Inventors list |
Assignees list |
Classification tree browser |
Top 100 Inventors |
Top 100 Assignees |
Davuluri
Pavan Davuluri, Sammamish, WA US
| Patent application number | Description | Published |
|---|---|---|
| 20090288039 | MANAGING INPUTS FROM A PLURALITY OF USER INPUT DEVICE ACTUATORS - A computing device and method for managing inputs from a plurality of user input device actuators are provided. The computing device may include code stored in memory for implementing, via a processor, an actuator input module configured to receive a first actuator input from a first user input device actuator, and a second actuator input from a second user input device actuator. The computing device may further execute code to implement a window selection module configured to select a first selected window to which the first actuator input is sent according to predetermined selection rules, to select a second selected window to which the second actuator input is sent according to the predetermined selection rules, and to send the first actuator input to the first selected window and to send the second actuator input to the second selected window. | 11-19-2009 |
Pujitha Davuluri, Denver, CO US
| Patent application number | Description | Published |
|---|---|---|
| 20110292989 | APPARATUS, SYSTEMS AND METHODS OF SIGNAL COMPENSATION FOR DIFFERENT SIGNALS COMMUNICATED OVER A COAXIAL CABLE SYSTEM - Communication signal compensation systems and methods are operable to compensate communication signals communicated to media devices using an agile equalizer over a coaxial cable communication system. An exemplary embodiment receives a first compensation control signal from a first media device, compensates a received first communication signal based upon the first compensation control signal, communicates the first compensated communication signal to the first media device over the first coaxial cable; receives a second compensation control signal from a second media device, compensates a received second communication signal based upon the second compensation control signal, and communicates the second compensated communication signal to the second media device over the second coaxial cable. The first compensation control signal defines compensation for communication signals communicated over a first coaxial cable. The second compensation control signal defines compensation for communication signals communicated to the second media device over a second coaxial cable. | 12-01-2011 |
Rathna P. Davuluri, Fairfax, VA US
| Patent application number | Description | Published |
|---|---|---|
| 20090020454 | Reduced elevation catalyst return line for a fluid catalytic cracking unit - The present invention is an improved regenerated catalyst bend assembly for a fluid catalytic cracking unit. In a preferred embodiment, the reduced elevation (“RE-bend” or “REL-bend”) regenerated catalyst return line assembly of the present invention has an outlet elevation that is lower than the inlet elevation of the RE-bend or REL-bend regenerated catalyst return line assembly, and a process for utilizing the assembly in a fluid catalytic cracking unit. The present invention is especially useful in the modification of existing fluid catalytic cracking units to lower the elevation of the outlet of the regenerated catalyst return line assembly, thereby providing needed space to increase the fluid catalytic cracking reactor riser length. | 01-22-2009 |
| 20110092756 | Production of Para-Xylene by the Methylation of Benzene and/or Toluene - In a process for the production of para-xylene, an aromatic feedstock comprising toluene and/or benzene is reacted with methanol under alkylation conditions in a reactor in the presence of a fluidized bed of solid catalyst particles to produce a vapor phase effluent comprising para-xylene, water, unreacted toluene and/or benzene and solid catalyst fines. The vapor phase effluent is contacted with a liquid hydrocarbon quench stream under conditions to condense a minor portion of the vapor phase effluent and produce a condensate which contains at least some of the catalyst fines and which is substantially free of an aqueous phase. The condensate containing said catalyst fines is then separated from the remainder of the vapor phase effluent. | 04-21-2011 |
| 20110114468 | FLUID COKING UNIT STRIPPER - An improved, fouling-resistant configuration for the stripper sheds of fluid coking units comprises an inverted, open-bottomed channel with apertures spaced along the length of the channel and spaced from the apex of the channel. Preferably, the channels are of an inverted-V configuration with a downwardly extending lip provided on each side of the channel, extending from the bottom edge of each side of the channel. The stripper sheds may be positioned parallel to one another in the stripper section of the reactor vessel or, alternatively, the sheds in different tiers in the stripper section may be disposed so that the longitudinal axes of the sheds are rotated angularly relative to the sheds in other rows. | 05-19-2011 |
| 20110139257 | PASSIVE SOLIDS SUPPLY SYSTEM AND METHOD FOR SUPPLYING SOLIDS - A solids supply system having a solids deaeration zone and a solids pump zone, and a method for supplying the solids e.g., pulverized dry coal, to an application, e.g., gasification process. The solids deaeration zone includes a container having a passageway defined by one or more sloped walls. The solids deaeration zone is operable to deaerate and convey the solids to the solids pump zone. In the solids deaeration zone, the solids become sufficiently compacted prior to and upon entry into the solids pump zone to be effectively conveyed through the solids pump zone. | 06-16-2011 |
| 20110139583 | ACTIVE SOLIDS SUPPLY SYSTEM AND METHOD FOR SUPPLYING SOLIDS - A solids supply systems having a solids deaeration zone and a solids pump zone, and to methods for supplying the solids e.g., pulverized dry coal, to an application, e.g., gasification process. The solids deaeration zone includes a roller system containing a plurality of porous roller assemblies, or a belt system containing a plurality of porous belt assemblies. The solids deaeration zone is operable to deaerate and convey the solids to the solids pump zone. In the solids deaeration zone, the solids become sufficiently compacted prior to and upon entry into the solids pump zone to be effectively conveyed through the solids pump zone. | 06-16-2011 |
Sirish Davuluri, Ithaca, NY US
| Patent application number | Description | Published |
|---|---|---|
| 20090011754 | System and Method for Real-Time AAL2 Channel Detection in UTRAN - A system and method for detecting channels in a network using messages passing through the network is provided. An embodiment comprises detecting AAL2 channels communicating between a Node B and an radio network controller and also between two radio network controllers. In the case of communication between a NodeB and a radio network controller, the AAL2 channels are detected by matching pairs of Random Access Channel (RACH) and Forward Access Channel (FACH) associated with a user equipment identity along with a Dedicated Channel (DCH) until the AAL2 channels present between the Node B and the RNC are determined to a desired level of confidence. In the case of communication between two radio network controllers, only the DCH channels need to be detected to completely detect the AAL2 channels. | 01-08-2009 |
Sirish Davuluri, Redmond, WA US
| Patent application number | Description | Published |
|---|---|---|
| 20080239987 | System and Method for Real-Time Iub and Iur Link Detection and AAL5 Channel Detection in UTRAN - System and method for identifying interfaces and channels in a network using messages passing through the network. An embodiment comprises detecting components of a network, comprises capturing a message from the network, extracting a network node identifier from the captured message, comparing the network node identifier to a database of known network nodes, and, if the network node identifier is not associated with a known network node, then adding an entry for a new network node to the database, wherein the new network node entry includes the network node identifier. | 10-02-2008 |