Abstract: Embodiments include methods for a first network node or function (NNF) configured for machine learning (ML) model management in a communication network. Such methods include receiving, from a second NNF of the communication network, a first message including: one or more ML model identifiers corresponding to one or more ML models maintained by the first node, or an identifier of an analytic based on the ML model(s). Such methods include sending, to the second NNF, a second message including one of the following: a plurality of tuples corresponding to a plurality of ML models on which the analytic is based, each tuple including a different ML model identifier and information element(s) associated with the corresponding ML model; or a single tuple including the analytic identifier and information element(s) associated with a single ML model on which the analytic is based. Other embodiments include complementary methods for the second NNF.

Abstract: A network node in a communications network can determine a service level prediction. The network node can further generate an intent based on the service level prediction. The network node can further assign the intent to a set of intents used by the communications network.

Abstract: Embodiments include methods for a first network node or function (NNF) configured for machine learning (ML) model management in a communication network. Such methods include receiving, from a second NNF of the communication network, a first message including: one or more ML model identifiers corresponding to one or more ML models maintained by the first node, or an identifier of an analytic based on the ML model(s). Such methods include sending, to the second NNF, a second message including one of the following: a plurality of tuples corresponding to a plurality of ML models on which the analytic is based, each tuple including a different ML model identifier and information element(s) associated with the corresponding ML model; or a single tuple including the analytic identifier and information element(s) associated with a single ML model on which the analytic is based. Other embodiments include complementary methods for the second NNF.

Abstract: A network management architecture referred to as the Control/Orchestration/Management/Policy/Analytics, COMPA, architecture. The COMPA architecture functions to simplify and automate the operations (both management and business process) of a network. In one aspect, the COMPA architecture provides controlled access to functionality provided by different responsibility domains using cooperating service access control, SAC, agents.

Abstract: There is provided a software-defined networking, SDN, architecture network, comprising a first network node (100) and a second network node (300), the first network node being configured to transmit data packets comprising: user data packets belonging to two or more user data packet flows, the user data packets of each user data packet flow comprising user data plane information; and control data packets each comprising OSI layer 7, L7, information for controlling the processing by the second node of the user data packets of a respective one of the user data packet flows. The SDN architecture network further comprises an SDN architecture forwarding element configured to forward user data packets received from the first node towards the second node using forwarding information that links a forwarding address to information in an IP 5-tuple of a data packet.

Abstract: A network management architecture referred to as the Control/Orchestration/Management/Policy/Analytics (COMPA) architecture (or COMPA for short). The COMPA architecture functions to simplify and automate the operations (both management and business process) of a network. In one aspect, the COMPA architecture addresses four use case categories: (1) Resource/Service Onboarding; (2) Automated Product Offerings; (3) Automated Management; and (4) Service Exposure. COMPA enables rapid service introduction into the network and lifecycle management; dynamic network governance via policy; and controlled access to functionality provided by different responsibility domains.

Abstract: A method (100) is disclosed, the method being performed in a network controller of a Mobile Transport Network. The Mobile Transport Network comprises communication links interconnecting network entities of a cellular Radio Access Network (RAN) and a core network. The method comprises receiving, from a network entity in the core network, an indication of traffic load within the RAN or between the RAN and the core network (102). Also disclosed is a method (200), performed in a network entity of a core network, the core network being connected to a cellular RAN by a Mobile Transport Network. The Mobile Transport Network comprises communication links interconnecting network entities of the core network and the RAN. The method (200) comprises sending to a network controller of the Mobile Transport Network an indication of traffic load within the RAN or between the RAN and the core network (202).

Abstract: A network management architecture referred to as the Control/Orchestration/Management/Policy/Analytics (COMPA) architecture (or COMPA for short). The COMPA architecture functions to simplify and automate the operations (both management and business process) of a network. In one aspect, the COMPA architecture addresses four use case categories: (1) Resource/Service Onboarding; (2) Automated Product Offerings; (3) Automated Management; and (4) Service Exposure. COMPA enables rapid service introduction into the network and lifecycle management; dynamic network governance via policy; and controlled access to functionality provided by different responsibility domains.

Abstract: A network management architecture referred to as the Control/Orchestration/Management/Policy/Analytics, COMPA, architecture. The COMPA architecture functions to simplify and automate the operations (both management and business process) of a network. In one aspect, the COMPA architecture provides controlled access to functionality provided by different responsibility domains using cooperating service access control, SAC, agents.

Abstract: Being aware of a loss of signalling bearer transport through an IP Connectivity Access Network is an important issue. Therefore, the present invention relies on amending the Policing and Charging Control model with means to provide the IMS infrastructure with subscriptions to and notifications about signalling session events detected on the signalling IP flow transported through the bearer layer. To this end, a P-CSCF, or AF included therein, is amended to allow the establishment of a signalling session for subscription to notification of bearer level events for a signalling IP flow. Apart from that, new processing rules are required at the AF and PCRF for handling the signalling session, the notification of events and the termination of the signalling session.

