This reduces extensive real network drive tests in different countries for manufacturers of IoT (Cat‑M and NB‑IoT) solutions, resulting in faster time-to-market.
IoT protocol stack features have been specified by 3GPP, but IoT devices have to interact with different network configurations worldwide. This makes it important to ensure that these features are working well in all sorts of configurations, configured by different network operators.
Thanks to the current cooperation, manufacturers of IoT solutions can use virtual drive tests during the development phase of CAT‑M1 and NB‑IoT modules to find and fix problems at an earlier stage. This also enables seamless cellular coverage and reliable connectivity before the integration process continues and further field tests are performed. Network-specific integration tests and field tests include analysis of unique network configurations in different countries, challenging RF Power level conditions and verification of signaling under compelling RF environments.
The setup consists of R&S Field‑to‑Lab wireless communication test system, R&S CMWcards smart network emulator, R&S CMW500/CMW290 wideband radio communication tester from Rohde & Schwarz. The LTE based R&S Field-to-Lab solution has now been extended to support LTE-M and NB-IoT technologies. With the same user interface, customers can seamlessly move between LTE and IoT testing. The simple process of loading the field logs, extracting the required information from the field log and generating R&S CMWcards test script helps to replicate the real network environment in a lab with just a few mouse clicks.
The R&S Field-to-Lab supports 3GPP IoT features. Unlike other simulated drive test solutions, it is also the first virtual drive test solution for IoT offering replication of signaling and RF conditions in an easy-to-operate GUI on the R&S CMW500 and R&S CMW290 mobile radio testers.
Rohde & Schwarz - www.rohde-schwarz.com