaping up to be another formidable competitor in the HMD market. Unlike VR tech, Microsoft based their display on holographic technology. The original Hololens was more proof of concept than consumer device, and the recently announced Hololens 2 is again eschewing the public in favor of enterprise/government uses. The Hololens 2 will feature upgraded visuals, including a much-expanded field of view — music to fans of the original device, who settled on the limited FOV as the main drawback of the device. https://www.youtube.com/channel/UCi-Pcc709EefbggMuGABWOA
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=y4oWTABwBEY&t=1s
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=XPhmpfiWEEw&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.[82] Women are significantly more affected than men by headset-induced symptoms, at rates of around 77% and 33% respectively.[83][84] The most common symptoms are general discomfort, headache, stomach awareness, nausea, vomiting, pallor, sweating, fatigue, drowsiness, disorientation, and apathy.[85] For example, Nintendo's Virtual Boy received much criticism for its negative physical effects, including "dizziness, nausea, and headaches".[86] 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.[87] 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.[88] https://www.youtube.com/watch?v=IwGfeMrPYmw&t=1s
The trade-off, besides the clunky cables, is the price. The least expensive tethered options are currently around $400. And that's before you address the processing issue; the Rift S and the Vive both need pretty powerful PCs to run, while the PS VR requires a PlayStation 4. If the cost isn't a deal breaker but the cables are, HTC offers a wireless adapter for the Vive, but it requires a desktop PC with a free PCIe slot to work. There are also third-party wireless adapters for the Rift, but we can't guarantee how well they work. https://www.youtube.com/watch?v=E-fakvMntAk&t=1s

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/channel/UCuZUSKAxEB_1l9hBpxEK_zQ
In 1968, Ivan Sutherland, with the help of his students including Bob Sproull, created what was widely considered to be the first head-mounted display system for use in immersive simulation applications. It was primitive both in terms of user interface and visual realism, and the HMD to be worn by the user was so heavy that it had to be suspended from the ceiling. The graphics comprising the virtual environment were simple wire-frame model rooms. The formidable appearance of the device inspired its name, The Sword of Damocles. https://www.aliexpress.com/item/US-Plug-AC-Adapter-Charging-Charger-Power-Supply-Cord-Cable-for-Xbox-360-Xbox360-E-Brick/32814634201.html

In 1992, Nicole Stenger created Angels, the first real-time interactive immersive movie where the interaction was facilitated with a dataglove and high-resolution goggles. That same year, Louis Rosenberg created the virtual fixtures system at the U.S. Air Force's Armstrong Labs using a full upper-body exoskeleton, enabling a physically realistic mixed reality in 3D. The system enabled the overlay of physically real 3D virtual objects registered with a user's direct view of the real world, producing the first true augmented reality experience enabling sight, sound, and touch.[16][17] https://www.youtube.com/watch?v=pMRO2dl9z3w&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."[6] https://www.youtube.com/watch?v=wczdECcwRw0&t=1s
Setup for the PS VR is relatively simple compared to the Vive and Rift – the majority of the work is just plugging wires into the right ports. The PS VR, like the Vive, uses a halfway box where all the wires go. There's also just one sensor here to worry about, largely because most of the PS VR experiences are meant for sitting or standing in one position.
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
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.
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."[6] https://www.aliexpress.com/item/CUBE-360-Mini-Sports-Action-Camera-360-degree-Panoramic-VR-Camera-720P-360x-190-Build-in/32733302083.html
The definition of virtual reality comes, naturally, from the definitions for both ‘virtual’ and ‘reality’. The definition of ‘virtual’ is near and reality is what we experience as human beings. So the term ‘virtual reality’ basically means ‘near-reality’. This could, of course, mean anything but it usually refers to a specific type of reality emulation.
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. https://www.aliexpress.com/item/Insta360-ONE-4K-360-VR-Video-Action-Sport-Camera-24MP-Bullet-Time-6-Axis-Gyroscope-Support/32842573257.html
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.[11] 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.[12] https://www.youtube.com/watch?v=qhLExhpXX0E&t=1s
By 1994, Sega released the Sega VR-1 motion simulator arcade attraction,[18][19] 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.[20] 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
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.youtube.com/watch?v=4pJ8w3EdXEA&t=1s

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/360-Lace-Frontal-Wigs-For-Black-Women-Curly-Wig-With-Baby-Hair-Pre-Plucked-180-Density/32815608547.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=GkbxJnpXhI8&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.
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.aliexpress.com/item/Customize-360-Lace-Frontal-Body-Wave-Brazilian-Virgin-Hair-Lace-Frontal-Natural-Hairline-Lace-Size-22/32683532855.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."[6] https://www.youtube.com/watch?v=wczdECcwRw0&t=1s

The exact origins of virtual reality are disputed, partly because of how difficult it has been to formulate a definition for the concept of an alternative existence.[4] The development of perspective in Renaissance Europe created convincing depictions of spaces that did not exist, in what has been referred to as the "multiplying of artificial worlds".[5] Other elements of virtual reality appeared as early as the 1860s. Antonin Artaud took the view that illusion was not distinct from reality, advocating that spectators at a play should suspend disbelief and regard the drama on stage as reality.[2] The first references to the more modern concept of virtual reality came from science fiction.
Microsoft has been promoting its partnership with multiple headset manufacturers to produce a series of Windows 10-ready "mixed reality" headsets. The distinction between virtual reality and mixed reality is so far dubious, but it indicates an integration of augmented reality (AR) technology using cameras on the helmet. Acer, Dell, HP, Lenovo, and Samsung are some of Microsoft's partners in this mixed reality program. https://www.aliexpress.com/item/Car-Mobile-Phone-Holder-for-Iphone-6-Sumsung-Car-Air-Vent-Mount-Holder-USAMS-360-Degree/32604944534.html
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
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

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'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 remains a significant amount of confusion about the differences between Virtual Reality, Augmented Reality and Mixed Reality. (Check out our exhaustive primers on Augmented Reality and Mixed Reality for an in-depth look at the differences.) The public seems to think that AR is a phone experience, while only VR requires an HMD. Mixed Reality devices like the Microsoft Hololens use a headset to overlay 3D imagery on top of the real world. Very cool, but not Virtual Reality. https://www.aliexpress.com/item/32673925656.html
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
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. https://www.youtube.com/watch?v=VdAkPKKvYl4&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. https://www.youtube.com/watch?v=VdAkPKKvYl4&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/USB-PC-wireless-gaming-receiver-for-xbox-360-controller-microsoft-XBOX360-console-gamepad-adapter-accessories-Windows/32785455216.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."[6] https://www.aliexpress.com/item/6-Magnetic-Rotating-Globe-Anti-Gravity-Floating-Levitating-Earth-360-degree-Rotating-For-Desktop-Office-Home/32885659597.html

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.youtube.com/channel/UCLMLTE5R-LR26VKfnaDQtEA
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]
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.aliexpress.com/item/Insta360-ONE-4K-360-VR-Video-Action-Camera-Sport-Camera-24MP-Bullet-Time-6-Axis-Gyroscope/32843818576.html
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.youtube.com/watch?v=jvCKXADeW34&t=1s
×