Wi-Fi Alliance® and Faculty of Medicine Ramathibodi Hospital drive 6 GHz Wi-Fi® innovation in Thailand

Bangkok, Thailand – December 9, 2024 – Wi-Fi Alliance® and Faculty of Medicine Ramathibodi Hospital, Mahidol University successfully completed a seven-month long pilot trial that showcased 6 GHz Wi-Fi® technologies that will transform the future of healthcare. This project demonstrates that full band 6 GHz (5925-7125 MHz) availability sets the foundation for healthcare facilities across the region and world to modernize healthcare services and adopt advanced Wi-Fi technologies that improve user experience and operational efficiency at their facilities. Unlocking the entire 6 GHz band will not only benefit hospitals and healthcare facilities but will also offer many advantages for other industries in countries awaiting regulatory and policy decisions around 6 GHz unlicensed use.

Faculty of Medicine Ramathibodi Hospital and Wi-Fi Alliance – along with Wi-Fi Alliance member partners Hewlett Packard Enterprise, Intel, and Meta –presented the results of the pilot trial that underscored full band 6 GHz Wi-Fi’s value in enhancing teaching and learning capabilities to doctors and medical students. Full band 6 GHz was fully integrated with the hospital’s curriculum and offered performance insights from medical students and faculty that used advanced connectivity technologies in a dense environment for medical training and  educational purposes. 

"Wi-Fi Alliance is delighted to see clear and conclusive results demonstrating the significant impact of 6 GHz Wi-Fi in healthcare settings, and to emphasize the broader potential to transform other industries wherever the full 6 GHz band is available to Wi-Fi," said Kevin Robinson, President and CEO, Wi-Fi Alliance. “Today’s Wi-Fi delivers unmatched performance and reliability, and this successful trial further underscores how Wi-Fi can transcend boundaries and offer secure, economical, high-performance connectivity across numerous applications, industries, and regions.”

“We are proud to welcome our partners from the Wi-Fi Alliance and stakeholders such as the NBTC and the USTDA, along with our esteemed member partners Hewlett Packard Enterprise, Intel, and Meta. Together, we are here to explore the potential of advanced Augmented Reality and Virtual Reality applications in healthcare settings enabled by the unprecedented capabilities of 1200 MHz spectrum in the 6 GHz band. We will also facilitate insightful discussions with healthcare industry leaders, regulators, and innovators. Their expertise will provide us with the broader context necessary to understand the implications of integrating these technologies across the healthcare landscape.” – Clinical Professor Artit Ungkanont, M.D., Dean at Faculty of Medicine Ramathibodi Hospital, Mahidol University

“During this workshop, we are proud to share the pilot results, demonstrating our readiness to lead in this innovation. Collaboration is a cornerstone of driving a paradigm shift in Thailand's healthcare services and medical education. This project will foster the growth of telemedicine, immersive medical training, research development, and improved patient engagement, all powered by the cutting-edge capabilities of Wi-Fi 6E technology.” – Assistant Professor Sithakom Phusanti, M.D., Assistant Dean for Policy and Planning and Team Lead of the Wi-Fi 6E Technology Projects in Healthcare and Education at the Faculty of Medicine, Ramathibodi Hospital

Key takeaways from the pilot trial include: 

  • Using full band 6 GHz, hospitals and healthcare facilities can reduce network congestion and support advanced AR/VR technologies while ensuring stable and fast connections crucial for real-time medical applications and data-intensive trainings.
  • Full band 6 GHz is critical for maintaining an optimal user experience for high network loads.
  • Unlicensed use of full band 6 GHz for Wi-Fi is needed for Ramathibodi Hospital – and the Thailand healthcare industry overall – to maintain a leadership position in medical education and care in Southeast Asia.
  • The latest Wi-Fi innovations in Wi-Fi 6E and Wi-Fi 7 are fully capable of delivering efficient, robust, and reliable service across diverse market segments, provided regulatory decisions enable this critical spectrum access.

Earlier this year, a demonstration – 6 GHz Wi-Fi in healthcare: the future of AR/VR use cases for medical applications highlighted two deployment scenarios using only the three 160 MHz channels available in the lower 500 MHz of the 6 GHz band (lower 6 GHz band) versus the seven channels available in the full 1200 MHz of the 6 GHz band (full band 6 GHz). The demonstration was a limited deployment of 6 GHz on Ramathibodi Hospital’s network whereas the most recent pilot trial fully integrated 6 GHz in an active classroom with 200 medical students and faculty using the same deployment scenarios. 

