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Offering an Elevated Professional Vision Care Experience at the PUYI VISION CARE LAB in CentralHONG KONG SAR - Media OutReach Newswire - 14 February 2025 - PUYI OPTICAL is delighted to announce its partnership with ZEISS as a "Global Strategic Partner." The collaboration will enhance the offerings at the PUYI VISION CARE LAB in the Central flagship store by integrating the optical expertise from professional optometrists and a full suite of ZEISS optical instruments and cutting-edge technology, delivering personalized vision care solutions. From prescription to optical lens customization, customers will experience the exceptional and attentive service offered by PUYI OPTICAL and ZEISS. ZEISS strengthens commitment to the Asia-Pacific region PUYI OPTICAL and ZEISS have been collaborating seamlessly in the optical field, transcending traditional business boundaries and redefining new integration on innovative technology and exceptional service. In 2013, the first "PUYI ZEISS Optical Lab" was launched at Puyi's flagship store in Central, equipped with a comprehensive suite of state-of-the-art ZEISS optical instruments and extensive vision care solutions. This successful model has since been expanded to all PUYI OPTICAL stores in Hong Kong, Macau, Mainland China, Taiwan, and Singapore, effectively addressing diverse vision care needs. The successful launch of the ZEISS SmartLife PRO lens in 2020 also resulted in significant sales growth across PUYI OPTICAL stores. The designation of "Global Strategic Partner" signifies that PUYI OPTICAL and ZEISS will integrate their long-standing commitment to customer-centricity into a pivotal component of product research and development. In alignment with the growing trend towards consumer focus, the collaboration between Puyi and ZEISS would develop the most suitable optical products. Therefore, ZEISS's business development efforts will concentrate on the Asia-Pacific region, bringing together its top research teams to establish a global innovation hub. This initiative will not only significantly enhance research and development cycles to meet the demands of a vast and promising global market but also reinforce the increasing importance of the Asian market to ZEISS. Mr. Jeffery Yau, the founder and CEO of PUYI OPTICAL, expressed his enthusiasm about the partnership with ZEISS. They are thrilled that PUYI OPTICAL has officially become a 'Global Strategic Partner' with ZEISS. They are committed to providing innovative and exceptional retail services, leveraging ZEISS's advanced technology and expertise to enhance customers' vision care experiences. As a pioneer in their respective fields, the partnership between PUYI OPTICAL and ZEISS would drive continuous product innovation to meet the evolving needs of their customers. Together, they will elevate the overall experience in vision care, delivering superior services and products. Mr. SVEN HERMANN, member of the Executive Board of Carl Zeiss AG, Head of ZEISS Consumer Markets Segment, stated PUYI OPTICAL, as ZEISS's core partner in China and Singapore, has set a new standard in the global optical retail sector with its exceptional service experience. He expressed his honor in elevating this collaboration to "Global Strategic Partner" and highlighted the exclusive launch of personalized optical solutions, such as the ZEISS SmartLife PRO Individual 3.0 and ZEISS i.Scription, which offered customers an unparalleled optical experience. Furthermore, Sven revealed that ZEISS LuminArt, set to launch in 2025, marks a groundbreaking advancement that will significantly enhance the overall experience in vision care. PUYI VISION CARE LAB offers premium professional vision care services The newly established PUYI VISION CARE LAB is located in THE MARQUE, the flagship store of PUYI OPTICAL in the heart of Central. The lab combines the expertise of PUYI OPTICAL's professional optometrists with an extensive suite of ZEISS optical instruments and cutting-edge technology. This setup provides customers with comprehensive eye health and vision assessments. The exclusively introduced precision refractive instrument, i.Profiler® Plus, accurately captures visual performance from eyes, consolidating it into comprehensive prescription information. This is complemented by the ZEISS VisuFit 1000 digital centration device, which captures data on frame and facial features. Through meticulous facial measurements and frame fitting analyses, customized lenses are tailored to fit the frames perfectly, ensuring a personalized and comfortable visual experience for customers. Furthermore, the