What is spatial computing? applications of spatial computing
Apple's Vision Pro headset is a hit with over 200k pre-orders based on spatial computing. So what is spatial computing? How does it work and what are its applications? The article below Tipsmake will answer for you!
What is spatial computing?
The term Spatial Computing is a summary of many complex aspects of technology. We understand this as technology that allows computers to blend between the real world and the digital landscape.
Spatial Computing refers to the process of using digital technology for computers to interact seamlessly in a three-dimensional world using Augmented Reality, VR, and Virtual Reality. Mixed Reality MR (Mixed Reality).
Before Apple produced the Vision Pro headset, spatial computing was applied in everyday life such as GPS, location tagging on social networks or AR applications.
How does spatial computing work?
Spatial computing can help you place a virtual piece of furniture in your living room to see what it looks like before deciding to buy it, or allow factory workers to give technical instructions right away with the machine they are building. create.
To do this, spatial computing uses technology to combine the digital and physical worlds. Computers play a key role in collecting visual data and processing data from cameras and other sensors.
Spatial computers record visual information about the environment, including the position, orientation and movement of objects to create a 3D model of the environment - an accurate and comprehensive view of the environment.
The highlight of spatial computing is its ability to understand the depth of the environment. This allows users to interact with virtual objects using eye tracking, handheld controllers and motion sensors.
Specifically, Apple Vision Pro has an advanced eye tracking system and hand gesture detection sensor that allows you to simply look at items to activate them or move them around by pinching your finger or flicking your neck. hand.
Devices that use spatial computing also use voice recognition to support voice commands. This is especially useful when the user has limited access to hand gestures or controllers.
Spatial computing uses augmented reality (AR) and virtual reality (VR). AR plays the role of overlaying digital content on the real world, usually connected by a phone or smart glasses.
Meanwhile, VR creates a completely immersive digital environment that replaces the physical environment around the user. And mixed reality (MR) uses a blend of AR and VR to optimal effect.
What benefits does spatial computing bring?
Spatial computing offers the outstanding benefit of the ability to experience the digital as if it were part of reality. This is applied in many industries and fields: business, photography, human resource training, .
Train employees with experimentation and reduce product development costs
Spatial computing is a tool to design rich training sessions, replacing traditional educational methods.
Using haptic feedback and 360-degree cameras, employees are transported into virtual environments, experiencing team interaction and collaboration.
At the same time, spatial computers also support testing new features, products or services fully even when those products, features or services have not been completed.
This process helps employees understand the product well before it goes to market and saves significant costs on product testing.
Visit and design real estate
A property that is for sale or under construction attracts the attention of customers. They all want to tour and evaluate real estate.
AR augmented reality integrated in Spatial Computing helps virtual 3D tours be done quickly with any real estate product.
For interior designers, engineers and construction contractors, spatial technology helps them design, adjust drawings and shorten job completion time.
Spatial technology benefits retail stores
Environmental restrictions and natural disasters can limit communication, exchange, and choice of goods. But spatial computing can turn the situation around by opening virtual stores, providing full products of retail stores.
Customers can see 3D products, experience the coordination and arrangement, before deciding to purchase.
Benefits of spatial algorithms with smart warehouses and automated driving: Automate processes
Smart warehouse is an outstanding step forward when applying spatial computing successfully. Automating processes allows managing and fulfilling thousands of orders every day, far more efficient than traditional human management.
Spatial computers support the evaluation of routes so that self-driving vehicles such as cars and airplanes can find safe and quick routes. In the future, this technology will go even further when developed in many other means of transportation.
Spatial computing improves human-machine interaction
This is absolutely certain. Without requiring much effort to get used to new technology, spatial technology will make retrieving and responding to information as simple as possible.
We can clearly see this when spatial computing is operationalized into games and entertainment. Instead of a keyboard or joystick, you can use hand gestures or your eyes to control your avatar and manipulate in-game objects flexibly.
Events and tournaments are comprehensively simulated, even more complete even when you sit in the stadium.
Apple Vision Pro can even capture memories in spatial format that you'll later relive in 3D.
Space technology brings great benefits in education and training
Spatial computing can provide interactive and engaging learning experiences. This helps students, pupils, and researchers improve their ability to remember knowledge and acquire skills.
Medical students can use spatial computing to practice surgical procedures in simulated virtual environments, engineering students can use spatial computing to build and test virtual prototypes of machinery or conducting experiments.
Spatial algorithms bring benefits in human health care
For people with disabilities, physical accidents, or cognitive impairment, virtual assistants are a great support, helping them communicate and communicate with doctors and people around them.
For doctors, spatial computing helps them diagnose, monitor and treat patients more comprehensively and accurately. They can view a patient's medical imaging scans through a headset while they are operating on that patient.
summary
Space computing is an inevitable development step for humanity. This technology will increasingly develop as more companies after Apple join, research and produce devices similar to the Vision Pro headset.
However, the biggest limitation of the spatial computing industry is the cost of hardware, battery production capacity, etc. With prices of thousands of dollars, not everyone can experience and purchase them. . This is an issue that businesses will need time to perfect and resolve.
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