that allow network segments that are independent, isolated and customisable to be created according to our needs
that are able to work on any 2G/3G/4G, and of course, 5G radio technology
that allow new tailored services
that collaborate actively in their own operating and maintenance through assisted diagnosis smart systems
that allow the continuous updates of their elements and services for being always up-to-date
that are configurable autonomously, directly by the client’s personnel, without the need for qualified technical staff
Network Slicing Technology
Our commitment to the virtualization of networks will put an end to network capacity tyranny. Virtual networks adapt automatically and smartly to service demands at all times, by scaling out/in, activating and deactivating new network elements according to the service load.
Can you imagine being able to have a wide range of fully independent networks with different services?
The hyperelasticity provided by 5G will enable us to deploy several customisable networks at the same time, in order to meet the needs of not only our main business, but also new super specific niche businesses.
New MVNOs Ad Hoc
Towards the MVNO of the future
Extreme versatility on both the control and the user planes
5G Network Slicing automatization capacity
Customised smart provisioning: my whole network – and just my network – in a single access point
Telco Service Mesh: From virtual network functions to the completely virtual network
Stateless network functions: design resilience
Multitenancy in the 5G era: When different tenants need different topologies
The new paradigm: The auto-adaptive network
Everything is automatic, according to the technical staff’s instructions, since in these circumstances there is no time to lose.
Complex networks: computer-assisted monitoring
A hyperelastic network must be maintainable: the network itself must cooperate. Each element must monitor its own performance and that of those around it. The core intelligence collects all the information and generates multiple traces: Communication traces (Brain) for an interactive diagnosis, service graphics, real-time traces, running within threshold, and the like. Most importantly, it will constantly determine whether the network is working as expected, and it will actively provide information about any anomaly. Because not every anomaly has to do with working thresholds.