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BEIJING, April 22, 2024 /PRNewswire/ -- In a workshop operated by Azuri Optics Technologies Co., located in Rizhao, east China's Shandong Province, a busy scene plays out behind buzzing machines, with optical modules rolling off the assembly line one by one after more than 20 procedures, including assembly, testing, packaging, etc. In the face of major breakthroughs and changes in the global optical communication industry in recent years, Azuri Optics Technologies Co. stepped up efforts to increase research and development (R&D) investment and speed up technological innovation. As the first independently developed communication chip project in Rizhao City, the firm, which commenced production in 2020, saw its product sales exceed 70 million last year, according to a report by Rizhao Daily, a local newspaper. It is expected that the company's sales will reach 200 million yuan this year, almost triple that of in 2023. The firm has won a foothold in the global market with its optical chip-related products sold to many overseas countries. It is learned that the firm's optical chip-related products stands out among international counterparts due to their competitive prices and high reliability, which are recognized by the world's well-known equipment manufacturers and operators. Li Wen, the firm's general manager, noted that mastering hard core technologies and having the ability to independently manufacture key processes is the only way for companies to maintain high-quality development and gain a firm foothold in the fierce market competition. Original link: https://en.imsilkroad.com/p/339805.html
全球資通訊隨時代廣泛應用、高畫質影像聲音應用新興崛起,頻寬迫切急需,光通訊傳輸介面因應數據倍增且交換機應用更加廣泛,筑波科技提供客戶最先進的光通訊測試及高速介面測試的解決方案。 精密半導體封裝已朝向 CPO(Co-Packaged Optics) 得以造就多元矽光子應用的發展,Quantifi 整合PXI測試模組,能提供高效率整合多機一體測試方案,筑波科技亦有實際應用於光通訊與高速訊號介面傳輸整合、可程式自動化規劃…等功能,同時符合研發及生產單位部門在高速率、高精度、高效率的測試需求。 熱忱邀請您與筑波科技專業團隊就市場和技術的最新趨勢探討及交流! 歡迎光通訊產業領域: Silicon Photonics / Transceiver / HSDI / USB / Type-C/ AOC廠商、工程師與主管至報名網站報名參加。 日期Date: 2023年7月5日 (三) PM12:30 – PM4:30 地點Location: 筑波醫電大樓1F 諾貝爾獎堂(新竹縣竹北市生醫二路66號-新竹生醫園區) 線上報名registration: https://register.acesolution.com.tw/20230705_Optical_Workshop 03-5500909 蔡小姐#3800 / 林小姐#3407 service@acesolution.com.tw / acemkt@acesolution.com.tw
BARCELONA, Spain, March 1, 2023 /PRNewswire/ -- During the Mobile World Congress (MWC) 2023, Huawei launched the industry's first End-to-End Optical Service Unit (OSU) product portfolio running on the fifth-generation fixed network (F5G). The product portfolio builds a reliable optical communication base for industries such as energy and transportation. Vincent Liu, President of Huawei's Global Enterprise Network Marketing & Solutions Sales Dept Industries such as energy and transportation are crucial to economic growth and quality of life. As a basic component of the production system, the communication network needs to be secure and reliable to support these industries. Industry digitalization is deepening, and we will need production communication networks with higher bandwidth to support emerging services such as automated inspection of power lines, smart power distribution, intelligent highway monitoring, and intelligent toll stations. Vincent Liu, President of Huawei's Global Enterprise Network Marketing & Solutions Sales Dept, said, "By using Optical Service Unit (OSU) — the fifth-generation Native Hard Pipe (NHP) technology, Huawei has developed an End-to-End NHP network solution and launched an End-to-End OSU product portfolio from backbone networks to access networks. This solution provides a secure and reliable optical communication base for production management services, real-time control services, and integrated data services." Huawei's End-to-End OSU product portfolio includes fully upgraded optical transport devices of the OptiXtrans E9600/E6600 series, optical access devices of the OptiXaccess EA5800 series, the newly launched industrial CPE device OptiXstar E810, and the intelligent timing IoT gateway OptiXstar T823E-T. Huawei End-to-End NHP network solution has the following features: Ensuring production security using End-to-End native hard pipes: Time division multiplexing (TDM) technology provides isolation of services by using OSU native hard pipes from the backbone layer to the access layer, with zero interference and zero blocking between services. This ensures production services are secure and reliable. Providing future-oriented ultra-high bandwidth: Mainstream Synchronous Digital Hierarchy (SDH) technology on the live