Abstract: A method (400, 500) and a system 200 for managing service in an access network (110) for wireless communication. The method can include monitoring at least one environmental condition and, responsive to detecting a change in the environmental condition, adjusting at least one service parameter. The system can include an environmental detector (130) that monitors at least one environmental condition and a processor (202) that, responsive to detecting a change in the environmental condition, adjusts at least one service parameter.

Abstract: A method and apparatus include a scheduling entity (208) for selecting a coding scheme and transmitting the frame (304) across a communication network (100). The controller (206) coupled to scheduling entity (208) determines a transmission gain for the frame based on the received signal interference and assigned reliability factor for the communication node. The scheduler entity (208) selects the lowest coding scheme for the frame corresponding to the determined transmission gain. The transceiver (214) coupled to controller (206) via interface (212) receives the encoded frame and transmits the frame to a plurality of mobile stations in the communication network (100).

Abstract: A system and method for managing a multihop relay station in a wireless wide-area communication network includes determining whether any mobile stations are being served by the relay station. If not, inactivating the relay station by; inactivating transmitted signals from the relay station, leaving a receiver active, and monitoring signals on the active receiver. Whereafter, estimating a channel quality of at least one mobile station from the monitored signals by the inactive relay station, and activating the relay station in response to the monitored signals indicating that a channel quality of the mobile station will improve when being served by the relay station.

Abstract: A system a method for managing diagnostic sessions in a communication network includes a first step (604) of determining presence information of at least one mobile station. A next step (610) includes estimating a usage probability of the at least one mobile station based on the presence information. A next step (614) includes implementing a Diagnostic Management session in response to the usage probability.

Abstract: A system a method for managing diagnostic sessions in a communication network includes a first step (604) of determining presence information of at least one mobile station. A next step (610) includes estimating a usage probability of the at least one mobile station based on the presence information. A next step (614) includes implementing a Diagnostic Management session in response to the usage probability.

Abstract: Methods for dividing resources of base stations among multiple mobile stations are provided. According to one embodiment of the invention, an overlapping group having a plurality of mobile stations that are overlapped between at least two cellular areas are generated (310) to provide a plurality of overlapping mobile stations, which are ranked (320) based, at least in part, on at least one threshold. A maximum number of the plurality of overlapping mobile stations having a highest ranking that can be assigned with reserved frequency and timing assignments are selected (322) to provide a plurality of selected overlapping mobile stations. These selected overlapping mobile stations are assigned (324) using the reserved frequency and timing assignments.

Abstract: A method (400, 500) and a system 200 for managing service in an access network (110) for wireless communication. The method can include monitoring at least one environmental condition and, responsive to detecting a change in the environmental condition, adjusting at least one service parameter. The system can include an environmental detector (130) that monitors at least one environmental condition and a processor (202) that, responsive to detecting a change in the environmental condition, adjusts at least one service parameter.

Abstract: A method, information processing system, and wireless communication system for dynamically updating paging slot cycles associated with a wireless device (104). The method includes monitoring behavior of a wireless device (104) across multiple access networks (122). A set of slot cycles for each access network associated with the wireless device is determined in response to the monitoring (406). The method dynamically updates a set of slot cycle schedules (408) corresponding to the set of slot cycles associated with the wireless device (104) in response to the determining.

Abstract: A system and method for managing a multihop relay station in a wireless wide-area communication network includes determining whether any mobile stations are being served by the relay station. If not, inactivating the relay station by; inactivating transmitted signals from the relay station, leaving a receiver active, and monitoring signals on the active receiver. Whereafter, estimating a channel quality of at least one mobile station from the monitored signals by the inactive relay station, and activating the relay station in response to the monitored signals indicating that a channel quality of the mobile station will improve when being served by the relay station.

Abstract: A method and apparatus include a scheduling entity (208) for selecting a coding scheme and transmitting the frame (304) across a communication network (100). The controller (206) coupled to scheduling entity (208) determines a transmission gain for the frame based on the received signal interference and assigned reliability factor for the communication node. The scheduler entity (208) selects the lowest coding scheme for the frame corresponding to the determined transmission gain. The transceiver (214) coupled to controller (206) via interface (212) receives the encoded frame and transmits the frame to a plurality of mobile stations in the communication network (100).

Abstract: A system includes a base station transceiver to provide wireless service to a wireless coverage area, determine a low coverage region of the wireless coverage area, and generate incremental redundant transmissions comprising initial transmissions and subsequent transmissions to be transmitted. A smart antenna transmits the initial transmissions according to wide beam width smart antenna settings, and points at the low coverage region when transmitting the subsequent transmissions. The first transmissions and the second transmissions are transmitted on at least one of: a dedicated channel without fast feedback Automatic Request for Retransmission (“ARQ”), and a channel having negative acknowledgment (“NAK”) feedback.