Researchers in the emerging field of spatial computing have developed a prototype augmented reality headset that uses holographic imaging to overlay full-color, 3D moving images on the lenses of what would appear to be an ordinary pair of glasses. Unlike the bulky headsets of present-day augmented reality systems, the new approach delivers a visually satisfying 3D viewing experience in a compact, comfortable, and attractive form factor suitable for all-day wear. “Our headset appears to the outside world just like an everyday pair of glasses, but what the wearer sees through the lenses is an enriched world overlaid with vibrant, full-color 3D computed imagery,” said Gordon Wetzstein, an associate professor of electrical engineering and an expert in the fast-emerging field of spatial computing. Wetzstein and a team of engineers introduce their device in a new paper in the journal Nature.

Continue Reading.

Apple Vision Pro.

So I’ve been working on this thing lately, a web app for viewing abandoned spaces on Desktop, Mobile and in VR. It’s called abandoned.ai and you can go there right now! It currently has two rooms from building seven at Kings Park Psychiatric Center but there will be plenty more to come. Recently the state government announced plans to demolish more of the buildings there, which, in my opinion are beautiful. They are our architectural heritage as a nation, made proudly of marble, steel and… asbestos.

That is why I’m trying to capture yesterday’s places for the benefit of tomorrow. Follow the journey on the companion blog : abandoned.zone

The new Apple Vision Pro ad got me hyped

Why Apple's 2nd Gen UWB Chip is Exciting?

With over 10 years of experience in spatial and location technologies, including Bluetooth, Ultra Wideband, and Cellular IoT, we at Estimote are thrilled about the newly announced iPhone 15 and its upgraded second-generation Ultra Wideband chip.

In this blog post, we'll explain why we're excited, we will try to forecast the potential use-cases of this second-gen chip, and highlight the opportunities for developers to create groundbreaking context and location-aware apps.

SPATIAL AWARENESS

Many people aren't aware, but every iPhone from the iPhone 11 onwards has a hidden super-power. It can measure the distance and orientation to nearby phones or other compatible devices. Think of it as an invisible string connecting your phone to objects with AirTags attached, a HomePod, or even your car.

This super-power is made possible by the first generation Ultra Wideband chip (U1 chip). This chip is a small radio transmitter that sends, receives, and processes tiny radio signals. These signals are so low-power that they're almost indistinguishable from the background noise in a broad range of frequencies (5-9 GHz). That's why it's called Ultra Wideband, or UWB for short.

Whenever a nearby device communicates with an iPhone using UWB, the phone calculates the duration of this interaction. The greater the distance, the more time it takes for the radio signal to make the round trip. The U1 chip then multiplies this travel time by the speed of light to determine the inch-level distance to nearby phones or tags.

iPhones equipped with the UWB chip use this distance data to create magical user experiences. For instance, when you AirDrop files to friends close by or search for your misplaced keys, your iPhone directs you to the corresponding AirTag. And when you walk into your living room your music can seamlessly start playing on your HomePod. These are just a few examples of what the U1 chip offers, and there's so much more on the horizon.

LOWER POWER UWB CHIP

The new iPhone 15 as well as new Apple Watch Series 9 feature a second-generation UWB chip. Reports indicate that a primary difference with that model is the shift in the chip manufacturing process from 16nm to 7nm. This simply means that the transistors have become smaller. As a result, they use less energy and switch more quickly, leading to enhanced performance, greater range, and new possibilities.

Why is power consumption so crucial? Reduced power usage can result in a superior user experience and introduce entirely new use-cases and applications. For instance, with the new UWB chip, new AirTags when upgraded could last up to 2-3 years on a single coin battery, as opposed to the current 1-year lifespan with the U1 chip.

Having more transistors also means stronger computing power, better signal processing, and more effective noise filtering. This is why Apple also announced a 3x improvement in UWB range and unveiled a new precision finding feature for the Find My app to locate friends around.

UNTRACKED INDOOR LOCATION

Another potential future application of the lower power UWB chip might involve a technique named Downlink TDoA. This stands for "time difference of arrival," a new standard championed by the FiRa organization. It lets UWB-enabled phones passively receive signals from UWB beacons or anchors.

Imagine your car in a tunnel where GPS is unavailable. UWB beacons in the tunnel transmit radio signals to your phone. Your phone captures these signals, and using the time difference of their arrival, it can calculate the exact position of the car inside the tunnel. With Downlink TDoA, beacons don't collect any data from to the phone. The precise location is determined solely by the UWB chip on the phone. This approach is seen as safer and more privacy-centric than traditional real-time location systems (RTLS). As a result, it's often referred to as Untracked Indoor Positioning.