facility is equipped with medical-grade ZEISS instruments and technology, enabling comprehensive personal vision analysis, precise eye measurements, and performance assessments. This allows customers to gain a deeper and more thorough understanding of their eye health. Exclusive ZEISS's lens customization solutions As the demand for personalized lenses continues to increase, customers now expect lenses tailored to their specific vision needs and lifestyles. This trend has driven PUYI OPTICAL and ZEISS to enhance their efforts in providing precise personalized prescription services and high-quality lifelong vision care solutions. To address the need for customized lenses, PUYI OPTICAL has exclusively launched the ZEISS SmartLife PRO Individual 3.0. This product features intelligent design to meet the diverse visual needs of modern individuals. By utilizing advanced screening instruments and professional optometric services, the system collects individual data from customer's eyes, accurately capturing their unique visual needs and behaviors to create lenses that perfectly align with their vision requirements. Additionally, PUYI OPTICAL has exclusively introduced ZEISS i.Scription® lens technology. This advanced visual measurement technology not only enhances the accuracy of the lenses but also provides a personalized vision care solution for each customer. By capturing a greater volume of visual data, ZEISS i.Scription® allows for precise assessments of individual vision needs and the customization of lenses based on their prescriptions and facial contours. Utilizing sophisticated instruments, this technology conducts comprehensive measurements of the eyes, ensuring that the lenses deliver clearer and sharper visual results both during the day and under artificial lighting at night. Two Brands, One Vision Over the past decade, PUYI OPTICAL and ZEISS have evolved from an initial collaboration into a global partnership, driven by their shared belief in "Two Brands, One Vision." This common vision has enabled PUYI OPTICAL and ZEISS to seamlessly combine retail expertise with cutting-edge technology. Looking ahead, they will continue to develop the most suitable optical products for the market and explore new frontiers in the eyewear industry together.Hashtag: #PuyiOptical #ZEISSThe issuer is solely responsible for the content of this announcement.About Puyi GroupEstablished in 2001, Puyi Group was founded with the ambition to create the most prestigious and sophisticated experiences in eyewear. In the past decades, The Group has successfully transformed the role of eyewear from an ordinary necessity to a sophisticated accessory and has paved its way as a global leader and pioneer in luxury eyewear. With customers as its foremost priority, the Group strives to offer prestigious, personalised and one-stop eyewear experiences. Puyi Group selectively collaborates with globally-renowned eyewear and fashion brands to bring forth an unparalleled assortment of high-quality eyewear products. The Group offers professional services, introduces cutting-edge eye exam equipment and engages the corporate social responsibility to bring vision care and eyewear experiences to new heights. Puyi Group boasts a substantial retail presence across Mainland China, Hong Kong and Macao Special Administrative Regions, Taiwan Regions, and Singapore. Puyi Group has created a variety of luxury retail concepts: Puyi Optical (Luxury & Prestige) * Glasstique (Contemporary) * Point De Vue (Male Concept Store) * Reflections (Female Concept Store) * O-O Shop (Modern Concept) * 2020EYEhaus (Lifestyle). The Group also runs standalone boutiques for international brands, such as GENTLE MONSTER, LINDA FARROW, LINDBERG by PUYI OPTICAL and LOTOS. Puyi Group is a member of Europe Group, and a sister company of Europe Watch Company. Website: https://www.puyi.com Facebook: https://www.facebook.com/PuyiOptical Instagram: https://www.instagram.com/PuyiOpticalAbout ZEISS As a top optical brand with a history spanning 178 years, ZEISS is one of the impactful optical product brands in the world. For over a century, ZEISS has led the market by delivering exceptionally high-quality optical products and professional expertise. As a forward-thinking classic optical brand, ZEISS has never ceased its pursuit of ultimate precision and innovative technology in the manufacturing of optical lenses. The brand aims to be a lifelong partner in vision care for everyone, dedicated to ensuring that individuals can see as clearly and as far as possible. This commitment stems from our deep belief that each person's vision is uniquely different.
