Abstract: A base station (103) operates a hybrid retransmission scheme for a communication to a first subscriber unit (101) over a communication channel of an air interface of a cellular communication system. The base station (103) comprises a retransmission parameter controller (209) which sets a transmission parameter, such as a transmit power or an error correcting scheme, for a transmission of the communication in response to an operating point for the retransmission scheme. A CQI processor (203) determines a channel quality indication for the communication channel and a variation processor (205) determines a variation measure of a variation of the channel quality indication. The variation measure can for example be a rate of change. An operating point controller (207) sets the operating point in response to the variation measure. The invention may allow improved setting of transmission parameters for initial transmissions thereby providing higher throughput, reduced resource consumption and reduced delay.

Abstract: A cellular communication system comprises a media gateway (111) which interfaces between a packet switched network (113) and a circuit switched network (115). The media gateway (111) time aligns received packet data in response to timestamps of these. Each of first and second RNC (105, 109) comprise a Node B interface (201) which receives real time data being data of an air interface communication from the remote station (101) to a base station (103, 107) supported by the RNC (105, 109). A packet processor (203, 205) then transmits the data packets to the media gateway (111) via the packet switched network (113). A timestamp processor (207) determines timestamps for the data packets in response to a timing characteristic of the air interface communication.

Abstract: A base station (101) supports a remote station (117) making uplink transmissions using an uplink scrambling code in a first cell. A controller (119) determines a set of uplink scrambling codes from an identity of the remote station (117) and selects the used code therefrom. An access point (111) determines the group of remote stations registered at the access point. A measurement code processor (205) determines the uplink scrambling codes potentially used by the remote stations. A measurement unit (207, 209) then monitors for received signals using these codes and a handover detection processor (211) generates a potential handover detection for the remote station (117) in response to a detection of a received signal using the uplink scrambling code of the remote station (117).

Abstract: A cellular communication system comprises a media gateway (111) which interfaces between a packet switched network (113) and a circuit switched network (115). The media gateway (111) time aligns received packet data in response to timestamps of these. Each of first and second RNC (105, 109) comprise a Node B interface (201) which receives real time data being data of an air interface communication from the remote station (101) to a base station (103, 107) supported by the RNC (105, 109). A packet processor (203, 205) then transmits the data packets to the media gateway (111) via the packet switched network (113). A timestamp processor (207) determines timestamps for the data packets in response to a timing characteristic of the air interface communication.

Abstract: A base station (101) supports a remote station (117) making uplink transmissions using an uplink scrambling code in a first cell. A controller (119) determines a set of uplink scrambling codes from an identity of the remote station (117) and selects the used code therefrom. An access point (111) determines the group of remote stations registered at the access point. A measurement code processor (205) determines the uplink scrambling codes potentially used by the remote stations. A measurement unit (207, 209) then monitors for received signals using these codes and a handover detection processor (211) generates a potential handover detection for the remote station (117) in response to a detection of a received signal using the uplink scrambling code of the remote station (117).

Abstract: A serving radio network controller controls the data rate for uplink and downlink transmissions between a mobile device and a serving access point by negotiating with a drift radio network controller of a drift access point in a wireless communication system. The serving radio network controller receives a first message from the drift radio network controller, wherein the first message includes information indicating a first maximum data rate for transmissions between the mobile device and the drift access point. Based on the information indicating the first maximum data rate, the serving access point determines a second maximum data rate for transmissions between the mobile device and the serving access point.

Abstract: A base station (103) operates a hybrid retransmission scheme for a communication to a first subscriber unit (101) over a communication channel of an air interface of a cellular communication system. The base station (103) comprises a retransmission parameter controller (209) which sets a transmission parameter, such as a transmit power or an error correcting scheme, for a transmission of the communication in response to an operating point for the retransmission scheme. A CQI processor (203) determines a channel quality indication for the communication channel and a variation processor (205) determines a variation measure of a variation of the channel quality indication. The variation measure can for example be a rate of change. An operating point controller (207) sets the operating point in response to the variation measure. The invention may allow improved setting of transmission parameters for initial transmissions thereby providing higher throughput, reduced resource consumption and reduced delay.