Patent application number | Description | Published |
20090166103 | Limbed vehicles, systems and methods using same, and post networks on which limbed vehicles travel - Embodiments disclosed herein relate to systems including a limbed vehicle having a plurality of controllably movable limbs (e.g., a limbed machine, limbed robot, etc.), a plurality of spaced posts that the limbed vehicle may travel on using the limbs, and at least one logistical-support unit associated with at least one of the posts and configured to provide logistical support to the limbed vehicle. As non-limiting examples, such disclosed embodiments of systems may be used to service an agriculture field, to enable travel over an environmentally-sensitive area or an area impassable by a conventional wheeled or tracked vehicle, and may be used in many other different applications. Embodiments disclosed herein also relate to limbed vehicles configured to receive logistical support from a logistical-support unit, methods of providing logistical support to such limbed vehicles, post networks, and posts. | 07-02-2009 |
20090166104 | Systems and methods employing limbed vehicle and spaced posts - Embodiments disclosed herein relate to systems including a limbed vehicle having a plurality of controllably movable limbs (e.g., a limbed machine, limbed robot, etc.) and a plurality of spaced posts that the limbed vehicle may travel on using the limbs. As non-limiting examples, such disclosed embodiments of systems may be used to service an agriculture field, to enable travel over an environmentally-sensitive area or an area impassable by a conventional wheeled or tracked vehicle, and may be used in many other different applications. Embodiments disclosed herein also relate to methods of operating a limbed vehicle to travel on a plurality of spaced posts. | 07-02-2009 |
20090166105 | Limbed vehicles, systems and methods using same, and post networks on which limbed vehicles travel - Embodiments disclosed herein relate to systems including a limbed vehicle having a plurality of controllably movable limbs (e.g., a limbed machine, limbed robot, etc.) and a plurality of spaced posts that the limbed vehicle may travel on using the controllably movable limbs. As non-limiting examples, such disclosed embodiments of systems may be used to service an agriculture field, to enable travel over an environmentally-sensitive area or an area impassable by a conventional wheeled or tracked vehicle, and may be used in many other different applications. Embodiments disclosed herein also relate to methods of operating a limbed vehicle to travel on a plurality of spaced posts, limbed vehicles, post networks, and posts. | 07-02-2009 |
20090173386 | Water alteration structure applications and methods - A method is generally described which includes environmental alteration. The method includes determining a placement of at least one vessel capable of moving water to lower depths in the water via wave induced downwelling. The method also includes placing the at least one vessel in the determined placement. Further, the method includes generating movement of the water adjacent the surface of the water in response to the placing. | 07-09-2009 |
20090173404 | Water alteration structure and system - A system is described generally for providing a structure or structures for altering water surface temperature. The system includes a holding vessel configured to hold water. The holding vessel has at least one wall coupled to a lowermost portion. The at least one wall extends above the water level and the lowermost portion is configured to be submerged. At least one conduit extends from the lower side of the holding vessel. The at least one conduit has a length extending to a depth at which a property of water at the depth is substantially different from that of the water at the surface. | 07-09-2009 |
20090173801 | Water alteration structure and system having below surface valves or wave reflectors - A system is described generally for providing a structure or structures for altering water surface temperature. The system includes a holding vessel configured to hold water. The holding vessel has at least one wall coupled to a lowermost portion. The at least one wall extends above the water level and the lowermost portion is configured to be submerged. At least one conduit extends from the lower side of the holding vessel. The at least one conduit has a length extending to a depth at which a property of water at the depth is substantially different from that of the water at the surface. The at least one conduit or the holding vessel includes at least one aperture formed in at least one of the holding vessel or the at least one conduit and located at a distance below the mean surface water level and at least one one way valve is coupled to the at least one aperture and allowing flow of water in only one direction. | 07-09-2009 |
