Patent application number | Description | Published |
20100104820 | Optical and metamaterial devices based on reactive composite materials - Devices and components that can interact with or modify propagation of electromagnetic waves are provided. The design, fabrication and structures of the devices exploit the properties of reactive composite materials (RCM) and reaction products thereof. | 04-29-2010 |
20100104822 | Optical and metamaterial devices based on reactive composite materials - Devices and components that can interact with or modify propagation of electromagnetic waves are provided. The design, fabrication and structures of the devices exploit the properties of reactive composite materials (RCM) and reaction products thereof. | 04-29-2010 |
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 |
20120115240 | Treatment of ruminant exhalations - Methane gas in a ruminant exhalation may be oxidized to reduce the amount of methane gas output by the ruminant. | 05-10-2012 |
20130169925 | Corrective alignment optics for optical device - Exemplary methods, systems and components enable an enhanced direct-viewing optical device to make customized adjustments that accommodate various optical aberrations of a current user. In some instances a real-time adjustment of the transformable optical elements is based on known corrective optical parameters associated with a current user. In some implementations a control module may process currently updated wavefront measurements as a basis for determining appropriate real-time adjustment of the transformable optical elements to produce a specified change in optical wavefront at an exit pupil of the direct-viewing device. Possible transformable optical elements may have refractive and/or reflective and/or diffractive and/or transmissive characteristics that are adjusted based on current performance viewing factors for a given field of view of the direct-viewing device. Some embodiments enable dynamic repositioning and/or transformation of corrective optical elements based on a detected shift of a tracked gaze direction of a current user of the direct-viewing device. | 07-04-2013 |
20130169928 | Fabrication technique for replaceable optical corrective elements - Exemplary methods, systems and components enable an enhanced direct-viewing optical device to include customized adjustments that accommodate various optical aberrations of a current user. A real-time adjustment of transformable optical elements is sometimes based on predetermined corrective optical parameters associated with a current user. Customized optical elements are incorporated with the direct-viewing optical device to produce a specified change in optical wavefront at an exit pupil. Possible transformable or replacement optical elements may have refractive and/or reflective and/or diffractive and/or transmissive characteristics that are selected based on current performance viewing factors for a given field of view of the direct-viewing device. Some embodiments enable dynamic repositioning and/or transformation of corrective optical elements responsive to a detected shift of a tracked gaze direction of a current user. Replacement corrective optical elements may be fabricated for current usage or retained in inventory for possible future usage in the direct-viewing device. | 07-04-2013 |
20130169930 | Optical device with active user-based aberration correction - Exemplary embodiments enable an enhanced direct-viewing optical device to make customized adjustments that accommodate optical aberrations of a current user. In some instances a real-time adjustment of the transformable optical elements is based on known corrective optical parameters associated with a current user. In some implementations a control module may process currently updated wavefront measurements as a basis for determining appropriate real-time adjustment of the transformable optical elements to produce a specified change in optical wavefront at an exit pupil of the direct-viewing device. Possible transformable optical elements include refractive and/or reflective and/or diffractive and/or transmissive characteristics that are adjusted based on current performance viewing factors for a given field of view of the direct-viewing device. Dynamic repositioning and/or transformation of corrective optical elements may be based on a detected shift of a tracked gaze direction of a current user of the direct-viewing device. | 07-04-2013 |
20130170017 | Customized user options for optical device - Exemplary methods, systems and components enable an enhanced direct-viewing optical device to include customized adjustments that accommodate various optical aberrations of a current user. A real-time adjustment of transformable optical elements is sometimes based on predetermined corrective optical parameters associated with a current user. Customized optical elements are incorporated with the direct-viewing optical device to produce a specified change in optical wavefront at an exit pupil. Possible transformable or replacement optical elements may have refractive and/or reflective and/or diffractive and/or transmissive characteristics that are selected based on current performance viewing factors for a given field of view of the direct-viewing device. Some embodiments enable dynamic repositioning and/or transformation of corrective optical elements responsive to a detected shift of a tracked gaze direction of a current user. Replacement corrective optical elements may be fabricated for current usage or retained in inventory for possible future usage in the direct-viewing device. | 07-04-2013 |
20130170022 | Adjustable optics for ongoing viewing correction - Exemplary methods, systems and components enable an enhanced direct-viewing optical device to make customized adjustments that accommodate various optical aberrations of a current user. In some instances a real-time adjustment of the transformable optical elements is based on known corrective optical parameters associated with a current user. In some implementations a control module may process currently updated wavefront measurements as a basis for determining appropriate real-time adjustment of the transformable optical elements to produce a specified change in optical wavefront at an exit pupil of the direct-viewing device. Possible transformable optical elements may have refractive and/or reflective and/or diffractive and/or transmissive characteristics that are adjusted based on current performance viewing factors for a given field of view of the direct-viewing device. Some embodiments enable dynamic repositioning and/or transformation of corrective optical elements based on a detected shift of a tracked gaze direction of a current user of the direct-viewing device. | 07-04-2013 |
