| Patent application number | Description | Published |
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| 20090252100 | METHODS AND APPARATUS FOR REVERSE LINK ACKNOWLEDGEMENT IN A WIRELESS LOCAL AREA NETWORK (WLAN) - Methods and apparatus for reverse link acknowledgement in a wireless local area network. A method includes receiving, at a first node, a data communication over a common channel, the data communication being decodable by other nodes. The method also includes determining transmission resources from the data communication, wherein the transmission resources are different for each node, and transmitting a response over the common channel using the determined transmission resources. An apparatus includes a transmitter configured to transmit to a plurality of nodes a data communication over the common channel, and a receiver configured to receive responses from the plurality of nodes, wherein each response was sent using different transmission resources determined from the data communication. | 10-08-2009 |
| 20090257361 | METHODS AND APPARATUS FOR DETERMINING COMMUNICATION LINK QUALITY - Methods and apparatus for determining the quality of a communication link transmitting a specified packet type are disclosed. The methodology includes configuring first packets, which share transmission characteristics with a specific packet type, such as a Voice over IP packet, such that the first packets experience similar communication link treatment as the specific packet type. The first packets are then transmitted over the communication link to a quality monitoring server located near a termination equipment of the particular communication link. Second packets, which are transmitted by the server in response to the first packets, are received and evaluated to determine the quality of the communication link based on characteristics of the second packets. Corresponding apparatus are also disclosed. | 10-15-2009 |
| 20100040158 | EMBEDDING INFORMATION IN AN 802.11 SIGNAL FIELD - Techniques and apparatus for embedding one or more bits of 802.11 Very High Throughput (VHT) information in existing IEEE 802.11 preamble fields are provided. As will be described herein, because different combinations of modulation techniques, coding schemes, and transmission lengths result in the same transmit time (e.g., in terms of symbol length), a clever choice of modulation, coding, and length may allow some extra information to be embedded in a legacy field for use by VHT stations. In this manner, the total VHT preamble transmission time may potentially be reduced, thereby increasing the efficiency of the physical layer (PHY). Moreover, the embedded bits may most likely be invisible to legacy stations, since the transmission time that such stations compute will be independent of these bits by design. | 02-18-2010 |
| 20100046367 | POWER AND RESOURCE EFFICIENT APPDU BASED APPROACH WITH SCHEDULED DATA TRANSMISSION TIMES FOR WLAN - Disclosed are methods and apparatuses for communications by which a physical layer packet is generated for transmission to a node, or by which a physical layer packet is received from a node, the physical layer packet having a plurality of MAC packets, wherein the physical layer packet includes a transmission schedule associated with the plurality of MAC packets in the physical layer packet. | 02-25-2010 |
| 20100046441 | POWER AND RESOURCE EFFICIENT APPDU BASED APPROACH WITH SCHEDULED BLOCK ACKS FOR WLAN - Disclosed are methods and apparatuses for communications by which a data packet is generated for transmission to a node, or by which a data packet is received from a node, the data packet including a header and data, wherein a channel designation for a node to send an acknowledgement to an apparatus or a transmitting node is embedded in the header of the data packet. | 02-25-2010 |
| 20100046453 | METHODS AND APPARATUS FOR FRAME EXCHANGE FOR SDMA UPLINK DATA - Certain embodiments provide a method for scheduling simultaneous transmissions of data from multiple wireless nodes in a wireless communications system. | 02-25-2010 |
| 20100046457 | METHODS AND APPARATUS FOR SCHEDULING WIRELESS TRANSMISSIONS - Certain embodiments provide a method for scheduling packet transmissions in a wireless communications with stations that support spatial division multiple access (SDMA) transmissions. The method generally includes receiving channel state training signals from a plurality of wireless network nodes, constructing a schedule for uplink and downlink packet transmissions for the nodes based on the channel state training signals, and communicating the schedule to the nodes. | 02-25-2010 |
| 20100046479 | POWER CONTROL FOR WIRELESS LAN STATIONS - Techniques and apparatus for controlling the transmit power of an uplink (UL) signal from a user terminal in a wireless communications system in an effort to achieve some target characteristic, such as a target carrier-to-interference (C/I) ratio, at an access point (AP) are provided. In this manner, such a user terminal may help avoid or compensate for imbalances in received radio frequency (RF) power between UL signals received from multiple user terminals by the AP. For example, the transmit power at each user terminal may be controlled in an effort to achieve a target post-processing C/I ratio of 28 dB per spatial stream in an effort to reduce large power imbalances and optimize throughput per user terminal. The user terminal and the AP may compose part of a multiple-input multiple-output (MIMO) communication system utilizing spatial-division multiple access (SDMA) techniques. | 02-25-2010 |
