Patents by Inventor Shravan K. Surineni

Shravan K. Surineni has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Patent number: 9883486
    Abstract: Embodiments for bandwidth allocation methods, detecting interference with other systems, and/or redeploying in alternate bandwidth are described. Higher bandwidth channels may be deployed at channel boundaries (410), which are a subset of those for lower bandwidth channels (310), and may be restricted from overlapping. Interference may be detected (930) on primary, secondary, or a combination of channels, and may be detected in response to energy measurements (910) of the various channels. When interference is detected, a higher bandwidth Basic Service Set (BSS)(100) may be relocated to an alternate channel, or may have its bandwidth reduced to avoid interference. Interference may be detected based on energy measured on the primary or secondary channel, and/or a difference between the two. An FFT (1010) may be used in energy measurement in either or both of the primary and secondary channels. Stations may also monitor messages from alternate systems to make channel allocation decisions.
    Type: Grant
    Filed: June 8, 2011
    Date of Patent: January 30, 2018
    Assignee: QUALCOMM, Incorporated
    Inventors: Sanjiv Nanda, Shravan K. Surineni, Jay Rodney Walton
  • Patent number: 9351320
    Abstract: Techniques for avoiding collision of traffic in a wireless network are described. A station detects for synchronization of its traffic with traffic of other stations. The station may detect for synchronization based on, e.g., percentage of first transmission failures, counters indicative of statistics of transmitted frames, and/or other information. The station may confirm synchronization of its traffic, e.g., by monitoring for traffic from another station during a service period for the station. The station adjusts transmission of its traffic when synchronization is detected to avoid collision with the traffic of the other stations. The station may delay transmission of its traffic by a predetermined amount of time, by a pseudo-random amount, or until after the other stations finish their transmissions.
    Type: Grant
    Filed: October 31, 2014
    Date of Patent: May 24, 2016
    Assignee: QUALCOMM Incorporated
    Inventors: Arnaud Meylan, Shravan K. Surineni, Lalit Yerramilli Raju
  • Patent number: 9144107
    Abstract: Embodiments describe registration in a wireless communication system. A method includes wirelessly transmitting over a WWAN a first registration message from a mobile device, wirelessly transmitting through the WWAN a second registration message to a WLAN access point and receiving at the mobile device access through the WLAN access point. According to another embodiment is a method for constructing a self-configuring ad-hoc network. The method can include receiving a GPS coordinate from a WWAN channel node at a management system and creating an initial topography based at least in part on the GPS coordinate to achieve a network connectivity with diverse routes between a plurality of nodes.
    Type: Grant
    Filed: December 21, 2012
    Date of Patent: September 22, 2015
    Assignee: QUALCOMM Incorporated
    Inventors: Subra Dravida, J. Rodney Walton, Jr., Sanjiv Nanda, Shravan K. Surineni
  • Patent number: 8995407
    Abstract: Beacons may be grouped to facilitate neighbor discovery in a wireless network. For example, neighboring access devices such as IEEE 802.11 access points may cooperate to transmit beacons in a group. In this way, a wireless device seeking to discover the neighboring access devices may scan for the beacons for a shorter period of time. An indication may be provided to enable a wireless device to more efficiently scan the beacons. For example, the indication may indicate the channel the wireless device should scan to receive the next beacon that is to be transmitted. In addition, the indication may include information relating to the transmission time of the next beacon. Other aspects, embodiments, and features are also claimed and described.
    Type: Grant
    Filed: March 7, 2013
    Date of Patent: March 31, 2015
    Assignee: QUALCOMM Incorporated
    Inventors: Arnaud Meylan, Santosh Abraham, Shravan K. Surineni, Sanjiv Nanda
  • Publication number: 20150049752
    Abstract: Techniques for avoiding collision of traffic in a wireless network are described. A station detects for synchronization of its traffic with traffic of other stations. The station may detect for synchronization based on, e.g., percentage of first transmission failures, counters indicative of statistics of transmitted frames, and/or other information. The station may confirm synchronization of its traffic, e.g., by monitoring for traffic from another station during a service period for the station. The station adjusts transmission of its traffic when synchronization is detected to avoid collision with the traffic of the other stations. The station may delay transmission of its traffic by a predetermined amount of time, by a pseudo-random amount, or until after the other stations finish their transmissions.
