| Patent application number | Description | Published |
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| 20080267131 | Pre-Synchronization Method for Hard Handovers in Wireless Networks - A pre-synchronization method in which the source cell chooses a signature for the user equipment (mobile) to use in the target cell for RACH access, and instructs the user equipment to perform RACH access and return to the current cell before a handover command (break command) is issued. This causes parallel execution of the UL synchronization process with the context transfer process among the two base stations. | 10-30-2008 |
| 20090031185 | HYBRID ARQ SYSTEMS AND METHODS FOR PACKET-BASED NETWORKS - Systems and methods for hybrid automatic repeat-request (HARQ) communication, comprising a transmitter employing hybrid automatic repeat-request (HARQ) and able to retransmit an incorrectly received packet without differently re-encoding data bits. The transmitter is further able to select at least one bit from any in a set to forward in at least one retransmission. The set contains any bits punctured from an original transmission corresponding to the retransmission. Other embodiments transmit, by a transmitter using hybrid automatic repeat-request (HARQ), a packet containing at least one punctured bit, select—without differently re-encoding data bits—at least one bit from any in a set to forward in at least one re-transmission of an incorrectly received packet, and retransmit the packet with at least one different punctured bit. The set contains any bits punctured from an original transmission corresponding to the re-transmission. | 01-29-2009 |
| 20090040937 | COEXISTENCE OF DIFFERENT NETWORK TECHNOLOGIES - In at least some embodiments, a communication device includes a plurality of network technology subsystems, each subsystem associated with a different network technology. The communication device also includes a controller coupled to the plurality of network technology subsystems. The controller enables coexistence of the different network technologies in accordance with at least one monitored quality of service (QoS) parameter. | 02-12-2009 |
| 20090040945 | SYSTEMS AND METHODS FOR UTILIZING GLOBAL TRAFFIC FLOW PARAMETERS FOR PACKET-BASED NETWORKS - Embodiments achieve simpler solutions to coexistence problems for wireless network subsystems in a single device. Some embodiments describe systems and methods for determining change in at least one network technology traffic flow, performing mapping functions between network technology-specific parameters of the changed traffic flow and global traffic flow parameters, and prioritizing the at least one changed network technology traffic flow based on the mapped global traffic flow parameters. Further embodiments alternatively describe a mapper for performing mapping between at least one network technology-specific parameter of a network technology subsystem traffic flow and at least one global traffic flow parameter. | 02-12-2009 |
| 20090040990 | SYSTEMS AND METHODS FOR AVOIDING AVALANCHE EFFECT IN COEXISTING WIRELESS NETWORKS - Systems and methods for avoiding access point transmission rate fall-back mechanism having an avalanche effect when acknowledgements are not received for packets sent during co-existence of WLAN and other wireless network technologies. A receiver comprises at least two dissimilar network technology subsystems. In some embodiments, a transmitter transmits a handshake to the receiver prior to transmission of at least one data packet and does not reduce a transmission rate of future transmissions to the receiver if the transmitter does not receive a reply to the handshake. In other embodiments, the receiver is able to send an indicator to a transmitter requesting a protection mechanism be employed prior to transmission by the transmitter of at least one data packet. In further embodiments, the receiver is able to negotiate with the transmitter for the transmitter to employ a protection mechanism prior to transmission of at least one data packet to the receiver. | 02-12-2009 |
| 20090147678 | SYSTEMS AND METHODS FOR TRAFFIC FLOW BASED RATE ADAPTATION IN PACKET-BASED NETWORKS - Embodiments provide systems and methods for traffic flow based rate adaptation in packet-based networks. In some embodiments, a communications system comprises at least one receiver and a transmitter able to control transmission to the at least one receiver of a packet among a plurality of traffic flows, each traffic flow having its own transmission rate adaptation mechanism. In other embodiments, a communications method comprises determining, by a transmitter able to control transmission of a packet among a plurality of traffic flows each having its own transmission rate adaptation mechanism, a parameter value, and, depending upon the parameter value, adapting the transmission rate of at least one traffic flow. In further embodiments, a communications device comprises a transmitter able to control transmission of a packet among a plurality of traffic flows, each traffic flow having its own transmission rate adaptation mechanism. | 06-11-2009 |