At the end of the pilot trial: 

  • User experience satisfaction ratings were obtained from students and faculty that showed a three-time improvement for using full band 6 GHz compared to only the lower 6 GHz band.
  • Data collected over the course of the pilot trial showed more than a two-time increase in network data throughput and more than a five-time reduction in latency when using full band 6 GHz versus the lower 6 GHz band.
  • The pilot trial underscored the criticality of effectively using the available seven 160 MHz channels in the full 6 GHz band which significantly improves network data throughput while reducing network latency delays, two key metrics for improving user experience and maximizing network efficiency.

“HPE Aruba Networking is proud to have partnered with Wi-Fi Alliance and Ramathibodi Hospital to showcase the transformative potential of 6 GHz Wi-Fi in healthcare. By leveraging the full 1200 MHz of the 6 GHz band, we can empower healthcare institutions to deliver superior patient care, facilitate cutting-edge medical research, and optimize operational efficiency. This initiative demonstrates what can be achieved with access to the unlicensed use of the full 6 GHz band and showcases Thailand’s position at the forefront of healthcare technology.” – Prakun Laohakittikul, Country Manager, HPE Aruba Networking Thailand

"As a participant in this groundbreaking initiative, Intel recognizes the transformative potential of 6 GHz Wi-Fi in shaping the future of healthcare and beyond. We firmly believe that strategic spectrum allocation, ensuring technology neutrality between licensed and unlicensed use, is key to unlocking innovation. This successful collaboration highlights the critical importance of unlicensed access to the full 6 GHz band, which is essential for enabling high-performance connectivity, fostering technological advancements, and ultimately driving Thailand's economic and social prosperity.” – Worapat Patram, Senior Director, Government, Policy and Trade, APJ, Intel Corporation

“Meta is humbled and excited to have been a key part of this “Industry First” trial showcasing the clear benefits of entire 1200 MHz spectrum versus just the lower 500 MHz portion. Based on the quantified user feedback received from this trial about difference in user experiences between two scenarios, it was very evident that we need the entire 1200 MHz spectrum to enable the immersive future of healthcare and education. Being able to provide both a theoretical analysis and following up with an actual deployment showcasing the difference provides convincing evidence of the need and benefit of allocating the full 6 GHz band for Wi-Fi.” – Djordje Tujkovic, Sr. Director and Head of Wireless in Reality labs, Meta

Additional support for this project has been provided by The National Broadcasting and Telecommunications Commission (NBTC) and United States Trade and Development Agency (USTDA).

About Wi-Fi Alliance®  |  www.wi-fi.org
Wi-Fi Alliance® is the worldwide network of companies that brings you Wi-Fi®. Members of our collaboration forum come together from across the Wi-Fi ecosystem with the shared vision to connect everyone and everything, everywhere, while providing the best possible user experience. Since 2000, Wi-Fi Alliance has completed more than 80,000 Wi-Fi certifications. The Wi-Fi CERTIFIED™ seal of approval designates products with proven interoperability, backward compatibility, and the highest industry-standard security protections in place. Today, Wi-Fi carries more than half of the Internet’s traffic in an ever-expanding variety of applications. Wi-Fi Alliance continues to drive the adoption and evolution of Wi-Fi, which billions of people rely on every day.

About Ramathibodi Hospital
The Faculty of Medicine Ramathibodi Hospital, Mahidol University has a long-standing tradition of providing top-notch medical care. With a dedicated team of highly skilled healthcare professionals, the hospital offers a wide range of specialized services, from general practices to complex medical procedures. The institution's unwavering commitment to patient-centered care ensures that each individual receives the highest standard of treatment in a compassionate and supportive environment. As a hub of medical research and innovation, the institute’s state-of-the-art research facilities and collaborative environment foster groundbreaking studies in various fields, including genomics, regenerative medicine, and public health.

The Chakri Naruebodindra Medical Institute was established to advance medical education and innovation. Officially inaugurated in December 2017 in Bangplee, Samutprakarn, CNMI spans over 100 acres, serving as a state-of-the-art medical institute dedicated to fostering academic excellence and supporting the education of medical students. Renowned for its comprehensive and progressive educational programs, the institute offers a diverse range of undergraduate, graduate, and postgraduate courses aimed at cultivating the next generation of healthcare professionals. By integrating advanced technologies, including augmented reality (AR) and virtual reality (VR), into its clinical anatomy curriculum, CNMI provides students with practical, immersive learning experiences in a controlled environment, ensuring they are well-prepared for real-world medical challenges.

