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Georgescu, US

Bogdan Georgescu, Princeton, NJ US

Patent application number	Description	Published
20090034808	Automatic Cardiac View Classification of Echocardiography - A method for view classification includes providing a frame of an object of interest, detecting a region of interest within the object of interest for each of a plurality of detectors (e.g., binary classifiers), wherein each binary classifier corresponds to a different view, performing a global view classification using a multiview classifier for each view, outputting a classification for each view, fusing outputs of the multiview classifiers, and determining and outputting a classification of the frame based on a fused output of the multiview classifiers.	02-05-2009

Bogdan I. Georgescu, Colorado Springs, CO US

Patent application number	Description	Published
20100074028	Memory Architecture Having Two Independently Controlled Voltage Pumps - In embodiments described herein, a memory architecture has an array of non-volatile memory cells and a pair of independently controlled voltage pumps. The pair of voltage pumps is coupled for supplying both positive and negative voltage biases to the memory array during program and erase operations, such that a sum of the magnitudes of the positive and negative voltage biases is applied across a storage node of an accessed memory cell.	03-25-2010

Cecilia Georgescu, Piscataway, NJ US

Patent application number	Description	Published
20080282483	Method for Selecting Desired level of Dye Loading and Controlling Loading of Polymer Microparticles - Solute-loaded polymer microparticles are obtained by immersing microparticles in a bath comprising a selected solute dissolved in a ternary solvent system. A first solvent of the ternary system is a strong solvent for both the solute and the polymer from which the microparticle was formed. A second solvent is a weak solvent or non-solvent for the solute and the polymer (tuning solvent). A third solvent is a weak solvent or non-solvent for the solute and polymer, but serves as a co-solvent with respect to the first and second solvents in that it is miscible with both the first and second solvents. The amount of solute incorporated into the microparticles is controlled by adjusting the ratio of solute with respect to the microparticle polymer, and by adjusting the composition of the ternary solvent system, principally the amount of tuning solvent. The method is particularly useful for providing libraries of combinatorially encoded microparticles containing distinguishable dye loadings, particularly distinguishable fluorescent dye loadings.	11-20-2008

Florian Carol Georgescu, Shelby Twp, MI US

Patent application number	Description	Published
20110136582	Golf swing-aid trainer, a dynamic swing aid device for improving the golfer swing action - A dynamic swing-aid device used to improve the golfer's swing action. It also reduces potential risk of swing injuries to golfers. The upper portion of this device is the wrist channel that fits over the forearm and allows the swing correction to occur. The lower part of the device is the handle guide that keeps the shaft of the golf club in the proper position with the club face square to the target. This wrist swing-aid device is constructed of rigid material, and shaped to fit and support the club handle and to help the golfer's grip and swing motion. Its shape has a locating feature to lock in the top of club's handle. The sponge padded wrist channel has a self adjusting feature to accommodate player's forearm size. The wrist channel upper portion may rest against the leading forearm tot maintain a consistent swing motion and prevent wrist hinging action during the club swing.	06-09-2011

Roxana Georgescu, Yonkers, NY US

Patent application number	Description	Published
20090004675	Method of Identifying Compounds for Bacterial Growth Modulation - The present invention relates to a method of identifying a candidate compound for modulating bacterial growth. This the method involves providing a β clamp peptide from a bacterial replicase, providing a second peptide that binds to at least one amino acid of SEQ ID NO:9 that is not designated X, wherein the second peptide does not exhibit polymerase activity, and providing a test compound. The β clamp peptide and the second peptide are contacted with the test compound, and the level of binding between the β clamp peptide and the second peptide in the presence of the test compound is determined. The level of binding between the β clamp peptide and the second peptide in the presence of the test compound is then compared to a control that does not contain the test compound. A test compound that alters the level of binding between the β clamp peptide and the second peptide compared to the control is a candidate compound for modulating bacterial growth.	01-01-2009