| 20100046491 | METHOD FOR RANGING DEVICES USING CODE SEQUENCES IN WLANs - Methods and apparatus for using code-division multiple access (CDMA) to transmit information via orthogonal frequency-division multiplexing (OFDM) to convey information from user terminals to an access point (AP) in a wireless local area network (WLAN) are provided. By using CDMA to convey information, a propagation delay between an access point (AP) and a user terminal may be determined by the AP, and timing adjustment information based on the delay may be sent to the user terminal. In this manner, subsequent uplink (UL) transmissions from multiple user terminals may be received simultaneously by the AP, despite the multiple user terminals having potentially different propagation delays. | 02-25-2010 |
| 20100128617 | METHOD AND APPARATUS FOR TWO-WAY RANGING - The subject matter disclosed herein relates to a system and method for wirelessly receiving a first communication from a first mobile device. A processing delay may be measured. An acknowledgement communication indicating receipt of the first communication may be generated. A measurement of the processing delay may be broadcast in a broadcast packet, for example, or by transmitting a subsequent communication including the processing delay in response to receiving a second communication having a request for the measurement of the processing delay. | 05-27-2010 |
| 20100128637 | NETWORK-CENTRIC DETERMINATION OF NODE PROCESSING DELAY - Apparatus and methods are directed to calibrating a delay within a wireless access point for determining a position of a mobile station. One method includes receiving an initial packet at an eavesdropping device, receiving a response packet, sent by another entity, at the eavesdropping device, computing a time difference based upon the packet arrival times, and providing the time difference to a position determination entity. Another method includes providing a request to appropriate eavesdropping devices to send information, receiving, from each appropriate eavesdropping device, a time difference which represents a difference in a time of arrival of a packet transmitted by the wireless access point and a time of arrival of a packet transmitted by the mobile station, determining a processing delay estimate based upon the time differences, and determining a position of the mobile station based upon the processing delay estimate and the received time differences. | 05-27-2010 |
| 20100130229 | WIRELESS-BASED POSITIONING ADJUSTMENTS USING A MOTION SENSOR - Apparatuses and methods for adjusting wireless-derived positions of a mobile station using a motion sensor are presented. One method includes estimating a position of a mobile station based upon wireless signal measurements and measuring a movement of the mobile station using a relative motion sensor. The method further includes detecting a displacement of the mobile station based upon the measured movement, determining that the displacement is below a threshold and then adjusting the estimated position of the mobile station using information from the relative motion sensor. An apparatus includes a wireless transceiver, a relative motion sensor, a processor coupled to the wireless transceiver and the relative motion sensor, and a memory coupled to the processor. The memory stores executable instructions and data for causing the processor to execute methods for adjusting wireless-derived positions using a motion sensor. | 05-27-2010 |
| 20100130230 | BEACON SECTORING FOR POSITION DETERMINATION - Apparatuses and methods for sector-based position determination of a mobile station are presented. One method includes determining an estimate of a distance between the mobile station and at least one wireless access point (WAP), receiving sector information which describes sectors associated with the at least one WAP, and combining the distance estimate and sector information to determine a position of the mobile station. One apparatus includes a wireless transceiver, a processor coupled to the wireless transceiver, and a memory coupled to the processor which stores executable instructions and data. The instructions cause the processor to determine an estimate of a distance between the mobile station and at least one wireless access point (WAP), receive sector information which describes sectors associated with the at least one WAP, and combine the distance estimate and sector information to determine a position of the mobile station. | 05-27-2010 |
| 20100135178 | WIRELESS POSITION DETERMINATION USING ADJUSTED ROUND TRIP TIME MEASUREMENTS - One method for wirelessly determining a position of a mobile station includes measuring a round trip time (RTT) to a plurality of wireless access points, estimating a first distance to each wireless access point based upon the round trip time delay and an initial processing time associated with each wireless access point, estimating a second distance to each wireless access point based upon supplemental information, combining the first and second distance estimates to each wireless access point, and calculating the position based upon the combined distance estimates. Another method includes measuring a distance to each wireless access point based upon a wireless signal model, calculating a position of the mobile station based upon the measured distance, determining a computed distance to each wireless access point based upon the calculated position of the mobile station, updating the wireless signal model, and determining whether the wireless signal model has converged. | 06-03-2010 |
| 20100157848 | METHOD AND APPARATUS FOR PROVIDING AND UTILIZING LOCAL MAPS AND ANNOTATIONS IN LOCATION DETERMINATION - The subject matter disclosed herein relates to a system and method for retrieving a local map for a given area. One or more signals wirelessly transmitted from one or more wireless network elements may be received by a mobile device. The mobile device may identify an associated local map based at least in part on the received one or more signals. The associated local map and annotations associated with the associated local map may subsequently be obtained. The associated local map utilizes a predefined coordinate system. | 06-24-2010 |