XUZHOU, China, Jan. 26, 2025 /PRNewswire/ -- Recently, the State Grid Xuzhou Power Supply Company successfully completed the installation of a distributed optical fiber temperature sensing early warning system at the 500kV Renzhuang substation. To date, all five 500kV substations in Xuzhou have been equipped with this advanced early warning system, significantly enhancing the fire prevention capabilities and ensuring the safe and stable operation of the power grid. During winter, the high electrical load combined with dry weather conditions increases the risk of fires in substations. Areas with dense cable installations are particularly vulnerable to fire hazards. Current fire prevention measures primarily rely on passive methods such as flame-retardant materials and fire barriers. Traditional monitoring tools like infrared thermometers, thermal imagers, and temperature-sensitive cables can only provide localized measurements, leaving gaps in comprehensive fire prevention and early warning capabilities. To address these challenges, the State Grid Xuzhou Power Supply Company has deployed cutting-edge technology by installing a distributed optical fiber temperature sensing early warning system across its five 500kV substations. This system integrates advanced technologies including optical fiber sensing, data transmission, communication, and photoelectric control. By deploying dual-layer S-type temperature sensing fibers along the inner edges of indoor and outdoor cable trays, the system enables real-time monitoring of temperature and temperature change rates at any point along the cables. It offers high-precision temperature measurement and is immune to electromagnetic interference. Notably, it effectively detects localized heating caused by poor connections between power cables and electrical equipment, especially in cable mezzanines and other critical areas. Additionally, the system can be integrated with centralized fire monitoring platforms via optical fiber communication, enabling real-time monitoring and dynamic early warning of potential cable fires within the substation.
SHENZHEN, China, Jan. 14, 2025 /PRNewswire/ -- MicroCloud Hologram Inc. (NASDAQ: HOLO), ("HOLO" or the "Company"), today announced the development and application of Quantum Nonlinear Optical Holography (QNOH) technology to directly generate spatially entangled qudits. This technology leverages the Spontaneous Parametric Down-Conversion (SPDC) process in quantum optics, precisely shaping the spatial quantum correlations of entangled photon pairs within a two-dimensional patterned nonlinear photonic crystal, without the need for complex pump shaping. This innovation not only breaks through the limitations of traditional optics but also offers unprecedented application prospects for quantum key distribution (QKD) and quantum computing based on spatial degrees of freedom. Quantum Nonlinear Optical Holography technology combines the advantages of quantum optics, nonlinear optics, and holography, aiming to directly shape the spatial properties of quantum photons through nonlinear optical processes. Traditional nonlinear optical holography has been widely applied in the field of classical optics, particularly in areas such as information storage, beam control, and optical communication. However, its application in the quantum domain has been relatively scarce, as shaping quantum states typically requires higher precision and more complex interventions. The key innovation of Quantum Nonlinear Optical Holography technology is its ability to directly generate spatially entangled qudits through the Spontaneous Parametric Down-Conversion process, overcoming the limitations of conventional quantum optical techniques. A qudit is a high-dimensional quantum system, which, compared to the traditional qubit, has more degrees of freedom and can store more information. Therefore, it holds greater promise for applications in quantum computing and quantum communication. The core implementation of HOLO's Quantum Nonlinear Optical Holography technology relies on the Spontaneous Parametric Down-Conversion process. In this process, a single high-energy photon enters a nonlinear optical medium (such as a BBO crystal) and, through interaction with the crystal, splits into two lower-energy photons, which are referred to as the signal photon and the idler photon. These two photons exhibit quantum entanglement, meaning their states are tightly correlated, regardless of the spatial distance between them. Unlike traditional quantum optical technologies, this technique uses a two-dimensional patterned nonlinear photonic crystal. In such a crystal, photons can be precisely controlled in predefined spatial degrees of freedom. By manipulating the patterned structure of the crystal, the spatial quantum correlations of the entangled photon pairs can be directionally shaped, thereby generating the desired quantum states. What sets HOLO's Quantum Nonlinear Optical Holography technology apart is that it does not require complex pump light shaping. Traditional quantum optical systems typically rely on specific shapes and frequency adjustments of the pump light source to ensure that the generated quantum states meet the desired criteria. However, QNOH technology achieves direct manipulation of the spatial properties of entangled photon pairs by controlling the structure and material properties of the nonlinear photonic crystal, making the process more efficient and stable. In traditional quantum information processing, the quantum bit (qubit) is widely used as the basic unit. However, the computational and storage capacity of a qubit is limited by its binary states (0 or 1). In contrast, a qudit (a high-dimensional quantum system) can process information in higher dimensions, offering greater potential for