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Erramilli
Ashok Erramilli, Holmdel, NJ US
| Patent application number | Description | Published |
|---|---|---|
| 20090210076 | Method and system for generating an optimized solution for a process - A method, system and computer program product for generating an optimized solution for a process in a manufacturing under a set of constraints. A solution is evaluated under the set of constraints and first violation metrics and first states corresponding to one or more solution elements are generated, based on at least one constraint. At least one candidate solution is generated from the solution. Thereafter, the candidate solution is evaluated at one or more change-points and the solution elements positioned subsequent to the change points. Subsequently, the candidate solution is accepted based on the acceptance criterion. The selected candidate solution is then evaluated again a pre-defined number of times to generate the optimized solution. | 08-20-2009 |
| 20090222123 | Method and system for scheduling a set of events in real time - A method and system for generating/regenerating a schedule of a set of events associated with at least one process in a manufacturing plant in real time. The schedule is generated/regenerated on the basis of the occurrence of one or more events associated with various processes in real time. The occurrence of each of the events is monitored continuously. Thereafter, the occurrence of the monitored events is predicted for one or more predefined instances of time. The schedule is optimized on the basis of the predicted occurrences of the monitored events to generate/regenerate the schedule. The optimized schedule may be used to control one or more automatons. | 09-03-2009 |
Shobha Erramilli, Holmdel, NJ US
| Patent application number | Description | Published |
|---|---|---|
| 20110019672 | SYSTEM AND METHOD FOR ASSIGNING INFORMATION CATEGORIES TO MULTICAST GROUPS - A system and method for determining an efficient assignment of information categories to multicast addresses is described. In one embodiment, the assignment takes into account the overlapping info cation needs of the subscriber nodes and the network bandwidth that will be consumed in the dissemination of each information category based on its size and the frequency of dissemination. In another embodiment, the assignment takes into consideration the additional constraint of a quality of service network having different prioritizations associated with the information categories. | 01-27-2011 |
Shyamsunder Erramilli, Quincy, MA US
| Patent application number | Description | Published |
|---|---|---|
| 20100039126 | NANOCHANNEL-BASED SENSOR SYSTEM FOR USE IN DETECTING CHEMICAL OR BIOLOGICAL SPECIES - A sensor system for detecting a chemical or biological species includes a sensing element and a bias and measurement circuit. The sensing element includes nanochannels, each having an outer surface functionalized to chemically interact with the species to create a corresponding surface potential, and each having a sufficiently small cross section to exhibit a shift of a differential conductance characteristic into a negative bias operating region by a shift amount dependent on the surface potential. The bias and measurement circuit applies a bias voltage across two ends of the nanochannels sufficiently negative to achieve a desired dependence of the differential conductance on the surface potential, wherein the dependence has a steeply sloped region of high amplification substantially greater than a reference amplification at a zero-bias condition, thus achieving relatively high signal-to-noise ratio. The bias and measurement circuit converts the measured differential conductance into a signal indicative of presence or activity of the species of interest. | 02-18-2010 |
| 20100155883 | INTEGRATED MEMS AND IC SYSTEMS AND RELATED METHODS - An integrated MEMS and IC system (MEMSIC), as well as related methods, are described herein. According to some embodiments, a mechanical resonating structure is coupled to an electrical circuit (e.g., field-effect transistor). For example, the mechanical resonating structure may be coupled to a gate of a transistor. In some cases, the mechanical resonating structure and electrical circuit may be fabricated on the same substrate (e.g., Silicon (Si) and/or Silicon-on-Insulator (SOW and may be proximate to one another. | 06-24-2010 |
| 20110021894 | GLUCOSE SENSOR EMPLOYING SEMICONDUCTOR NANOELECTRONIC DEVICE - A glucose sensor employs a programmable glucose sensor array of a relatively large number of nanoelectronic devices (e.g. semiconductor field-effect devices) having control surfaces functionalized with a glucose-reactive substance and generating sensing signals indicative of sensed glucose level of a bodily fluid. The devices are divided into sub-sets sequentially enabled over successive intervals to achieve overall sensor lifetime many times longer than the lifetime of any single device in operation. | 01-27-2011 |
Vijay Erramilli, Madrid ES
| Patent application number | Description | Published |
|---|---|---|
| 20110276649 | Method for Efficient Partition and Replication of Social-Based Applications - Method, system and computer program to provide transparent scalability to Online Social Networks and better performance of its back-end databases, by an efficient partitioning of the underlying community structure and replicating of user profiles, ensuring that every user has a master or slave replica of all his neighbours on the same partition where he is located. | 11-10-2011 |
Vishnu Erramilli, Red Bank, NJ US
| Patent application number | Description | Published |
|---|---|---|
| 20090222123 | Method and system for scheduling a set of events in real time - A method and system for generating/regenerating a schedule of a set of events associated with at least one process in a manufacturing plant in real time. The schedule is generated/regenerated on the basis of the occurrence of one or more events associated with various processes in real time. The occurrence of each of the events is monitored continuously. Thereafter, the occurrence of the monitored events is predicted for one or more predefined instances of time. The schedule is optimized on the basis of the predicted occurrences of the monitored events to generate/regenerate the schedule. The optimized schedule may be used to control one or more automatons. | 09-03-2009 |