5G High-frequency Spectrum to Pose Greater Challenges to Indoor Coverage, says GlobalData

11 months ago
(0 votes)
5G High-frequency Spectrum to Pose Greater Challenges to Indoor Coverage, says GlobalData Image Credit: romankosolapov/Bigstockphoto.com

5G will come with its own problems when it comes to indoor coverage, says GlobalData. 

The 4G LTE mobile service has had trouble penetrating some indoor office environments. Unfortunately, 5G comes along with its own complications to this coverage challenge, says the leading data and analytics company.

The challenges to good indoor cellular coverage are structural. Newer, more environmentally friendly window glass is hard for wireless signals to penetrate. But, the most important reasons are more financial than technological.  

In big venues like sports stadiums and airports, mobile operators have commonly deployed distributed antenna systems (DAS), which contain radio equipment from multiple operators, but DAS are expensive to install and maintain. In big venues with big crowds, it is worth the expense for mobile operators. But for medium-sized venues such as an average office building with less than 20 floors, DAS is typically cost-prohibitive.  

Ed Gubbins, Technology Analyst at GlobalData says: “Mobile network equipment vendors have, in the past five years, introduced low-power radio network solutions similar to DAS that they say are cost-effective for medium-sized venues. But these solutions (distributed small cells) have not been as good as DAS at providing support for multiple operators. That fact has impeded their adoption, since the people in any given office building usually get their mobile service from a mix of different providers.”  

When 5G comes along, it will make greater use of high-frequency spectrum than 4G did. High-frequency spectrum does not penetrate walls as well as low- or mid-frequency spectrum, which could increase the need for indoor networks like DAS. However, some DAS cannot transmit over 5G’s high frequencies, and many DAS lack the ability to add antenna arrays needed for 5G. 

Gubbins concludes: “DAS’ 5G hurdles put more pressure on distributed small-cell solutions to provide 5G. Yet, distributed small-cell solutions may not be cost-effective in very large venues, and they may not be as effective as DAS at supporting multiple operators. One of the primary drivers for enterprise networks will be machine-to-machine connections, adoption of which is likely to take time. What’s more, even when they’re adopted, they’re likely to be offered by a single provider – not helping multi-operator consumer service coverage much.” 

Executive Editor of The Fast Mode | 5G | IoT/M2M | Telecom Strategy | Mobile Data Innovations 

Tara Neal covers stories on strategies and initiatives in the Digital Telco space, and anchors the 5G and IoT/M2M verticals on the publication. Tara holds a First Class Honours in BSc Accounting and Finance from The London School of Economics, UK and is a CFA charterholder from the CFA Institute, United States. Tara has over 20 years experience in technology and business strategy.

Follow her on Twitter @taraneal11, LinkedIn @taraneal11, Facebook or email her at tara.neal@thefastmode.com.

PREVIOUS POST

CSPs Poised to Tap 5G's Paramount Role in Autonomous Vehicle Connectivity, says Gartner

NEXT POST

Mobile Fronthaul Optics Transceiver Market to Reach $1 Billion by 2020

UPCOMING EVENTS

MWC Shanghai 2019

Telco AI Summit Asia

Network Virtualization and SDN Asia

Network Virtualization & SDN Americas

THE EDITOR'S DESK

ON TWITTER

ON FACEBOOK