This innovative, privacy-centric way of determining indoor positioning could also be applied in airports, malls, museums, and more. It could effectively deliver what the iBeacon promised years ago, but with inch-perfect accuracy and superior security.

To make such experiences possible, a low-power UWB processor like the second-gen chip is essential. The phone would need to constantly detect UWB signals from nearby beacons, and it's crucial that this happens efficiently.

SPATIAL COMPUTING AND VISION PRO

There's also speculation that the UWB chip may eventually interact with Apple's new smart glasses. This makes a lot of sense. Currently, Vision Pro determines its spatial orientation in a room using computer vision and image processing. Using the UWB chip and radio signals for this purpose would use order of magnitude less power. Preserving power could allow Apple to design more compact and lighter smart glasses in the future.

FUTURE APPLICATIONS OF UWB

Ultra Wideband technology has many more uses than just distance positioning. It was originally developed for military use in radars. Essentially, UWB signals sent from the phone could reflect off nearby objects and return to the UWB chip. By examining these reflections phone can identify the shape, orientation, or movement of objects.

RADAR AND HEALTH MONITORING

There are many research papers where UWB radar is used to count people in a room or even detect human heartbeats. Given Apple's focus on health & fitness, it's entirely possible for future iPhones equipped with UWB on your nightstand to monitor heart rate or breathing. Non-contact monitoring could be useful for elderly individuals living alone or young children. It could identify falls or irregular heartbeats and notify caregivers or family members. This might not be implemented on the second-gen processors, but could be expected from the future UWB revisions and the new software.

HANDS-FREE PAYMENTS

Another potential use for an improved UWB chip could be in payments. While NFC has been popular for close-range payments, UWB could transform the entire experience. Imagine approaching a payment terminal, and without needing to pull out your phone or move it near the terminal, the payment is processed securely. This technology might lead to genuinely hands-free shopping. Customers could just grab items and leave the store. With devices powered by the UWB chip communicating with other UWB-enabled tags and payment terminals, the items someone has would be detected, and the cost automatically taken from the associated account, all while ensuring security through spatial authentication.

Beyond shopping, UWB could also make peer-to-peer payments easier. Instead of sifting through apps, just being nearby could prompt a payment screen on your iPhone, asking if you want to split the bill, recognizing your friend's device by its spatial position.

ACCESS CONTROL AND HANDS-FREE AUTHENTICATION

Finally, Apple's new second-gen UWB chip, can revolutionise the way we access and interact with spaces. Imagine arriving at a hotel. As you approach your room, the door recognises your smartphone and automatically unlocks without you having to fumble for a keycard or even touch the door.

Workplaces, especially those that involve machinery or secure data access, can benefit from hands-free authentication. Consider a research laboratory with multiple machines and computers. Instead of using passwords, keycards, or fingerprint scans, devices equipped with UWB sensors could detect the presence of an authorised UWB chip-carrying employee and unlock automatically.

The incorporation of the second generation UWB chip into a broader range of devices could dramatically transform the way we interact with the world, making our experiences smoother, more intuitive, and more secure. From hotels to workplaces, the possibilities for hands-free access and seamless interactions are vast and exciting. If you are interested to learn more about UWB and differences between BLE and UWB see our other blog-post about our UWB Beacons and try Nearby Interactions API and our SDK building next-gen mobile apps.

I finally added tons of work I did for Magic Leap to my portfolio site. Now that the ML2 is available, I don’t have to keep 2+ years of rad Motion Design secret anymore.

From Concept to Reality: The Technology Trends Turning Heads This Year

Innovation in the tech sector is a much talked about topic among individuals lately. Technology trends shift so quickly & swiftly that they are hardly known to all when a particular trend is in fashion. The tenure of a tech trend has become a very tiny one. These trends are of immense value to the startups as one of the best works comes out of them when implemented efficiently. The major part here is customer satisfaction plus the revenue figures for the organization. When these are in alignment, there’s no looking back. Once considered futuristic, today’s most influential technology trends are becoming core components of modern business strategy. From AI-powered automation to spatial computing, innovation is not just moving fast—it’s accelerating change at every level of the enterprise.

Here are the most compelling technology trends gaining traction in 2025 and the specific companies putting them into action.

1. Generative AI Moves Beyond the Prototype Phase

Generative AI has shifted from experimentation to execution. Companies like Morgan Stanley have deployed OpenAI's GPT-powered assistant to help 16,000 financial advisors quickly access internal research and data insights. This move is expected to increase advisory efficiency and reduce client response times significantly.

