Chinese networking giant Huawei is continuing its 5G network tests with Singaporean mobile carrier M1, with the two working to complete an end-to-end live broadcast of virtual reality (VR) content over a 5G network.
The trial, which will make use of the 28GHz millimetre-wave (mmWave) spectrum band, will take place at the end of June in M1’s MiWorld building in Jurong. It constitutes the first live end-to-end 5G trial of Huawei’s equipment in Singapore in that frequency band, the companies said.
“This live demo is a small but significant step in our journey towards next-generation 5G mobile networks,” M1 CTO Denis Seek said. “With the advancement in 5G and media technologies, immersive communication experience will continue to be enhanced, and this will definitely have a profound impact on the way we work, learn, live, and play in future smart city.”
M1 said the use of VR, along with augmented reality (AR) and mixed reality, will become use cases across smart classrooms, corporate communications, training, marketing campaigns, public events, and virtual tourism — and will rely on a low-latency 5G network with theoretical throughput speeds of 20Gbps.
Huawei International CEO Lei Hui said the company would “continue to invest heavily in the research and development of 5G key technologies and products, cooperate with global industry partners, and promote the implementation of 5G commercial deployments and a healthy industry ecosystem worldwide”.
Huawei and M1 are planning to conduct a non-standalone 5G field trial by the end of this year using the 3.5GHz band, and then a standalone 3GPP standards-compliant trial using both 28GHz and 3.5GHz bands in mid-2019.
The two had announced attaining speeds of 35Gbps during a trial of 5G network technology in January last year, at that time using mmWave spectrum in the 73GHz E-band.
M1 and Huawei have also been working together on improving 4G speeds for more than two years; at the start of 2016, they announced attaining 1Gbps download/130Mbps upload speeds across M1’s 4G mobile network using a CAT14 Huawei device for the trial.
The 4G trial was also conducted inside of M1’s LTE Advanced test lab, and attained through the combination of four network technologies: 4×4 Multiple-Input Multiple-Output (MIMO); two-component carrier (2CC) uplink carrier aggregation; 3CC tri-band downlink carrier aggregation; and Higher Order Modulation 256 Quadrature Amplitude Modulation (QAM).
M1’s partnership with Huawei on 5G comes despite the Chinese tech giant facing a possible ban on involvement in 5G networks globally.
Earlier this week, Huawei had published a letter it sent to Australian members of Parliament, claiming recent comments made about national security concerns were “ill-informed and not based on facts”.
“Our telecommunications equipment connects millions of Australian businesses and consumers every day on the Vodafone, Optus, and TPG mobile networks,” Huawei said.
“As focus turns to investment in the next generation of telecom technologies in Australia, cybersecurity is a key consideration for Australian policymakers … with our 5G investments in the United Kingdom, Canada, and New Zealand, the respective governments have taken up our offers for evaluation of our technology to ensure it abides by its cybersecurity protocols.
“We have an open invitation for Australian officials and security agencies to meet with our world-leading research and development teams to better understand our technology.”
Huawei also included an information sheet on its 5G work globally, including its trials with Bell, Telus, NTT DoCoMo, SoftBank, LG U+, China Mobile, China Unicom, China Telecom, Italy VDF, Italy TI, EE, Deutsche Telekom, Telefonica, and Vodafone.
Last week, Australia’s Shadow Minister for Defence Richard Marles approved a possible Huawei ban from 5G networks, citing the 2012 ban imposed on the company by the then-Labor government denying Huawei the ability to take part in the National Broadband Network (NBN).
“Given that it replicates a decision that was made under the Labor government, the answer was yes,” Marles said.
“Certainly when we were in government that’s what we did, and a call of that kind was previously made in relation to Huawei and national security clearly matters. This is a fundamental piece of infrastructure. If we were in government we’d be listening to those national security agencies to get their advice on this.”
His comments followed the Australian government’s decision to use AU$200 million in foreign aid funding rather than an offer from Huawei to build a high-speed subsea cable between Australia, Papua New Guinea, and the Solomon Islands.
Earlier this month, Huawei had warned that being banned from providing 5G equipment to Australia’s telcos would threaten the nation’s ability to stay “ahead of the game” in its mobile networks due to restricting competition.
Huawei Australia chair John Lord denied any national security concerns based on Chinese involvement in the running of its telco equipment in Australia.
Alleged US government documents leaked in January said the Trump Administration is considering setting standards for a nationwide 5G mobile network to prevent Chinese dominance in the industry.
Huawei Australia has again said it is open and transparent about cybersecurity concerns, pushing for discussions with the federal government to take part in the 5G build-out.
The next generation of mobile networks is coming sooner than you think. Here are the most important facts about the tech.
5G Taipei Summit: 5 big takeaways for the enterprise (TechRepublic)
As the world races toward deploying 5G networks, here are the benefits and challenges presented at the 2018 5G Taipei Summit, held during Computex 2018.
Governors Island will launch NYC’s 5G initiative (TechRepublic)
Michael M. Samuelian, President and CEO of New York’s Governors Island, explains why 5G will be the catalyst for smart cities and digital transformation.
AT&T’s 5G Evolution technology has theoretical peak speeds of up to 400 megabits per second on capable devices.
Where the relocation of application intelligence from a client-side device to a centralized cloud sounds so much like a good idea that telecommunications engineers begin to ponder: Is this something we could have been doing with every mobile or embedded device all along?
With the 3.5GHz and 28GHz spectrum auction complete, the South Korean government and telcos are set to roll out 5G in December.
Mobile device computing policy (Tech Pro Research)
Mobile devices offer convenience and flexibility for the modern workforce – but they also bring associated risks and support issues.