20090175685 | Water alteration structure movement method and system - A structure described generally for altering one or more properties within a body of water includes a vessel configured to hold water. The vessel may have at least one wall. The at least one wall extends at least above a mean surface water level. At least one conduit extends downward from the holding vessel. The at least one conduit has a length that extends below the surface of the water. A propulsion system may be coupled to at least one of the vessel or the conduit and may be configured to provide forces to the vessel. | 07-09-2009 |
20090177569 | Water alteration structure risk management or ecological alteration management systems and methods - A method of managing risk includes selling individual insurance policies regarding areas to be protected by storm suppression equipment. The method discussed also includes finding at least one of purchase, operation, or maintenance of the storm suppression equipment at least partially through premiums collected from the selling. | 07-09-2009 |
20090283534 | Storage container including multi-layer insulation composite material having bandgap material and related methods - In one embodiment, a storage container includes a container structure defining at least one storage chamber. The container structure includes multi-layer insulation (MLI) composite material having at least one thermally-reflective layer. The at least one thermally-reflective layer includes bandgap material that is transmissive to radio-frequency electromagnetic radiation. | 11-19-2009 |
20090286022 | Multi-layer insulation composite material including bandgap material, storage container using same, and related methods - In one embodiment, a multi-layer insulation (MLI) composite material includes a first thermally-reflective layer and a second thermally-reflective layer spaced from the first thermally-reflective layer. At least one of the first or second thermally-reflective layers includes bandgap material that is reflective to infrared electromagnetic radiation. A region between the first and second thermally-reflective layers impedes heat conduction between the first and second thermally-reflective layers. Other embodiments include a storage container including a container structure that may be at least partially formed from such MLI composite materials, and methods of using such MLI composite materials. | 11-19-2009 |
20090294668 | Focusing and sensing apparatus, methods, and systems - Apparatus, methods, and systems provide focusing, focus-adjusting, and sensing. In some approaches the focus-adjusting includes providing an extended depth of focus greater than a nominal depth of focus. In some approaches the focus-adjusting includes focus-adjusting with a transformation medium, where the transformation medium may include an artificially-structured material such as a metamaterial. | 12-03-2009 |
20090296076 | Negatively-refractive focusing and sensing apparatus, methods, and systems - Apparatus, methods, and systems provide negatively-refractive focusing and sensing of electromagnetic energy. In some approaches the negatively-refractive focusing includes providing an interior focusing region with an axial magnification substantially greater than one. In some approaches the negatively-refractive focusing includes negatively-refractive focusing with a transformation medium, where the transformation medium may include an artificially-structured material such as a metamaterial. | 12-03-2009 |
20090296077 | Negatively-refractive focusing and sensing apparatus, methods, and systems - Apparatus, methods, and systems provide negatively-refractive focusing and sensing of electromagnetic energy. In some approaches the negatively-refractive focusing includes providing an interior focusing region with an axial magnification substantially less than one. In some approaches the negatively-refractive focusing includes negatively-refractive focusing with a transformation medium, where the transformation medium may include an artificially-structured material such as a metamaterial. | 12-03-2009 |
20090296224 | Emitting and negatively-refractive focusing apparatus, methods, and systems - Apparatus, methods, and systems provide emitting and negatively-refractive focusing of electromagnetic energy. In some approaches the negatively-refractive focusing includes negatively-refractive focusing from an interior field region with an axial magnification substantially less than one. In some approaches the negatively-refractive focusing includes negatively-refractive focusing with a transformation medium, where the transformation medium may include an artificially-structured material such as a metamaterial. | 12-03-2009 |
20090296225 | Negatively-refractive focusing and sensing apparatus, methods, and systems - Apparatus, methods, and systems provide negatively-refractive focusing and sensing of electromagnetic energy. In some approaches the negatively-refractive focusing includes providing an interior focusing region with an axial magnification substantially greater than one. In some approaches the negatively-refractive focusing includes negatively-refractive focusing with a transformation medium, where the transformation medium may include an artificially-structured material such as a metamaterial. | 12-03-2009 |
