Abstract: Methods, apparatus and devices are disclosed for identifying and of controlling communications on interfering links in a local area network (20) having user-devices (22, 23, 24, 25) located therein operable to communicate via a local area network (LAN) gateway device (30, 50) with remote devices in a communications network (10,15) outside the LAN (20), communications being carried via one or more LAN links (28) for at least a portion of a path between user-devices (22, 23, 24, 25) and the gateway device (30, 50), and being carried via a digital subscriber (xDSL) line (19) for at least a portion of a path between the gateway device (30, 50) and the remote devices.

Abstract: Methods, apparatus and devices are disclosed for controlling communications in respect of local area networks (20) having user-devices (22, 23, 24, 25) located therein operable to communicate via a local area network (LAN) gateway device (30) with remote devices in a communications network (10,15) outside the LAN (20), communications being carried via one or more LAN links (28) for at least a portion of a path between user-devices (22, 23, 24, 25) and the gateway device (30), and being carried via a digital subscriber (xDSL) line (19) for at least a portion of a path between the gateway device (30) and the remote devices.

Abstract: Methods, apparatus and devices are disclosed for identifying and of controlling communications on interfering links in a local area network (20) having user-devices (22, 23, 24, 25) located therein operable to communicate via a local area network (LAN) gateway device (30, 50) with remote devices in a communications network (10,15) outside the LAN (20), communications being carried via one or more LAN links (28) for at least a portion of a path between user-devices (22, 23, 24, 25) and the gateway device (30, 50), and being carried via a digital subscriber (xDSL) line (19) for at least a portion of a path between the gateway device (30, 50) and the remote devices.

Abstract: The invention sets out a method where a critical loading related to jitter associated with a link between the access point and a client device is determined. This critical load is the load beyond which retransmissions are insufficient for the client device to repair the video stream. The critical load is determined by sending data at varying transmission rates during a calibration mode, and measuring the jitter and packet loss rate. A safe load is then set as a fraction of this critical load. The loading associated with a multicast stream is then monitored with reference to this safe load, and if the safe load is met or exceeded, then action is taken to avoid packet loss increasing to a critical level. One action may be to adjust the transmission rate of the multicast stream for example, such that the load is reduced to below the safe load level.

Abstract: The invention sets out a method where a critical loading related to jitter associated with a link between the access point and a client device is determined. This critical load is the load beyond which retransmissions are insufficient for the client device to repair the video stream. The critical load is determined by sending data at varying transmission rates during a calibration mode, and measuring the jitter and packet loss rate. A safe load is then set as a fraction of this critical load. The loading associated with a multicast stream is then monitored with reference to this safe load, and if the safe load is met or exceeded, then action is taken to avoid packet loss increasing to a critical level. One action may be to adjust the transmission rate of the multicast stream for example, such that the load is reduced to below the safe load level.

Abstract: Methods, apparatus and devices are disclosed for controlling communications in respect of local area networks (20) having user-devices (22, 23, 24, 25) located therein operable to communicate via a local area network (LAN) gateway device (30) with remote devices in a communications network (10,15) outside the LAN (20), communications being carried via one or more LAN links (28) for at least a portion of a path between user-devices (22, 23, 24, 25) and the gateway device (30), and being carried via a digital subscriber (xDSL) line (19) for at least a portion of a path between the gateway device (30) and the remote devices.

Abstract: Examples of the present invention present a method of determining the network connectivity technology being used in a network link. The method sends test packets from the router to an end device, such as a set-top box, and measures the latency in the received packets at the end device. The packets are gradually increased in size. The increasing packet size effectively results in increasing the load on the network link between the router and the end device. The latency characteristics vary as a function of packet size (representing increasing network load), and result in a signature or “fingerprint” for the network connectivity technology being used for the link, across the load cycle. The signature can be compared to predetermined models to identify the specific technology used. The technique can be enabled using software modules installed at the gateway/router and at the end-point, such as a set-top box.

Abstract: Examples of the present invention present a method of determining the network connectivity technology being used in a network link. The method sends test packets from the router to an end device, such as a set-top box, and measures the latency in the received packets at the end device. The packets are gradually increased in size. The increasing packet size effectively results in increasing the load on the network link between the router and the end device. The latency characteristics vary as a function of packet size (representing increasing network load), and result in a signature or “fingerprint” for the network connectivity technology being used for the link, across the load cycle. The signature can be compared to predetermined models to identify the specific technology used. The technique can be enabled using software modules installed at the gateway/router and at the end-point, such as a set-top box.

Abstract: At an access point (1) to the internet (2) a controller (8) reduces the header data received with datagrams to a minimal header for transmission across a Bluetooth interface to a mobile device. This is achieved by establishing a link identity for each communication series between a mobile device (7) and a remote IP node (3, 4). By using a minimal header across the Bluetooth link it is possible to transfer datagrams received or transmitted by the mobile device much faster than would be the case if the full header required across the internet is used.