network supports up to 10 Gbit/s bandwidth, while OSU can provide bandwidth of up to 800 Gbit/s per wavelength and 96 Tbit/s per fiber to accelerate digital and intelligent services. Inheriting traditional services with forward compatibility: Huawei's 6-in-1 optical transport platform is fully compatible with Pulse code modulation (PCM), Plesiochronous digital hierarchy (PDH), and SDH services on the live network. This compatibility enables sustainable development of existing service systems and reduces investment costs. Simplifying backbone O&M by unified management: OSU services improve O&M efficiency by 50%. They support one-click service provisioning, one-click fault locating, and network-wide service visualization and management from backbone networks to access networks. Huawei's NHP solution has won wide acclaim in the energy and transportation industries. It has been deployed by customers in more than 80 countries and regions around the world to help build a reliable optical communication base for industries.For more information about Huawei's NHP solution, visit https://e.huawei.com/en/solutions/enterprise-optical-network/industry-optical-transport-network. CONTACT:hwebgcomms@huawei.com
PARIS, Oct. 10, 2024 /PRNewswire/ -- Huawei won the "Most Innovative Optical Transport Use Case" award at Network X 2024, also known as Next-Generation Optical Networks (NGON) 2024, held in Paris, France. This award is intended to recognize the device vendor that provides the most innovative solution and has created new monetary value for carriers. Huawei helps global carriers build DC-oriented optimal cost/bit backbone networks with its innovative 400G/800G solution, including the world's largest 400G backbone. It is a testament to the recognition within the industry of Huawei's innovations in the optical transport field, such as ultra-high speed, ultra-wide spectrum, all-optical switching OXC, and algorithm capabilities. "Most Innovative Optical Transport Use Case" Award Huawei has been committed to the optical field for many years, and has won the largest market share in the optical communication market for 16 consecutive years. During NGON 2024, Huawei proposed an all-optical premium transmission target network architecture for the intelligent era and demonstrated a series of innovative solutions to help carriers build network capabilities such as ubiquitous premium access, 1 ms latency, and 99.9999% reliability. The solutions provide premium experiences of various intelligent applications and enable carriers to seize new opportunities for deterministic connectivity in the intelligent era. In terms of ultra-high speed, Huawei showcased 1.6T coherent modules, which can meet the commercial requirements of large-capacity DC interconnection in metro networks. In terms of ultra-wide spectrum, Huawei extended the integration capability to OTU boards based on the C+L-band integrated WSS commercially used last year. This further improves the integration of C+L-band systems and reduces power consumption and device footprint. In terms of all-optical switching, Huawei released multi-degree optical switching boards oriented to metro access scenarios to achieve metro access network deployment in all scenarios. In terms of system soft capabilities, Huawei's innovative Hybrid ASON solution implements optical-electrical synergy for multiple reroutings, provides cost-effective protection against multiple fiber cuts, and ensures 99.9999% network reliability. As for optical network management and control, Huawei actively promotes the standards formulation for autonomous optical networks and launches innovative features such as optical network health assurance, intelligent co-cable detection, and intelligent alarm compression. All this enables proactive O&M and improves efficiency dramatically. Moreover, Huawei's OTN premium private line solution has been commercially used by dozens of carriers around the world to drive up revenue. This year, Huawei launched the OTN P2MP solution based on single-OTN-device networking, helping carriers build more inclusive OTN private lines and providing ubiquitous premium access for intelligent industry upgrades. The intelligent era brings new opportunities to carriers. Huawei will continue to help carriers build all-optical premium networks for intelligence based on both technology and business, provide more stable and efficient network assurance for intelligent applications, and promote the wide application of AI technologies, thereby seizing opportunities the intelligent era together.