20090296226 | Negatively-refractive focusing and sensing apparatus, methods, and systems - Apparatus, methods, and systems provide negatively-refractive focusing and sensing of electromagnetic energy. In some approaches the negatively-refractive focusing includes providing an interior focusing region with an axial magnification substantially greater than one. In some approaches the negatively-refractive focusing includes negatively-refractive focusing with a transformation medium, where the transformation medium may include an artificially-structured material such as a metamaterial. | 12-03-2009 |
20090296236 | Emitting and focusing apparatus, methods, and systems - Apparatus, methods, and systems provide emitting, field-adjusting, and focusing of electromagnetic energy. In some approaches the field-adjusting includes providing an extended depth of field greater than a nominal depth of field. In some approaches the field-adjusting includes field-adjusting with a transformation medium, where the transformation medium may include an artificially-structured material such as a metamaterial. | 12-03-2009 |
20090296237 | Focusing and sensing apparatus, methods, and systems - Apparatus, methods, and systems provide focusing, focus-adjusting, and sensing. In some approaches the focus-adjusting includes providing an extended depth of focus greater than a nominal depth of focus. In some approaches the focus-adjusting includes focus-adjusting with a transformation medium, where the transformation medium may include an artificially-structured material such as a metamaterial. | 12-03-2009 |
20090299683 | Emitting and focusing apparatus, methods, and systems - Apparatus, methods, and systems provide emitting, field-adjusting, and focusing of electromagnetic energy. In some approaches the field-adjusting includes providing an extended depth of field greater than a nominal depth of field. In some approaches the field-adjusting includes field-adjusting with a transformation medium, where the transformation medium may include an artificially-structured material such as a metamaterial. | 12-03-2009 |
20090299708 | Focusing and sensing apparatus, methods, and systems - Apparatus, methods, and systems provide focusing, focus-adjusting, and sensing. In some approaches the focus-adjusting includes providing an extended depth of focus greater than a nominal depth of focus. In some approaches the focus-adjusting includes focus-adjusting with a transformation medium, where the transformation medium may include an artificially-structured material such as a metamaterial. | 12-03-2009 |
20090316279 | Emitting and focusing apparatus, methods, and systems - Apparatus, methods, and systems provide emitting, field-adjusting, and focusing of electromagnetic energy. In some approaches the field-adjusting includes providing an extended depth of field greater than a nominal depth of field. In some approaches the field-adjusting includes field-adjusting with a transformation medium, where the transformation medium may include an artificially-structured material such as a metamaterial. | 12-24-2009 |
20100025599 | Emitting and negatively-refractive focusing apparatus, methods, and systems - Apparatus, methods, and systems provide emitting and negatively-refractive focusing of electromagnetic energy. In some approaches the negatively-refractive focusing includes negatively-refractive focusing from an interior field region with an axial magnification substantially less than one. In some approaches the negatively-refractive focusing includes negatively-refractive focusing with a transformation medium, where the transformation medium may include an artificially-structured material such as a metamaterial. | 02-04-2010 |
20100027130 | Emitting and negatively-refractive focusing apparatus, methods, and systems - Apparatus, methods, and systems provide emitting and negatively-refractive focusing of electromagnetic energy. In some approaches the negatively-refractive focusing includes negatively-refractive focusing from an interior field region with an axial magnification substantially less than one. In some approaches the negatively-refractive focusing includes negatively-refractive focusing with a transformation medium, where the transformation medium may include an artificially-structured material such as a metamaterial. | 02-04-2010 |
20100033712 | Emitting and negatively-refractive focusing apparatus, methods, and systems - Apparatus, methods, and systems provide emitting and negatively-refractive focusing of electromagnetic energy. In some approaches the negatively-refractive focusing includes negatively-refractive focusing from an interior field region with an axial magnification substantially greaters than one. In some approaches the negatively-refractive focusing includes negatively-refractive focusing with a transformation medium, where the transformation medium may include an artificially-structured material such as a metamaterial. | 02-11-2010 |
