![]() ![]() Mosaic’s compact design solves this challenge by ensuring legacy 4G infrastructure can co-exist with 5G active antennas. Previously, multiple technologies and technology generations at a single site caused interference and impacted network performance. ![]() “The clever engineering behind Mosaic offers a pragmatic way to add both capacity and capability while maximizing previous spectrum and 4G cell site investments,” said Farid Firouzbakht, SVP and segment president, Outdoor Wireless Networks, CommScope. Of that, 516 million is expected to come from North America and 301 million from Latin America and the Caribbean. The world added 303 million 5G connections in 2021 and the number of 5G connections reached 521 million at the end of the year.Īccording to Omdia’s forecast, 5G connections are expected to double to 1.3 billion connections in 2022, nearly double again in 2023 to 2 billion connections, and reach 4.8 billion by the end of 2026. ![]() Operators are estimated to spend approximately $1 trillion (2019 – 2025) in network deployment Capex as they capture emerging growth in 5G. The CommScope Mosaic platform allows operators to combine active and passive antenna capabilities for simplifying tower complexity, reducing occupied tower top space and wind loading, while preserving the performance of all technologies. CommScope said Mosaic’s hardware design helps mobile network operators roll out 5G coverage while supporting legacy 4G deployments. The web interface also uses easy-to-read quality indicators ideal to monitor the receiver operation during the job at hand.CommScope has introduced Mosaic, an active-passive antenna platform that assists mobile network operators for accelerating the deployment of 5G towers. The mosaic-T timing module includes an intuitive web user interface for easy operation and monitoring allowing you to control the receiver from any mobile device or computer. The included RxTools softwareallows receiver configuration, monitoring as well as data logging and analysis. Mosaic-T comes with fully-documented interfaces, commands and data messages. ![]() The radiofrequency (RF) spectrum can be viewed in real-time in both time and frequency domains. It can suppress the widest variety of interferers, from simple continuous narrowband signals to the most complex wideband and pulsed jammers. The mosaic-T timing module receiver features also the industry-leading Septentrio's AIM+technology, the most advanced on-board interference mitigation technology on the market. APME+ is bias free and, in line with Septentrio’s commitment to maximum configurability, can be disabled. The APME+ system effectively disentangles direct and reflected signals enhancing both position and measurement quality. Metal and large nearby structures can reflect GNSS signals and produce multipath. Having honed our skills, supporting applications in the most iono-active areas on Earth, the result is IONO+: the most advanced protection against ionospheric disturbances to GNSS signals on any receiver. Detected faulty measurements, which are typically caused by high multipath or active ionosphere, are removed from the solution.Īctivity in the ionosphere is a problem for GNSS signals, from loss of RTK fix to total loss of signal lock. The GNSS+ Technologies - Top performance in challenging environmentsĪdvanced Receiver Autonomous Integrity Monitoring ( RAIM+) comprises fault detection mechanisms of the receiver at all the levels including the generation of measurements, quality control and navigation algorithms. ![]()
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