- For Contributing to Invention and Development of Optical Coherence Tomography - TOKYO, Sept. 30, 2024 /PRNewswire/ -- The Honda Foundation is a public interest incorporated foundation established by Soichiro Honda and his younger brother Benjiro, and is currently led by President Hiroto Ishida. The foundation established the Honda Prize in 1980 as Japan's first international award that acknowledges achievements contributing to "the creation of a truly humane civilization." In 2024, the 45th Honda Prize will be awarded to Dr. James G. Fujimoto, Elihu Thomson Professor of Electrical Engineering at the Research Laboratory of Electronics, Department of Electrical Engineering and Computer Science, Massachusetts Institute of Technology (MIT), the U.S.A., for his research group's development of optical coherence tomography (OCT). The prize also acknowledges his contribution to the commercialization and clinical translation of OCT in ophthalmology, cardiology, and biomedical research. Image1: https://cdn.kyodonewsprwire.jp/prwfile/release/M106338/202409267062/_prw_PI1fl_1vE8ITa5.jpg OCT is a new imaging modality which is analogous to ultrasound, except that it measures the echo time delay and magnitude of backscattered light instead of sound. OCT enables real-time, microscopic resolution imaging of a subsurface structure in biological tissues and materials. It has applications in multiple medical specialties as well as fundamental research and manufacturing. OCT can be combined with fiber optic catheters, endoscopes, and laparoscopes to enable imaging inside the body. It enables "optical biopsy," imaging pathology in real time, without the need to remove specimens as in conventional excisional biopsy. The development of OCT is an example of the power of multidisciplinary collaborative research teams which span fundamental research, engineering, clinical medicine, and industry. In the late 1980s, such a multidisciplinary project was relatively uncommon, and Dr. Fujimoto's team demonstrated a pioneering approach to joint medical-engineering research. Dr. Fujimoto's team first aimed to apply OCT in ophthalmology. OCT was invented by David Huang, an MD, PhD student in Fujimoto's research group, working in close collaboration with Eric Swanson, an expert on satellite optical communication, and Drs. Carmen Puliafito and Joel Schuman, retina and glaucoma specialists. OCT has become a standard of care in ophthalmology with 20 to 30 million procedures performed worldwide every year. It facilitates early detection of diseases such as age-related macular degeneration, diabetic retinopathy, and glaucoma, enabling patients to be treated before irreversible loss of vision occurs. Intravascular OCT was pioneered by visiting scientist Mark Brezinski, an MD, PhD cardiologist. Startup companies led by Swanson combined with industry investment played a key role in commercializing OCT in ophthalmology as well as cardiology. Today there is an international research community with over 100 academic research groups and companies developing OCT technology and clinical applications. Image2: https://cdn.kyodonewsprwire.jp/prwfile/release/M106338/202409267062/_prw_PI2fl_2xyDX5ml.jpg OCT can be used to guide disease treatment, improving outcomes and saving health care costs. In the future, OCT of the eye may be used in optometrists' shops, drug stores, and primary care doctors' offices to screen for diabetes, neurological and other systemic diseases. In the field of cardiology, intravascular OCT is emerging as a valuable technique for guiding treatment of myocardial infarction. Clinical studies have shown intravascular OCT treatment guidance can reduce rates of major adverse cardiac events. Over the years, the Honda Foundation has been promoting "ecotechnology*" as its mission. Dr. Fujimoto, who led the OCT research team, is the only researcher who consistently contributed to the development and the dissemination of OCT is fully in accord with the mission and worthy of the highest recognition. Therefore, the 45th Honda Prize will be awarded to Dr. Fujimoto. An award ceremony will be held at the Imperial Hotel in Tokyo, Japan, on November 18, 2024. In addition to a prize medal and a diploma, the laureate will be awarded 10 million yen. *Ecotechnology: Human-friendly philosophy founded on science and technology. It is designed to harmonize the natural and human environments, and find resolutions to social issues, adopting a methodology that implies something more than just "being friendly to the Earth," which is the meaning usually associated with the word "ecology." For more information, please visit: https://kyodonewsprwire.jp/attach/202409267062-O1-zZ1Tz5H4.pdf Official website: https://www.hondafoundation.jp/en/