20100033832 | Negatively-refractive focusing and sensing apparatus, methods, and systems - Apparatus, methods, and systems provide negatively-refractive focusing and sensing of electromagnetic energy. In some approaches the negatively-refractive focusing includes providing an interior focusing region with an axial magnification substantially less than one. In some approaches the negatively-refractive focusing includes negatively-refractive focusing with a transformation medium, where the transformation medium may include an artificially-structured material such as a metamaterial. | 02-11-2010 |
20100033833 | Emitting and negatively-refractive focusing apparatus, methods, and systems - Apparatus, methods, and systems provide emitting and negatively-refractive focusing of electromagnetic energy. In some approaches the negatively-refractive focusing includes negatively-refractive focusing from an interior field region with an axial magnification substantially greaters than one. In some approaches the negatively-refractive focusing includes negatively-refractive focusing with a transformation medium, where the transformation medium may include an artificially-structured material such as a metamaterial. | 02-11-2010 |
20100142031 | MAGNETIC CONTROL OF SURFACE STATES - A magnetic field may be applied to a plasmon path to affect plasmon propagation. | 06-10-2010 |
20100149660 | Focusing and sensing apparatus, methods, and systems - Apparatus, methods, and systems provide focusing, focus-adjusting, and sensing. In some approaches the focus-adjusting includes providing an extended depth of focus greater than a nominal depth of focus. In some approaches the focus-adjusting includes focus-adjusting with a transformation medium, where the transformation medium may include an artificially-structured material such as a metamaterial. | 06-17-2010 |
20100187304 | Diagnostic delivery service - Systems, methods, and other modalities are described for (a) obtaining an indication relating to an emission module (which may be dangerous, e.g.) or its user (who may be untrained, e.g.) and for (b) configuring the module or causing an irradiation (for imaging, e.g.) in response to the indication. | 07-29-2010 |
20100189219 | Diagnostic delivery service - Systems, methods, and other modalities are described for (a) obtaining an indication relating to an emission module (which may be dangerous, e.g.) or its user (who may be untrained, e.g.) and for (b) configuring the module or causing an irradiation (for imaging, e.g.) in response to the indication. | 07-29-2010 |
20100189224 | Diagnostic delivery service - Systems, methods, and other modalities are described for (a) obtaining an indication relating to an emission module (which may be dangerous, e.g.) or its user (who may be untrained, e.g.) and for (b) configuring the module or causing an irradiation (for imaging, e.g.) in response to the indication. | 07-29-2010 |
20100191092 | Diagnostic delivery service - Systems, methods, and other modalities are described for (a) obtaining an indication relating to an emission module (which may be dangerous, e.g.) or its user (who may be untrained, e.g.) and for (b) configuring the module or causing an irradiation (for imaging, e.g.) in response to the indication. | 07-29-2010 |
20100191093 | Diagnostic delivery service - Systems, methods, and other modalities are described for (a) obtaining an indication relating to an emission module (which may be dangerous, e.g.) or its user (who may be untrained, e.g.) and for (b) configuring the module or causing an irradiation (for imaging, e.g.) in response to the indication. | 07-29-2010 |
20100191094 | Diagnostic delivery service - Systems, methods, and other modalities are described for (a) obtaining an indication relating to an emission module (which may be dangerous, e.g.) or its user (who may be untrained, e.g.) and for (b) configuring the module or causing an irradiation (for imaging, e.g.) in response to the indication. | 07-29-2010 |
20100191105 | Diagnostic delivery service - Systems, methods, and other modalities are described for (a) obtaining an indication relating to an emission module (which may be dangerous, e.g.) or its user (who may be untrained, e.g.) and for (b) configuring the module or causing an irradiation (for imaging, e.g.) in response to the indication. | 07-29-2010 |
20100191107 | Diagnostic delivery service - Systems, methods, and other modalities are described for (a) obtaining an indication relating to an emission module (which may be dangerous, e.g.) or its user (who may be untrained, e.g.) and for (b) configuring the module or causing an irradiation (for imaging, e.g.) in response to the indication. | 07-29-2010 |
20100220382 | Magnetic control of surface states - A magnetic field may be applied to a plasmon path to affect plasmon propagation. | 09-02-2010 |
20100265006 | Evanescent electromagnetic wave conversion methods II - Apparatus, methods, and systems provide conversion of evanescent electromagnetic waves to non-evanescent electromagnetic waves and/or conversion of non-evanescent electromagnetic waves to evanescent electromagnetic waves. In some approaches the conversion includes propagation of electromagnetic waves within an indefinite electromagnetic medium, and the indefinite medium may include an artificially-structured material such as a layered structure or other metamaterial. | 10-21-2010 |