Meanwhile, Intuit integrated generative AI into TurboTax, Credit Karma, and QuickBooks to provide intelligent recommendations and automated financial advice. According to McKinsey, generative AI could add up to $4.4 trillion annually to the global economy, with North American firms leading implementation.

Pfizer is also exploring the use of generative AI to streamline drug discovery, cutting down early-stage research timeframes from years to months. This approach leverages machine learning to simulate protein folding and molecular interactions, fast-tracking life-saving medication development.

2. Spatial Computing Goes Commercial

Spatial computing is now being applied in business settings, not just gaming. Lowe's deployed Apple Vision Pro headsets in select stores, enabling employees to visualize virtual floor plans and inventory layouts. This increased inventory placement efficiency and customer experience ratings in test markets.

In healthcare, Cedars-Sinai Medical Center is using spatial computing to help patients understand surgical procedures through immersive 3D visuals, improving patient comprehension scores by 23%, according to their internal study.

Boeing has adopted spatial computing in aircraft assembly, using augmented reality (AR) glasses that overlay engineering schematics directly onto fuselage components. This has reduced wiring time by 25% and decreased error rates.

3. Quantum Innovation Enters Business Strategy

IBM has made its 127-qubit quantum processor, Eagle, available via IBM Quantum. ExxonMobil and Mitsubishi Chemical are exploring quantum simulations to improve battery and fuel cell design. According to Boston Consulting Group, quantum computing could unlock $850 billion in value globally in the next 15–30 years.

Goldman Sachs and JP Morgan Chase are investigating quantum computing for portfolio optimization, risk analysis, and fraud detection. These applications could drastically enhance processing speed and predictive accuracy.

4. Zero Trust Security Architectures Take Hold

Following a sharp increase in cyberattacks, companies like Google and CrowdStrike are championing zero trust models. Google’s BeyondCorp initiative has become a template for organizations transitioning from perimeter-based security.

The Cybersecurity and Infrastructure Security Agency (CISA) launched a Zero Trust Maturity Model, encouraging U.S.-based businesses to adopt layered security models. 82% of enterprise IT decision-makers in a Fortinet study cited zero trust as a top-three security priority in 2025.

Okta, a leading identity management firm, reports that its customers saw a 38% reduction in unauthorized access attempts after implementing zero trust policies. This shift is particularly critical for hybrid and remote workforces.

5. AI-Augmented Decision Intelligence Goes Mainstream

Walmart is leveraging AI-powered analytics to fine-tune supply chain operations and dynamically adjust inventory across stores. Their intelligent data platform has helped reduce overstock and stockouts by 20%.

Salesforce introduced Einstein Copilot, an AI assistant that integrates directly into CRM tools to generate forecasts, write sales emails, and surface pipeline insights. Gartner predicts that by 2026, 75% of large enterprises will adopt decision intelligence tools.

UPS is applying predictive analytics to streamline its delivery operations. Using AI, the company reduced late deliveries by 26% and improved vehicle routing efficiency, resulting in millions in annual fuel savings.

6. Sustainability Through Green Tech and Data

Green technology trends are now tightly aligned with business performance. Amazon is deploying AI to optimize its logistics network, reducing its carbon footprint. It aims to reach net-zero carbon emissions by 2040, and its Shipment Zero initiative has already reduced per-package emissions by 38% since 2019.

Microsoft launched a cloud-based Sustainability Manager tool to help enterprises track emissions and compliance. The tool has been adopted by major players like Unilever and Heineken to meet ESG targets.

Tesla's solar and battery storage products now power over 500,000 homes, businesses, and facilities globally. Their grid-scale battery Megapack is increasingly used by utility providers to stabilize power grids and store renewable energy.

7. Edge Computing Fuels Real-Time Responsiveness

With over 29 billion IoT devices projected by 2030, edge computing is essential. Tesla uses edge data processing in its self-driving vehicles to make split-second decisions without relying on cloud latency.

Caterpillar integrates edge computing into its heavy machinery for predictive maintenance, reducing downtime by 30% and increasing site efficiency.

Retail giant Target uses edge computing to personalize promotions in real-time, based on in-store shopper behavior. This dynamic system boosted cross-sell conversions by 19% in pilot locations.

8. Composable Architecture Powers Agile Innovation

Spotify and Netflix use composable, microservices-based architectures to rapidly deploy updates without disrupting user experience. This modularity supports innovation at scale, allowing services to be built, tested, and improved independently.

According to a report by MACH Alliance, 81% of companies that adopted composable architectures experienced faster time-to-market for new features.

Adobe transitioned its Experience Cloud to a composable platform, enabling seamless integration with third-party services and rapid deployment of features across marketing, analytics, and commerce platforms.

