Patent application number | Description | Published |
20100004567 | Wearable/portable protection for a body - In one embodiment, a particular state of a body is sensed. In response to the sensing, at least one action is taken to modulate a projected adverse interaction between the body or a portion thereof and at least one object in the environment of the body. | 01-07-2010 |
20130182228 | REPEATABLY DISPLACEABLE EMANATING ELEMENT DISPLAY - One aspect relates to generating a repeatably displaceable emanating element display that may display at least part of an at least one synchronously modifiable oriented image based at least in part on alterable vehicle-related information, wherein the repeatably displaceable emanating element display may be synchronously modified as perceivable by a viewer at least partially by synchronizing an at least one repeatably displaceable display emanating element based at least in part on an orientation of the repeatably displaceable emanating element display as synchronously modified as perceivable by the viewer. | 07-18-2013 |
20140325922 | SYSTEMS AND METHODS FOR DAMPING BUILDING OSCILLATIONS - A fluid transport system for actively damping oscillations of a structure affixed to a ground surface is disclosed. The system includes a pipe defining a flow path, a driver in fluid communication with the pipe and configured to provide a fluid flow through the pipe, and a controller. The controller is programmed to send a fluid flow command signal in response to an event signal indicating an oscillation event. | 11-06-2014 |
20150069656 | SYSTEMS AND METHODS FOR MANUFACTURING CONCRETE STRUCTURES - The embodiments disclosed herein relate to construction systems, assemblies, and methods. The construction systems can include concrete dispensing assemblies. The concrete dispensing assemblies can be configured to dispense a plurality of discrete units. The concrete dispensing assemblies can also be configured to simultaneously dispense two or more concrete mixtures. One or more dispensing parameter may be controllable, for example, by a computer control system. Additives and/or curing agents may also be used. Exemplary curing agents include carbon dioxide containing materials. | 03-12-2015 |
20150072068 | SYSTEMS AND METHODS FOR MANUFACTURING CONCRETE STRUCTURES - The embodiments disclosed herein relate to construction systems, assemblies, and methods. The construction systems can include concrete dispensing assemblies. The concrete dispensing assemblies can be configured to dispense a plurality of discrete units. The concrete dispensing assemblies can also be configured to simultaneously dispense two or more concrete mixtures. One or more dispensing parameter may be controllable, for example, by a computer control system. Additives and/or curing agents may also be used. Exemplary curing agents include carbon dioxide containing materials. | 03-12-2015 |
Patent application number | Description | Published |
20100004567 | Wearable/portable protection for a body - In one embodiment, a particular state of a body is sensed. In response to the sensing, at least one action is taken to modulate a projected adverse interaction between the body or a portion thereof and at least one object in the environment of the body. | 01-07-2010 |
20130182228 | REPEATABLY DISPLACEABLE EMANATING ELEMENT DISPLAY - One aspect relates to generating a repeatably displaceable emanating element display that may display at least part of an at least one synchronously modifiable oriented image based at least in part on alterable vehicle-related information, wherein the repeatably displaceable emanating element display may be synchronously modified as perceivable by a viewer at least partially by synchronizing an at least one repeatably displaceable display emanating element based at least in part on an orientation of the repeatably displaceable emanating element display as synchronously modified as perceivable by the viewer. | 07-18-2013 |
20140020787 | LIQUEFIED BREATHING GAS SYSTEMS FOR UNDERGROUND MINES - A method of transporting liquefied breathing gases in underground mines includes providing a conduit system that extends within a mine shaft to a work space below ground where the conduit system includes an outlet positioned in the work space, delivering liquefied breathing gases through the conduit system, and vaporizing the liquefied breathing gases at the outlet of the conduit system. | 01-23-2014 |
20140078863 | ASSAYING GOLD WITH A MICROWAVE PULSE - A system for assaying gold in a rock formation includes a transmitter and an acoustic sensor. The transmitter is configured to transmit a microwave pulse into the rock formation. The acoustic sensor is coupled to the rock formation and is configured to detect an acoustic wave emitted from the rock formation in response to receipt by the rock formation of the microwave pulse. | 03-20-2014 |
20140090889 | MINING DRILL WITH GRADIENT SENSING - A drill for excavating a bore in the earth includes a steerable boring tool configured to excavate a bore and sensors coupled to the boring tool. The sensors are spaced apart from one another at multiple azimuthal locations around the steerable boring tool and the sensors are configured to detect a mineral property in the earth adjacent the steerable boring tool. | 04-03-2014 |
20140102947 | RADIOFREQUENCY PARTICLE SEPARATOR - An apparatus for separating a mineral from a liquid including a housing and a fluid having a mineral bearing particle and contained within the housing. The apparatus further includes a generator configured to apply a radio-frequency electromagnetic field to the mineral bearing particle. The field produces a temperature increase within a portion of the mineral bearing particle and the mineral bearing particle transfers heat into the fluid, the heated fluid imposing motion-inducing forces on the particle. | 04-17-2014 |
20140325922 | SYSTEMS AND METHODS FOR DAMPING BUILDING OSCILLATIONS - A fluid transport system for actively damping oscillations of a structure affixed to a ground surface is disclosed. The system includes a pipe defining a flow path, a driver in fluid communication with the pipe and configured to provide a fluid flow through the pipe, and a controller. The controller is programmed to send a fluid flow command signal in response to an event signal indicating an oscillation event. | 11-06-2014 |
20150014057 | MINING DRILL WITH GRADIENT SENSING - A drill for excavating a bore in the earth includes a steerable boring tool configured to excavate a bore and sensors coupled to the boring tool. The sensors are spaced apart from one another at multiple azimuthal locations around the steerable boring tool and the sensors are configured to detect a mineral property in the earth adjacent the steerable boring tool. | 01-15-2015 |