20100265014 | Evanescent electromagnetic wave conversion lenses I - Apparatus, methods, and systems provide conversion of evanescent electromagnetic waves to non-evanescent electromagnetic waves and/or conversion of non-evanescent electromagnetic waves to evanescent electromagnetic waves. In some approaches the conversion includes propagation of electromagnetic waves within an indefinite electromagnetic medium, and the indefinite medium may include an artificially-structured material such as a layered structure or other metamaterial. | 10-21-2010 |
20100265158 | Evanescent electromagnetic wave conversion lenses III - Apparatus, methods, and systems provide conversion of evanescent electromagnetic waves to non-evanescent electromagnetic waves and/or conversion of non-evanescent electromagnetic waves to evanescent electromagnetic waves. In some approaches the conversion includes propagation of electromagnetic waves within an indefinite electromagnetic medium, and the indefinite medium may include an artificially-structured material such as a layered structure or other metamaterial. | 10-21-2010 |
20100265589 | Evanescent electromagnetic wave conversion apparatus III - Apparatus, methods, and systems provide conversion of evanescent electromagnetic waves to non-evanescent electromagnetic waves and/or conversion of non-evanescent electromagnetic waves to evanescent electromagnetic waves. In some approaches the conversion includes propagation of electromagnetic waves within an indefinite electromagnetic medium, and the indefinite medium may include an artificially-structured material such as a layered structure or other metamaterial. | 10-21-2010 |
20100265590 | Evanescent electromagnetic wave conversion apparatus I - Apparatus, methods, and systems provide conversion of evanescent electromagnetic waves to non-evanescent electromagnetic waves and/or conversion of non-evanescent electromagnetic waves to evanescent electromagnetic waves. In some approaches the conversion includes propagation of electromagnetic waves within an indefinite electromagnetic medium, and the indefinite medium may include an artificially-structured material such as a layered structure or other metamaterial. | 10-21-2010 |
20100265591 | Evanescent electromagnetic wave conversion apparatus II - Apparatus, methods, and systems provide conversion of evanescent electromagnetic waves to non-evanescent electromagnetic waves and/or conversion of non-evanescent electromagnetic waves to evanescent electromagnetic waves. In some approaches the conversion includes propagation of electromagnetic waves within an indefinite electromagnetic medium, and the indefinite medium may include an artificially-structured material such as a layered structure or other metamaterial. | 10-21-2010 |
20100265592 | Evanescent electromagnetic wave conversion lenses II - Apparatus, methods, and systems provide conversion of evanescent electromagnetic waves to non-evanescent electromagnetic waves and/or conversion of non-evanescent electromagnetic waves to evanescent electromagnetic waves. In some approaches the conversion includes propagation of electromagnetic waves within an indefinite electromagnetic medium, and the indefinite medium may include an artificially-structured material such as a layered structure or other metamaterial. | 10-21-2010 |
20100266238 | Evanescent electromagnetic wave conversion methods III - Apparatus, methods, and systems provide conversion of evanescent electromagnetic waves to non-evanescent electromagnetic waves and/or conversion of non-evanescent electromagnetic waves to evanescent electromagnetic waves. In some approaches the conversion includes propagation of electromagnetic waves within an indefinite electromagnetic medium, and the indefinite medium may include an artificially-structured material such as a layered structure or other metamaterial. | 10-21-2010 |
20100266239 | Evanescent electromagnetic wave conversion methods I - Apparatus, methods, and systems provide conversion of evanescent electromagnetic waves to non-evanescent electromagnetic waves and/or conversion of non-evanescent electromagnetic waves to evanescent electromagnetic waves. In some approaches the conversion includes propagation of electromagnetic waves within an indefinite electromagnetic medium, and the indefinite medium may include an artificially-structured material such as a layered structure or other metamaterial. | 10-21-2010 |
20100277807 | NEGATIVELY-REFRACTIVE FOCUSING AND SENSING APPARATUS, METHODS, AND SYSTEMS - Apparatus, methods, and systems provide negatively-refractive focusing and sensing of electromagnetic energy. In some approaches the negatively-refractive focusing includes providing an interior focusing region with an axial magnification substantially less than one. In some approaches the negatively-refractive focusing includes negatively-refractive focusing with a transformation medium, where the transformation medium may include an artificially-structured material such as a metamaterial. | 11-04-2010 |