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6 GHz, Extended Reality (AR/VR/XR), Healthcare Wi-Fi CERTIFIED 6, Wi-Fi CERTIFIED 7
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Wi-Fi Alliance® commends Federal Communications Commission (FCC) Chairwoman’s proposal to allow very low power (VLP) devices to access 6 GHz spectrum

Austin, TX and Washington, D.C. – October 4, 2024 – We commend the Federal Communications Commission Chairwoman Rosenworcel on the proposal to revise existing regulations to enable the latest generations of Wi-Fi® – Wi-Fi 6E and Wi-Fi 7 – to access additional 6 GHz spectrum to deliver faster, more reliable, and robust connectivity. This expansion is essential for supporting next-generation innovations in areas like smart homes, Internet of Things (IoT), telemedicine, and AR/VR. These advancements not only enhance everyday user experiences but also foster economic growth by driving technological innovation, creating jobs, and improving operational efficiencies across various industries.

The proposal builds on proven interference mitigation techniques which already have been successfully implemented. These techniques ensure that high-performance Wi-Fi can operate effectively without causing harmful interference to essential incumbent services in the 6 GHz band.

Wi-Fi Alliance enthusiastically supports this proposal,  reflecting the Wi-Fi industry’s confidence that expanded access to 6 GHz spectrum will continue to support transformative technologies while maintaining reliability of critical 6 GHz operations.

 

About Wi-Fi Alliance®  |  www.wi-fi.org
Wi-Fi Alliance® is the worldwide network of companies that brings you Wi-Fi®. Members of our collaboration forum come together from across the Wi-Fi ecosystem with the shared vision to connect everyone and everything, everywhere, while providing the best possible user experience. Since 2000, Wi-Fi Alliance has completed more than 80,000 Wi-Fi certifications. The Wi-Fi CERTIFIED™ seal of approval designates products with proven interoperability, backward compatibility, and the highest industry-standard security protections in place. Today, Wi-Fi carries more than half of the Internet’s traffic in an ever-expanding variety of applications. Wi-Fi Alliance continues to drive the adoption and evolution of Wi-Fi, which billions of people rely on every day.

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Press Release
6 GHz, Healthcare, IoT, Extended Reality (AR/VR/XR) Wi-Fi CERTIFIED 7
Blog September 12, 2024

Wi-Fi 7 market momentum: Fueling the evolution of XR

Wi-Fi CERTIFIED 7, Extended Reality (AR/VR/XR)
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Wi-Fi 7 brings advanced Wi-Fi® performance to the next era of connected devices. In this new blog series, we’ll explore how Wi-Fi 7 enables innovation across various market segments. 

Extended Reality (XR) refers to the technologies designed to bridge the gap between the physical and virtual worlds. XR technologies, which include augmented reality (AR), virtual reality (VR), and mixed reality (MR), allow users to connect with their environments and each other in new ways by combining virtual effects with real-world applications to deliver enhanced interactions and immersion. XR devices support a wide range of use cases, including gaming and entertainment, social, enterprise, education, immersive 3-D training, industrial usage, and many more. Wi-Fi® is perfectly positioned to support the high throughputs and low latency that XR applications require and also plays a critical role in ensuring a reliable, engaging user experience while delivering long-lasting battery life for XR devices.  

Navigating the complexities of XR

Designing applications for XR presents a unique set of challenges. XR demands significant data transfers and must meet strict latency requirements, particularly for latency-sensitive data such as sensor or Inertial Measurement Unit (IMU) inputs, which must be delivered with minimal delay to match human brain perception. Many XR devices are wearable, including Head Mounted Displays (HMDs), glasses or goggles, and hand-held controllers. These devices must operate with high power efficiency to ensure extended battery life while also managing thermal constraints. And from a broader perspective, it is important to understand that Wi-Fi networks must contend with growing traffic due to an increasing number of users and devices.  

Wi-Fi 7 optimizes XR experiences 

The latest Wi-Fi technology, Wi-Fi 7, delivers an unprecedented level of connectivity through an impressive list of new features that address the challenges of latency-sensitive devices and support a wide variety of cutting-edge XR use cases.  

Specifically, Wi-Fi 7’s Multi-Link Operation (MLO) allows multiple channels to be used concurrently. The diversity in multiple-channel access greatly reduces Wi-Fi latency, especially in congested environments, and significantly improves Wi-Fi throughput. MLO benefits are greatest when 5 GHz and 6 GHz are both leveraged, making it a critical feature to enable low-latency, high-throughput XR applications.  

