Device and method for providing a quality of service function

What is claimed is: 1. A device for providing a quality of service (QoS) function for at least one communication service of at least one application entity in a communication network that includes a plurality of network entities, the device comprising at least one hardware element configured to: activate, in response to a subscription request of the at least one application entity, a subscription of the at least one application entity to the QoS function; transmit a monitoring request to one or more of: the at least one application entity, at least one network entity, or at least one user equipment, wherein the monitoring request comprises specific cells and geographical location reporting; obtain a monitoring response from one or more of: the at least one application entity, the at least one network entity, or the at least one user equipment; predict a change in QoS of the at least one communication service of the at least one application entity based on the obtained monitoring response, wherein the change in the QoS comprises a change in at least one of location information, timing information, or probabilistic information; and transmit information based on the change in the QoS of the at least one communication service of the at least one application entity to one or more of the at least one application entity or one or more network entities of the plurality of network entities in the communication network; wherein the subscription of the at least one application entity to the QoS function is activated based on a subscription parameter provided from the at least one application entity to the communication network; and wherein the subscription parameter includes an area for predicting the change in the QoS of the at least one communication service of the at least one application entity. 2. The device according to claim 1 , wherein the at least one hardware element is further configured to: notify the change in the QoS to one or more of the at least one application entity or one or more network entities of the plurality of network entities, by providing an additional QoS indicating the change in the QoS. 3. The device according to claim 1 , wherein the subscription parameter includes one or more of: a protocol data unit (PDU) session identification number (PDU session ID); a vehicle-to-everything communication service identification number (V2X communication service ID); a single or a group of affected vehicle-to-everything user equipment identification numbers (V2X-UE IDs); a timing window and/or a frequency of the subscription request to the QoS function; a time horizon for determining the change in the QoS of the at least one communication service; a predefined geographical area for determining the change in the QoS of the at least one communication service; a threshold value of the change in the QoS of the at least one communication service; a duration time of the at least one communication service; a segment-based subscription or an end to end, E2E, subscription to the QoS function; a required capability and a monitoring exposure to the at least one application entity; a required QoS for the at least one communication service; one or more alternative QoS levels that could be used, in response to determining that a primary QoS is not available; or a type of a link including Sidelink (PC5) and/or Cellular communication (Uu). 4. The device according to claim 1 , wherein the monitoring request includes one or more of: a monitoring parameter; a monitoring level; a duration time and a granularity of the monitoring response; or a location information of the monitoring request. 5. The device according to claim 1 , wherein the change in the QoS of the at least one communication service is predicted based on one or more of: mobility information of the at least one application entity; a behavior of the at least one application entity; map information; historic information representing a combination of: the location of the at least one user equipment and/or the communication network and/or radio information; and characteristics of the communication network. 6. The device according to claim 1 , wherein notifying the change in the QoS comprises providing a notification to one or more of the at least one application entity or the one or more network entities of the plurality of network entities, based on a type of the at least one communication service, including at least one of a sidelink communication (PC5) and/or a Cellular communication (Uu). 7. The device according to claim 1 , wherein notifying the change in the QoS comprises providing a notification to one or more of the at least one application entity or the one or more network entities of the plurality of network entities, including one or more of: a protocol data unit (PDU) session identification number (PDU session ID); a vehicle-to-everything communication service identification number (V2X communication service ID); a type of a link including sidelink communication (PC5) and/or Cellular communication (Uu); a single or a group of affected vehicle-to-everything user equipment identification numbers (V2X-UE IDs); a QoS parameter; a proposal for a new level of the QoS; timing information of the change in the QoS; location information of the change in the QoS; a level of the QoS per user equipment; timing information of the user equipment; or probabilistic information for the change in the QoS. 8. The device according to claim 1 , wherein the at least one communication service includes a vehicle-to-everything (V2X) communication service. 9. The device according to claim 8 , wherein the at least one application entity includes one or more of: an application server for the V2X communication service; a V2X application client being representative of a user equipment; an application function (AF) being representative of a public land mobile network-owned (PLMN-owned) application function; or a middleware application entity located between the application server and the communication network. 10. The device according to claim 9 , wherein the application server for the V2X communication service includes one or more of: a V2X application server (V2X AS); a group-communications system application server (GCS-AS); and a content provider. 11. The device according to claim 1 , wherein the at least one hardware element is further configured to: predict the change in the QoS of the at least one communication service based on a slice-based architecture. 12. The device according to claim 1 , wherein the at least one communication service is based on a direct vehicle-to-vehicle (V2V) communication service, and the at least one application entity is based on a first user equipment. 13. The device according to claim 12 , wherein the at least one hardware element is further configured to: provide a vehicle-to-everything control function (V2XCF) for providing a sidelink parameter to the first user equipment. 14. The device according to claim 13 , wherein the at least one hardware element is further configured to: provide, via the V2XCF, a notification message to the first user equipment, wherein the notification message is representative of an enhanced provisioning policy for the QoS function. 15. The device according to claim 14 , wherein the notification message provided to the first user equipment includes one or more of: the sidelink parameter; a mapping of proximity services (ProSE), per packet priorities quality of service (PPPP/QoS), class to packet delay budget (PDB), and packet error rate (PER)