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Anisimov
Igor Anisimov, St. Petersburg RU
| Patent application number | Description | Published |
|---|---|---|
| 20100091860 | SYSTEM AND METHOD FOR LOW-LATENCY PROCESSING OF INTRA-FRAME VIDEO PIXEL BLOCK PREDICTION - A method and system for low-latency processing of intra-frame video pixel block prediction including: predicting a pixel block based on boundary pixels of left and upper neighbor blocks of said pixel block; subtracting said predicted pixel block from a source pixel block to generate a prediction error; forward transforming and quantizing said prediction error to generate a residual data; inverse transforming and quantizing said residual data; adding said predicted pixel block to said inverse transformed and quantized residual data to generate a reconstructed pixel block; pre-computing blocks of DC-coefficients used with luma and chroma intra prediction modes; pre-computing mode selection of a best prediction mode of said luma and chroma intra prediction modes; and outputting said residual data to be used in entropy or arithmetic coding, and a reconstructed data used for motion prediction. | 04-15-2010 |
Nikolay A. Anisimov, Concord, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20090171729 | Method for Assembling a Business Process and for Orchestrating the Process Based on Process Beneficiary Information - A system for assembling a business process or a portion thereof includes a rules base containing executable rules and defined business process elements, a workflow orchestration engine, and at least one interface available to a process beneficiary. Information known about and or provided by a process beneficiary interacting with the at least one interface is used to execute one or more of the rules causing assembly of a new business process or a portion thereof according to workflow orchestration rules the new or modified process directing servicing of the process beneficiary accordingly. | 07-02-2009 |
Oleg Vladimirovich Anisimov, Moscow RU
| Patent application number | Description | Published |
|---|---|---|
| 20090242166 | Method for making castings by directed solidification from a selected point of melt toward casting periphery - The invention is related to the foundry practice. According to this invention, the method for making castings by directed solidification from a selected point of the melt toward the periphery of the casting comprises forming a casting in a mold having thermodynamic characteristics that allow uniform volume cooling of the melt to be effected to a temperature at which natural solidification processes are completed. To improve the structural isotropy of the casting formed, the cooling is effected at a rate not exceeding 0.5° C./sec. The casting is formed in a nonuniform field of force. The nonuniform field of force is set up by ultrasonic waves focused on a selected point of the melt to form therein a localized elevated pressure zone and to direct the solidification front from the zone toward the periphery of the casting. The nonuniform field of force is sustained in the mold until the cooling casting reaches a temperature at which the natural melt solidification processes are completed as the melt cools. Before the melt is poured into the mold, it is overheated to a level that, together with the thermodynamic characteristics of the mold allowing the melt therein to be cooled at a rate not exceeding 0.5 K/sec, sustains the liquid phase of the melt for a time sufficient for directed melt solidification to be effected from the selected point of the melt toward the periphery of the casting before the commencement of natural melt solidification processes as the melt cools. Subsequently, as the temperature at which natural solidification processes are completed is reached, the nonuniform field of force is removed, and casting cooling may continue at any reasonable rate. | 10-01-2009 |
Sergey Igorevich Anisimov, Moscow RU
| Patent application number | Description | Published |
|---|---|---|
| 20110190742 | METHOD FOR TREATING KERATOCONUS BY UV RADIATION AND A DEVICE FOR CARRYING OUT SAID METHOD (VARIANTS) - The invention relates to ophthalmology and is used for treating keratoconus. The inventive method comprises forming one or more radiation areas of different shape, comprising concentric circles, arcs, parallel lines, cells, grids, spirals or other geometrical figures. In the other variant, the method comprises polarizing UV radiation and adjusting the depth of the UV radiation action by directing the UV radiation polarization plane at an angle of 1-180° to the plane of light polarization by the cornea, thereby using the effect of light polarization by the cornea. The device for treating keratoconus comprises, positioned on the optical axis common with an UV radiation source optical focusing elements and a diaphragm. The diaphragm is situated on the optical axis common with the UV radiation source and is made in the form of a mask with alternating transparent and shaded elements in the form of concentric circles, arcs, parallel lines, cells, grids, spirals or other geometrical figures. In the other variant, the device comprises, situated on the optical axis common with the UV radiation source, the optical focusing elements, the diaphragm and a polarisor. | 08-04-2011 |
Valery Anisimov, Saint Petersburg RU
| Patent application number | Description | Published |
|---|---|---|
| 20110225526 | System and Method for Processing Objects - A system, method, and computer program product for processing of objects are disclosed. A processor coupled to a graphical user interface is configured to display an object. The processor receives input from a user concerning the object, wherein input relates to at least a partial location of the object, as a mouse position close to the object, a line approximately covering the vertical or horizontal extent of the object, or a box approximately covering the object. The processor provides input to a keying module, wherein the keying module processes the received input and provides the input to a recognition engine. The recognition engine is in communication with the keying module. Based on the received input, the recognition engine provides an exact information concerning the received input to the keying module, as an exact location, a recognition result, and a confidence score qualifying the reliability of the recognition results. The keying module generates an enhanced information about the object based on the information received from the recognition engine and predetermined information concerning the object. | 09-15-2011 |