    Type: Application
    Filed: October 31, 2014
    Publication date: February 19, 2015
    Inventors: Arnaud Meylan, Shravan K. Surineni, Lalit Yerramilli Raju
  • Patent number: 8787841
    Abstract: Techniques to support beamforming for stations in a wireless network are described. In one aspect, a station may support beamforming with implicit feedback or explicit feedback by having capabilities to transmit and receive sounding frames, respond to training request by sending a sounding frame, and respond to request for explicit feedback. In one design of explicit beamforming, the station may send a first frame with a request for explicit feedback and may also send a Null Data Packet (NDP) having at least one training field but no data field. The station may receive a second frame with the explicit feedback, which may be derived based on the NDP. The station may derive steering information (e.g., steering matrices) based on the explicit feedback and may then send a steered frame with beamforming based on the steering information. The station may also perform implicit beamforming using NDP for sounding.
    Type: Grant
    Filed: June 26, 2007
    Date of Patent: July 22, 2014
    Assignee: QUALCOMM Incorporated
    Inventors: John W. Ketchum, Sanjiv Nanda, Arnaud Meylan, Shravan K. Surineni
  • Patent number: 8665795
    Abstract: Techniques to support beamforming for stations in a wireless network are described. A station may support beamforming with implicit or explicit feedback by having capabilities to transmit and receive sounding frames, responding to training request by sending a sounding frame, and responding to request for explicit feedback. In one explicit beamforming embodiment, the station may send a first frame with an explicit feedback request and may also send a Null Data Packet (NDP) having at least one training field but no data field. The station may receive a second frame with explicit feedback, which may be derived based on the NDP. The station may derive steering information based on explicit feedback and may then send a steered frame with beamforming based on steering information. Other aspects, embodiments, and features are also claimed and described.
    Type: Grant
    Filed: October 20, 2011
    Date of Patent: March 4, 2014
    Assignee: QUALCOMM Incorporated
    Inventors: John W Ketchum, Sanjiv Nanda, Arnaud Meylan, Shravan K Surineni
  • Patent number: 8626172
    Abstract: A wireless communication method, apparatus, and system for simultaneous communication of a wide area network with a wireless local area network. The system having the wide area network configured to transmit control signals, the wireless local area network configured to transmit data signals, and a mobile station configured to receive control signals from the wide area network and data signals from the wireless local area network.
    Type: Grant
    Filed: August 9, 2006
    Date of Patent: January 7, 2014
    Assignee: QUALCOMM Incorporated
    Inventors: Subrahmanyam Dravida, Jay Rodney Walton, Shravan K. Surineni
  • Patent number: 8542589
    Abstract: Techniques for quickly sending feedback information for beamforming are described. A transmitter/initiator sends a first frame comprising training symbols. A receiver/responder receives the first frame, determines the amount of time to generate feedback information, and determines the amount of time to send the feedback information. The receiver then determines the length of a second frame carrying the feedback information based on the amounts of time to generate and send the feedback information. The receiver sends the second frame after waiting a short interframe space (SIFS) period from the end of the first frame, without performing channel access. The receiver generates the feedback information based on the training symbols and sends the information in the second frame when ready. The transmitter receives the second frame, derives at least one steering matrix based on the feedback information, and sends a third frame with the at least one steering matrix.
    Type: Grant
    Filed: May 25, 2007
    Date of Patent: September 24, 2013
    Assignee: QUALCOMM Incorporated
    Inventors: Shravan K. Surineni, J. Rodney Walton, Mark S. Wallace, Steven J. Howard
  • Patent number: 8498215
    Abstract: Techniques for performing open-loop rate control in a TDD communication system are described. The channel quality of a first link is estimated based on a transmission received via the first link. The channel quality of a second link is estimated based on the estimated channel quality of the first link and an asymmetric parameter. At least one rate for a data transmission via the second link is selected based on the estimated channel quality of the second link. The estimated channel quality for each link may be given by a set of SNR estimates for a set of transmission channels on that link. The asymmetric parameter may be determined based on (1) the capabilities (e.g., transmit power, receiver noise figure, and number of antennas) of the transmitting and receiving stations or (2) received SNRs for the first and second links.
