Inventors list |
Assignees list |
Classification tree browser |
Top 100 Inventors |
Top 100 Assignees |
Dighe, US
Manjiri Dighe, Bellevue, WA US
| Patent application number | Description | Published |
|---|---|---|
| 20100292571 | NODULE SCREENING USING ULTRASOUND ELASTOGRAPHY - A medical device is configured to diagnose whether a nodule of a bodily organ is malignant or benign using ultrasound elastography to determine a nodule stiffness index. Using either an external compression source or an in vivo pulsation source, the stiffness of the nodule of the bodily organ can be quantified by either its static properties or dynamic properties. The nodule can be classified as Type I, which is benign requiring further observation, or Type II, which is malignant requiring invasive procedures. | 11-18-2010 |
Prasanna Dighe, Fremont, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20100060888 | COMPUTER-IMPLEMENTED METHODS FOR INSPECTING AND/OR CLASSIFYING A WAFER - Computer-implemented methods for inspecting and/or classifying a wafer are provided. One computer-implemented includes detecting defects on a wafer using one or more defect detection parameters, which are determined based on a non-spatially localized characteristic of the wafer that is determined using output responsive to light scattered from the wafer generated by an inspection system. Another computer-implemented method includes classifying a wafer based on a combination of a non-spatially localized characteristic of the wafer determined using output responsive to light scattered from the wafer generated by an inspection system and a spatially localized characteristic of the wafer determined using the output. | 03-11-2010 |
Rajiv S. Dighe, Petaluma, CA US
| Patent application number | Description | Published |
|---|---|---|
| 20110262132 | Daisy Chainable ONU - Embodiments of a scalable optical network unit (ONU) architecture for multi-dwelling units (MDUs) that has a low initial cost (or first port cost) and a low maintenance cost are provided herein. The ONU architecture is scalable in that a growing number of end users can share a single drop fiber that couples the ONU to a passive optical network. The ONU architecture utilizes a multiplexer module to allow the ONU to be daisy chained with one or more additional ONUs. | 10-27-2011 |
Sahil Dighe, Salt Lake City, UT US
| Patent application number | Description | Published |
|---|---|---|
| 20090144446 | Remediation management for a network with multiple clients - An exemplary method directs client devices client devices in a computing network to a remediation node. A subset of the client devices to receives remediation services is identified with a single common label. Upon determining that one of the client devices originating a communication request packet is identified by the single common label, processing the communication request packet by routing the communication request packet to a redirection server, and transmitting from the redirection server to the one client device a hypertext transfer protocol (HTTP) command specifying that the one client device redirect communications to the remediation node so that remediation services can be supplied to the one client device via the remediation node. | 06-04-2009 |
| 20090198800 | DHCP address conflict detection/enforcement - The present invention resolves IP address conflicts in a network with DHCP or other address assignment protocol when some host on the network uses a conflicting static IP address to an IP address assigned to another host. The preferred method involves offering a given IP address to a host/node through the address assignment protocol while also detecting any other host/node using the offered IP address on a given VLAN using address resolution protocol. If another host/node is using the IP address, the offending host/node may be blocked on that VLAN for a set amount of time. | 08-06-2009 |
Sahil P. Dighe, Salt Lake City, UT US
| Patent application number | Description | Published |
|---|---|---|
| 20100278054 | Method and apparatus for the classification of ports on a data communication network node - A method and apparatus for classifying a port on a node in a data communications network, such as a router. The node, itself or in some embodiments though another network device, determines whether the port in question is currently receiving packets from a single address, for example a MAC address, only. If so, incoming packets of at least a first type are selected for inspection. The inspection criteria may vary with the type or types of packets selected, but in any case the results of the inspection are used to determine whether the single address corresponds with a client device. If so, selective security measures may be applied to the port. If security measures are applied to a port, the port is preferably monitored periodically to ensure that it remains a client port. The frequency of inspections or monitoring may vary depending on the port's classification history. | 11-04-2010 |
Shyam V. Dighe, North Huntingdon, PA US
| Patent application number | Description | Published |
|---|---|---|
| 20080299019 | System and process for upgrading heavy hydrocarbons - A system and process for upgrading hydrocarbons such as heavy oils includes high temperature plasma reactor apparatus, in one or more vessels, into which the oils are introduced along with water, such as steam, to produce lighter hydrocarbon fractions, along with carbon monoxide and hydrogen, that flows to an additional stage where more hydrocarbons and water are introduced for further fractionating reactions facilitated by reaction of carbon monoxide and water to produce carbon dioxide and nascent, or prompt, free radicals of hydrogen. Heavy hydrocarbons upgraded can include heavy oils in the form of tar sands, oil shale, and oil residuals. The vessel or vessels can each contain a carbonaceous bed facilitating the described reactions and example embodiments include one vessel with the reactions performed in a single bed and, also, two vessels with the reactions performed in a carbonaceous bed portion in each vessel. | 12-04-2008 |