20100277808 | Emitting and negatively-refractive focusing apparatus, methods, and systems - Apparatus, methods, and systems provide emitting and negatively-refractive focusing of electromagnetic energy. In some approaches the negatively-refractive focusing includes negatively-refractive focusing from an interior field region with an axial magnification substantially greaters than one. In some approaches the negatively-refractive focusing includes negatively-refractive focusing with a transformation medium, where the transformation medium may include an artificially-structured material such as a metamaterial. | 11-04-2010 |
20100300560 | Water alteration structure and system having heat transfer conduit - A system is described generally for a water capture structure that is configured to capture wave water lapping over at least one wall of the water capture structure. The at least one wall extends at least above a nominal surface water level and at least one conduit extends downward from the water capture structure. The at least one conduit has a length extending to a depth at which at least one property of water at the depth differs substantially from that of water at the surface. The at least one conduit is configured to provide thermal energy to water outside of the at least one conduit. The at least one conduit has at least one conduit wall. | 12-02-2010 |
20110026107 | Surface state gain - A gain medium may be arranged to provide energy to a surface state. | 02-03-2011 |
20110026874 | Surface state gain - A gain medium may be arranged to provide energy to a surface state. | 02-03-2011 |
20110057749 | Surface state gain - A gain medium may be arranged to provide energy to a surface state. | 03-10-2011 |
20110186805 | Doped graphene electronic materials - A graphene substrate is doped with one or more functional groups to form an electronic device. | 08-04-2011 |
20110186806 | Doped graphene electronic materials - A graphene substrate is doped with one or more functional groups to form an electronic device. | 08-04-2011 |
20110186807 | Doped graphene electronic materials - A graphene substrate is doped with one or more functional groups to form an electronic device. | 08-04-2011 |
20110186817 | Doped graphene electronic materials - A graphene substrate is doped with one or more functional groups to form an electronic device. | 08-04-2011 |
20110186818 | Doped graphene electronic materials - A graphene substrate is doped with one or more functional groups to form an electronic device. | 08-04-2011 |
20120018653 | Metamaterial surfaces - An apparatus to modify an incident free space electromagnetic wave includes a block of an artificially structured material having an adjustable spatial distribution of electromagnetic parameters (e.g., ∈, μ, η, σ, and n). A controller applies control signals to dynamically adjust the spatial distribution of electromagnetic parameters in the material to introduce a time-varying path delay d(t) in the modified electromagnetic wave relative to the incident electromagnetic wave.) | 01-26-2012 |
20120019431 | Metamaterial surfaces - An apparatus to modify an incident free space electromagnetic wave includes a block of an artificially structured material having an adjustable spatial distribution of electromagnetic parameters (e.g., ∈, μ, η, σ, and n). A controller applies control signals to dynamically adjust the spatial distribution of electromagnetic parameters in the material to introduce a time-varying path delay d(t) in the modified electromagnetic wave relative to the incident electromagnetic wave. | 01-26-2012 |
20120019432 | Metamaterial surfaces - An apparatus to modify an incident free space electromagnetic wave includes a block of an artificially structured material having an adjustable spatial distribution of electromagnetic parameters (e.g., ∈, μ, η, σ, and n). A controller applies control signals to dynamically adjust the spatial distribution of electromagnetic parameters in the material to introduce a time-varying path delay d (t) in the modified electromagnetic wave relative to the incident electromagnetic wave. | 01-26-2012 |
20120019892 | Metamaterial surfaces - An apparatus to modify an incident free space electromagnetic wave includes a block of an artificially structured material having an adjustable spatial distribution of electromagnetic parameters (e.g., ε, μ, η, σ, and n). A controller applies control signals to dynamically adjust the spatial distribution of electromagnetic parameters in the material to introduce a time-varying path delay d(t) in the modified electromagnetic wave relative to the incident electromagnetic wave. | 01-26-2012 |
20130016421 | MAGNETIC CONTROL OF SURFACE STATES - A magnetic field may be applied to a plasmon path to affect plasmon propagation. | 01-17-2013 |
20130099197 | DOPED GRAPHENE ELECTRONIC MATERIALS - A graphene substrate is doped with one or more functional groups to form an electronic device. | 04-25-2013 |