    Type: Grant
    Filed: July 5, 2005
    Date of Patent: July 30, 2013
    Assignee: QUALCOMM Incorporated
    Inventors: Jay Rodney Walton, Shravan K. Surineni, Arnaud Maylan, Sanjiv Nanda
  • Patent number: 8462709
    Abstract: Embodiments for bandwidth allocation methods, detecting interference with other systems, and/or redeploying in alternate bandwidth are described. Higher bandwidth channels may be deployed at channel boundaries (410), which are a subset of those for lower bandwidth channels (310), and may be restricted from overlapping. Interference may be detected (930) on primary, secondary, or a combination of channels, and may be detected in response to energy measurements (910) of the various channels. When interference is detected, a higher bandwidth Basic Service Set (BSS)(100) may be relocated to an alternate channel, or may have its bandwidth reduced to avoid interference. Interference may be detected based on energy measured on the primary or secondary channel, and/or a difference between the two. An FFT (1010) may be used in energy measurement in either or both of the primary and secondary channels. Stations may also monitor messages from alternate systems to make channel allocation decisions.
    Type: Grant
    Filed: July 23, 2009
    Date of Patent: June 11, 2013
    Assignee: QUALCOMM Incorporated
    Inventors: Sanjiv Nanda, Shravan K. Surineni, J. Rodney Walton
  • Patent number: 8374192
    Abstract: Techniques for improving power saving by stations in wireless networks are described. In an aspect, a source station sends a frame with a buffer status for a recipient station during an awake time for both stations and sends one or more data frames to the recipient station as indicated by the buffer status. The recipient station knows how many data frames to expect based on the buffer status and can go to sleep after receiving the expected number of data frames. In another aspect, a source station receives a frame with information on transmission opportunity (TXOP) bursting receive capability of a recipient station operating in a power save mode. The source station performs channel access at the start of a TXOP and sends multiple data frames in the TXOP to the recipient station based on the TXOP bursting receive capability of the recipient station.
    Type: Grant
    Filed: October 12, 2007
    Date of Patent: February 12, 2013
    Assignee: Qualcomm Incorporated
    Inventors: Shravan K. Surineni, Arnaud Meylan, Ajay Dassu
  • Patent number: 8363674
    Abstract: Techniques to efficiently schedule and serve stations in a wireless network are described. An access point may aggregate stations with flows carrying traffic having similar characteristics, e.g., VoIP flows. The access point may schedule these stations together in an overall service period. The access point may serve each station in a respective service period within the overall service period. The access point may send a multi poll frame at the start of the overall service period to indicate the start time and/or service period for each station. Each station may decide to power down until its start time. The service periods for the stations may overlap one another. The service period for each station may cover an initial transmission as well as additional transmission and/or retransmission. If additional transmission and/or retransmission are not needed for a given station, then the next station may be served right away.
    Type: Grant
    Filed: April 23, 2010
    Date of Patent: January 29, 2013
    Assignee: Qualcomm Incorporated
    Inventors: Shravan K. Surineni, Arnaud Meylan, Sanjiv Nanda
  • Patent number: 8364148
    Abstract: Embodiments describe registration in a wireless communication system. A method includes wirelessly transmitting over a WWAN a first registration message from a mobile device, wirelessly transmitting through the WWAN a second registration message to a WLAN access point and receiving at the mobile device access through the WLAN access point. According to another embodiment is a method for constructing a self-configuring ad-hoc network. The method can include receiving a GPS coordinate from a WWAN channel node at a management system and creating an initial topography based at least in part on the GPS coordinate to achieve a network connectivity with diverse routes between a plurality of nodes.
    Type: Grant
    Filed: September 30, 2005
    Date of Patent: January 29, 2013
    Assignee: Qualcomm Incorporated
    Inventors: Subrahmanyam Dravida, Jay Rodney Walton, Sanjiv Nanda, Shravan K. Surineni
  • Patent number: 8311543
    Abstract: Embodiments describe utilizing time-based information to improve communication in a wireless network. A method can include receiving beacon information from at least one access point and utilizing time-stamp information associated with the beacon information to determine whether to hand off communication with a second access point. According to other embodiments the method can further include detecting beacon quality is below a threshold level and transmitting a poor beacon quality message. Information relating to a plurality of alternate access points can be received in response to the transmitted poor beacon quality message.
