Abstract: Embodiments herein relate to a method performed by a communication node for handling packets in a communication network, which communication network is an ICN network. The communication node adds a time stamp to a packet, which packet is requesting content of a service or comprises at least a part of the content of the service and is of a format associated with the ICN network, and which time stamp is added into an ICN header of the packet. Furthermore, the communication node transmits the packet with the added time stamp towards another communication node.

Abstract: A method performed in a network node for handling an Internet Protocol, IP, packet. The IP packet originates from a source node and addresses to a destination node in an IP communication network. Upon receipt of the IP packet, the network node decapsulates the IP packet to obtain, from a network layer header of the IP packet, an indication of a point in time to drop the IP packet. The point in time to drop the IP packet is based on a first maximum delay of the IP packet between the source node and the destination node. The first maximum delay was obtained from an application software running on the source node. The network node determines whether or not to drop the IP packet based on the indication, using a clock of the network node synchronized with a clock of the source node.

Abstract: A coordination node can be configured to control communications between Visible Light Communication, VLC, Access Points, APs, and user equipments, UEs. The coordination node can: identify occurrence of an event relating to operation of a first VLC AP; determine that a second VLC AP and a third VLC AP each have communication coverage areas that are at least partially within a communication coverage area of the first VLC AP; control the second VLC AP to avoid it interfering with communications between the first VLC AP and a UE while it is within a common communication coverage area of the first VLC AP and the second VLC AP; and control the third VLC AP to avoid it interfering with communications between the first VLC AP and the UE while it is within a common communication coverage area of the first VLC AP and the second VLC AP.

Abstract: A first network node, a client device and methods therein, for enabling acquisition and delivery of a resource to the client device in a communications network. When receiving from the client device a meta interest request indicating an interest for a wanted resource, the first network node extracts from the meta interest request one or more filter parameters related to desirable characteristics of the wanted resource. The first network node then obtains identifiers of resources available in the communications network, based on the one or more filter parameters, and sends the obtained identifiers of resources to the client device in response to the received meta interest request. Thereby, a user of the client device can see which resources with the desirable characteristics are available in the network and acquire one of the resources identified in this way, without having to specify the supplier nor the resource in the initial request.

Abstract: Embodiments herein relate to a method performed by a transmitting device (12) for transferring background user data to a receiving device (10) in a communication network (1). The transmitting device (12) intercepts a packet, which packet comprises foreground user data in a payload field of the packet. The transmitting device (12) determines that the packet is intended for the receiving device (10). The transmitting device (12) establishes an available amount of data in the payload field of the packet. The transmitting device (12) adds the background user data for the receiving device (10) to the established available amount of data in the payload field. The transmitting device (12) transmits the packet with the foreground user data and the background user data to the receiving device (10).

Abstract: The present disclosure relates to a method for avoiding bandwidth shortage for online meetings in a communication network. The method comprises, via an online event scheduling system, receiving a meeting request for an online meeting from an organizer, said request comprising information about a time slot for said online meeting. The method also comprises determining whether an organization which the organizer belongs to has a meeting token available for said time slot and said number of participants. The method also comprises sending an acknowledgement to the event scheduling system, allowing the event scheduling system to book the online meeting for the participants in the event scheduling system. A finite number of meeting tokens has been provided to the organization based on a communication bandwidth available for said organization, such that a maximum number of concurrent online meetings in the organization is limited by the finite number of meeting tokens.

Abstract: A method by a coordination node is provided for controlling communications between Li-Fi APs and UEs. The method includes receiving peer connectivity reports from Li-Fi APs which identify Li-Fi APs having at least partially overlapping coverage areas, and developing a handover pathway data structure, based on the peer connectivity reports, that identifies Li-Fi APs that can receive communication handover from other identified Li-Fi APs. The method further includes determining an identifier of a first Li-Fi AP providing Li-Fi communication service for a UE, and accessing the handover pathway data structure using the identifier of the first Li-Fi AP to determine an identifier of a second Li-Fi AP to which handover from the first Li-Fi AP can be performed. The method then initiates handover of the Li-Fi communication service for the UE from the first Li-Fi AP to the second Li-Fi AP.

