LAS VEGAS: Qualcomm on Wednesday announced to collaborate with Ericsson and AT&T to conduct interoperability testing and over-the-air field trials based on the 5G New Radio (NR) specifications being developed by 3GPP, which will form the basis of the global standards.
The 3rd Generation Partnership Project (3GPP) is a group of seven telecom technical groups across the world to develop globally recognized specifications and standards for GSM and 3G Network deployments.
The trials intend to help move the mobile ecosystem to faster 5G deployment based on standards-compliant 5G NR infrastructure and devices once 3GPP completes the first release of the official specifications.
The trials will support operation in millimeter Wave (mmWave) spectrum and aim to accelerate commercial deployments in the 28GHz and 39GHz bands.
This will allow companies to showcase new 5G NR mmWave technologies that utilize wide bandwidths available at these higher frequency bands to increase network capacity and expect to achieve multi-gigabit per second data rates.
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These technologies will be important to meet the increasing consumer connectivity requirements for emerging consumer mobile broadband experiences such as virtual reality, augmented reality and connected cloud services.
Additionally, the proliferation of 5G NR mmWave technology can make it more cost-effective and easier for multi-gigabit Internet service to reach more homes and businesses.
The trials will utilize device and base station prototype solutions from Qualcomm Technologies and Ericsson respectively, along with spectrum from AT&T, to simulate real-world scenarios across a broad set of use cases and deployment scenarios.
The trials will employ 3GPP 5G NR Multiple-Input Multiple-Output (MIMO) antenna technology with adaptive beam forming and beam tracking techniques to deliver robust and sustained mobile broadband communications at the higher frequency bands, including non-line-of-sight (NLOS) environments and device mobility.
It will use OFDM-based waveforms and a new flexible framework design that are also expected to be part of the 5G NR specifications. The trials are expected to yield valuable insight into the unique challenges of integrating mmWave technologies into mobile networks and devices.
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“The roadmap of 5G technologies is complex, and collaborations such as this are critical to ensuring timely deployment of 5G networks,” said Matt Grob, executive vice president, Qualcomm Technologies.
“The 3GPP-based trials we are planning with AT&T and Ericsson will help us accelerate integration of advanced 5G New Radio technologies in form-factor accurate devices, building upon our long history of 3G and 4G LTE leadership and paving the path to wide-scale 5G deployments,” said Grob.
Tom Keathley, senior vice president, wireless network architecture and design, AT&T said “5G technology comes with new challenges, but more importantly, it offers tremendous opportunity to revolutionize the way we use mobile networks across industries.”
“We’re tackling these challenges head-on through testing in our labs and field trials. We look forward to working with Ericsson and Qualcomm on these standards-based trials as we continue to accelerate standards efforts and move down our 5G evolution path.”
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Ulf Ewaldsson, SVP, Ericsson said “5G is the greatest opportunity our industry has ever experienced. It will provide a platform for operators to address new markets, such as media, transportation and manufacturing.”
“This important 5G standard-based trial collaboration will demonstrate compliance to 3GPP and support the accelerated commercialization of the global 3GPP 5G standard.”
The trials are planned to launch in the United States starting in the second half of 2017 and are intended to track closely with the first 3GPP 5G NR specification that are expected to be part of Release 15 – the global 5G standard used to make use of both sub-6 GHz and mmWave spectrum bands.
It is important to track the 3GPP specification as it promotes adherence and validation with the global 5G standard, accelerating the time to standard-compliant devices and infrastructure.