20130173029 | Optical device with interchangeable corrective elements - Exemplary embodiments enable an enhanced direct-viewing optical device to include customized adjustments that accommodate various optical aberrations of a current user. Customized optical elements associated with an authorized current user are incorporated with the direct-viewing optical device to produce a specified change in optical wavefront at an exit pupil. Possible replacement optical elements may have refractive and/or reflective and/or diffractive and/or transmissive characteristics based on current performance viewing factors for a given field of view of the direct-viewing optical device. Some embodiments enable dynamic repositioning and/or transformation of replaceable corrective optical elements responsive to a detected shift of a tracked gaze direction of a current user. Replaceable interchangeable corrective optical elements may be fabricated for current usage or retained in inventory for possible future usage in designated direct-viewing optical devices. | 07-04-2013 |
20130257144 | METHOD AND APPARATUS FOR SUPPLYING AUXILIARY ELECTRICAL POWER TO AN ELECTRIC OR HYBRID VEHICLE - The present invention may include a towable trailer being mechanically couplable to a vehicle, the towable trailer including an auxiliary battery housing unit, a wheel being rotatably connected to the towable trailer, an auxiliary battery disposed within the auxiliary battery housing unit of the towable trailer, the vehicle including a storage battery, the auxiliary battery of the towable trailer being electrically couplable with the storage battery of the vehicle via a bidirectional pathway, and a control system configured to control a transfer of electrical energy between the auxiliary battery of the towable trailer and the storage battery of the vehicle along the bidirectional pathway. | 10-03-2013 |
20130257145 | METHOD AND APPARATUS FOR SUPPLYING AUXILIARY ELECTRICAL POWER TO AN ELECTRIC OR HYBRID VEHICLE - The present invention may include a towable trailer being mechanically couplable to a vehicle, the towable trailer including an auxiliary battery housing unit, a wheel being rotatably connected to the towable trailer, an auxiliary battery disposed within the auxiliary battery housing unit of the towable trailer, the vehicle including a storage battery, the auxiliary battery of the towable trailer being electrically couplable with the storage battery of the vehicle via a bidirectional pathway, and a control system configured to control a transfer of electrical energy between the auxiliary battery of the towable trailer and the storage battery of the vehicle along the bidirectional pathway. | 10-03-2013 |
20140067296 | METHOD AND APPARATUS FOR MEASURING NEGAWATT USAGE OF AN APPLIANCE - The present invention may include measuring energy usage of one or more appliances for a selected usage metric, receiving reference energy usage data indicative of energy usage of one or more reference appliances for the selected usage metric, comparing the measured energy usage of the one or more appliances for the selected usage metric to the one or more received sets of reference energy usage data for the selected usage metric, and reporting an amount of energy savings based on the comparison of measured energy usage of the one or more appliances and the one or more received sets of reference energy data. | 03-06-2014 |
20140079594 | SYSTEMS AND METHODS FOR UNDERWATER STORAGE OF CARBON DIOXIDE - An underwater carbon dioxide storage facility including a carbon dioxide deposit stored underwater as a clathrate includes a flexible barrier disposed at least partially over the carbon dioxide deposit. The carbon dioxide deposit may be stored in or at the bottom of a body of water. | 03-20-2014 |
20140144036 | ENERGY EFFICIENT DRYER SYSTEMS - A dryer including a housing, a drying chamber disposed within the housing, and a heating element coupled to the housing. The dryer further includes an intake configured to supply intake air to the drying chamber and an exhaust vent configured to vent exhaust air out of the drying chamber. The intake, the drying chamber, and the exhaust vent define an air flow path from the intake through the drying chamber and out the exhaust vent. The dryer includes a heat exchanger and a heat pump having a condenser. The heat exchanger and the heat pump are each configured to absorb thermal energy from the exhaust air and transfer the thermal energy to the intake air. The air flow path is configured such that the intake air is heated directly or indirectly by the heat exchanger prior to the intake air being further heated directly or indirectly by the condenser. The air flow path is configured such that the intake air is further heated directly or indirectly by the condenser prior to the intake air entering the drying chamber. | 05-29-2014 |
20140145002 | SYSTEM FOR FACILITATING CLOUD FORMATION AND CLOUD PRECIPITATION - A system for facilitating cloud formation and cloud precipitation includes a controller and a beam emitter that is responsive to the controller. The beam emitter is configured to emit a beam to form charged particles within an atmospheric zone containing water vapor. The charged particles enhance the formation of cloud condensation nuclei such that water vapor condenses on the cloud condensation nuclei forming cloud droplets. The system further includes a sensor configured to detect a cloud status and output a signal corresponding to the cloud status to the controller. | 05-29-2014 |
