Mangalam
Anand Paul Mangalam, Carrollton, TX US
Patent application number | Description | Published |
---|---|---|
20110254190 | PHOSPHATE BONDED COMPOSITES AND METHODS - Inorganic-organic composite articles and methods for producing them using inorganic acidic/alkaline precursor components as inorganic adhesives is provided. Articles prepared therefrom provide improved flexibility, zero flame spread, no release of volatile organic compounds, and low carbon foot print. | 10-20-2011 |
20130078479 | PHOSPHATE BONDED COMPOSITES AND METHODS - Inorganic-organic composite articles and methods for producing them using inorganic acidic/alkaline precursor components as inorganic adhesives is provided. Articles prepared therefrom provide improved flexibility, zero flame spread, no release of volatile organic compounds, and low carbon foot print. | 03-28-2013 |
Apoorv Mangalam, Lucknow IN
Patent application number | Description | Published |
---|---|---|
20150121210 | METHOD AND APPARATUS FOR AUTOMATICALLY IMPROVING LEGIBILITY BASED ON PREFERRED FONT CHARACTERISTICS - A computer implemented method and apparatus for automatically improving legibility based on preferred font characteristics. The method comprises determining a plurality of preferences regarding font size characteristics of sample text; receiving a request to view an electronic document having text in a given font; and displaying text of the electronic document in the given font with a zoom level based on the preferences. | 04-30-2015 |
Arun Mangalam, Williamsburg, VA US
Patent application number | Description | Published |
---|---|---|
20100036648 | Method for Predicting Flow and Performance Characteristics of a Body Using Critical Point Location - A method is provided for calculating flow performance characteristics of a body immersed in a fluid under a set of fluid flow conditions. The method comprises providing a geometrical description of a surface of the body and determining the set of fluid flow conditions. The set of fluid flow conditions includes a combination selected from the combination set consisting of angle of attack and leading edge stagnation point location, angle of attack and flow separation point location, and leading edge stagnation point location and flow separation point location. The method further comprises calculating a velocity flow field for the body using a critical point potential flow methodology and calculating flow performance characteristics. | 02-11-2010 |
20110246097 | Method and System for Determining Aerodynamic Loads from Leading Edge Flow Parameters - A method is provided for determining an aerodynamic coefficient for a body immersed in a fluid under a set of fluid flow conditions. The method comprises obtaining surface flow parameter data for a plurality of locations on the body. These locations include body surface points straddling an area of the body surface where a leading edge stagnation point (LESP) is expected to be located. The method further comprises determining the LESP location and an angle of attack of the body with respect to freestream conditions of the fluid using the flow parameter data. The method also comprises determining the aerodynamic coefficient from the LESP location and the angle of attack using an aerodynamic model. | 10-06-2011 |
20130112008 | System and Method for Determining Fluid Speed - A flow speed sensor arrangement is provided for measuring a flow speed of a fluid stream relative to an object. The arrangement comprises a first obstructive body having a first forward facing surface and two lateral edges and a second obstructive body having a second forward facing surface. The second obstructive body is positioned in tandem relative to the first obstructive body so that the first and second forward facing surfaces face the same direction and so that when the first forward facing surface is presented to an incoming fluid stream, the first obstructive body is between the incoming fluid flow and the second obstructive body. A sensor array is disposed on the second forward facing surface. The first and second obstructive bodies are attachable to the object so that the first forward face is presented to an incoming fluid stream when the object is immersed in the fluid stream. | 05-09-2013 |
Arun S. Mangalam, Williamsburg, VA US
Patent application number | Description | Published |
---|---|---|
20090018703 | System and Method for Control of Aeroelasticity Effects - A system is provided for control of a structure immersed in a fluid flow regime. The system comprises a plurality of flow sensors disposed on a surface of the structure, the flow sensors including at least one flow bifurcation point sensor. The system further comprises at least one structural sensor attached to the structure for measurement of a structural parameter. A data processor in communication with the flow sensors and the at least one structural sensor is configured for processing the data signals and for generating and transmitting one or more actuator command signals to effect a desired flow and structural state for the structure. The system also comprises at least one actuator in communication with the data processor. Each of the at least one actuator is configured for effecting, in response to an actuator command signal, one of the set consisting of a structural deformation in at least a portion of the structure, a change in configuration of a control surface of the structure, and an operational change in a flow control device embedded in the structure. | 01-15-2009 |
Ashutosh Mangalam, Rochester, MN US
Patent application number | Description | Published |
---|---|---|
20120213833 | PREVOTELLA HISTICOLA PREPARATIONS AND THE TREATMENT OF AUTOIMMUNE CONDITIONS - This document provides methods and materials related to | 08-23-2012 |
20140105972 | PREVOTELLA HISTICOLA PREPARATIONS AND THE TREATMENT OF AUTOIMMUNE CONDITIONS - This document provides methods and materials related to | 04-17-2014 |
