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Exploring the Future of Spatial Computingby@brianwallace
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1,032 reads

Exploring the Future of Spatial Computing

by Brian WallaceSeptember 20th, 2023
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Spatial computing has the potential to merge the virtual and real worlds and offer customers completely immersive experiences. It can improve our experience of the world by replicating our senses through 3D graphics, audio, and haptics. Experts estimate that by 2024, almost 1.4 billion gadgets will have some kind of augmented reality (AR) capability.
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Modern technology's quick progression has drastically changed many facets of our daily life. However, the next stage of its development threatens to fundamentally alter how we view reality itself. A cutting-edge technology called spatial computing has the potential to merge the virtual and real worlds and offer customers completely immersive experiences. It can improve our experience of the world by replicating our senses through 3D graphics, audio, and haptics, making it more engaging and participatory.


There are a variety of spatial computing options available, from full virtual reality (VR), which completely immerses people in computer-generated settings, to augmented reality (AR), which improves the actual world. With AR, digital elements are superimposed onto the real world. One example is Lumus' Z-Lens, a pair of glasses that superimpose digital data over the user's field of vision.


Mixed reality (MR), on the other hand, enables physical and digital components to interact and provides a more immersive experience. With their respective Meta Quest 3 and Apple Vision Pro devices, companies like Meta and Apple have debuted MR technology. Full VR experiences, as demonstrated by gadgets like the Meta Quest 2, transport people into fully artificial reality.


Spatial computing technology is quickly making its way into numerous devices. Experts estimate that by 2024, almost 1.4 billion gadgets will have some kind of augmented reality (AR) capability. The adaptability of spatial computing encompasses a broad range of applications. For instance, Augmedics overlays anatomically realistic spinal placements to help surgeons produce better outcomes for their patients, while VRPilot uses virtual reality to evaluate pilots' flying ability prior to operating real aircraft.


Spatial computing will have an increasing impact on a variety of aspects of our life, including how we work, play, learn, and care for our health.  Holographic calls from any location are likely to be accepted in the workplace of the future. Thanks to spatial computing's improved visualization capabilities, projects may be developed, constructed, and completed in 40% less time. Documents may no longer require physical monitors and keyboards, allowing for more flexibility and remote work options.


Significant changes are also expected to occur in the entertainment industry. Users will become fully immersed in the metaverse while creating unique avatars and interacting with a sizable gaming community. The gaming experience will be improved with spatial audio and glasses that conceal the outside environment, blurring the boundaries between reality and the virtual world. Education will also surprisingly  incorporate some concepts from the metaverse, by allowing students to virtually tour historical sites and landmarks. This technology will take the concept of interactive learning to the next level.


Spatial computing is a huge shift in technology and has a massive potential to change how we see and interact with the physical world and each other. It will revolutionize how we study, work, play, and take care of our well-being with its applications across a wide range of industries. The lines between the real and digital worlds will continue to dissolve as we embrace this spatial revolution, improving our lives in unimaginable ways.


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