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Koganti
Krishan Prasad Koganti US
| Patent application number | Description | Published |
|---|---|---|
| 20100127072 | AUTHENTICATION OF DOCUMENTS HAVING MAGNETIC STRIPE - Methods, systems, and apparatus for efficiently authenticating a document (e.g. a credit card) having a magnetic stripe are provided. The magnetic field at different points of the magnetic stripe are measured, e.g., by a checkout scanner to create a magnetic signature. Digital samples of the measurements may be transformed into coefficients of continuous basis functions, e.g., a Fourier transform. These coefficients are then compared to reference values (e.g. corresponding coefficients) to produce a measure of the authenticity of the document. The number of coefficients used can advantageously be smaller than the number of digital samples without compromising accuracy, thus using less bandwidth between a scanner and an authentication entity. | 05-27-2010 |
Pallavi Koganti, Secunderabad IN
| Patent application number | Description | Published |
|---|---|---|
| 20110004629 | Method and System for Automating the Migration of User Settings from a First Domain to a Second Domain - A method for automating the migration of a plurality of user settings associated with a user from a first domain to a second domain, includes receiving a plurality of user settings associated with a user of a computer associated with a first domain. The method also includes configuring the computer associated with the first domain for association with a second domain. The method further includes creating a user profile of the user of the computer associated with the second domain, such that the user profile comprises at least one of the plurality of the user settings associated with the user of the computer. | 01-06-2011 |
Ramakrishna P. Koganti, Canton, MI US
| Patent application number | Description | Published |
|---|---|---|
| 20100026054 | Moon Roof Frame Module for Reinforcement of Automotive Roof - A moon roof frame module is sized to span between the laterally spaced roof side rails of an automotive roof frame structure and is welded to the opposing roof side rails to be integrated into the roof frame structure. As a result, the moon roof assembly serves as a load path member to reinforce the automotive roof structure. The integrated moon roof frame module will receive roll over forces and increase the strength of the roof structure of an automotive vehicle. The moon roof frame module includes a U-shaped roof panel that is welded to the opposing roof side rails and provides a reinforcing cross member located forwardly of the moon roof opening. A second cross member positioned rearwardly of the moon roof opening increases rigidity of the reinforcing moon roof frame module. | 02-04-2010 |
| 20100186477 | METHOD OF FORMING A FLANGED TUBULAR MEMBER IN HYDROFORMING - A method of forming a flanged tubular member includes the steps of: positioning a tubular blank in a die; applying nominal pressure; closing the dies; and increasing pressure within the blank, thereby converting the tubular blank to a hydroformed member having the flange and a hem with a cavity therein. The die halves define: a die tubular cavity portion; a die hem cavity portion; and a die flange cavity portion. Upon closing the die halves with nominal pressure and then increasing pressure, (1) the blank is deformed within the die tubular cavity portion; (2) the flange is defined from a portion of the blank in the die flange cavity portion; and (3) at least an intermediate hem is defined in the die hem cavity portion. | 07-29-2010 |
Suneeta Koganti, Coconut Creek, FL US
| Patent application number | Description | Published |
|---|---|---|
| 20090249311 | SHARING A NATIVE MODULE OF COMPILED CODE USING AN ABSTRACTION MODULE OF INTERPRETED CODE IN A VIRTUAL MACHINE ENVIRONMENT - Interpreted code modules configured to be executed within a virtual machine can be identified. Each of the interpreted code modules can be configured to interact with a native module such that dependency information for the native module can be programmatically utilized by each of the interpreted code modules. An abstraction module for the virtual machine written in the interpreted language can be established. The abstraction module can be configured to load an instance of the native module, wherein upon loading the instance of the native module the abstraction module is exposed to the dependency information associated with the instance of the native module. Each of the interpreted code modules can be configured to interact with the native mode module through the abstraction module. The abstraction module is configured to provide the dependency information associated with the instance of the native module to each of the interpreted code modules. | 10-01-2009 |