| 20090163145 | SYSTEMS AND METHODS FOR TIME OPTIMIZATION FOR SILENCING WIRELESS DEVICES IN COEXISTENCE NETWORKS - Embodiments provide systems and methods to optimize the time when to transmit a silencing frame, and hence, improve the overall network throughput and avoid access point transmission rate fall-back mechanism having an avalanche effect during coexistence of dissimilar wireless network technologies. A receiver comprises at least two dissimilar network technology subsystems, at least one subsystem of which is higher priority than at least another of the dissimilar subsystems. In some embodiments, a receiver is able to transmit a silencing frame during a predetermined transmission window within a lower priority technology network interval. In other embodiments, a receiver calculates a predetermined transmission window, the predetermined transmission window to occur within a lower priority technology network interval, and transmits a silencing frame during the predetermined transmission window. In further embodiments, a receiver is able to calculate a transmission window to occur during a lower priority technology network interval, and transmit a silencing frame during the calculated transmission window. | 06-25-2009 |
| 20090247071 | METHOD AND SYSTEM FOR FM TRANSMITTER COEXISTENCE - A system and method for operating an FM system and wireless networking system coexistent in a mobile wireless device. A mobile wireless device includes a frequency modulation (“FM”) system that includes an FM transmitter and, optionally, an FM receiver. The mobile wireless device also includes a wireless networking system having a network receiver. The FM system is configured to disable the FM transmitter if an amplitude of a modulating signal provided to the FM transmitter is below a predetermined threshold. | 10-01-2009 |
| 20090257377 | REDUCING BUFFER SIZE FOR REPEAT TRANSMISSION PROTOCOLS - A wireless communication device includes a receive buffer and control logic coupled to the receive buffer. The control logic implements an algorithm to selectively drop data blocks in the receive buffer once a predetermined fill threshold for the receive buffer is reached. The receive buffer is sized so that a drop activity level for the algorithm is within a predetermined range. | 10-15-2009 |
| 20090303975 | METHOD AND SYSTEM FOR WIRELESS COEXISTENCE - A system and method for reducing wireless local area network (WLAN) interference with a different wireless network (non-WLAN). A wireless device includes a WLAN transceiver and a non-WLAN transceiver. The WLAN transceiver is configured to operate in a WLAN, and configured to operate selectively using one of a greater bandwidth and a lesser bandwidth in a frequency band. The wireless communication of the non-WLAN is incompatible with the WLAN. The non-WLAN transceiver is configured to request the WLAN transceiver operate using the lesser bandwidth. | 12-10-2009 |
| 20100040033 | REVERSE DIRECTION GRANT (RDG) FOR WIRELESS NETWORK TECHNOLOGIES SUBJECT TO COEXISTENCE INTERFERENCE - In accordance with at least some embodiments, a system includes an access point and a station in communication with the access point. The station has at least two network technology subsystems subject to coexistence interference. The station selectively uses reverse direction grant (RDG) for communications by network technology subsystems subject to coexistence interference. | 02-18-2010 |
| 20100067423 | POWER-SAVE (PS)-POLL SUBSTITUTION - In accordance with at least some embodiments, a system comprises an access point and a station in communication with the access point. The station has at least two network technology subsystems subject to coexistence interference. The station selectively implements Power Save (PS)-Poll substitution (PSPS) logic to handle communications between the station and the access point. | 03-18-2010 |
| 20100067424 | BOUNDED POWER-SAVE-POLLING (BPS) - In accordance with at least some embodiments, a system comprises an access point and a station in communication with the access point. The station has at least two network technology subsystems subject to coexistence interference. The station selectively implements bounded Power Save (PS)-Polling (BPS) logic to handle communications between the station and the access point. The BPS logic operates to confine PS-Poll transmissions starts to one of two separate windows during a medium grant duration of the station. | 03-18-2010 |
| 20100067516 | SYNCHRONIZED CHANNEL ACCESS IN COEXISTING WIRELESS NETWORKS - A system and method for arbitrating channel access in a wireless device including co-located network transceivers are disclosed herein. A wireless device includes a first wireless transceiver and a second wireless transceiver. The first transceiver is configured for operation with a first wireless network. The second transceiver is configured for operation with a second wireless network. The wireless device further includes logic that determines which of the first and second transceivers is enabled to transmit at a given time. The logic causes the first transceiver to transmit a notification signal indicating a time period during which the second transceiver of the wireless device will perform a first wireless transaction, and during which, based on receiving the notification signal, a different wireless device performs a second wireless transaction via the second wireless network without transmitting a notification signal. | 03-18-2010 |