The benefits of Wi-Fi 7 are especially apparent in VR gaming as players experience a truly immersive, first-person perspective of in-game action. Participants can both experience and influence the game environment through a variety of VR gaming devices and accessories including HMDs and sensor-equipped hand controllers. VR games can be played individually, with multiple players, or in large online communities using specialized game consoles or advanced PCs serving as companion compute devices. When a PC serves as a companion compute device, the data exchange between the HMD and PC can be highly latency-sensitive as increased latency will result in compromised visual quality, more video lagging, and unresponsiveness in hand gesture movements. MLO provides significantly improved throughput and low Wi-Fi latency and jitter for a smoother, more responsive XR user experience.  

In addition to MLO, the heightened modulation of 4K QAM increases data rates by 20%, and the wider channels of 320 MHz increase data rates by 100%. Higher data rates result in shorter transmission times, which can lead to less power consumption and longer battery life. Wi-Fi 7 also provides additional optimization features such as Triggered Uplink Access, which enables deterministic transmission to reduce transmission jitter, and Multiple Resource Units to a single STA, which maximizes network channel bandwidth utilization. Both features improve XR device performance in high-density environments.  

                                                            PC Rendering VR Gaming 

Aside from gaming, VR devices are also used in the new era of remote and hybrid work to assist in collaboration and work productivity, giving employees, customers, and IT end users a truly immersive work experience. When deployed in a high-density environment such as a large office building, the mutual interference from multiple XR devices may significantly degrade the user experience. In these environments, optimized Triggered Uplink Access and Multiple Resource Units to a single STA can greatly improve XR performance through smart Orthogonal Frequency Division Multiple Access (OFDMA) scheduling and interference avoidance.  

W-Fi 7 also provides the latest Wi-Fi CERTIFIED WPA3™ security to further enhance XR devices' security, including stronger key management, as well as beacon protection – a mechanism that allows a device to cryptographically verify the contents of beacon frames transmitted by an access point, – and Wi-Fi CERTIFIED Enhanced Open™, which provides unauthenticated data encryption to users.  

Wi-Fi 7 fuels the evolution of XR 

XR use cases will continue to change how we work, play, learn, and connect with the world. As XR continues to evolve, we look towards a future of richer content, lighter devices, and new usage scenarios that will create a diverse XR market. Wi-Fi 7’s advanced features empower exceptional XR experiences, offering improved speed, lower latency, and better power efficiency to support the next generation of XR technology. 

The statements and opinions by each Wi-Fi Alliance member and those providing comments are theirs alone, and do not reflect the opinions or views of Wi-Fi Alliance or any other member. Wi-Fi Alliance is not responsible for the accuracy of any of the information provided by any member in posting to or commenting on this blog. Concerns should be directed to info@wi-fi.org.

Podcast September 5, 2024

Episode 69: Changing the game: delivering the first-ever esports event over Wi-Fi® with Gino Dion of Nokia

Wi-Fi CERTIFIED 6, Extended Reality (AR/VR/XR)

In today's episode, we welcome Gino Dion, Director of Innovation Solutions at Nokia, to talk about how Wi-Fi 6E brings esports to life. Gino gives us the inside track on the recent Nokia Apex Legends invitational tournament, the first-ever esports event held over Wi-Fi instead of ethernet-based connectivity. Deterministic performance is crucial in a gaming environment where every millisecond counts and Gino tells us how Wi-Fi has evolved to support these needs. Tune into this episode to dive into participants' thoughts on their gaming adventures and learn how Wi-Fi will change the game for the future of esports.

Nokia to deliver the first-ever Esports event over Wi-Fi technology: The Nokia Apex Legends invitational tournament: https://www.nokia.com/about-us/news/releases/2024/05/30/nokia-to-deliver-the-first-ever-esports-event-over-wi-fi-technology-the-nokia-apex-legends-invitational-tournament/
Wi-Fi CERTIFIED 6®: https://www.wi-fi.org/discover-wi-fi/wi-fi-certified-6
For Wi-Fi Alliance: www.wi-fi.org
For Membership Info: https://www.wi-fi.org/membership
General Contact: https://www.wi-fi.org/contact-us

 

The statements and opinions by Wi-Fi Alliance members or other thought leaders appearing as guests on the podcast are providing comments that are theirs alone, and do not reflect the opinions or views of Wi-Fi Alliance or any other member. Wi-Fi Alliance is not responsible for the accuracy of any of the information provided by any member while recording this podcast. Concerns should be directed to info@wi-fi.org.