Abstract: There is provided a software-defined networking, SDN, architecture network, comprising a first network node (100) and a second network node (300), the first network node being configured to transmit data packets comprising: user data packets belonging to two or more user data packet flows, the user data packets of each user data packet flow comprising user data plane information; and control data packets each comprising OSI layer 7, L7, information for controlling the processing by the second node of the user data packets of a respective one of the user data packet flows. The SDN architecture network further comprises an SDN architecture forwarding element configured to forward user data packets received from the first node towards the second node using forwarding information that links a forwarding address to information in an IP 5-tuple of a data packet.

Abstract: A method (100) is disclosed, the method being performed in a network controller of a Mobile Transport Network. The Mobile Transport Network comprises communication links interconnecting network entities of a cellular Radio Access Network (RAN) and a core network. The method comprises receiving, from a network entity in the core network, an indication of traffic load within the RAN or between the RAN and the core network (102). Also disclosed is a method (200), performed in a network entity of a core network, the core network being connected to a cellular RAN by a Mobile Transport Network. The Mobile Transport Network comprises communication links interconnecting network entities of the core network and the RAN. The method (200) comprises sending to a network controller of the Mobile Transport Network an indication of traffic load within the RAN or between the RAN and the core network (202).

Abstract: A Home Subscriber Server for handling IP Multimedia Subsystem subscriptions comprises means for maintaining associations between public user identities and Service Profiles, where two or more public user identities can be associated with a common Service Profile, and means for identifying to a network node all public user identities that are associated with a common Service Profile.

Abstract: A network management architecture referred to as the Control/Orchestration/Management/Policy/Analytics (COMPA) architecture (or COMPA for short). The COMPA architecture functions to simplify and automate the operations (both management and business process) of a network. In one aspect, the COMPA architecture addresses four use case categories: (1) Resource/Service Onboarding; (2) Automated Product Offerings; (3) Automated Management; and (4) Service Exposure.

Abstract: A network management architecture referred to as the Control/Orchestration/Management/Policy/Analytics (COMPA) architecture (or COMPA for short). The COMPA architecture functions to simplify and automate the operations (both management and business process) of a network. In one aspect, the COMPA architecture addresses four use case categories: (1) Resource/Service Onboarding; (2) Automated Product Offerings; (3) Automated Management; and (4) Service Exposure. COMPA enables rapid service introduction into the network and lifecycle management; dynamic network governance via policy; and controlled access to functionality provided by different responsibility domains.

Abstract: Being aware of a loss of signalling bearer transport through an IP Connectivity Access Network is an important issue. Therefore, the present invention relies on amending the Policing and Charging Control model with means to provide the IMS infrastructure with subscriptions to and notifications about signalling session events detected on the signalling IP flow transported through the bearer layer. To this end, a P-CSCF, or AF included therein, is amended to allow the establishment of a signalling session for subscription to notification of bearer level events for a signalling IP flow. Apart from that, new processing rules are required at the AF and PCRF for handling the signalling session, the notification of events and the termination of the signalling session.

Abstract: Being aware of a loss of signalling bearer transport through an IP Connectivity Access Network is an important issue. Therefore, the present invention relies on amending the Policing and Charging Control model with means to provide the IMS infrastructure with subscriptions to and notifications about signalling session events detected on the signalling IP flow transported through the bearer layer. To this end, a P-CSCF, or AF included therein, is amended to allow the establishment of a signalling session for subscription to notification of bearer level events for a signalling IP flow. Apart from that, new processing rules are required at the AF and PCRF for handling the signalling session, the notification of events and the termination of the signalling session.

Abstract: A technique is described allowing an IMS enabled network to terminate a communication request directed towards a user device in a well-defined way, even for cases in which multiple registrations for IMS are present that are related to the same physical user device. A method embodiment of this technique comprises registering multiple user agents for one and the same user device, wherein from each user agent contact information including a device ID identifying the user device is provided; and processing a communication request directed towards the user device, the processing comprising identifying multiple identical device IDs of registered contacts, and treating the communication request according to a predetermined handling scheme related to the detection of identical device IDs.

Abstract: A Home Subscriber Server for handling IP Multimedia Subsystem subscriptions comprises means for maintaining associations between public user identities and Service Profiles, where two or more public user identities can be associated with a common Service Profile, and means for identifying to a network node all public user identities that are associated with a common Service Profile.

Abstract: A Home Subscriber Server for handling IP Multimedia Subsystem subscriptions comprises means for maintaining associations between public user identities and Service Profiles, where two or more public user identities can be associated with a common Service Profile, and means for identifying to a network node all public user identities that are associated with a common Service Profile.