1
Durga Malladi
Edward G Tiedemann Jr, Aleksandar Damnjanovic, Avinash Jain, Durga P Malladi, David Puig Oses, Peter Gaal, Serge Willenegger, Stein Lundby, Sandip Sarkar, Tao Chen, Yongbin Wei: Grant, acknowledgement, and rate control active sets. Qualcomm Incorporated, Philip R Wadsworth, Thien T Nguyen, W Chris Kim, October 24, 2006: US07126928 (78 worldwide citation)

Embodiments disclosed herein address the need in the art for efficient management of grant, acknowledgement, and rate control channels. In one aspect, a list associated with a first station is generated or stored, the list comprising zero or more identifiers, each identifier identifying one of a plu ...


2
Durga Malladi
Yongbin Wei, Edward G Tiedemann Jr, Peter Gaal, Durga P Malladi, David Puig Oses, Sandip Sarkar, Stein Lundby, Tao Chen, Avinash Jain, Aleksandar Damnjanovic, Serge Willenegger: Extended acknowledgement and rate control channel. Qualcomm Incorporated, Ruplt Patel, S Hossain Beladi, Thomas Rouse, January 1, 2008: US07315527 (37 worldwide citation)

Embodiments disclosed herein address the need in the art for an extended acknowledgment/rate control channel. In one aspect, an acknowledgment command and a rate control command are combined to form a combined command. In another aspect, the combined command is generated in accordance with a constel ...


3
Durga Malladi
Serge Willenegger, Durga P Malladi, Josef J Blanz: Method and apparatus for reducing inter-channel interference in a wireless communication system. Larry J Moskowitz, Thomas Rouse, July 29, 2008: US07406065 (34 worldwide citation)

Method and apparatus for reducing interference in a wireless communication system when the source of interference is a deterministic component of the system. In one embodiment, the receiver weights the transmitters according to when the source of interference is transmitted. Further, the transmitter ...


4
Durga Malladi
Serge Willenegger, Durga P Malladi, Josef J Blanz: Method and apparatus for reducing inter-channel interference in a wireless communication system employing a non-periodic interleaver. Qualcomm Incorporated, Philip Wadsworth, Thien Nguyen, Kam Tam, April 25, 2006: US07035284 (30 worldwide citation)

Method and apparatus for reducing interference in a wireless communication system when the source of interference is a deterministic component of the system. In one embodiment, the receiver weights the transmitters according to when the source of interference is transmitted. Further, the transmitter ...


5
Durga Malladi
Serge Willenegger, Alkinoos Hector Vayanos, Durga P Malladi, Edward G Tiedemann Jr, Francesco Grilli, Josef Blanz: Method and apparatus for reducing interference in a wireless communication system. QUALCOMM Incorporated, Kam Tam, Abdollah Katbab, Thomas R Rouse, November 6, 2007: US07292552 (29 worldwide citation)

Method and apparatus for reducing interference in a wireless communication system when the source of interference is a deterministic component of the system. In one embodiment, the receiver weights the transmitters according to when the source of interference is transmitted. Further, the transmitter ...


6
Durga Malladi
Durga P Malladi, Serge Willenegger, Tao Chen: Uplink power control. QUALCOMM Incorporated, Philip Wadsworth, Thien T Nguyen, Donald C Kordich, February 1, 2005: US06850771 (14 worldwide citation)

Uplink power control is provided to maintain the integrity of the uplink HS-DPCCH when the UE goes into SHO. The target pilot SNR threshold is controlled by considering the pilot signal strength of the serving Node-B and/or the uplink channel condition of the serving Node-B when deciding to increase ...


7
Durga Malladi
John E Smee, Jay Rodney Walton, Durga P Malladi, Serge Willenegger: Forward link handoff for wireless communication systems with OFDM forward link and CDMA reverse link. Qualcomm Incorporated, Qualcomm Patent Group, Thien T Nguyen, James H Yancey Jr, March 19, 2013: US08400979 (11 worldwide citation)

A method and apparatus for performing handoff in a wireless communication system with multi-carrier modulation (MCM) for a forward link and CDMA for a reverse link. In one embodiment, a method of performing handoff on the forward link for a terminal is provided in which signal quality of pilots rece ...


8
Durga Malladi
Yongbin Wei, Durga P Malladi, Stein Lundby, Tao Chen, Serge Willenegger: Systems and methods for hierarchically demodulating and decoding a data signal using a pilot signal and an additional signal. QUALCOMM Incorporated, Hossaine Beladi, Larry J Moskowitz, Thomas Rouse, August 26, 2008: US07418064 (11 worldwide citation)

Systems and methods for demodulating and decoding signals on a multi-path data channel using a pilot signal and at least one additional signal as a demodulation reference. One embodiment includes a method in which a pilot signal is used to demodulate and decode an additional signal, and then both th ...


9
Durga Malladi
Edward G Tiedemann Jr, Aleksandar Damnjanovic, Avinash Jain, Durga P Malladi, David Puig Oses, Peter Gaal, Stein Lundby, Sandip Sarkar, Tao Chen, Yongbin Wei, Serge Willenegger: Combining grant, acknowledgement, and rate control commands. QUALCOMM Incorporated, Donald C Kordich, June 12, 2012: US08201039 (10 worldwide citation)

Embodiments disclosed herein address the need in the art for reduced overhead control with the ability to adjust transmission rates as necessary. In one aspect, a first signal indicates an acknowledgement of a decoded subpacket and whether or not a rate control command is generated, and a second sig ...


10
Durga Malladi
Serge Willenegger, Alkinoos Hector Vayanos, Durga P Malladi, Edward G Tiedemann Jr, Francesco Grilli, Josef Blanz: Method and apparatus for reducing interference in a wireless communication system. Qualcomm Incorporated, Sayed H Beladi, April 19, 2011: US07929473 (4 worldwide citation)

Method and apparatus for reducing interference in a wireless communication system when the source of interference is a deterministic component of the system. In one embodiment, the receiver weights the transmitters according to when the source of interference is transmitted. Further, the transmitter ...



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