9. Accessible Tech Design Drives Adoption

Companies like Apple and Microsoft are leading in inclusive design. Microsoft’s Seeing AI app helps visually impaired users navigate environments with real-time audio cues. Meanwhile, Apple’s Voice Control and AssistiveTouch are redefining user-friendly design in professional tools.

According to Forrester, businesses that prioritize inclusive design can increase market reach by 20% and improve brand loyalty.

LinkedIn has also prioritized accessibility, recently rolling out AI-generated alt text for images and closed captioning tools. These features improve content engagement and usability across diverse user groups.

Conclusion

Today’s most compelling technology trends are no longer theoretical. They are tangible and scalable and produce measurable results. From AI-augmented operations to composable systems and sustainable logistics, the transformation is here.

Executives, founders, and managers must stay proactive, not just reactive. The ability to implement and scale emerging technologies could define competitive advantage for the next decade. The future isn’t coming—it’s already reshaping business as we know it.

As more companies transform concepts into reality through bold experimentation and data-backed deployment, staying informed on technology trends will become as crucial as financial literacy. The winners in this era of disruption will be the ones who invest in emerging tools, pivot fast, and build resilient, tech-enabled business models that serve both performance and purpose.

Uncover the latest trends and insights with our articles on Visionary Vogues

Future of Spatial Computing Solutions in USA

Spatial computing is revolutionizing how we experience and interact with the world around us. By merging physical and digital environments, immersive technologies like augmented reality (AR), virtual reality (VR), and mixed reality (MR) are thriving. In the United States, spatial computing has found applications in diverse industries such as healthcare, manufacturing, and education. The future of USA spatial computing promises even greater advancements, driven by innovation and the demand for seamless digital integration.

USA Spatial Computing

Revolutionizing Technology Across Industries The United States is at the forefront of the spatial computing revolution. From Silicon Valley innovators to research institutions, USA spatial computing solutions are creating significant breakthroughs. These advancements include real-time data visualization, enhanced user interfaces, and new ways to engage with both virtual and real-world environments.

The Power of Real-Time Data Visualization

Real-time data visualization is one of the cornerstones of spatial computing. It allows users to interpret complex datasets in an intuitive and interactive manner. In industries like healthcare, real-time data visualization enables medical professionals to monitor patients’ vital signs and visualize medical scans in three dimensions, enhancing diagnostic accuracy and patient outcomes.

Enhanced User Interfaces for Immersive Experiences

Enhanced user interfaces are another significant advancement in spatial computing. These interfaces leverage AR, VR, and MR to create immersive experiences that are both engaging and practical. For instance, in education, spatial computing can transform traditional learning methods by providing students with interactive, 3D models of historical artifacts or complex scientific concepts.

Engaging with Virtual and Real-World Environments

Spatial computing allows users to interact with both virtual and real-world environments seamlessly. This capability is particularly beneficial in industries like retail and real estate. Virtual fitting rooms and property tours provide customers with a realistic sense of products and spaces, enhancing their decision-making processes.

What is USA Spatial Computing? USA spatial computing integrates AI, IoT, and immersive technologies to create smart ecosystems, bridging the gap between physical spaces and digital interfaces for real-time interaction. Companies like Ciright Systems exemplify this innovation, offering platforms that push the boundaries of spatial computing.

The Integration of AI and IoT

The integration of AI and IoT in spatial computing creates intelligent environments that can adapt to users’ needs in real-time. AI algorithms analyze data from IoT sensors to optimize various processes, from energy management in smart buildings to predictive maintenance in manufacturing.

Platforms Pushing Boundaries

Companies like Ciright Systems are at the forefront of spatial computing innovation. Their platforms enable businesses to leverage spatial computing for enhanced operational efficiency and customer engagement. These platforms are designed to be scalable, supporting both small enterprises and large corporations.

Industries Leading in USA Spatial Computing Adoption Spatial computing is being adopted across a wide range of industries in the USA, each leveraging the technology to address unique challenges and opportunities.

Healthcare: Revolutionizing Diagnostics and Training

In healthcare, spatial computing is revolutionizing patient diagnostics and medical training through AR-powered simulations. Surgeons can practice complex procedures in a virtual environment before performing them on actual patients, reducing the risk of errors and improving patient outcomes. Additionally, AR can provide real-time guidance during surgeries, overlaying critical information onto the surgeon’s field of view.

Retail: Enhancing Shopping Experiences

Retailers are using spatial computing to enhance shopping experiences with virtual fitting rooms and AI-driven personalization. Customers can try on clothes virtually, see how furniture would look in their homes, and receive personalized product recommendations based on their preferences and behaviors. This not only improves the shopping experience but also increases sales and customer satisfaction.