20150053481 | KINETIC PENETRATOR WITH A RETRIEVAL TETHER - A retrievable kinetic penetrator includes a tubular body having a first end and a second end, a nose coupled to the first end of the tubular body, and a retrieval system. The nose is configured to penetrate a ground surface and subsurface materials of a subterranean ground volume. The retrieval system includes a tether coupled to the tubular body and is configured to facilitate recovery of the tubular body from the subterranean ground volume. | 02-26-2015 |
20150069656 | SYSTEMS AND METHODS FOR MANUFACTURING CONCRETE STRUCTURES - The embodiments disclosed herein relate to construction systems, assemblies, and methods. The construction systems can include concrete dispensing assemblies. The concrete dispensing assemblies can be configured to dispense a plurality of discrete units. The concrete dispensing assemblies can also be configured to simultaneously dispense two or more concrete mixtures. One or more dispensing parameter may be controllable, for example, by a computer control system. Additives and/or curing agents may also be used. Exemplary curing agents include carbon dioxide containing materials. | 03-12-2015 |
20150072068 | SYSTEMS AND METHODS FOR MANUFACTURING CONCRETE STRUCTURES - The embodiments disclosed herein relate to construction systems, assemblies, and methods. The construction systems can include concrete dispensing assemblies. The concrete dispensing assemblies can be configured to dispense a plurality of discrete units. The concrete dispensing assemblies can also be configured to simultaneously dispense two or more concrete mixtures. One or more dispensing parameter may be controllable, for example, by a computer control system. Additives and/or curing agents may also be used. Exemplary curing agents include carbon dioxide containing materials. | 03-12-2015 |
Patent application number | Description | Published |
20140182435 | NANOTUBE SLICER - A device for slicing material includes a structural support and a nanotube blade. The nanotube blade includes a nanotube filament having atoms arranged in a lattice structure and has a first end and a second end. Both the first end and the second end are coupled to the structural support and separated by a length of the nanotube blade. | 07-03-2014 |
20140183927 | NANOTUBE SLICER - A system for slicing material includes a structural support and a nanotube blade. The nanotube blade is coupled to the structural support and includes a nanotube filament having atoms arranged in a lattice structure. A first end and a second end of the nanotube blade are coupled such that the nanotube blade forms a nanotube loop. | 07-03-2014 |
20150066345 | VEHICLE COLLISION MANAGEMENT SYSTEM RESPONSIVE TO USER-SELECTED PREFERENCES - Described embodiments include a system, method, and vehicle. A system includes a collision management algorithm that includes preferences utilizable in determining a management of a possible collision between a collision-managed vehicle and an external object. A preference includes a vehicle collision management preference inputted by a human user of the collision-managed vehicle. The system includes a damage mitigation circuit configured to determine in at least substantially real time a collision mitigation strategy applicable to the collision-managed vehicle. The collision mitigation strategy is determined in response to (i) the collision management algorithm with the inputted vehicle collision management preference incorporated therein, and (ii) a predicted likelihood of a collision between the collision-managed vehicle and a particular external object. The system includes an instruction generator circuit configured to generate collision management instruction responsive to the determined collision mitigation strategy. | 03-05-2015 |
20150066346 | VEHICLE COLLISION MANAGEMENT SYSTEM RESPONSIVE TO A SITUATION OF AN OCCUPANT OF AN APPROACHING VEHICLE - Described embodiments include a system, method, and vehicle. A system includes a collision management algorithm utilizable in determining a management of a possible collision between a collision-managed vehicle and an approaching vehicle. The collision management algorithm is responsive to sensor-acquired data descriptive or indicative of at least one occupant of the approaching vehicle. The system includes a damage mitigation circuit configured to determine in at least substantially real time a collision mitigation strategy applicable to the collision-managed vehicle. The collision mitigation strategy is determined in response to (i) the collision management algorithm, (ii) sensor-acquired data descriptive or indicative of at least one occupant of the approaching vehicle, and (iii) a predicted likelihood of a collision between the collision-managed vehicle and the approaching vehicle. The system includes an instruction generator circuit configured to generate a collision management instruction responsive to the determined collision mitigation strategy. | 03-05-2015 |
Patent application number | Description | Published |
20090321427 | Microwave Oven - Generally and not exclusively, a microwave cooking oven to cook food in a microwave chamber includes at least one array of radiation detectors. An exemplary method includes sensing an optical depth of the item along each of multiple beam paths from at least two sides of the item, and mapping isothermal regions in the interior of the item 3-dimensionally based on the sensing. Another exemplary method includes sensing a microwave power representing a value of a heatability property for each of multiple regions of the same item, and applying a different measure of the microwave power to each of the different regions according to the value of the heatability property in each individual region. Yet another exemplary method includes sensing different frequencies of the microwave power in the microwave chamber, and changing the frequency of the microwave power for heating the item, as the item undergoes heating. | 12-31-2009 |
20090321428 | Microwave oven - Generally and not exclusively, a microwave cooking oven to cook food in a microwave chamber (e.g., a cooking chamber) includes a microwave power source, and a microwave control unit. In one implementation, the control unit includes an array of radiation detectors to detect the microwave power of multiple microwave beams in the cooking chamber, a modeler to map the temperature in different regions of an item in the microwave chamber, and a controller to adjust microwave power being delivered to each region of the item. In one implementation, the control unit can detect the presence and food type of an item in the microwave chamber. The control unit can provide a real time heating and cooking status of each region of an item being heated in the microwave chamber. | 12-31-2009 |