| 20100069112 | SCHEDULING TRANSMISSIONS IN COEXISTING WIRELESS NETWORKS - A system and method for scheduling channel access in a wireless device including co-located network transceivers are disclosed herein. A wireless device includes a first wireless transceiver, a second wireless transceiver, and an arbiter. The first wireless transceiver is configured for communication via a first wireless network. The second wireless transceiver is configured for communication via a second wireless network. The arbiter controls which one of the first and second transceivers is enabled to transmit at a given time. The arbiter computes a predicted a start time for a transmission via the second wireless transceiver and computes a transmission duration for a first packet pending transmission via the first transceiver. Based on the predicted start time and the computed duration, the arbiter transmits the first packet at a time when the first packet transmission does not overlap the transmission via the second wireless transceiver. | 03-18-2010 |
| 20100085946 | ADAPTIVE TRANSMISSIONS IN WIRELESS NETWORKS - A network includes an access point and a station. The station transmits to the access point a current clear-to-send packet at a current time during a current exchange. The transmission is based on success or failure of a previous exchange during which a previous clear-to-send packet was transmitted at a previous time. | 04-08-2010 |
| 20100093392 | PROTECTING UPLINK TRANSMISSIONS IN COEXISTING WIRELESS NETWORKS - A system and method for protecting a wireless device including co-located network transceivers from uplink starvation are disclosed herein. A wireless device includes a first wireless transceiver and a second wireless transceiver respectively configured for communication via a first wireless network and a second wireless network. The wireless device further includes logic that determines which of the first and second transceivers is enabled to transmit at a given time. The logic determines a duration of a pending transmission via the first transceiver, and determines a predicted start time of a predicted transmission via the second transceiver. Based on the duration and the predicted start time, the logic transmits a notification signal indicating that a receiving device should refrain from transmitting on the first network for a reserved time ending after the pending transmission starts. The pending transmission starts following completion of the predicted transmission. | 04-15-2010 |
| 20100189024 | PS-Poll Transmission Opportunity in WLAN - Embodiments of the invention provide a dynamic priority adjustment algorithm for PS-Poll packets in WLAN and dynamic CW (contention window) management algorithm for PS-Poll packets in WLAN. These improve the performance of traffic flows associated with STAs in power save mode. Maintain the QoS requirements of the traffic flows. When PS-Poll packets are not able to be sent, the QoS STA will experience a long delay of the downlink data, even if the downlink data has been assigned a higher AC. The delay may potentially violate the QoS bound required by the data flow. Using the embodiments can significantly decrease the probability of this event. | 07-29-2010 |
| 20100214942 | ADAPTIVE PERIODIC POWER-SAVE (PS) POLLING - In accordance with at least some embodiments, a system includes an access point and a station in communication with the access point. The station selectively implements adaptive periodic Power-Save (APPS)-Polling logic for communications between the station and the access point. The APPS-Polling logic is configured to determine a timer value for periodic PS-Polling by monitoring a periodicity of arrival packets for at least a threshold amount of time. | 08-26-2010 |
| 20100238807 | REDUCING CHANNEL OVERHEAD IN A WIRELESS COEXISTENCE NETWORK - A system composed of a device configured to communicate, using a first wireless protocol, with a node. The system also comprises a processor coupled to the device and configured to determine whether the node operates in a coexistence mode. If the processor determines that the node operates in a coexistence mode then, as a result, the processor determines when the node operates in the first wireless protocol and communicates, by way of the device and without solicitation from the node, with the node when the node operates in the first wireless protocol. | 09-23-2010 |
| 20100246464 | POWER CONSERVATION THROUGH BI-DIRECTIONAL ASSOCIATION OF MULTIPLE DEVICES - A system comprises radio circuitry, an access point (AP) feature, and a station (STA) feature. The AP feature causes the radio circuitry to transmit data to a hardware device during a beacon interval. The AP feature is not used to receive data from the hardware device during the beacon interval except to receive data request signals. The STA feature causes the radio circuitry to receive data from the hardware device during the beacon interval. The STA feature is not used to transmit data to the hardware device during the beacon interval except to transmit data request signals. The radio circuitry is in a de-powered state during the beacon interval when the radio circuitry does not transmit or receive data or data request signals. | 09-30-2010 |
