Lalit Raju from Santee, CA

Radio Interface Selection For A Terminal

View page

US Patent:

8223729, Jul 17, 2012

Filed:

Apr 19, 2007

Appl. No.:

11/737566

Inventors:

Lalit Yerramilli Raju - San Diego CA, US
Amit Gil - San Diego CA, US
Anup Kuzhiyil - San Diego CA, US

Assignee:

QUALCOMM Incorporated - San Diego CA

International Classification:

H04W 4/00

US Classification:

370338, 370328, 4555521, 455557

Abstract:

Techniques for selecting a radio interface for an application are described. A terminal identifies locally-addressable and globally-addressable wireless networks among wireless networks available to the terminal. Radio interfaces supported by the terminal may be prioritized based on the locally-addressable and globally-addressable wireless networks, information obtained for the application, the application type, etc. Different applications may have different radio interface preferences or requirements, which may be considered in prioritizing the radio interfaces. A suitable radio interface may be selected for the application based on the prioritized radio interfaces. WLAN interface may be selected for the application if (a) the WLAN interface is preferred and any WLAN is acceptable to the application or (b) a globally-addressable WLAN is available. A WLAN interface may be selected for the application if a globally-addressable WLAN is not available.

Wlan System Scanning And Selection

View page

US Patent:

8467784, Jun 18, 2013

Filed:

Mar 30, 2007

Appl. No.:

11/694213

Inventors:

Srinivasan Balasubramanian - San Diego CA, US
Anup Kuzhiyil - San Diego CA, US
Amit Gil - San Diego CA, US
Lalit Yerramilli Raju - San Diego CA, US
Luiza Timariu - San Diego CA, US
Saravana Krishnan Kannan - San Diego CA, US

Assignee:

QUALCOMM Incorporated - San Diego CA

International Classification:

H04W 4/00
H04B 7/00

US Classification:

455434, 455515, 370338

Abstract:

Techniques for performing WLAN system scanning and selection are described. A terminal performs multiple iterations of scan to detect for WLAN systems. A scan list containing at least one WLAN system to detect for is initially determined. For each scan iteration, a scan type may be selected from among the supported scan types. The selected scan type may indicate passive scan or active scan, frequency channels to scan, etc. A scan may be performed based on the selected scan type. Signal strength measurements are obtained for access points received during the scan and used to identify detected access points. After all scan iterations are completed, candidates access points are identified based on the scan results, e. g. , based on the signal strength measurements for the detected access points and a detection threshold. The best candidate access point may be selected for association by the terminal.

Method And Apparatus For Performing Ip Configuration After Handoff In Wlan

View page

US Patent:

8477715, Jul 2, 2013

Filed:

Jul 18, 2007

Appl. No.:

11/779799

Inventors:

Henri Dagbegnon Bahini - San Diego CA, US
Amit Gil - San Diego CA, US
Lalit Yerramilli Raju - San Diego CA, US
Anup Kuzhiyil - San Diego CA, US

Assignee:

QUALCOMM Incorporated - San Diego CA

International Classification:

H04W 4/00

US Classification:

370331, 455436

Abstract:

Techniques for performing IP configuration after handoff in a WLAN are described. A station associates with a first access point in the WLAN and performs IP configuration to obtain a first set of IP configuration parameters. The station thereafter exchanges data via the first access point using the first set of IP configuration parameters. The station performs handoff from the first access point to a second access point and performs IP configuration after the handoff. While the IP configuration is in progress, the station continues to exchange data via the second access point using the first set of IP configuration parameters. This avoids interruption in IP connectivity. After completing the IP configuration, the station either (i) continues to exchange data using the first set of IP configuration parameters if new parameters are not obtained or (ii) exchanges data using a second set of IP configuration parameters if obtained.

