Method and apparatus for dynamically controlling customer traffic in a network under demand-based charging

What is claimed is: 1. A method for charging in a communication network, comprising a service-based charging function: applying, according to a service level agreement (SLA), one or more service-based charging rules to a service provided to multiple UEs, the SLA being between a provider of the service and a customer and including a dynamic component including time-based billing or location-based billing, the dynamic component and the charging rules specifying a current pricing for a particular quality of service (QoS) level for the service, the current pricing being set solely by the service-based charging function according to current conditions, wherein the charging rules prescribe charging based on one or more of: an amount of communication used for the service for serving the multiple UEs, said communication dedicated to providing the service; access to the service by each of the multiple UEs; and an amount of resource consumption for providing the service to each of the multiple UEs; and transmitting an indication of charging to the customer associated with, and charged for, the service as provided to the multiple UEs, based on the applied one or more service-based charging rules, wherein the service is provided using a network slice operating on top of the communication network, the communication network being separate from the service. 2. The method of claim 1 , wherein transmitting the indication of charging comprises transmitting the indication of charging to a virtual billing entity which provides bills to the customer, the one or more service-based charging rules are associated with the virtual billing entity, or both. 3. The method of claim 1 , wherein the indication of charging comprises charging for at least one of: all data exchanged in performance of the service; data exchanged in performance of the service wherein said data exchanged is charged at a rate per unit volume of traffic, said rate being associated with a quality of service (QoS) of the service; each communication session generated using the service; resources consumed in performance of the service; and resources consumed in performance of the service, wherein said resources include all resources reserved for the service or all resources utilized for the service. 4. The method of claim 3 , wherein the rate is dynamically changed based on demand and a dynamic charging policy corresponding to said dynamic component, or the rate is customized to different individual users of the service. 5. The method of claim 1 , wherein the one or more service-based charging rules override a service level agreement (SLA) charging rule of a UE requesting the at least one service. 6. The method of claim 1 , further comprising: receiving congestion level reports from one or more intermediate processes operative on the network; and further applying the one or more service-based charging rules based on the received congestion level reports. 7. The method of claim 1 , wherein the service is associated with the network slice provided to the customer according to the SLA, and wherein the network slice comprises core network functionalities and radio access network functionalities and is configured to provide, to the multiple UEs, access to a server supporting the service. 8. The method of claim 1 , wherein the customer is associated with an end user population comprising said multiple UEs and the charging is directed to the customer instead of an UE of said multiple UEs. 9. The method of claim 8 , wherein the customer is a machine-to-machine (M2M) service provider. 10. The method of claim 1 wherein the charging rules further prescribe charging based on one or more of: an amount of communication between the network slice providing the service and each of multiple UEs; access to the service by each of the multiple UEs; and an amount of resource consumption for providing the service to each of the multiple UEs. 11. The method of claim 1 wherein the service is provided by the customer servicing multiple UEs wherein each UE of the multiple UEs is configured to access another service provided by another customer. 12. The method of claim 1 , wherein the time-based billing comprises billing as a function of current network capacity which varies over time, the location-based billing comprises billing as a function of current network capacity which varies over time, or both. 13. A network node operative to provide service-based charging in a communication network, the network node comprising a processor operative to: apply, according to a service level agreement (SLA), one or more service-based charging rules to a service provided to multiple UEs, the SLA being between a provider of the service and a customer and including a dynamic component including time-based billing or location-based billing, the dynamic component and the charging rules specifying a current pricing for a particular quality of service (QoS) level for the service, the current pricing being set solely by the service-based charging function according to current conditions, wherein the charging rules prescribe charging based on one or more of: an amount of communication used for the service for serving the multiple UEs, said communication dedicated to providing the service; access to the service by each of the multiple UEs; and an amount of resource consumption for providing the service to each of the multiple UEs; and transmit an indication of charging to a device of the customer associated with, and charged for, the service as provided to the multiple UEs, based on the applied one or more service-based charging rules; wherein the service is provided using a network slice operating on top of the communication network, the communication network being separate from the service. 14. The network node of claim 13 , further operative to: receive congestion level reports from one or more intermediate processes operative on the network; and, apply the one or more service-based charging rules further based on the received congestion level reports. 15. The network node of claim 13 , wherein the service is associated with a network slice provided to the customer according to the SLA, and wherein the network slice comprises core network functionalities and radio access network functionalities and is configured to provide, to the multiple UEs, access to a server supporting the service. 16. The network node of claim 13 , wherein the charging is directed to the customer instead of an end user device. 17. The network node of claim 13 wherein the charging rules further prescribe charging based on one or more of: an amount of communication between the network slice providing the service and each of multiple UEs; access to the service by each of the multiple UEs; and an amount of resource consumption for providing the service to each of the multiple UEs. 18. The network node of claim 13 wherein the service is provided by the customer servicing multiple UEs wherein each UE of the multiple UEs is configured to access another service provided by another customer. 19. The network node of claim 13 , wherein the time-based billing comprises billing as a function of current network capacity which varies over time, the location-based billing comprises billing as a function of current network capacity which varies over time, or both. 20. A system comprising a network node and a device of a customer, wherein the network node is configured to: apply, according to a service level agreement (SLA), one or more service-based chargin