In a groundbreaking collaboration, Samsung Electronics and Qualcomm Technologies have successfully completed tests using the latest 1024 Quadrature Amplitude Modulation (QAM) technology, resulting in a significant boost to downlink speeds. By leveraging this advanced modulation technology, companies can transmit data more efficiently, ultimately increasing the number of bits delivered in each transmission.
This achievement marks the first time in the industry that 1024 QAM has been accomplished for Frequency Division Duplex (FDD) bands. The test was conducted in Samsung’s R&D lab in Korea, utilizing Samsung’s 5G vRAN software and radios, along with Qualcomm Technologies’ mobile phone form-factor test device equipped with the latest Snapdragon X75 5G Modem-RF System.
Using a 20MHz bandwidth, the companies were able to achieve downlink speeds of 485Mbps, surpassing a 20% gain compared to the current 256 QAM standard. This development opens up possibilities for operators to maximize their use of spectrum resources and offers mobile users faster download speeds for services like live video streaming and online multiplayer gaming.
Samsung plans to further test 1024 QAM in traditional RAN, with commercial availability expected within the year. The companies’ collaborative efforts have once again demonstrated a dedication to driving innovation in network technology and advancing the capabilities of 5G networks.
“We believe enhancing spectral efficiency is essential in developing next-generation solutions,” said Ji-Yun Seol, Vice President, Head of Product Strategy, Networks Business at Samsung Electronics. “Our collaborative efforts with Qualcomm Technologies have once again yielded impressive results, and we look forward to harnessing our combined expertise to drive network innovation.”
This achievement builds upon previous milestones, such as the world’s first simultaneous 5G 2x uplink and 4x downlink carrier aggregation for FDD spectrum, achieved by Samsung and Qualcomm Technologies last year. The ongoing collaboration between the two companies aims to push the boundaries of mobile 5G technology and deliver comprehensive solutions for operators.
Through its continuous research and development efforts, Samsung has become a leader in the delivery of end-to-end 5G solutions, including chipsets, radios, and cores. The company’s market-leading product portfolio, ranging from vRAN 3.0 to AI-powered automation tools, enables mobile operators worldwide to provide connectivity to millions of users. With this latest breakthrough in downlink speeds, Samsung and Qualcomm Technologies are poised to accelerate the advancement of 5G networks and pave the way for a more connected future.
In addition to the achievements highlighted in the article, it is important to understand the industry and market forecasts for 5G technology. The telecommunications industry has been eagerly anticipating the deployment of 5G networks, as it promises to revolutionize connectivity with faster speeds, lower latency, and increased capacity. With the successful completion of tests using 1024 QAM technology, Samsung Electronics and Qualcomm Technologies have taken a significant step towards realizing the full potential of 5G.
The market for 5G technology is expected to grow rapidly in the coming years. According to a report by Grand View Research, the global 5G infrastructure market size is projected to reach USD 47.72 billion by 2027. This growth is driven by the increasing demand for high-speed and low-latency connectivity for various applications such as autonomous vehicles, smart cities, and Internet of Things (IoT) devices.
One of the key issues related to the deployment of 5G networks is the allocation of spectrum resources. As the demand for wireless data continues to rise, there is a need for more spectrum to support the increased capacity. However, spectrum is a finite resource, and ensuring efficient utilization is crucial. The use of advanced modulation technologies like 1024 QAM allows operators to maximize their use of spectrum resources, thereby addressing this issue.
Operators are also facing challenges in terms of infrastructure deployment and cost. Building 5G networks requires significant investments in new infrastructure, including base stations, antennas, and fiber-optic cables. Additionally, the deployment of small cells is necessary to support high-capacity and low-latency applications. These challenges need to be overcome to ensure widespread adoption and availability of 5G networks.
For more information on the 5G industry and market forecasts, you can refer to industry websites and reports. Some suggested links include:
– GSMA – The industry association for mobile network operators worldwide. They provide insights and reports on the latest trends in the mobile industry, including 5G.
– Grand View Research – A market research and consulting company that provides in-depth analysis and forecasts for various industries, including telecommunications and 5G.
– Qualcomm – The leading provider of mobile chipset solutions. Their website provides information on the latest developments in 5G technology and their collaborations with industry partners.
– Samsung Newsroom – The official newsroom of Samsung Electronics, where you can find press releases and articles related to their network business and 5G technology advancements.
By staying informed about the industry, market forecasts, and issues related to 5G technology, you can gain a deeper understanding of the advancements being made and the potential impact on various sectors.
The source of the article is from the blog newyorkpostgazette.com