quantum computing and quantum communication. One of the biggest breakthroughs of HOLO technology is its ability to generate spatially entangled qudits. By precisely controlling the design of the photonic crystal, the technical team successfully endowed photon pairs with multiple degrees of freedom within a two-dimensional space, allowing each entangled photon pair to move beyond traditional binary states and expand into higher dimensions. These quantum states can manifest as different quantum modes and frequencies, significantly enhancing the capacity and diversity of the quantum system. HOLO's Quantum Nonlinear Optical Holography technology generates spatially entangled qudits through the following steps: Photon Source Selection and Control: Through the precisely designed nonlinear photonic crystal, an appropriate pump light source is chosen to excite the signal and idler photons in the Spontaneous Parametric Down-Conversion process. These photon pairs are highly entangled and can be precisely controlled in spatial degrees of freedom. 2D Patterned Crystal Design: A two-dimensional patterned nonlinear photonic crystal is used to control the propagation paths and interactions of photons within the crystal, allowing the spatial quantum correlations of the signal and idler photon pairs to be shaped according to design requirements. This structure not only enhances the stability of quantum entanglement but also enables information encoding and decoding across different dimensions. Shaping Spatial Quantum Correlations: By adjusting the phase and amplitude at different positions within the photonic crystal, the spatial correlations of the generated entangled photon pairs are ensured to match the desired quantum state. This allows the quantum information of the photons to be transmitted in a more efficient and multidimensional manner. Quantum State Verification: Experimental verification shows that the quantum states generated by this technology not only possess spatial quantum correlations but also violate the Clauser-Horne-Shimony-Holt (CHSH) inequality, proving their entangled nature. According to the fundamental principles of quantum mechanics, the violation of this inequality indicates the authenticity of quantum information and the validity of quantum entanglement. The successful development of HOLO's QNOH technology has brought a significant breakthrough to the fields of quantum key distribution (QKD) and quantum communication. Entanglement-based quantum key distribution is one of the core technologies in quantum communication today, ensuring the security of key exchange through the properties of quantum entanglement. The high-dimensional entangled qudits generated by the QNOH technology can provide higher key transmission rates and stronger resistance to interference, thereby enhancing the security and efficiency of quantum communication networks. Additionally, HOLO's QNOH technology is also noteworthy for its application in quantum computing. Since quantum computing can process information in high-dimensional quantum states, the generation of qudits will greatly improve the parallelism and efficiency of quantum computing. Traditional quantum computing uses quantum bits for computation, while high-dimensional qudits can store more information and perform more complex computational tasks, thereby accelerating the execution of quantum algorithms. HOLO's Quantum Nonlinear Optical Holography technology not only brings new possibilities to quantum communication and quantum computing but also paves the way for the future development of quantum information science. In the future, as this technology continues to improve, it may find broader applications in fields such as quantum networks, quantum encryption, and quantum simulation. In future research, optimizing the design of two-dimensional photonic crystals to further enhance the efficiency and stability of spatially entangled qudit generation will become a key issue in the field of quantum optics. Meanwhile, Quantum Nonlinear Optical Holography technology is also expected to integrate with other quantum technologies, such as quantum sensing and quantum imaging, opening up more application scenarios in the field of quantum science. The successful development of Quantum Nonlinear Optical Holography technology marks a significant advancement in the field of quantum optics. By precisely generating spatially entangled qudits, this technology offers a fresh perspective and more powerful tools for various fields, including quantum communication, quantum computing, and quantum information processing. As quantum technology continues to mature, quantum networks and quantum computers in the future are expected to enter a new era of greater efficiency and security, driven by this innovative technology. About MicroCloud Hologram Inc. MicroCloud is committed to providing leading holographic technology services to its customers worldwide. MicroCloud's holographic technology services include high-precision holographic light detection and ranging ("LiDAR") solutions, based on holographic technology, exclusive holographic LiDAR point cloud algorithms architecture design, breakthrough technical holographic imaging solutions, holographic LiDAR sensor chip design and holographic vehicle intelligent vision technology to service customers that provide reliable holographic advanced driver assistance systems ("ADAS"). MicroCloud also provides holographic digital twin technology services for customers and has built a proprietary holographic digital twin technology resource library. MicroCloud's holographic digital twin technology resource library captures shapes and objects in 3D holographic form by utilizing a combination of MicroCloud's holographic digital twin software, digital content, spatial data-driven data