Abstract: The present disclosure relates to a method for avoiding bandwidth shortage for online meetings in a communication network. The method comprises, via an online event scheduling system, receiving a meeting request for an online meeting from an organizer, said request comprising information about a time slot for said online meeting. The method also comprises determining whether an organization which the organizer belongs to has a meeting token available for said time slot and said number of participants. The method also comprises sending an acknowledgement to the event scheduling system, allowing the event scheduling system to book the online meeting for the participants in the event scheduling system. A finite number of meeting tokens has been provided to the organization based on a communication bandwidth available for said organization, such that a maximum number of concurrent online meetings in the organization is limited by the finite number of meeting tokens.

Abstract: Methods and devices for maintaining a device-operated function. A first device initially operates as an active master with responsibility to execute the device-operated function by automatically performing one or more operation tasks according to certain operational parameters and gaining knowledge when performing the operation tasks. Meanwhile, a second device is acting as a passive standby device. When the first device cannot or should not operate as the active master anymore, e.g. due to low battery, the responsibility is transferred to the second device by transferring the operational parameters and the knowledge from the first device to the second device. Then, the second device operates as the active master with responsibility to execute the device-operated function according to the operational parameters and using the knowledge if required.

Abstract: A gateway, a Connectivity Management System (CMS), a system and methods therein for assisting a server with collecting data from a capillary device are provided. The gateway collects the data from the capillary device; and transmits the data to the server via the CMS. The data is transmitted in a tunnel from the gateway to the CMS, wherein the tunnel is created according to a connectivity parameter associated to a key of the capillary device stored in the CMS.

Abstract: A coordination node can be configured to control communications between Visible Light Communication, VLC, Access Points, APs, and user equipments, UEs. The coordination node can: identify occurrence of an event relating to operation of a first VLC AP; determine that a second VLC AP and a third VLC AP each have communication coverage areas that are at least partially within a communication coverage area of the first VLC AP; control the second VLC AP to avoid it interfering with communications between the first VLC AP and a UE while it is within a common communication coverage area of the first VLC AP and the second VLC AP; and control the third VLC AP to avoid it interfering with communications between the first VLC AP and the UE while it is within a common communication coverage area of the first VLC AP and the second VLC AP.

Abstract: A method by a coordination node is disclosed for controlling communications between visible Light Communication, VLC, Access Points, AP, and User Equipments, UEs. The method includes identifying occurrence of an event relating to operation of a first VLC AP. The method further includes determining that a second VLC AP and a third VLC AP each have communication coverage areas that are at least partially within a communication coverage area of the first VLC AP, responsive to identification of occurrence of the event. The method then controls the second and the third VLC APs responsive to the determination to avoid their interfering with communications between the first VLC AP and any UEs within common communication coverage areas of the second or the third VLC APs. Related coordination nodes are disclosed.

Abstract: An energy metering device (16) measures the energy consumption of a group of energy consuming devices (18, 20, 22), compares the measured energy consumption with an energy consumption threshold representing a level below which renewable sources are used for the generation of energy and indicates (I) to energy consuming devices (18, 20) of the group if the measured energy consumption is on one of the two sides of the energy consumption threshold. An energy consuming device (18) receives an indication (I), investigates if the energy consumption has crossed the energy consumption threshold using received indications and adjusts an own current energy consumption if it has.

Abstract: A method by a coordination node is provided for controlling communications between Li-Fi APs and UEs. The method includes receiving peer connectivity reports from Li-Fi APs which identify Li-Fi APs having at least partially overlapping coverage areas, and developing a handover pathway data structure, based on the peer connectivity reports, that identifies Li-Fi APs that can receive communication handover from other identified Li-Fi APs. The method further includes determining an identifier of a first Li-Fi AP providing Li-Fi communication service for a UE, and accessing the handover pathway data structure using the identifier of the first Li-Fi AP to determine an identifier of a second Li-Fi AP to which handover from the first Li-Fi AP can be performed. The method then initiates handover of the Li-Fi communication service for the UE from the first Li-Fi AP to the second Li-Fi AP.

