Adding 5G NR in the new spectrum bands with Massive MIMO will require new features like carrier aggregation - which will drive much more capacity. All connections to the gNB today go to 20Gbps, 40Gbps and even 100Gbps we are seeing in some cases. In our opinion, only xWDM-technologies will provide the best fiber optic cables utilization.

The overall aim of 5G is to provide ubiquitous connectivity for any kind of device and any kind of application that may benefit from being connected. New transport network architecture will be characterized by increased network scale and service agility. Combination of SR with centralized SDN control will cope with all new challenges (connectivity, capacity, complexity and capability).

Evolving backhaul and RAN architectures brings in the need for enhanced devices security which includes DDoS security and distributed SecGW functionality to cater for interface protection between the eNB and gNB and between gNB’s, DNS based protection and scrubbing, secure control and management of device for IoT, Endpoint Protection and advanced Malware Protection.

NR supports next key features: dynamic TDD, integrated access backhauling (IAB), dynamic spectrum sharing (NR and LTE able to share the same carrier) that have been one of the targeted areas of enhancements ensuring clock synchronization across transport nodes.

Furthermore, future positioning functionality and industrial IoT with the requirement on mobility interruption time is 0 ms will also require ultra-precise synchronization.

We propose technical documentation desired for customer's specification at any project stage – pre-sale, implementation, support.

No paper – we using only cloud technologies for storage, sharing and updating technical documentation.

Support – we can support your networks by performing all changes during on-site activities or network upgrades. 

Your network documentation will always be up to date! 

One of the perspective applications of 5G is to provide new types of services such as mMTC (massive Machine Type Communication) and uRLLC (Ultra-reliable Low Latency Communication). We also contribute to this process - developing and offering solutions within Industrial IoT (IIoT) and cloud robotics enabling the next industrial revolution Industry 4.0 with its demand for highly reliable, low-latency communications. In particular, we offer a new generation of non-destructive testing (NDT) systems, applications and sensors.