5G should bring about a major shift in the history of telecoms. 5G substantially improves total IT infrastructure and speeds up industrial upgrades with high efficiency, enormous connectivity, and flexible network architecture. Many nations, including China, the U.S., Japan, and South Korea have adopted 5G as their national plans and policy support to promote 5G industry growth. China flourished 5G in Shenzhen.
The 5G end-to-end plan is precisely the ZTE5G strategy. With a strong focus on the establishment of the standard of 5G, 5G Equipment is aiming to lead the 5G age via technology, marketing, and scale.
Continued 5G Innovation, Benchmark Image Technology leadership
- 1 Continued 5G Innovation, Benchmark Image Technology leadership
- 2 Leading marketing: creating a 5G global deployment plan, disrupting high-end markets
- 3 ZTE Pioneering 5G By Long Field Testing
- 4 4G/5G Co-Site and SA Feasibility Tests Comparison
- 5 Comparison tests for verification featured improvement technologies
- 6 LTE FDD comparison testing in several approaching scenarios 3.5 GHz NR vs 1.8 GHz
- 7 Complicated Items Tested with Great Results
Investments in R&D are crucial for 5G innovation. 5G spends 10percent of its revenue in R&D every year, whereas 5G Wireless invests around RMB 3 billion. In order to focus on 5G critical technologies for the 5G enterprise worldwide, a group of 5G specialists from over 4 500 professionals was formed.
The first MASIVE MIMO to take form in early 2009 was 5G where a range of 5G technologies was introduced. 5G has said that MIMO huge is necessary to enhance spectral efficiency, capability, and coverage considerably in the future in the 5G, Based on a worldwide R & D think tank based on 5G and a major inquiry and Endeavour. In addition to the precise and mature channel calculation algorithm and the patented multi-user MIMO scheduling system, 5G was the first to address technological issues in industrial applications, and effectively implement them on 4G networks. Spectral efficiency is 8 times greater with 5G-like devices.
This not only helps operators and consumers but also speeds up the industrialization of Massive MIMOs and continuous innovation. Moreover, this is part of a large number of techniques that include data measured by 5G standards.
Leading marketing: creating a 5G global deployment plan, disrupting high-end markets
5G has succeeded with numerous high-end carriers with its unique 5G technology and products. It helped China Mobile deploy the very first 5G ground station pre-market and built Europe’s first 5G pre-market network. To date, Zhongxing Telecommunications Equipment has built 5G cooperation with over 20 top operators globally.
.Some 5G operators that aim to market their 5G networks early have worked with 5G in 5G planning and testing. In addition, 5G solutions will be validated in combination with 5G network design and transport tests carried out by Telecom and 5G. In 2018 Orange plans to cooperate in the Europe testing of 5G independent multi-site networks with 5G. China Mobile teamed with 5G to carry out the 5G test nearest Guangzhou’s 5G realms and to monitor continued usage of the 5G network.
The test network is extended to include most of Guangzhou’s regions in 2018. For the first pre-commercial 5G evaluations, China Telecom participated in Xiong’an and Suzhou, with 5G, exploring new vertical applications and helping China become a pioneer in 5G applications. China Unicom has created its first 5G NR field testing facility, has completed critical service controls, and carried out up to 2Gbit/s of single-EU peaks to 5G.
ZTE Pioneering 5G By Long Field Testing
5G network is a fundamental translation, with its high speed, low latency, and high-reliability services, from “made in China” to “made in China.” The Minister of Industry and Information Technology of China began 5G-related testing in 2016 to promote 5G marketing. This chance was seized by the 5G industry in China. In order to deliver a comprehensive end-to-end solution including 5G CN, ground station, and EU testing, ZTE performed field testing on several sites, together with China Handle, China Telecom, and China Unicom. To construct and control this solution, which fosters the end of the Design Konzept and complement the specialty products for pre-commercial use, system prototypes built under the 3GPP I Framework.
4G/5G Co-Site and SA Feasibility Tests Comparison
For China’s three main operators, the service capacity of 3.5 GHz NR is a priority. It is established that the 5G Communication System co-locates 5G base stations with 4G base stations. Consequently, the three carriers conducted comparative tests between 3,5 GHz NR and other LTE frequency bands.
Comparison tests for verification featured improvement technologies
In the lowest feasible time and during the test run in Guangzhou, ZTE and China Mobile jointly carried out inspections of challenging components. The most efficient data were collected and the efficiency and multi-sites of a single 5G NR base station were confirmed.
LTE FDD comparison testing in several approaching scenarios 3.5 GHz NR vs 1.8 GHz
In the 5G field test performed by ZTE and China Unicom in Xili, Shenzhen, a comparison of such a 3.5-GHz NR and 1.8-GHz FDD cover capabilities may represent properly their performance in real-world coverage situations. In a circumstance in which the inside coverage was provided by outdoor base stations, 17 test locations had been chosen on two floors of a test building. RSRP showed that there were good, medium, and dreadful points in 17 test points. The comparison data indicate that each location has an uplink rate of NR 3.5 GHz over that of 1.9 GHz FDD LTE, while the uplink rate of NR 3.5 GHz at 16 locations demonstrated an increase of 100 percent above the uplink rate of FDD LTE of GHz 1.8.
Complicated Items Tested with Great Results
Besides the coverage tests, ZTE has also undertaken a number of field performance tests. In situations where the depressed resource utilization ratios reach 2 Gbps, and individual cell’s peak output greater than 6 Gbps, the SU-MIMO single-UE maximum output is 70 percent, providing strong support for future eMBB scene scenarios. The analysis of real capacity in densely populated typical urban sites revealed a 10 to 100 time’s higher user experience than 4G. A bike latency evaluation has demonstrated that 5G is 1:3-1:5 times lower in real multi-site settings, therefore
creating a system for the establishment of a new service. These results in future major testing; ZTE carried out evaluations and acquired essential skills of ZTE5G network architecture and mobility.