Scheduling use of heterogeneous frequency schemes for radio-based networks
摘要
說明書
The radio-based network may use a core network infrastructure that is provisioned dynamically and used in conjunction with a plurality of different radio access networks operated by a plurality of communication service providers. While the radio-based networks are provisioned on-demand, the radio-based networks may also be scaled up or down or terminated dynamically, thereby providing organizations with the capability to create an ephemeral radio-based network that may exist during a particular time period or periodically according to a schedule. Further, cell sites may be added to or removed from the radio-based network dynamically on demand. In various scenarios, an organization may create either a private radio-based network for internal use only or a radio-based network open to third-party customers using embodiments of the present disclosure.
Previous deployments of radio-based networks have relied upon manual deployment and configuration at each step of the process. This proved to be extremely time consuming and expensive. Further, in previous generations, software was inherently tied to vendor-specific hardware, thereby preventing customers from deploying alternative software. By contrast, with 5G, hardware is decoupled from the software stack, which allows more flexibility, and allows components of the radio-based network to be executed on cloud provider infrastructure. Using a cloud delivery model for a radio-based network, such as a 5G network, can facilitate handling network traffic from hundreds up to billions of connected devices and compute-intensive applications, while delivering faster speeds, lower latency, and more capacity than other types of networks.