Collision Avoidance For Traffic In A Wireless Network

View page

US Patent:

20070293218, Dec 20, 2007

Filed:

May 21, 2007

Appl. No.:

11/751472

Inventors:

Arnaud Meylan - San Diego CA, US
Shravan Surineni - Waltham MA, US
Lalit Raju - San Diego CA, US

Assignee:

QUALCOMM Incorporated - San Diego CA

International Classification:

H04Q 7/20

US Classification:

455434000

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.

Automatic Resignation From Ad Hoc Network

View page

US Patent:

20080075054, Mar 27, 2008

Filed:

Sep 20, 2007

Appl. No.:

11/858782

Inventors:

SRINIVASAN BALASUBRAMANIAN - San Diego CA, US
LALIT YERRAMILLI RAJU - San Diego CA, US
MANOJ M. DESHPANDE - San Diego CA, US

Assignee:

QUALCOMM INCORPORATED - San Diego CA

International Classification:

H04Q 7/24

US Classification:

370338

Abstract:

A wireless device is configured to automatically resign from an ad hoc network. In some aspects the resignation may be based on automatic detection of inactivity associated with the ad hoc network. For example, resignation from the ad hoc network may be based on absence of uplink and downlink traffic at a wireless device, absence of open sockets at a wireless device, or a lack of beacon transmissions by other wireless devices. In the latter case, a lack of beacon transmissions by other wireless devices in the ad hoc network may be indicated by the transmission of a relatively large number of beacons in succession by a wireless device.

Mechanism For Performing Sdio Aggregation And Conveying Sdio Device Status To The Host Software

View page

US Patent:

20120226827, Sep 6, 2012

Filed:

Mar 2, 2011

Appl. No.:

13/039132

Inventors:

Lalit Yerramilli Raju - Santee CA, US
Dagbegnon Henri Bahini - San Diego CA, US
Hok Y. Cheung - Milpitas CA, US
Neelay Das - Sunnyvale CA, US

Assignee:

QUALCOMM Incorporated - San Diego CA

International Classification:

G06F 3/00
G06F 13/28

US Classification:

710 5

Abstract:

The subject matter disclosed herein relates to systems and/or devices capable of transmitting data packets over a hardware command interface. In one particular example, multiple data packets may be transmitted between a host device and a peripheral device in a single hardware interface command.

Wlan System Scanning And Selection

View page

US Patent:

20130235861, Sep 12, 2013

Filed:

Apr 15, 2013

Appl. No.:

13/863212

Inventors:

Srinivasan Balasubramanian - San Diego CA, US
Anup Kuzhiyil - San Diego CA, US
Amit Gil - San Diego CA, US
Lalit Yerramilli Raju - San Diego CA, US
Luiza Timariu - San Diego CA, US
Saravana Krishnan Kannan - San Diego CA, US

Assignee:

QUALCOMM Incorporated - San Diego CA

International Classification:

H04W 84/12

US Classification:

370338

Abstract:

Techniques for performing WLAN system scanning and selection are described. A terminal performs multiple iterations of scan to detect for WLAN systems. A scan list containing at least one WLAN system to detect for is initially determined For each scan iteration, a scan type may be selected from among the supported scan types. The selected scan type may indicate passive scan or active scan, frequency channels to scan, etc. A scan may be performed based on the selected scan type. Signal strength measurements are obtained for access points received during the scan and used to identify detected access points. After all scan iterations are completed, candidates access points are identified based on the scan results, e.g., based on the signal strength measurements for the detected access points and a detection threshold. The best candidate access point may be selected for association by the terminal

Collision Avoidance For Traffic In A Wireless Network

View page

US Patent:

20150049752, Feb 19, 2015

Filed:

Oct 31, 2014

Appl. No.:

14/530140

Inventors:

- San Diego CA, US
Shravan K. Surineni - San Diego CA, US
Lalit Yerramilli Raju - San Diego CA, US

International Classification:

H04W 74/08
H04L 29/06
H04W 56/00

US Classification:

370338

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.