    Type: Grant
    Filed: September 30, 2005
    Date of Patent: November 13, 2012
    Assignee: Qualcomm Incorporated
    Inventors: Subrahmanyam Dravida, Jay Rodney Walton, Sanjiv Nanda, Shravan K. Surineni
  • Patent number: 8305948
    Abstract: Systems and methodologies are described that facilitate coordinating and conducting transmissions to multiple stations in a wireless communication system during a single transmission opportunity. A holder of a transmission opportunity can communicate a request-to-send message or a self-addressed clear-to-send message to one or more stations to establish the transmission opportunity. Subsequently, data transmissions with respective stations can be initiated by transmitting request-to-send messages to the respective stations. At each receiving station, the source address of a received request-to-send message is compared to the address of the holder of the transmission opportunity. If the addresses match for a given request-to-send message, the receiving station transmits a clear-to-send message to the holder of the transmission opportunity in response to the request-to-send message.
    Type: Grant
    Filed: November 13, 2007
    Date of Patent: November 6, 2012
    Assignee: Qualcomm Incorporated
    Inventors: Shravan K. Surineni, Sanjiv Nanda
  • Publication number: 20120127899
    Abstract: Techniques to support beamforming for stations in a wireless network are described. A station may support beamforming with implicit or explicit feedback by having capabilities to transmit and receive sounding frames, responding to training request by sending a sounding frame, and responding to request for explicit feedback. In one explicit beamforming embodiment, the station may send a first frame with an explicit feedback request and may also send a Null Data Packet (NDP) having at least one training field but no data field. The station may receive a second frame with explicit feedback, which may be derived based on the NDP. The station may derive steering information based on explicit feedback and may then send a steered frame with beamforming based on the steering information. Other aspects, embodiments, and features are also claimed and described.
    Type: Application
    Filed: October 20, 2011
    Publication date: May 24, 2012
    Applicant: QUALCOMM INCORPORATED
    Inventors: John W. Ketchum, Sanjiv Nanda, Arnaud Meylan, Shravan K. Surineni
  • Patent number: 8169980
    Abstract: Apparatuses and methodologies are described that coordinate multiple wireless communication protocols within a mobile device. A single mobile device can contain multiple communication components (e.g., a Bluetooth component, an IEEE 802.11b/g component). To prevent interference and possible loss of data, one communication component may be prevented from transmitting or receiving data packets while the other communication component is either transmitting or receiving. The components may be coordinated by a central controller located in the mobile device. Alternatively, the communication components may exchange messages to determine transmission or reception priority. In addition, one communication component may monitor the status of the other communication component to determine unused communication slots.
    Type: Grant
    Filed: April 26, 2006
    Date of Patent: May 1, 2012
    Assignee: QUALCOMM Incorporated
    Inventors: Subrahmanyam Dravida, Sanjiv Nanda, Manoneet Singh, Shravan K. Surineni
  • Patent number: 8126477
    Abstract: Embodiments describe methods, systems, and devices that utilize positional information to determine location of other device and/or to provide a location-based message. A method can include receiving a location information of a mobile device and using an access point to transmit location information to one or more other devices that do not include location functionality that are in communication with the mobile device. The method can further include transmitting a message to the mobile device based at least in part on the received access location information. In another embodiment, the method can include receiving a user preference data from the mobile device or one or more other devices and transmitting a communication to the mobile device or one or more other devices that conforms to the user preference data.
    Type: Grant
    Filed: September 30, 2005
    Date of Patent: February 28, 2012
    Assignee: QUALCOMM Incorporated
    Inventors: Subrahmanyam Dravida, Jay Rodney Walton, Sanjiv Nanda, Shravan K. Surineni
  • Publication number: 20110299417
    Abstract: Embodiments for bandwidth allocation methods, detecting interference with other systems, and/or redeploying in alternate bandwidth are described. Higher bandwidth channels may be deployed at channel boundaries (410), which are a subset of those for lower bandwidth channels (310), and may be restricted from overlapping. Interference may be detected (930) on primary, secondary, or a combination of channels, and may be detected in response to energy measurements (910) of the various channels. When interference is detected, a higher bandwidth Basic Service Set (BSS)(100) may be relocated to an alternate channel, or may have its bandwidth reduced to avoid interference. Interference may be detected based on energy measured on the primary or secondary channel, and/or a difference between the two. An FFT (1010) may be used in energy measurement in either or both of the primary and secondary channels. Stations may also monitor messages from alternate systems to make channel allocation decisions.
    Type: Application
    Filed: June 8, 2011
    Publication date: December 8, 2011
    Applicant: QUALCOMM Incorporated
    Inventors: Sanjiv Nanda, Shravan K. Surineni, Jay Rodney Walton