science, holographic digital cloud algorithm, and holographic 3D capture technology. For more information, please visit http://ir.mcholo.com/ Safe Harbor Statement This press release contains forward-looking statements as defined by the Private Securities Litigation Reform Act of 1995. Forward-looking statements include statements concerning plans, objectives, goals, strategies, future events or performance, and underlying assumptions and other statements that are other than statements of historical facts. When the Company uses words such as "may," "will," "intend," "should," "believe," "expect," "anticipate," "project," "estimate," or similar expressions that do not relate solely to historical matters, it is making forward-looking statements. Forward-looking statements are not guarantees of future performance and involve risks and uncertainties that may cause the actual results to differ materially from the Company's expectations discussed in the forward-looking statements. These statements are subject to uncertainties and risks including, but not limited to, the following: the Company's goals and strategies; the Company's future business development; product and service demand and acceptance; changes in technology; economic conditions; reputation and brand; the impact of competition and pricing; government regulations; fluctuations in general economic; financial condition and results of operations; the expected growth of the holographic industry and business conditions in China and the international markets the Company plans to serve and assumptions underlying or related to any of the foregoing and other risks contained in reports filed by the Company with the Securities and Exchange Commission ("SEC"), including the Company's most recently filed Annual Report on Form 10-K and current report on Form 6-K and its subsequent filings. For these reasons, among others, investors are cautioned not to place undue reliance upon any forward-looking statements in this press release. Additional factors are discussed in the Company's filings with the SEC, which are available for review at www.sec.gov. The Company undertakes no obligation to publicly revise these forward-looking statements to reflect events or circumstances that arise after the date hereof.
TECNO launches an industry-first CMF technology that combines ultra-fine optical fibers with mini-LED lights into smartphone battery covers HONG KONG, Jan. 10, 2025 /PRNewswire/ -- Innovative technology brand TECNO unveiled its first breakthrough of the year—Starry Optical Fiber Technology—during CES 2025. This industry-first breakthrough intricately combines ultra-fine optical fibers with mini-LED lights, seamlessly integrating them into the battery cover of smartphones. It underscores TECNO's advancements in CMF (Color, Material, Finish) technology and marks a significant leap forward in the development of optical fiber materials for stylish design. The Starry Optical Fiber Technology transforms the phone's aesthetics, weaving each optical fiber together into a breathtaking light display that shimmers like a galaxy across the back cover. This pioneering technology holds the potential to support applications across a range of devices, including smartphones and tablets. Redefining Smartphone Design: TECNO's Leap Forward in Aesthetic Innovation The Starry Optical Fiber battery cover is the world's first to integrate ultra-fine optical fibers and LED lights in a smartphone back cover, crafted through over 30 meticulous manufacturing processes. It incorporates 150 ultra-thin optical fibers, each measuring just 0.125mm in diameter, skillfully threaded through 36 micro-holes with a mere 0.7mm diameter. These fibers are securely fixed using precise UV adhesive, forming a woven, fabric-like structure that adds both durability and visual sophistication. Additionally, 108 mini-LED lights controlled by matrix based smart system are embedded within the battery cover, complementing the optical fibers to produce a stunning luminescent effect. Despite its dazzling visual effects, the Starry Optical Fiber Technology emphasizes energy efficiency. Both the optical fibers and LED lights are designed for efficient power consumption without compromising on performance, ensuring the phone's battery life remains robust. Furthermore, the unique layout of the fibers and LEDs are configured to maintain heat dissipation, allowing the PHANTOM V Flip2 5G to remain cool and perform efficiently even during prolonged use. A Fashionable Experience: Four Unique Luminous Modes for Ultimate Immersion The Starry Optical Fiber Technology is showcased on the PHANTOM V Flip2 5G, TECNO's latest flagship foldable smartphone. This device epitomizes the perfect blend of trendsetting aesthetics and AI-powered technology. Featuring a 3.64-inch ThruPool cover screen and a slightly curved main body, the phone delivers an immersive experience elevated by the Starry Optical Fiber Technology. TECNO envisions its products not just as tools for efficiency but as personalized expressions of mood and individuality. With four distinct luminous modes: Tidal Waves, Rosy Sunset, Weekend Dusk, and Aurora, each mode has been meticulously designed to combine captivating lighting effects with dynamic soundscapes. Leading the Industry: Breaking Boundaries in Material Science Guided by its brand promise of merging innovative technology with modern stylish design, TECNO continues to redefine the smartphone experience. Starry Optical Fiber Technology exemplifies this ethos, blending artistic expression with cutting-edge functionality. Committed to pushing the boundaries of technology innovation, TECNO consistently introduces groundbreaking advancements in material science, aiming to deliver even more transformative technologies that inspire and empower users worldwide.
