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 (84 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
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 ...


4
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, July 16, 2013: US08489949 (3 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 ...


5
Durga Malladi
Edward G Tiedemann, 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, Patents Department, February 10, 2005: US20050030964-A1

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 ...


6
Durga Malladi
Edward G Tiedemann, 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, Qualcomm Incorporated, September 6, 2007: US20070206623-A1

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 ...


7
Durga Malladi
Edward G Tiedemann, 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, Patents Department, February 10, 2005: US20050030911-A1

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 ...


8
Durga Malladi
Yongbin Wei, Edward G Tiedemann, 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, Patents Department, February 24, 2005: US20050041618-A1

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 ...


9
Aleksandar Damnjanovic, Farideh Khaleghi: Reverse link power control in 1xEV-DV systems. Telefonaktiebolaget LM Ericsson, Coats & Bennett P L L C, March 13, 2007: US07190964 (79 worldwide citation)

The transmit power of a mobile station on the reverse link channel that carries channel state information, rate selection, and/or sector selection information is power controlled separately from the reverse link traffic channels when the mobile station is in soft handoff. The serving base station in ...


10
Vieri Vanghi, Aleksandar Damnjanovic: Method and apparatus for transmitter power control. Telefonaktiebolaget L M Ericsson, Coats & Bennett P L L C, July 22, 2003: US06597923 (70 worldwide citation)

The invention includes a device and method for improving the responsiveness of the transmitter power control function so that the transmission power is more quickly and accurately controlled over a wider range of dynamic power adjustment during transmission. The present invention is directed to a dy ...