20140170392 | MULTI-LAYER PHONONIC CRYSTAL THERMAL INSULATORS - A thermal insulator includes a plurality of layers. At least some of the layers include phononic crystals having a phononic bandgap, wherein heat transporting phonons within a selected range of frequencies are substantially blocked by each phononic crystal layer. The plurality of layers thermally isolate a first region from a second region, wherein the first region is at one end of the plurality of layers and the second region is at the other end of the plurality of layers. | 06-19-2014 |
20140185338 | BALANCING POWER GRID PARAMETERS USING DISTRIBUTED ENERGY CONTROL - Described embodiments include a system and a method. A system includes an energy storage device configured to store and release energy. The system includes a waveform sensor configured to detect a second harmonic or higher frequency component deviation in a waveform of electric power supplied to the system by an electrical power grid. The system includes a bi-directional switched-mode converter coupled between the energy storage device and the electrical power grid. The switched-mode converter is configured to receive and convert electric power from the electrical power grid into energy stored in the energy storage device and to convert energy released from the energy storage device into electric power and discharge the converted electric power into the electrical power grid. The system includes a waveform correction manager configured to control the bi-directional switched-mode converter in a manner implementing a waveform deviation reduction strategy responsive to the detected deviation in the waveform. | 07-03-2014 |
20140186916 | ARTICLES AND METHODS FOR ADMINISTERING CO2 INTO PLANTS - Methods and articles are provided for reducing the amount of water consumed by a plant over a period of time, sequestering CO | 07-03-2014 |
20140187425 | ARTICLES AND METHODS FOR ADMINISTERING CO2 INTO PLANTS - Methods and articles are provided for reducing the amount of water consumed by a plant over a period of time, sequestering CO | 07-03-2014 |
20140199225 | TREATMENT OF RUMINANT EXHALATIONS - Methane gas in a ruminant exhalation may be oxidized to reduce the amount of methane gas output by the ruminant. | 07-17-2014 |
20140261449 | SLEEP-APNEA-TREATMENT SYSTEM WITH MULTIPLE PRESSURE AND SEALING SURFACES - An embodiment of a collar includes first and second pressure surfaces, and first and second sealing surfaces. The first pressure surface is configured for disposal over a first region of a throat of a subject having an airway, and the first sealing surface is configured to form around the first pressure surface a first seal with a first region of a neck of the subject. And the second pressure surface is configured for disposal over a second region of the throat, and the second sealing surface is configured to form around the second pressure surface a second seal with a second region of the neck. For example, the collar can be configured to generate multiple negative-pressure regions to treat a subject's sleep apnea. | 09-18-2014 |
20140276174 | CORRELATING A CONDITION OF A SUBJECT WITH A DEGREE OF SLEEP APNEA BEING EXPERIENCED BY THE SUBJECT - A system can perform the following procedure as part of a plan to treat sleep apnea, according to an embodiment. The system monitors a degree to which an airway of a subject is open, and monitors a condition that is related to the degree to which the airway is open. The system also correlates the condition to the degree to which the airway is open, and generates a data structure that represents the correlation between the condition and the degree to which the airway is open. This system can allow a sleep-apnea-treatment system to operate in a closed-loop mode, i.e., to monitor a level of sleep apnea in a subject by monitoring the correlated condition, and to treat the subject in a manner that the treatment system deems appropriate for the level of sleep apnea that the treatment system determines that the subject is experiencing. | 09-18-2014 |
20140276252 | TREATING SLEEP APNEA WITH NEGATIVE PRESSURE - An embodiment of a system for treating sleep apnea includes a collar, a pump, and a motor. The collar has a vacuum surface and has a sealing surface that is configured to form a seal with a region of a neck of a subject having an airway. The pump is secured to the collar, and is configured to maintain the airway open by drawing a vacuum between the vacuum surface of the collar and a region of a throat of the subject. And the motor is secured to the collar and is configured to drive the pump. As compared to existing systems (e.g., a Continuous Positive Airway Pressure (CPAP) system) for treating sleep apnea, the above-described system may be more portable, more comfortable, may be less likely to require adjustment while a subject using the system is asleep, and, therefore, may be less likely to awaken the subject. | 09-18-2014 |
20140277252 | SLEEP-APNEA-TREATMENT SYSTEM THAT CHANGES THE TREATMENT PRESSURE OVER A PERIOD THAT BEGINS OR ENDS AT A SETTABLE TIME - A system includes an apparatus and a controller, according to an embodiment. The apparatus is configured to maintain an airway of a subject open while the subject is sleeping by applying to the airway a pressure having a magnitude, and the controller is configured to cause the apparatus to change the magnitude of the pressure over a period that begins at a settable start time. For example, the system can be configured to treat a subject's sleep apnea with positive or negative pressure, and to function as an alarm clock by beginning to change the pressure magnitude at a settable start time, and to continue changing the pressure over a period with a settable duration (or settable stop time) to gently awaken the subject by the end of the period. | 09-18-2014 |
20150050159 | DUAL ELEMENT TURBINE BLADE - A turbine blade includes a core element having a base portion, a tip portion, and an intermediate portion extending between the base portion and the tip portion. The intermediate portion includes a non-uniform cross-section and is a high-strength fiber material. The turbine blade further includes a shell disposed around the core element, and the volume between the core element and the shell forms a void. | 02-19-2015 |