| 20100268841 | USING HIGHER LAYER INFORMATION TO FACILITATE COEXISTENCE IN WIRELESS NETWORKS - A system composed of a node configured to transmit a first data stream to a first device using a first protocol and a second data stream to a second device using a second protocol. The system is also composed of a controller in communication with the node. The controller is configured to prioritize a first packet of the first data stream prior to transmission of the first packet. The prioritization is based on application layer information of the first packet. If the application layer information of the first packet indicates that the priority of the first packet is lower than the priority of a second packet of the second data stream, the controller causes the node to transmit the second packet. | 10-21-2010 |
| 20100278065 | Traffic Load Estimation for Access Point Functionality Enabled Mobile Devices - Embodiments of the invention comprise a system and method for estimating a traffic load on a wireless network. An access point notifies a station that the access point will not receive transmissions during a first quiet period. After the first quiet period, the access point monitors the wireless network during a first monitoring period. If no transmissions are received during the first monitoring period, the access point notifies the station that it will not receive transmissions during a second quiet period. The second quiet period has an equal or longer duration than the first quiet period. The access point alternates between monitoring periods and quiet periods and progressively expands the duration of the quiet periods as long as no transmissions are received during the monitoring periods. If a station notifies the access point that packets are pending at the device, the monitoring period is extended to handle these packets immediately. | 11-04-2010 |
| 20100325459 | PEER-TO-PEER GROUP OWNER ENHANCED POWER MANAGEMENT - A device includes a peer-to-peer group owner processor. The device also includes a memory coupled to the peer-to-peer group owner processor. At least one client associated with the device is a legacy client, and the peer-to-peer group owner processor enters a listening state after a dozing state. The device consumes less power in the listening state than in an awake state. | 12-23-2010 |
| 20100329202 | CHANNEL UTILIZATION IMPROVEMENT IN COEXISTING WIRELESS NETWORKS - A wireless device comprises a first wireless transceiver configured for communication via a first wireless network, a second wireless transceiver configured for communication via a second wireless network; and a scheduler that controls which of the first and second transceivers is granted access to a wireless medium at a given time. When the first wireless transceiver has been granted access to the wireless medium by the scheduler and the first wireless transceiver receives a packet via the first wireless network, the scheduler temporarily grants the second wireless transceiver access to the wireless medium based on the packet indicating that first wireless transceiver is not to use the wireless medium for a period of time. | 12-30-2010 |
| 20110069651 | CONSERVING POWER USING CONTENTION-FREE PERIODS THAT LACK NETWORK TRAFFIC - A method that comprises receiving, by an access point (AP), an interval value from a station (STA). The interval value corresponds to a frequency with which the STA listens to the AP. The method also comprises commanding, by the AP, the STA to refrain from transmitting data to the AP until a period expires. The commanding comprises the AP setting a duration of the period to correspond to the interval value. The method further comprises transferring, by the AP, data to the STA after the period expires. | 03-24-2011 |
| 20110086660 | CONTROL OF COEXISTING WIRELESS NETWORKS BASED ON PREDICTED TRANSMISSION ARRIVAL TIME - A system and method for optimizing medium utilization with coexisting wireless networks is described herein. In one embodiment, a wireless device includes a first wireless transceiver, a second wireless transceiver, and logic configured to determine which of the first and second wireless transceivers is enabled at a given time. The first wireless transceiver is configured for operation with a first wireless network. The second wireless transceiver is configured for operation with a second wireless network coexisting with the first wireless network. The logic is further configured to predict an arrival time of a transmission from a different device and to enable the second wireless transceiver based on the predicted arrival time. | 04-14-2011 |
| 20110103355 | PACKET GROUPING FOR A CO-EXISTING WIRELESS NETWORK ENVIRONMENT - In at least some embodiments, a communication device includes a host processor and a plurality of co-existing wireless technology transceivers coupled to the host processor. The plurality of co-existing wireless technology transceivers share a communication medium using time-multiplexing. A throughput for data transmissions by the plurality of co-existing wireless technology transceivers is based on an algorithm that determines a grouping option for data packets to be transmitted by one of the co-existing wireless technology transceivers, the grouping option providing a highest throughput for a predetermined baseband PHY rate without exceeding a predetermined maximum grouping delay. | 05-05-2011 |
