Ericsson verifies 5G coverage with Rohde & Schwarz drone

Photo: Rohde & Schwarz

Test and measurement specialist Rohde & Schwarz has supplied mobile network testing tools used in drone-based network coverage, performance and operation tests managed by Ericsson, a global leader in network infrastructure.

Testing mobile coverage. A project team based in Jorvas, Finland, and led by Ericsson’s 5G Readiness Program RAN Technical Lead Richard Wirén, has developed— together with Centria University of Applied Sciences — a novel system for testing cellular mobile network coverage.

The new system uses mobile network-testing scanners and smartphones from Rohde & Schwarz mounted on a drone that can be programmed to execute automatic tests with considerable flexibility, for example for precise route selection and drone speed control.

This solution is especially valuable for industrial use cases. It also has the advantages over traditional walk and drive tests by providing unprecedented repeatability and positional accuracy with the ability to verify beamforming and map coverage in 3D.

Drone-mounted scanner. The R&S TSMA6 network scanner is mounted on a drone and is able to simultaneously verify important LTE and 5G NR coverage metrics such as reference signal received power (RSRP) and signal-to-interference-plus-noise ratio (SINR) in accordance with 3GPP standards.

When combined with the R&S QualiPoc Android smartphone-based optimizer, IP trace, application quality of service (QoS) metrics such as serving cell parameters are possible. The solution currently uses LTE user equipment (UE) but will soon be further developed to include 5G UEs such as the Samsung S10 5G.

The drone can be programmed to follow an exact three-dimensional route.

Repeatable tests. More than 20 successful measurement flights conducted so far have shown the solution procedure and results to be extremely repeatable. The drone flights were of various duration, altitudes and routes, depending on the test case.

Control, authentication and air traffic control are considerable challenges to the development of robust drone-based solutions. In this new system they are conducted over cellular networks, eliminating the requirement for line-of-sight connection between the drone and its pilot.

The unique procedure enables unprecedented 3D accessibility, positional accuracy and repeatability of the testing.

It also opens up new possibilities to ensure end-user QoS for demanding 5G use cases such as industry 4.0, automotive and public safety, Rohde & Scwarz said.

5G New Radio. The deployment of 5G New Radio (NR) brings new applications of cellular networks for subscribers, government and industry. It also makes the verification of the correct coverage, performance and operation of networks more critical, increasing the demand for accuracy and accessibility in traditional field network tests.

“For 5G to realize its promise, field verification of operation and quality is essential, and this development is a pioneering way to ensure our customers receive the network performance they require,” said Richard Wirén, 5G Readiness Program RAN Technical Lead from Ericsson. “We are delighted to utilize test solutions from Rohde & Schwarz that have proven themselves very reliable and are excited that we now have access to solutions based on commercially available 5G NR UEs such as the Samsung S10 5G.”

“We are delighted to combine our industry-leading mobile network testing know-how with Ericsson’s long tradition of network innovations to ensure the delivery of end-user Quality of Experience as 5G NR becomes a reality,” said Hanspeter Bobst, vice president of mobile network testing for Rohde & Schwarz.

Ericsson and Rohde & Schwarz are collaborating with Tampere University and Centria University of Applied Sciences, and the project forms part of the Business Finland 5G FORCE program.

Future developments will focus on testing critical 5G applications such as public safety and machine-type communications for Industry 4.0, extending the frequency to extremely high frequencies of the mmWave bands and testing in an urban environment.