Blog August 29, 2024

Wi-Fi Alliance® demonstrates the impact of 6 GHz Wi-Fi® for advanced AR/VR in healthcare

Wi-Fi CERTIFIED 6, Wi-Fi CERTIFIED 7, 6 GHz, Extended Reality (AR/VR/XR), Healthcare
by

Wi-Fi Alliance® and Ramathibodi Hospital, Mahidol University have been working together to promote the value of 6 GHz Wi-Fi®. In July, Ramathibodi Hospital and Wi-Fi Alliance, along with Wi-Fi Alliance member partners Hewlett Packard Enterprise, Intel, and Meta, successfully demonstrated how 6 GHz Wi-Fi will revolutionize the future of healthcare. The live demo showcased how utilization of the full 1200 MHz Wi-Fi in 6 GHz delivers the heightened throughputs and stringent latency needed for advanced augmented and virtual reality (AR/VR) applications that support medical education and training, efficiently serving dense environments such as classrooms and training seminars with hundreds of students and doctors.  

Technologies used in this demonstration: 

  • Wi-Fi CERTIFIED 6® Routers with 6E capabilities: Aruba Multiservice Mobility Controller/AP-635 and 655 Access Points (AP)
  • Wi-Fi CERTIFIED 7™ client devices: Intel® Wi-Fi 7 BE200
  • Wi-Fi CERTIFIED 6 client devices: Intel® Wi-Fi 6E AX211 (Gig+)
  • Meta Quest Pro Head Mounted Displays (HMD)
  • Ramathibodi Hospital’s Anatomy Viz app 

Demonstrated scenarios and outcomes: 

The demonstration illustrated the difference in AR/VR performance and capacity levels when operating in the lower 500 MHz of 6 GHz compared to the full 1200 MHz available within the entire 6 GHz band. The demo showcased two sophisticated healthcare use cases that will support 200 medical students, doctors, and hospital faculty in Ramathibodi Hospital's classroom sessions: 

  1. AR/VR technologies in medical training: AR/VR technologies like immersive virtual anatomy visualization allow for in-depth analysis of human anatomy, providing doctors and medical students with an immersive 3-D view of the human body including skeletal, muscular, neural, and soft tissue structures.
  2. Dense deployment streaming and file transfer: Next generation Wi-Fi allows every person in a 500-seat classroom to independently stream high definition video, transfer files, or utilize 5 GHz and 6 GHz multi-layer network segmentation and deployment, giving all students the opportunity to learn and collaborate uninterrupted, at the same time. 

Scenario 1:  Wi-Fi operation in the lower 500 MHz spectrum of 6 GHz  

To simulate the current situation in Thailand, where only the lower 500 MHz of the 6 GHz band is available for unlicensed devices, the demonstration began with a baseline of Wi-Fi APs operating in only the lower 500 MHz band (network configuration: Wi-Fi 6E, a single 160 MHz channel in the 6 GHz band, co-channel Wi-Fi APs) with a single 160 MHz channel and minimal client devices (fewer than 10, including the Intel® Wi-Fi 7 BE200, the Intel® Wi-Fi 6E AX211 (Gig+), and Meta Quest Pro VR HMD). These devices used the network for ultra high definition video streaming, wireless casting of Ramathibodi Hospital’s Anatomy Viz app via a VR headset, and file transfers.  

While the network performance and user experience were satisfactory with a small number of clients, it quickly deteriorated as more devices (up to 40 devices, including the Intel® Wi-Fi 7 BE200, the Intel® Wi-Fi 6E AX211 (Gig+), and Meta Quest Pro VR HMD) connected to the network using the above-mentioned applications. With only the lower 500 MHz of the 6 GHz band available, typical enterprise deployments like the Chakri Naruebodindra Medical Institute (CNMI) at Ramathibodi Hospital face inevitable channel repetition. This limited spectrum leads to co-channel and adjacent channel interference, significantly reducing network throughput and increasing latency by over 500%, with delays exceeding 200 milliseconds. This degradation resulted in frequent video buffering, glitches during streaming, and VR casting interruptions causing major lag that disrupted the immersive experience, making the interaction feel unresponsive and causing motion sickness for users during live seminars.  