Real Estate: Empowering Virtual Tours and 3D Modeling

In real estate, spatial computing is empowering virtual property tours and immersive 3D architectural modeling. Potential buyers can explore properties from the comfort of their homes, saving time and effort. Real estate developers can use 3D modeling to visualize and present their projects in a more compelling way, attracting investors and clients.

Manufacturing: Facilitating Precision Engineering

Manufacturing is benefiting from spatial computing through precision engineering with 3D modeling and spatial analytics. Engineers can design and simulate products in a virtual environment, identifying potential issues before they occur. This not only reduces costs and time-to-market but also improves product quality and innovation.

The Current State of USA Spatial Computing Solutions The development of USA spatial computing is rapidly gaining momentum, driven by advancements in 5G, AI, and cloud computing. Companies are investing heavily in robust solutions that meet modern demands. Platforms from companies like Ciright Systems serve as testaments to this technology’s potential, seamlessly connecting physical and digital worlds for users and businesses.

The Role of 5G in Spatial Computing

5G technology plays a crucial role in the development of spatial computing solutions. With its high-speed, low-latency capabilities, 5G enables real-time data transmission and interaction, making spatial computing applications more responsive and immersive. This is particularly important for applications like remote surgeries, autonomous vehicles, and smart cities.

Investments in Innovation

Leading tech companies and startups are investing heavily in spatial computing innovation. These investments are driving the development of cutting-edge solutions that leverage AI, IoT, and immersive technologies to create smart ecosystems. As a result, businesses across various industries are adopting spatial computing to improve efficiency, enhance customer experiences, and gain a competitive edge.

Key Features of Leading Solutions

Leading spatial computing solutions are characterized by their immersive design, interactivity, and scalability. These features enable users to create, manipulate, and interact with virtual environments in ways that were previously unimaginable.

Immersive Design

Immersive design is a key feature of spatial computing solutions. By leveraging AR, VR, and MR technologies, these solutions create virtual environments that mimic real-world physics and interactions. This allows users to experience and interact with digital content in a more natural and intuitive way.

Interactivity

Interactivity is another important feature of spatial computing solutions. Users can manipulate 3D models and environments in real-time, providing a hands-on experience that enhances learning, training, and decision-making. This interactivity is particularly valuable in industries like healthcare, education, and manufacturing.

Scalability

Scalability is a crucial aspect of leading spatial computing solutions. These solutions are designed to support a wide range of applications, from individual users to large-scale enterprise deployments. This flexibility allows businesses to adopt spatial computing at their own pace and scale, depending on their specific needs and goals.

Future Innovations in USA Spatial Computing The future of USA spatial computing is marked by several key trends that promise to drive further advancements and adoption of this transformative technology.

Integration with Artificial Intelligence

The integration of AI with spatial computing will enhance predictive analytics and user experiences. AI algorithms can analyze data from spatial computing applications to provide insights and recommendations, improving decision-making and operational efficiency. For example, AI-powered spatial analytics can help businesses optimize their supply chains, predict equipment failures, and personalize customer experiences.

Advancements in Wearable Tech

Advancements in wearable tech, such as AR glasses and VR headsets, are making spatial computing more user-friendly and accessible. These devices are becoming more lightweight, comfortable, and affordable, enabling a broader range of users to benefit from spatial computing. This trend is expected to drive widespread adoption of spatial computing in both consumer and enterprise markets.

Widespread Adoption of 5G Networks

The widespread adoption of 5G networks will enable real-time, high-quality spatial computing applications. With its high-speed, low-latency capabilities, 5G will support more immersive and responsive spatial computing experiences, from remote surgeries and autonomous vehicles to smart cities and virtual events.

Sustainability

Sustainability is an important consideration in the development of future spatial computing solutions. Innovations are aimed at reducing energy consumption and carbon footprints, aligning with global environmental goals. For example, energy-efficient hardware, optimized algorithms, and sustainable manufacturing practices are being developed to minimize the environmental impact of spatial computing.

Challenges Facing USA Spatial Computing Despite the promise of USA spatial computing, there are several challenges that need to be addressed to realize its full potential.

High Costs

The development and deployment of spatial computing solutions require significant investment. High costs can be a barrier to adoption, particularly for small and medium-sized enterprises. However, as the technology matures and becomes more widely adopted, costs are expected to decrease, making spatial computing more accessible to a broader range of businesses.

