MEC creates a new ecosystem and value chain, enabling CSPs to securely open their Radio Access Network (RAN) edge to authorized third-parties while allowing them the flexibility to deploy innovative applications and services.
THE NEXT GENERATION OF MOBILE NETWORKS
Exponential growth in network traffic, new use cases, and shared spectrum resources have placed a tremendous pressure on MNOs to find the most efficient use of their allocated radio spectrum. There is a need for a New Radio evolution to improve spectral efficiency and superior network capacity.
Large scale live deployment of cloud native VNFs with several Tier 1 mobile operators enabling dramatically different economic and business models
Provides End-to-End Network Slicing Selection across Applications, Core and Radio
RICHARDSON, TX – November 28, 2017: Mavenir, focused on accelerating software network transformation and redefining network economics for Communications Service Providers (CSPs), today announced its virtualized network slicing software solution called CloudRange™ Network Slice Suite that enables end-to-end network slicing for radio, core and applications, both in 4G and 5G networks.
Mavenir recently announced a virtualized network slicing software solution dubbed CloudRange™ Network Slice Suite. The idea is virtual provisioning of a network within a network based on “criteria that are required for practical deployments such as subscriber data/intelligence in the network, MVNO network setup, and network upgrade with virtualized multivendor deployments.”
Enabling large scale live deployments of Cloud Native VNFs with mobile operators globally increasing business agility and network elasticity to enable new commercial opportunities
A welcome technology for mobile operators that provides the network flexibility and service agility that is the foundation for a variety of new business, economic and service models for upcoming 5G networks as well as today’s 4G networks.
5G boils down to three primary use cases: enhanced mobile broadband, massive support for the internet of things and mission-critical communications that require ultra-low-latency and multi-gigabit-per-second throughput.