Scenario 2: Wi-Fi operation in the entire 1200 MHz spectrum in 6 GHz 

The second scenario demonstrated the advantages of using the full 1200 MHz of the 6 GHz band. With the entire spectrum available, Wi-Fi APs could operate on 160 MHz channels spaced further apart spectrally, ensuring much-needed channel diversity (i.e., greater number of channels). The number of client devices and network load were identical to Scenario 1, and the configuration was tested by running the Anatomy Viz app on a VR headset and casting to a screen, along with streaming 8K videos, displaying hospital course material, and transferring files. In the absence of the adverse effects of co-channel interference (CCI) and adjacent-channel interference (ACI), data rate and latency measurements utilizing the entire 1200 MHz spectrum yielded very high data rates and significantly lower latency in the range of 20-30 milliseconds, delivering a smooth, glitch-free VR experience, as well as seamless ultra high definition video streaming, and high-speed file transfers without delays. 

Degradation of performance with reduced spectrum availability 

The demonstration confirmed the findings of previous theoretical studies, which emphasized that seven channels are necessary to achieve optimal performance in dense environments. As the demonstration illustrated, the use of 160 MHz channels is necessary to consistently deliver gigabit connectivity, as the Wi-Fi data throughout over 80 MHz channels only achieves gigabit data rates under specific propagation characteristics (i.e., very good RF propagation and/or very high number of parallel spatial streams). Using seven 160 MHz channels reduces interference between APs and ensures strong performance as user numbers grow, making them essential to dense environments such as universities, hospitals, and corporate offices. 

Access to the full 6 GHz band is crucial 

The demonstration underscored the importance of making the full 6 GHz spectrum available for Wi-Fi to deliver the stringent latency requirements and data throughputs needed for an optimal AR/VR user experience. “Wi-Fi Alliance is proud to showcase the immense potential of 6 GHz Wi-Fi to revolutionize healthcare,” said Kevin Robinson, President and CEO of Wi-Fi Alliance. “Today’s Wi-Fi technology offers unprecedented performance and reliability, and these demonstrations are just a glimpse of its potential to improve patient care and operational efficiency in healthcare settings.” 

6 GHz Wi-Fi empowers future innovations 

Wi-Fi in 6 GHz unlocks the full potential of advanced technologies, ensuring healthcare facilities are prepared to support future innovations and maintain the latest security practices to protect critical patient data​. Making the full 6 GHz frequency band available for Wi-Fi not only supports emerging healthcare applications, but also provides the foundation for future advancements across market segments, including automotive, enterprise, home, IIoT, and more. The successful demonstration of 6 GHz Wi-Fi at Ramathibodi Hospital illustrates how cutting-edge Wi-Fi applications can strengthen medical training practices and serves as a model for nationwide adoption of the band in Thailand and around the world.

 

 

The statements and opinions by each Wi-Fi Alliance member and those providing comments are theirs alone, and do not reflect the opinions or views of Wi-Fi Alliance or any other member. Wi-Fi Alliance is not responsible for the accuracy of any of the information provided by any member in posting to or commenting on this blog. Concerns should be directed to info@wi-fi.org.

Podcast June 5, 2024

Episode 65: Wi-Fi® is a key enabler of XR's success with Shaila Bansal of Qualcomm

Wi-Fi CERTIFIED 7, Extended Reality (AR/VR/XR)

In today's episode, we're joined by Shaila Bansal, Product Manager at Qualcomm, to talk all about how Wi-Fi® serves the evolving XR landscape. Shaila tells us how XR boosts productivity in global enterprises, from augmented reality glasses to productivity applications like the infinite desktop. We discuss how VR enables immersive learning in the classroom, and how AR can improve safety features in automotive environments. Shaila talks about how Wi-Fi 7 unlocks these emerging XR applications, and we learn how its new capabilities like superwide channels and Multi-link Operation increase reliability and reduce latency. Listen to this episode to learn more, including Shaila's predictions for XR and AI in 2024.

XR: https://www.wi-fi.org/discover-wi-fi/xr
For Wi-Fi Alliance: https://www.wi-fi.org
For Membership Info: https://www.wi-fi.org/membership
General Contact: https://www.wi-fi.org/contact-us

 

The statements and opinions by Wi-Fi Alliance members or other thought leaders appearing as guests on the podcast are providing comments that are theirs alone, and do not reflect the opinions or views of Wi-Fi Alliance or any other member. Wi-Fi Alliance is not responsible for the accuracy of any of the information provided by any member while recording this podcast. Concerns should be directed to info@wi-fi.org.

Wi-Fi® brings immersive XR experiences to life (2024)

XR Use Cases Highlights

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