SHENZHEN, China, Sept. 11, 2024 /PRNewswire/ -- The 25th China International Optoelectronic Exposition (CIOE 2024) commenced today with a grand opening at the Shenzhen World Convention and Exhibition Center. As a premier event that encompasses the entire optoelectronics industry chain, CIOE has witnessed the rapid progress of optoelectronic technology and the profound transformation of the industry landscape over the past 25 years. From its humble beginnings as a small-scale exhibition to its current stature as an international event spanning 240,000 sqm, CIOE has grown in scale and influence, fostering technological innovation and industrial upgrading. It has become a world-leading event that covers the entire industry chain, striving to build a holistic platform for technological innovation, academic discourse, market development, and global collaboration. Marking its silver jubilee, it has attracted over 3,700 high-quality exhibitors from more than 30 countries and regions, showcasing the full spectrum of the optoelectronic industry chain - from chips and devices to full system solutions and manufacturing equipment. Attendees can explore the latest technologies in optical communication, optics, lasers, infrared, sensing, and displays. International pavilions from countries like the United States, Canada, Japan, South Korea, Germany, Denmark, and Switzerland will present their latest achievements and innovative products, promoting international technical exchanges and cooperation. With an expected attendance of over 120,000 professionals from advanced manufacturing, consumer electronics, semiconductors, medical, and security sector, CIOE 2024 stands as a platform for networking, trendspotting, and technological progress. This cross-industry communication will invigorate the ongoing innovation and growth in the photonics sector. Serving as a key platform for displaying scientific breakthroughs and fostering partnerships between industry and academia, CIOE 2024 highlights the latest optoelectronic innovations from research institutions, universities, and high-tech firms, nurturing new product development and connecting companies with investors to foster business deals and global partnerships. The CIOE 2024 - University Technology Achievement Display Zone connects academic research with industry demands, speeding up the practical application of scientific findings. Meanwhile, the Optoelectronic Talent Recruitment Zone provides a platform for companies to recruit skilled professionals, bolstering their talent base and bridging the gap between research and workforce needs. CIOE 2024 underscores the pivotal role of optoelectronic technologies in driving innovation across various sectors. According to Yang Xiancheng, founder and executive chairman of CIOE, "The rapid development of high-tech industries hinges on close integration between upstream technologies and downstream product innovations. Optoelectronic technology serves as a vital support, unlocking new possibilities for product development in fields such as materials, chips, sensors, and modules." He also noted that emerging technologies like photonics and quantum computing are significant in the commercialization of these advancements. "Intelligent Manufacturing with Photonics" is a leading technology that drives the development of new productive forces with its unique advantages and diverse applications. At CIOE 2024, key exhibits include optical processing and coating equipment, camera AA equipment, laser equipment, semiconductor equipment, industrial automation, and testing instruments. These innovations enhance production efficiency and quality stability for core products like optoelectronic chips and optical lenses, while also expanding applications into smart manufacturing, consumer electronics, new energy vehicles, and semiconductors. Beyond an exhibition, CIOE is a hub for global optoelectronics innovation. CIOE 2024 concurrently runs over 80 forums, bringing together leading experts, scholars, and industry leaders to discuss the latest advancements, industry trends, and market opportunities in the optoelectronics sector. Through in-depth discussions, these forums highlight new directions for innovation and development in optoelectronics, igniting enthusiasm for the field's potential. This event serves as a significant milestone in advancing the photonics industry toward sustainable growth.
A12 藝術空間
optical communication
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