- OCT Marks Breakthrough in Disease Detection and Manufacturing - TOKYO, Dec. 9, 2024 /PRNewswire/ -- The Honda Foundation in Tokyo held the 45th Honda Prize Award Ceremony on November 18, 2024, where this year's prize was awarded to Dr. James G. Fujimoto, Elihu Thomson Professor of Electrical Engineering and Computer Science, Research Laboratory of Electronics, Massachusetts Institute of Technology, USA. Image1:https://cdn.kyodonewsprwire.jp/prwfile/release/M106338/202412030993/_prw_PI1fl_nIY61dsF.jpg Image2:https://cdn.kyodonewsprwire.jp/prwfile/release/M106338/202412030993/_prw_PI2fl_aHrJ96fK.jpg Hiroto Ishida, President of the Honda Foundation, stated in his opening remarks: "We are honored to present the Honda Prize to Dr. James G. Fujimoto in recognition of his outstanding contributions, which have brought great hope to humanity in the fields of next-generation science, technology, and medicine." Next, Hirohisa Uchida, Chairperson of the Honda Prize Selection Committee, explained the reasons behind this year's selection. "OCT is a technology that uses coherent light and an interferometer to obtain non-destructive cross-sectional images, and Dr. Fujimoto and his research group were the first to develop this technology and use it to obtain cross-sectional images of the retina and blood vessels. He also commercialized the world's first ophthalmic OCT aiming to promote its widespread use. Today, OCT has found applications not only in ophthalmology and cardiology, but also in the early detection of diabetic and neurological diseases, industrial non-destructive testing equipment, fingerprint authentication devices, and a wide range of basic research and manufacturing applications. Its potential is limitless. "Soichiro Honda believed in 'making people happy with technology,' and Dr. Fujimoto's achievements embody this philosophy. "His continuous contributions, from the proposal and development of OCT to its widespread adoption, are aligned perfectly with the Honda Foundation's long-standing commitment to 'ecotechnology,' leading to his selection for the Honda Prize." Afterward, Dr. Fujimoto was presented with a certificate by President Ishida and a medal by Vice President Kazuko Matsumoto. He expressed his gratitude, saying, "It is a great honor to receive the Honda Prize. The continuation of my research has only been possible thanks to the knowledge and support of my colleagues involved in the research and many supporters. I am delighted that OCT technology has been commercialized and applied clinically, helping many people along the way." Commemorative Lecture by Dr. James G. Fujimoto "Optical Coherence Tomography: History, Evolution, and Future Prospects" was the theme of Dr. Fujimoto's commemorative lecture. He discussed events that led him to pursue OCT technology in ophthalmology, beginning with his student research days, and provided a detailed account of the discovery and evolution of OCT technology. He also touched on the future prospect of OCT, highlighting its potential moving forward. About OCT: https://kyodonewsprwire.jp/attach/202412030993-O3-ImEDN3gR.pdf About Honda Foundation:https://cdn.kyodonewsprwire.jp/prwfile/release/M106338/202412030993/_prw_PI3fl_lWR0kq36.jpg Honda Foundation's official website: https://www.hondafoundation.jp/en/
ISTANBUL, Turkey, Nov. 3, 2024 /PRNewswire/ -- Today, at the 10th Ultra-Broadband Forum (UBBF 2024), Bob Chen, President of Huawei Optical Business Product Line, delivered a keynote speech titled Build AI-Centric F5.5G All-Optical Network for New Growth. The AI era is upon us. General foundation models are continuously enhanced, and are quickly applied to various industries. So far, more than 1300 foundation models have been applied. In addition, AI is widely used in mobile phones, PCs, and automobiles. In the future, AI will be an indispensable part of terminals. AI helps us in travel planning, code generation, and quality inspection. In the future, AI will transform every aspect of our life, work, and production. Bob Chen noted that in the AI era, some carriers will transform to AI all-service providers, and some carriers will cooperate with third parties to provide services such as AI computing and AI applications. For carriers, building robust infrastructure networks and "enhancing computing with networks" will be the key to business success in the AI era. AI device-cloud synergy, and intelligent computing training require high network bandwidth, low latency, and high reliability. Huawei is continuously innovating F5.5G in optical transmission, optical access, and management and control platform, helping carriers build AI-centric all-optical networks. Bob Chen, President of Huawei Optical Business Product Line, delivering a keynote speech In the optical transmission field, Huawei's leading optical switching technology is extended to data centers (DCs) and metro edges. First, with optical switching, DCs support the scale and efficiency improvement of AI computing. Huawei's DC optical switching solution supports the expansion of intelligent computing from 1000 cards to millions of cards based on ultra-dense ports and ultra-low power consumption. Compared with traditional solutions, the optical module-free deployment mode reduces the failure rate by about 20%. In addition, with all-optical switching at metro edges, Huawei helps carriers build 1 ms, 5 ms, and 10 ms latency circles through mesh networking, and all-optical one-hop connection for end-to-end all-optical switching from the backbone to the metro, ensuring ultimate AI experiences. Up to now, more than 50 carriers around the world have extended optical switching to metro edges and built 1 ms metro networks. In the optical access field, Bob Chen noted that fixed broadband must provide premium services. Based on optical fiber connections, fixed broadband provides deterministic and guaranteed service experiences for every user. Globally, there are three monetization modes for fixed broadband: coverage monetization, bandwidth monetization, and experience monetization. First, coverage monetization. Currently, no fiber connection is available to more than 28% of global users. Therefore, fiber coverage needs to be accelerated to seize the demographic dividend. Huawei solutions including QuickConnect ODN and all-scenario AirPON can help carriers achieve fast and low-cost network construction. Second, bandwidth monetization. First, some carriers have deployed fiber broadband, but their package rates are only dozens of Mbps. As a result, the value of optical fibers is not unleashed. Therefore, we recommend that packages be gradually upgraded to provide more competitive broadband services. Second, some carriers have offered gigabit packages, but the experience is poor and video freezing often occurs. The root cause is that GPON is used to provide gigabit packages. Therefore, GPON should be upgraded to 10G PON as soon as possible to provide better network experiences. The last is to monetize experience. Now, the industry has a consensus on the evolution from FTTH using one fiber to FTTR using one network. FTTR networking can ensure optimal experience for everyone anytime and anywhere. So far, the number of global FTTR users has exceeded 30 million. In addition, Huawei is accelerating the innovation and upgrade of FTTR+X to help carriers innovate AI applications, including AI plus storage, home guard, and healthcare. Our ultimate goal is to support one smart home based on one FTTR network. As for the management and control platform, Huawei uses digital twin and AI foundation models to improve user experience and O&M efficiency in premium broadband and premium transmission solution scenarios. Huawei's Premium Broadband solution uses automatic fault locating to implement minute-level network fault diagnosis and proactive poor-QoE rectification, slashing user complaints by 30%. Its Premium Transmission solution uses automatic online planning to shorten the new service TTM from months to hours. "The next decade will witness the fast popularization of AI," Bob Chen stated. "Huawei hopes to work with industry partners to build an AI-centric F5.5G all-optical network, extending optical switching to data centers and metro edges, building premium networks for optical access by monetizing coverage, bandwidth, and experience, and fully injecting AI capabilities to the management and control platform. In this way, we can accelerate AI popularization and achieve new business growth together in the intelligent era!"
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