Data Privacy Concerns

Data privacy is a critical concern in spatial computing. Safeguarding sensitive user and business data is essential to build trust and ensure compliance with regulations. Companies must implement robust data protection measures, such as encryption, access controls, and privacy policies, to address these concerns and protect user data.

Hardware Limitations

The need for advanced devices can limit the widespread adoption of spatial computing. High-quality AR glasses, VR headsets, and other spatial computing devices can be expensive and may require technical expertise to operate. Ongoing advancements in hardware design and manufacturing are expected to address these limitations, making spatial computing devices more affordable, user-friendly, and widely available.

Why USA Spatial Computing Matters for Businesses Businesses across the USA are leveraging spatial computing to improve operational efficiency, enhance customer experiences, and gain a competitive edge. The ability to visualize data in 3D, simulate real-world conditions, and provide personalized solutions is making spatial computing a game-changer for industries.

Improving Operational Efficiency

Spatial computing helps businesses improve operational efficiency by providing real-time insights, automating processes, and optimizing resource management. For example, in manufacturing, spatial computing can be used to monitor production lines, identify bottlenecks, and predict maintenance needs, reducing downtime and improving productivity.

Enhancing Customer Experiences

Spatial computing enhances customer experiences by providing immersive, interactive, and personalized solutions. In retail, for instance, customers can use AR to try on clothes virtually or visualize how furniture would look in their homes. In real estate, potential buyers can take virtual tours of properties, saving time and effort.

Why USA Spatial Computing Matters for Businesses

Improving Operational Efficiency

Spatial computing helps businesses improve operational efficiency by providing real-time insights, automating processes, and optimizing resource management. For example, in manufacturing, spatial computing can be used to monitor production lines, identify bottlenecks, and predict maintenance needs, reducing downtime and improving productivity.

Enhancing Customer Experiences

Spatial computing enhances customer experiences by providing immersive, interactive, and personalized solutions. In retail, for instance, customers can use AR to try on clothes virtually or visualize how furniture would look in their homes. In real estate, potential buyers can take virtual tours of properties, saving time and effort.

Gaining a Competitive Edge

By adopting spatial computing, businesses can gain a competitive edge in their respective industries. The ability to visualize data in 3D, simulate real-world conditions, and provide personalized solutions sets companies apart from their competitors. Spatial computing enables businesses to offer innovative products and services that meet the evolving needs of their customers.

Case Studies of Successful Implementation

Several businesses across various industries have successfully implemented spatial computing solutions, reaping significant benefits. For example, a leading automotive manufacturer used AR to improve its assembly line processes, reducing errors and increasing efficiency. A healthcare provider leveraged VR simulations for medical training, resulting in better-prepared medical staff and improved patient outcomes.

Cost-Benefit Analysis

While the initial investment in spatial computing can be high, the long-term benefits often outweigh the costs. Businesses should conduct a cost-benefit analysis to evaluate the potential return on investment (ROI) of spatial computing solutions. Factors to consider include increased operational efficiency, enhanced customer experiences, and potential revenue growth.

Conclusion 

The future of USA spatial computing is not just a technological shift but a revolution that will redefine industries. With continued investment in innovation and infrastructure, the USA is poised to lead the global charge in spatial computing. Companies, governments, and individuals must embrace this evolution to unlock its full potential. By leveraging spatial computing, businesses can improve operational efficiency, enhance customer experiences, and gain a competitive edge, ultimately driving growth and innovation in the digital age.

Address :- 27372 Dominican Lane, Ramrod Key,

Florida – 33042, United States of America

Email :- [email protected]

Website :- www.ciright.com

READ NOW: Tech trends defining the future of innovation

Come 2024 and the world is about to witness some tech trends which are bound to change the industries and reshape our world. Open Index Proxy & DeFi and Key Trends to Look Out for

Generative AI:

Changing the Landscape of Content Creation, Designing & Problem Solving. GPT-4 creates beautiful written content, AI-designed visuals. In drug discovery, it makes predictions of molecular structures, and more….

Spatial computing:

Digital information that is mixed with the physical environment, spatial computing includes AR, VR & MR, as it used in industrial metaverse (for real-time monitoring), education (immersive learning) and healthcare (medical training and surgery planning)

Quantum Computing:

Quantum mechanics allows the creation of quantum computers, which can do huge calculations faster than ever. They claim it will lead to cryptography, materials science and AI advances — improving machine learning for faster data analysis.

Edge Computing:

When you process data closer to the source of it (reducing latency and security threats). Essential for IoT along with autonomous vehicles and smart cities —that will bring instantaneous data processing and decision making.

