Gosh
Ranajit Gosh, Macungie, PA US
Patent application number | Description | Published |
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20120216550 | APPARATUS AND METHOD FOR CONTROLLING THE TEMPERATURE OF A CRYOGEN - A fluid spray device system ( | 08-30-2012 |
Sanjay Gosh, Bangalore IN
Patent application number | Description | Published |
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20140100670 | METHOD AND A SYSTEM FOR ONLINE AND DYNAMIC DISTRIBUTION AND CONFIGURATION OF APPLICATIONS IN A DISTRIBUTED CONTROL SYSTEM - Exemplary embodiments are directed to a method and system of online and dynamic distribution and configuration of applications in a Distributed Control System (DCS) of a plant. One or more applications of at least one controller of the DCS is divided into a plurality of blocks. The application is changed by managing each of the blocks. The one or more blocks is dynamically distributed to at least one other controller of the DCS. The data distributed to the at least one other controller is synchronized between the other controllers. The application associated with the distributed data is managed based on an operation schedule of the DCS. | 04-10-2014 |
20140310435 | RELAY INTERFACE MODULE FOR A DISTRIBUTED CONTROL SYSTEM - A relay interface module that is commutatively connectable to at least one I/O device and a controller, wherein the relay interface module is configured to provide data from the I/O device to at least one controller in a distributed control system (DCS) via a communication interface. An application related to a particular I/O device may then be executed freely on any controller present in a DCS without losing real time connection with the associated I/O device. Data can be transferred from an I/O device to an associated application executed on a controller such that the real time connection between the I/O device and the application being executed is maintained. | 10-16-2014 |
Subham Gosh, Circle Pines, MN US
Patent application number | Description | Published |
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20120283587 | ASSESSING INTRA-CARDIAC ACTIVATION PATTERNS AND ELECTRICAL DYSSYNCHRONY - Techniques for evaluating cardiac electrical dyssynchrony are described. In some examples, an activation time is determined for each of a plurality of torso-surface potential signals. The dispersion or sequence of these activation times may be analyzed or presented to provide variety of indications of the electrical dyssynchrony of the heart of the patient. In some examples, the locations of the electrodes of the set of electrodes, and thus the locations at which the torso-surface potential signals were sensed, may be projected on the surface of a model torso that includes a model heart. The inverse problem of electrocardiography may be solved to determine electrical activation times for regions of the model heart based on the torso-surface potential signals sensed from the patient. | 11-08-2012 |
20120284003 | ASSESSING INTRA-CARDIAC ACTIVATION PATTERNS - Techniques for evaluating cardiac electrical dyssynchrony are described. In some examples, an activation time is determined for each of a plurality of torso-surface potential signals. The dispersion or sequence of these activation times may be analyzed or presented to provide variety of indications of the electrical dyssynchrony of the heart of the patient. In some examples, the locations of the electrodes of the set of electrodes, and thus the locations at which the torso-surface potential signals were sensed, may be projected on the surface of a model torso that includes a model heart. The inverse problem of electrocardiography may be solved to determine electrical activation times for regions of the model heart based on the torso-surface potential signals sensed from the patient. | 11-08-2012 |