Siva M. Mangalam, Williamsburg, VA US
Patent application number | Description | Published |
---|---|---|
20090018703 | System and Method for Control of Aeroelasticity Effects - A system is provided for control of a structure immersed in a fluid flow regime. The system comprises a plurality of flow sensors disposed on a surface of the structure, the flow sensors including at least one flow bifurcation point sensor. The system further comprises at least one structural sensor attached to the structure for measurement of a structural parameter. A data processor in communication with the flow sensors and the at least one structural sensor is configured for processing the data signals and for generating and transmitting one or more actuator command signals to effect a desired flow and structural state for the structure. The system also comprises at least one actuator in communication with the data processor. Each of the at least one actuator is configured for effecting, in response to an actuator command signal, one of the set consisting of a structural deformation in at least a portion of the structure, a change in configuration of a control surface of the structure, and an operational change in a flow control device embedded in the structure. | 01-15-2009 |
20100036648 | Method for Predicting Flow and Performance Characteristics of a Body Using Critical Point Location - A method is provided for calculating flow performance characteristics of a body immersed in a fluid under a set of fluid flow conditions. The method comprises providing a geometrical description of a surface of the body and determining the set of fluid flow conditions. The set of fluid flow conditions includes a combination selected from the combination set consisting of angle of attack and leading edge stagnation point location, angle of attack and flow separation point location, and leading edge stagnation point location and flow separation point location. The method further comprises calculating a velocity flow field for the body using a critical point potential flow methodology and calculating flow performance characteristics. | 02-11-2010 |
20130112008 | System and Method for Determining Fluid Speed - A flow speed sensor arrangement is provided for measuring a flow speed of a fluid stream relative to an object. The arrangement comprises a first obstructive body having a first forward facing surface and two lateral edges and a second obstructive body having a second forward facing surface. The second obstructive body is positioned in tandem relative to the first obstructive body so that the first and second forward facing surfaces face the same direction and so that when the first forward facing surface is presented to an incoming fluid stream, the first obstructive body is between the incoming fluid flow and the second obstructive body. A sensor array is disposed on the second forward facing surface. The first and second obstructive bodies are attachable to the object so that the first forward face is presented to an incoming fluid stream when the object is immersed in the fluid stream. | 05-09-2013 |
Srikanth Mangalam, Mississauga CA
Patent application number | Description | Published |
---|---|---|
20130144669 | System And Method For Maintaining, Inspecting And Assessing The Reliability Of Elevator And Other People Moving Devices - An elevator device having a computer system associated therewith for determining a risk of failure in the elevator device and for determining an inspection schedule to mitigate the risk. The computer system includes a module for determining an acceptable risk score, a module for determining an inspection schedule based on said risk score, a module for determining an increase in risk score proportional to a time elapsed since an expected inspection in the inspection schedule if the expected inspection has been missed, a module for determining a tolerance within the inspection schedule based on the increased risk, and a module for specifying an inspection schedule and an inspection tolerance based on the determined schedule and the determined tolerance. | 06-06-2013 |
20130253974 | System And Method For Inspecting And Assessing Risk of Mechanical Equipment And Facilities - A method for determining a risk of mechanical or electrical failure and for determining an inspection interval to mitigate said risk; the method including determining by a computer system an acceptable risk score based on computer readable instructions provided on a non-transitory computer readable medium, determining by said computer system an inspection interval based on said risk score, determining by said computer system a tolerance within said inspection interval based on said increased risk; and, specifying by said computer system an inspection interval and an inspection tolerance based on said determined schedule and said determined tolerance. | 09-26-2013 |
20130253975 | SYSTEM AND METHOD FOR INSPECTING AND ASSESSING RISK OF MECHANICAL EQUIPMENT AND FACILITIES - A method for determining a risk of mechanical or electrical failure and for determining an inspection interval to mitigate said risk; the method including determining by a computer system an acceptable risk score based on computer readable instructions provided on a non-transitory computer readable medium, determining by said computer system an increase in risk score based on an elapsed time since a deficiency identified in a previous inspection has not yet been rectified, determining by said computer system an inspection interval based on said risk score, determining by said computer system a tolerance within said inspection interval based on said increased risk; and, specifying by said computer system an inspection interval and an inspection tolerance based on said determined schedule and said determined tolerance. | 09-26-2013 |