5G Connectivity,

which means the advent of newer, faster and lower latency 5G networks with flexibility in terms of capacity. This technology is enabler for enhanced mobile broad band, IoT devices, industry 4.0 transformation in smart factories and industrial automation.

Cyber Security:

With everything getting digital these days, cyber threats are also going a step further. Sophisticated cyberattacks can be combatted using AI-driven security, a zero trust architecture, and blockchain security.

This is where these top tech trends are impacting and reshaping industries, and by extension our lives. Being updated on trending topics will also help you to stay relevant and engage your audience in return making you a thought leader of the AI and tech niche.

Extended Reality Market is estimated to Witness High Growth Owing to Increasing Adoption Across Industries

Extended reality (XR) refers to all real-and-virtual combined environments and human-machine interactions generated by computer technology and wearables. It includes augmented reality (AR), virtual reality (VR), and mixed reality (MR) and allows the users to interact with digital content and the physical world. XR delivers disruptive experiences by seamlessly merging the digital and physical worlds, offering an immersive viewer experience. Major application areas of XR technologies include gaming, entertainment, retail, education, healthcare, design and engineering, and more. The seamless blending of the physical and digital worlds enhances immersion, presence and experience for the users. The global extended reality market is valued to grow from US$ 46.3 Billion in 2023 to US$ 197.3 Billion by 2030, at a CAGR of 23% during the forecast period (2023-2030). 

Key Takeaways Key players operating in the Extended Reality are Meta Inc., HTC Corporation, Unity Technologies, Microsoft Corporation, Samsung Electronics Co., Ltd., Magic Leap, Sony Corporation, Vuzix Corporation, Apple Inc, Niantic Inc., Northern Digital Inc., Snap Inc., SoftServe, and Accenture. The key opportunities in the extended reality market include increased investments from technology giants, evolving consumer preferences and capabilities, growing demand across vertical industries and development of 5G networks. Rapid technological advancements, growing focus on collaboration and shared experiences are driving the adoption of VR and MR solutions globally. The adoption of XR technologies is growing across regions. North America currently dominates the Extended Reality Market Size  owing to large technology companies and early adoption. However, Asia Pacific is expected to witness the highest growth aided by government initiatives for digital transformation and increasing investments in emerging technologies from China, Japan, South Korea and others. Market Drivers The increasing adoption across industries is driving the growth of the extended reality market. Major industries like gaming, entertainment, healthcare, education and manufacturing are leveraging XR solutions to enhance customer experiences, create immersive training environments and drive productivity. Growing investments from technology giants are focusing on developing innovative XR applications and solutions. This is further fueled by the increasing processing power of devices and developments in 5G that are able to deliver low latency remote experiences.

PEST Analysis Political: The extended reality market sees increasing government support and funding for research and development projects. Regulations regarding data privacy and security are also evolving as the technology advances. Economic: Extended reality technologies promise to significantly boost productivity across various sectors like manufacturing, education, healthcare, etc. This would positively impact the broader economy over time. Social: Younger generations are more receptive to immersive technologies. More users are adopting recreational and social virtual experiences on consumer-focused extended reality platforms. Technological: Integration of 5G, artificial intelligence and computer vision are expected to radically improve the user experiences offered by extended reality. Graphics capabilities are also advancing to generate photo-realistic virtual worlds. The APAC region accounts for the largest share of the global extended reality market in terms of value. China, Japan and South Korea are major countries driving the rapid adoption of augmented and virtual reality solutions in industrial, commercial and consumer segments across APAC. As the economywide digital transformation gains momentum, extended reality technologies find increasing application across industries like manufacturing, healthcare and education. North America represents the fastest growing regional market for extended reality globally. Presence of leading technology companies as well as significant venture capital funding are supporting R&D and innovation. Growing entrepreneurship in the fields of gaming, retail and entertainment is supporting the deployment of extended reality platforms and services. The region exhibits early adoption of new immersive technologies among both enterprise and individual users.

Get more insights on Extended Reality Market

About Author:

Ravina Pandya, Content Writer, has a strong foothold in the market research industry. She specializes in writing well-researched articles from different industries, including food and beverages, information and technology, healthcare, chemical and materials, etc. (https://www.linkedin.com/in/ravina-pandya-1a3984191)