Abstract: There is provided mechanisms for commissioning a virtualized entity in a computerized virtualization environment. A method is performed by the virtualized entity. The method comprises acquiring an indication for the virtualized entity to be commissioned. The method comprises acquiring environment data from the computerized virtualization environment for determining what kind of functionality the virtualized entity is to provide. The method comprises acquiring configuration parameters based on the environment data. The method comprises applying the configuration parameters, thereby commissioning the virtualized entity.

Abstract: A method by a coordination node is provided for controlling communications between Li-Fi APs and UEs. The method includes receiving peer connectivity reports from Li-Fi APs which identify Li-Fi APs having at least partially overlapping coverage areas, and developing a handover pathway data structure, based on the peer connectivity reports, that identifies Li-Fi APs that can receive communication handover from other identified Li-Fi APs. The method further includes determining an identifier of a first Li-Fi AP providing Li-Fi communication service for a UE, and accessing the handover pathway data structure using the identifier of the first Li-Fi AP to determine an identifier of a second Li-Fi AP to which handover from the first Li-Fi AP can be performed. The method then initiates handover of the Li-Fi communication service for the UE from the first Li-Fi AP to the second Li-Fi AP.

Abstract: This disclosure relates to determining aggregate energy consumption associated with sending content (e.g., media content, such as a video file, audio file, etc.) across a network. For example, node 106A receives a network packet from server 104 and forwards the packet to node 106B. Node 106A determines an amount of energy consumed by node 106A in processing the packet. Node 106A adds this determined energy consumption value to an energy consumption value in a header within the network packet to produce an aggregate energy consumption value and send the network packet with the aggregate energy consumption value to node 106B. Node 106B receives the network packet from node 106a. Node 106B determines an amount of energy consumed by node 106B in processing the packet.

Abstract: A method by a coordination node is disclosed for controlling communications between visible Light Communication, VLC, Access Points, AP, and User Equipments, UEs. The method includes identifying occurrence of an event relating to operation of a first VLC AP. The method further includes determining that a second VLC AP and a third VLC AP each have communication coverage areas that are at least partially within a communication coverage area of the first VLC AP, responsive to identification of occurrence of the event. The method then controls the second and the third VLC APs responsive to the determination to avoid their interfering with communications between the first VLC AP and any UEs within common communication coverage areas of the second or the third VLC APs. Related coordination nodes are disclosed.

Abstract: A first network node, a client device and methods therein, for enabling acquisition and delivery of a resource to the client device in a communications network. When receiving from the client device a meta interest request indicating an interest for a wanted resource, the first network node extracts from the meta interest request one or more filter parameters related to desirable characteristics of the wanted resource. The first network node then obtains identifiers of resources available in the communications network, based on the one or more filter parameters, and sends the obtained identifiers of resources to the client device in response to the received meta interest request. Thereby, a user of the client device can see which resources with the desirable characteristics are available in the network and acquire one of the resources identified in this way, without having to specify the supplier nor the resource in the initial request.

Abstract: A radio network node (12) is configured to serve a wireless device (14) in a wireless communication system (10). The radio network node (12) in this regard is configured to determine that the wireless device (14) is onboard a public transit vehicle (16). Based on that determination, the radio network node (12) is configured to predict a position of the public transit vehicle (16), e.g., based on a route schedule (20) of the public transit vehicle (16) and/or positioning measurements (22) received from the public transit vehicle (16). The radio network node (12) is further configured to control beamforming for the wireless device (14) based on the predicted position of the public transit vehicle (16). In some embodiments, this controlling comprises performing dynamic beam direction adjustment, as needed to track the vehicle (16)'s movement.