| 20090307974 | System and process for reduction of greenhouse gas and conversion of biomass - A system and process for reducing atmospheric greenhouse gas, particularly carbon dioxide, uses, in some forms, a reactor, such as a plasma gasification reactor (PGR), to chemically reduce sequestered carbon dioxide with high heat in a carbonaceous bed to form gaseous products then used above the bed to convert biomass to lighter hydrocarbons, as well as hydrogen and carbon monoxide. In some arrangements the sequestered carbon dioxide supplied to a reactor is derived from a power plant's exhaust. The gaseous products of a reactor may be supplied to an additional reactor for processing to form liquid fuels or may be supplied as gas fuel to an electric power plant or otherwise combusted. Where the output of the CO | 12-17-2009 |
| 20100199556 | Plasma gasification reactor - A plasma gasification reactor vessel having a top section with a conical wall extending up from a bottom section, containing a carbonaceous bed into which plasma is injected by plasma torches, to a roof of the vessel is arranged in ways that can contribute to characteristics of gas flow and solids residence time that are favorable for thoroughness of reactions and yield of useful reactions products. In some cases, such a conical wall is combined in arrangements with other features such as one or more feed ports arranged to give more uniform distribution including examples with a feed port that has a distributive feed mechanism. The roof of the vessel, in some examples, has vertical outlet ports that include intrusions into the interior volume of the reactor proximate the conical wall of the top section. The configurations of outlet ports with intrusions and the configurations of feed ports for more uniform distribution of feed material are also applicable to reactor vessels with other geometries. | 08-12-2010 |
| 20100199557 | Plasma gasification reactor - A plasma gasification reactor vessel having a top section with a conical wall extending up from a bottom section, containing a carbonaceous bed into which plasma is injected by plasma torches, to a roof of the vessel is arranged in ways that can contribute to characteristics of gas flow and solids residence time that are favorable for thoroughness of reactions and yield of useful reactions products. In some cases, such a conical wall is combined in arrangements with other features such as one or more feed ports arranged to give more uniform distribution including examples with a feed port that has a distributive feed mechanism. The roof of the vessel, in some examples, has vertical outlet ports that include intrusions into the interior volume of the reactor proximate the conical wall of the top section. The configurations of outlet ports with intrusions and the configurations of feed ports for more uniform distribution of feed material are also applicable to reactor vessels with other geometries. | 08-12-2010 |
| 20100199560 | Plasma gasification reactor - A plasma gasification reactor vessel having a top section with a conical wall extending up from a bottom section, containing a carbonaceous bed into which plasma is injected by plasma torches, to a roof of the vessel is arranged in ways that can contribute to characteristics of gas flow and solids residence time that are favorable for thoroughness of reactions and yield of useful reactions products. In some cases, such a conical wall is combined in arrangements with other features such as one or more feed ports arranged to give more uniform distribution including examples with a feed port that has a distributive feed mechanism. The roof of the vessel, in some examples, has vertical outlet ports that include intrusions into the interior volume of the reactor proximate the conical wall of the top section. The configurations of outlet ports with intrusions and the configurations of feed ports for more uniform distribution of feed material are also applicable to reactor vessels with other geometries. | 08-12-2010 |
Shyam V. Dighe, North Huntington, PA US
| Patent application number | Description | Published |
|---|---|---|
| 20100215554 | System and process for upgrading heavy hydrocarbons - A system and process for upgrading hydrocarbons such as heavy oils includes a high temperature plasma reactor apparatus, in one or more vessels, into which the oils are introduced along with water, such as steam, to produce lighter hydrocarbon fractions, along with carbon monoxide and hydrogen, that flows to an additional stage where more hydrocarbons and water are introduced for further fractionating reactions facilitated by reaction of carbon monoxide and water to produce carbon dioxide and nascent, or prompt, free radicals of hydrogen. Heavy hydrocarbons upgraded can include heavy oils in the form of tar sands, oil shale, and oil residuals. The vessel or vessels can each contain a carbonaceous bed facilitating the described reactions and example embodiments include one vessel with the reactions performed in a single bed and, also, two vessels with the reactions performed in a carbonaceous bed portion in each vessel. | 08-26-2010 |