Apple Vision Pro 引入全面無障礙功能，讓每個人都能更輕鬆地溝通和互動

Apple 最近宣布了一系列令人期待的無障礙功能更新，將在其全新的 visionOS 系統中推出。這些功能主要設計用來幫助聽力障礙者更好地參與到日常對話和應用程序中的音頻內容。Apple Vision Pro，作為公司的旗艦產品，將在無障礙設計方面邁出重要一步。 visionOS 將提供全系統的即時字幕功能，這意味著無論是在實時對話還是應用程序的音頻播放中，聽障或重聽的用戶都能跟隨對話。特別是在 FaceTime 上，即時字幕功能將使更多用戶能夠利用其 Persona 輕鬆享受連接和協作的獨特體驗。此外，Apple Vision Pro 將支持在 Apple Immersive Video 中通過窗口欄移動字幕，並支持更多為 iPhone 設計的助聽設備和人工耳蝸。 對於視力障礙用戶，visionOS…

View On WordPress

The Potential Of Spatial Computing Technology: Revolutionizing The Digital World

The Potential of Spatial Computing Technology: Revolutionizing The Digital World

Spatial computing technology represents a paradigm shift in how we interact with the digital world, offering immersive experiences and transforming our understanding of space and computing. As this innovative technology continues to evolve, its potential to revolutionize various industries and aspects of daily life becomes increasingly apparent.

Understanding Spatial Computing:

Spatial computing blends the physical and digital worlds seamlessly, enabling users to interact with digital content in real-world environments. By leveraging advanced sensors, cameras, and algorithms, spatial computing devices map physical spaces and overlay digital information, creating immersive experiences that enhance productivity, creativity, and entertainment.

Applications Across Industries:

1. Architecture and Design:

Spatial computing technology revolutionizes the architecture and design process by allowing architects and designers to visualize and manipulate digital models in physical space. From virtual walkthroughs of buildings to real-time design collaboration, spatial computing enhances creativity and efficiency in architectural projects.

2. Healthcare:

In healthcare, spatial computing facilitates advanced medical imaging, surgical planning, and patient education. Surgeons can use augmented reality (AR) and virtual reality (VR) to visualize complex medical procedures, while patients can benefit from immersive simulations for rehabilitation and therapy.

3. Education:

Spatial computing technology transforms the classroom experience by offering immersive learning environments that engage students and enhance comprehension. From virtual field trips to interactive simulations, spatial computing enriches educational content and fosters active learning.

4. Retail:

In the retail sector, spatial computing enables virtual try-on experiences, personalized shopping recommendations, and interactive product demonstrations. By merging the physical and digital shopping environments, retailers can deliver enhanced customer experiences and drive sales.

5. Gaming and Entertainment:

Spatial computing revolutionizes gaming and entertainment with immersive VR experiences, augmented reality games, and interactive storytelling. By blurring the lines between reality and digital content, spatial computing transports users to virtual worlds and unlocks new forms of entertainment.

Future Trends and Innovations:

As spatial computing technology continues to advance, we can expect to see further integration into everyday life, with applications ranging from smart cities and autonomous vehicles to industrial automation and collaborative workspaces. By harnessing the power of spatial computing, we can unlock new possibilities for innovation, creativity, and human-computer interaction.

For a deeper exploration of the potential of spatial computing technology and its impact on the digital world, visit FutureTech Words. Experience the future today!

e456 — Not a Bot

The most recent spatial computing experiences, new innovations in AI from Google’s Genie, content badges signaling human created material, and a lively discussion on skill disintermediation.

Photo by Ochir-Erdene Oyunmedeg on Unsplash Published 4 March 2024 Andy, Michael and Michael are back in (virtual) studio together to talk tech.  They check in on the latest spatial computing experiences with Michael R, discuss new AI announcements & trends and wrap up with several games.  The co-hosts start off the show with a roundup of the recent news articles on the Apple Vision Pro along…

View On WordPress

trying out MR learning

Powered by AI: Redefining the Office Landscape and Work Dynamics

(Images made by author with Microsoft Copilot) The landscape of work has undergone significant transformation in recent decades, propelled by the rapid development and adoption of telecommunication and information technologies, as well as the growing influence of artificial intelligence (AI). The traditional office, once regarded as the cornerstone of administrative work organization and…

View On WordPress

بدأ عصر الحوسبة المكانية، فتح صندوق Vision Pro

آبل لا تريد منا إطلاق اسم نظارة الواقع الافتراضي أو الواقع المعزز على نظارة Vision Pro، فهي كما اعتادت تريد أن تكون في مكان بعيد عن المنافسة، تطلب منا أن نقول نظارة الحوسبة المكانية “Spatial Computing”، ونعتقد أن هذا من حقها، فنظارة شركة ميتا الأشهر في هذا المجال (Quest 3) هي نظارة واقع معزز، ولا يمكن أن نقارن بين الجهازين، فهناك فرق ضخم في التقنيات، وسيكون هناك فرق ضخم في التطبيقات، كما أن هناك…

View On WordPress