| 20100159958 | POST-DEPLOYMENT CALIBRATION FOR WIRELESS POSITION DETERMINATION - Methods and apparatuses are directed to calibrating a misconfigured wireless access point. One method may include receiving a position of mobile station(s) and wireless signal model measurements derived from packets exchanged between the mobile station(s) and a plurality of wireless access points, receiving positions and/or identities of the plurality of wireless access points used in determining the position of the mobile station(s), comparing a position of the mobile station(s) with wireless signal model measurements, and identifying a misconfigured wireless access point based upon the comparing. Another method may include receiving positions associated with a plurality of wireless access points, determining a position of a mobile station based upon a wireless signal model, comparing the position of the mobile station and the wireless signal model with the positions associated with the plurality of wireless access points, and determining whether at least one wireless access point is misconfigured. | 06-24-2010 |
| 20100172259 | Detection Of Falsified Wireless Access Points - Apparatuses and methods for detecting falsified wireless access points are presented. A method includes identifying a target wireless access point for validation and measuring a round trip time delay to the wireless access point. The method also includes determining an expected processing delay of the wireless access point, analyzing the measured round trip time delay and the expected processing delay, and validating the wireless access point based upon the analysis. An apparatus includes a wireless transceiver, a processing unit coupled to the wireless transceiver, and a memory coupled to the processing unit. The processing unit is configured to identify a target wireless access point for validation, measure a round trip time delay to the wireless access point, determine an expected processing delay of the wireless access point, analyze the measured round trip time delay and the expected processing delay, and validate the wireless access point based upon the analysis. | 07-08-2010 |
| 20100220601 | METHOD AND APPARATUS FOR SCHEDULING TRANSMISSIONS IN SPATIAL DIVISION MULTIPLE ACCESS NETWORK SYSTEMS - An apparatus for communications including a processing system configured to generate a plurality of spatial streams for communicating with a plurality of nodes, the processing system being further capable of determining an allocation of the spatial streams to each of the nodes based on at least one metric for each of the nodes. | 09-02-2010 |
| 20100238912 | SIGNALING METHODS FOR MMSE PRECODING WITH EIGENMODE SELECTION - Different methods of signaling between an access point and user terminals in a multiuser wireless system for performing a minimum mean square error (MMSE) precoding at the access point preceded with eigenmode selection are provided. For one embodiment of the present disclosure, a compact feedback may be utilized between a plurality of user terminals and the access point. For another embodiment of the present disclosure, a hybrid feedback may be utilized between the plurality of user terminals and the access point. For yet another embodiment of the present disclosure, a full feedback may be utilized between the plurality of user terminals and the access point. | 09-23-2010 |
| 20110069627 | PEER-ASSISTED TRANSMITTER SIGNAL ATTRIBUTE FILTERING FOR MOBILE STATION POSITION ESTIMATION - Examples disclosed herein may relate to filtering one or more signal attributes from a given transmitter from use in mobile station position estimation operations based at least in part on variations in signal strength indicators for one or more wireless communications between the transmitter and a plurality of devices. | 03-24-2011 |
| 20110090081 | MAPPING WIRELESS SIGNALS WITH MOTION SENSORS - A displacement device for mapping wireless signal fingerprints includes motion sensors and at least one of a received signal strength indicator (RSSI) sensor and a round trip time (RTT) sensor. The motion sensors may include a pedometer and one or more sensors to receive turn information. The start position of the displacement device is initialized and as the displacement device is moved through an environment, the position of each measurement location is determined using the initialized position and data from the motion sensors. The measurement position along with the RSSI and/or RTT measurement is stored in a database, from which a map can be generated. The position of the access point may be determined using the RSSI measurement or RTT measurement. Additionally, accumulated errors in the measurement position may be monitored and when greater than a threshold, a user may be prompted to reinitialize the position of the displacement device. | 04-21-2011 |
| 20110090123 | Binning Venues Into Categories Based On Propagation Characteristics - Example methods, apparatuses, or articles of manufacture are disclosed herein that may be utilized to facilitate or otherwise support one or more processes or operations in connection with defining and determining a plurality of venue types and binning a plurality of venues into categories based, at least in part, on signal propagation characteristics associated with such venues. | 04-21-2011 |
| 20110164576 | HEURISTIC ALGORITHM FOR CALCULATING TARGET SINR FOR MMSE BEAMFORMING - Certain aspects of the present disclosure provide a heuristic algorithm for calculating accurate target SINR values for the minimum mean square error (MMSE) beamforming algorithm to decrease the complexity of the MMSE algorithm. The heuristic algorithm for calculating target SINR values considers practical system constraints, such as frequency selective channels, power amplifier distortion, imperfect channel state information as well as limited computing power at the access point. | 07-07-2011 |
