A method in a network node for Multiple Input Multiple Output (MIMO) is provided. The method comprises: obtaining a precoding matrix indicator (PMI) for a first codebook for use in a Single User Multiple Input Multiple Output (SU-MIMO) transmission; determining a precoding matrix for a second codebook, based on the obtained precoding matrix indicator; and selecting the determined precoding matrix for the second codebook in response to determining that an User Equipment (UE) is scheduled for a Multi-User (MU)-MIMO transmission. A network node for performing this method is also provided.

An approach is provided that hides a caller's telephone number and instead displays a user friendly string that acts as an alias for the caller's identity. The approach receives, from a caller using a calling device, an incoming call at a receiving device that is the information handling system such as a smart phone. The incoming call includes a set of textual metadata that includes an alias corresponding to caller as well as the caller's telephone number that corresponds to the calling device. The approach then displays, on a display screen accessible from the receiving device, the alias while inhibiting display of the caller telephone number, thus keeping the caller's actual telephone number hidden from the user of the receiving device.

An approach is provided that hides a caller's telephone number and instead displays a user friendly string that acts as an alias for the caller's identity. The approach receives, from a caller using a calling device, an incoming call at a receiving device that is the information handling system such as a smart phone. The incoming call includes a set of textual metadata that includes an alias corresponding to caller as well as the caller's telephone number that corresponds to the calling device. The approach then displays, on a display screen accessible from the receiving device, the alias while inhibiting display of the caller telephone number, thus keeping the caller's actual telephone number hidden from the user of the receiving device.

A wireless communication network configured to share a wireless resource block that comprises a same time interval and a same radio subcarrier. The wireless communication network comprises network circuitry and transceiver circuitry. The network circuitry determines UE locations and determines UE correlation factors between the UEs based on the UE locations. The network circuitry associates the UE correlation factors with Three-Dimensional (3D) geographic containers based on the first UE locations and generates container correlation factors for the Three-Dimensional (3D) geographic containers responsive to the associations. The network circuitry selects UEs for the shared wireless resource block. The transceiver circuitry wirelessly transfers user data to the selected UEs over the shared wireless resource block that comprises the same time interval and the same radio subcarrier.

Control information (126) related to the reception of data (128) within a subframe (116) is transmitted over multiple subframes (113, 116) over multiple carrier (107, 108) from communication system infrastructure (102). A controller (134) in a mobile wireless communication device (104) reconstructs the control information (126) received over multiple subframes (113, 116) based on at least some control information (130) in a first physical control channel (118) in a first subframe (113) transmitted over a first carrier (107) and at least some other control information (132) in a second physical control channel (120) in a second subframe (116) transmitted over a second carrier (108).

A particular overall architecture for transmission over a bonded channel system consisting of two interconnected MoCA (Multimedia over Coax Alliance) 2.0 SoCs (Systems on a Chip) and a method and apparatus for the case of a “bonded” channel network. With a bonded channel network, the data is divided into two segments, the first of which is transported over a primary channel and the second of which is transported over a secondary channel.

A particular overall architecture for transmission over a bonded channel system consisting of two interconnected MoCA (Multimedia over Coax Alliance) 2.0 SoCs (Systems on a Chip) and a method and apparatus for the case of a “bonded” channel network. With a bonded channel network, the data is divided into two segments, the first of which is transported over a primary channel and the second of which is transported over a secondary channel.

A wireless communication system includes a first wireless communication node for transmitting a data signal that is sent to a second wireless communication node by skywave propagation over at least two different data transmission paths. The first data transmission path includes at least one reflection point where the data signal is reflected by the atmosphere and the second data transmission path includes more reflection points than the first data transmission path. The data signal that travelled along the first data transmission path is decoded before the data signal that travelled along the second data transmission path.

The embodiments herein relate to a method in a first mobility management node (108a) for handling updated subscriber data associated with a UE (101). The UE (101) is currently unreachable by the first mobility management node (108a). The first mobility management node (108a) receives, from a subscriber database (128), updated subscriber data associated with the UE (101). At least part of the updated subscriber data is modified. The first mobility management node (108a) determines that transmission of the updated subscriber data to a gateway node (110) should be postponed until the UE (101) has become reachable.

The embodiments herein relate to a method in a first mobility management node (108a) for handling updated subscriber data associated with a UE (101). The UE (101) is currently unreachable by the first mobility management node (108a). The first mobility management node (108a) receives, from a subscriber database (128), updated subscriber data associated with the UE (101). At least part of the updated subscriber data is modified. The first mobility management node (108a) determines that transmission of the updated subscriber data to a gateway node (110) should be postponed until the UE (101) has become reachable.