Sorin S. Georgescu, San Jose, CA US

Patent application number	Description	Published
20080238513	Hysteresis Circuit Without Static Quiescent Current - A hysteresis circuit including a comparator and capacitive voltage divider circuit. The capacitive voltage divider circuit includes a first capacitor coupled between an input terminal and a positive comparator input, a second capacitor coupled between ground and the positive comparator input, and a third capacitor coupled between the comparator output and positive comparator input. A reference voltage is applied to the negative comparator input. The comparator is powered by the input signal provided on the input terminal. When the voltage on the positive comparator input is less than the reference voltage, the third capacitor is effectively coupled in parallel with the first capacitor. When the voltage on the positive comparator input is greater than the reference voltage, the third capacitor is effectively coupled in parallel with the second capacitor.	10-02-2008
20080242027	Non-Volatile Memory Integrated Circuit - A nonvolatile memory integrated circuit arrayed in rows and columns is disclosed. Parallel lines of implant N-type regions are formed in a P-well of a semiconductor substrate, with lines of oxide material isolating each pair of the lines. Columns of memory cells straddle respective pairs of the implant region lines, with one line of the pair forming the source region and one line of the pair forming the drain region of each memory cell of the column. Each memory cell has a floating polysilicon storage gate. One of plural wordlines overlies each row of the memory cells. The portion of the wordline overlying each memory cells forms the control gate of the memory cell. Programming and erase operations occur by Fowler-Nordheim tunneling of electrons through a tunnel oxide layer between the floating gate and the source of the cell.	10-02-2008
20080278346	Single-Pin Multi-Bit Digital Circuit Configuration - According to some embodiments, a single-pin method of configuring a multi-bit state of a state machine of a circuit comprises: connecting a configuration resistor load having a configuration resistance to a single input pin of the integrated circuit; injecting a configuration current through the input pin and configuration resistor load; in response to injecting the current, generating a sequence of configuration signals indicative of a plurality of results of a plurality of comparisons of the configuration resistance to a plurality of predetermined thresholds, each result corresponding to a threshold; and configuring the multi-bit state of the state machine according to the sequence of configuration signals.	11-13-2008
20080291729	Non-Volatile Memory With High Reliability - A non-volatile memory (NVM) system includes a set of NVM cells, each including: a NVM transistor; an access transistor coupling the NVM transistor to a corresponding bit line; and a source select transistor coupling the NVM transistor to a common source. The NVM cells are written by a two-phase operation that includes an erase phase and a program phase. A common set of bit line voltages are applied to the bit lines during both the erase and programming phases. The access transistors are turned on and the source select transistors are turned off during the erase and programming phases. A first control voltage is applied to the control gates of the NVM transistors during the erase phase, and a second control voltage is applied to the control gates of the NVM transistors during the program phase. Under these conditions, the average required number of Fowler-Nordheim tunneling operations is reduced.	11-27-2008
20090003074	Scalable Electrically Eraseable And Programmable Memory (EEPROM) Cell Array - A non-volatile memory (NVM) system includes a plurality of NVM cells fabricated in a dual-well structure. Each NVM cell includes an access transistor and an NVM transistor, wherein the access transistor has a drain region that is continuous with a source region of the NVM transistor. The drain regions of each NVM transistor in a column of the array are commonly connected to a corresponding bit line. The control gates of each NVM transistor in a row of the array are commonly connected to a corresponding word line. The source regions of each of the access transistors in the array are commonly coupled. The NVM cells are programmed and erased without having to apply the high programming voltage V	01-01-2009
20090135649	Scalable Electrically Eraseable And Programmable Memory (EEPROM) Cell Array - A non-volatile memory (NVM) system includes a plurality of NVM cells fabricated in a dual-well structure. Each NVM cell includes an access transistor and an NVM transistor, wherein the access transistor has a drain region that is continuous with a source region of the NVM transistor. The drain regions of each NVM transistor in a column of the array are commonly connected to a corresponding bit line. The control gates of each NVM transistor in a row of the array are commonly connected to a corresponding word line. The source regions of each of the access transistors in the array are commonly coupled. The NVM cells are programmed and erased without having to apply the high programming voltage V	05-28-2009
20090196105	Scalable Electrically Eraseable And Programmable Memory (EEPROM) Cell Array - A non-volatile memory (NVM) system includes a plurality of NVM cells fabricated in a dual-well structure. Each NVM cell includes an access transistor and an NVM transistor, wherein the access transistor has a drain region that is continuous with a source region of the NVM transistor. The drain regions of each NVM transistor in a column of the array are commonly connected to a corresponding bit line. The control gates of each NVM transistor in a row of the array are commonly connected to a corresponding word line. The source regions of each of the access transistors in the array are commonly coupled. The NVM cells are programmed and erased without having to apply the high programming voltage V	08-06-2009