Abstract: Disclosed methods relate to producing an aluminum-scandium (Al—Sc) alloy. A method can include providing an electrolyte bath comprising a first portion of at least one of ScF3 or AlF3 and a first portion of at least one of LiF, NaF, or KF; providing a cathode in electrical contact with the electrolyte bath; providing an anode in electrical contact with the electrolyte bath; adding a first portion of SC2O3 into the electrolyte bath; reacting an aluminum ion with the cathode; applying an electric current to the cathode, thereby reacting a scandium ion with the cathode to produce the Al—Sc alloy.

Abstract: There is provided a driver-support system for use with a human-operated material-transport vehicle, and methods for using the same. The system has at least one sensor, a human-vehicle interface, and a transceiver for communicating with a fleet-management system. The system also has a processor that is configured to provide a mapping application and a localization application based on information received from the sensor. The mapping application and localization application may be provided in a single localization-and-mapping (“SLAM”) application, which may obtain input from the sensor, for example, when the sensor is an optical sensor such as a LiDAR or video camera.

Abstract: One or more systems and methods for wireless equipment deployment are provided herein. Imagery of locations depicting structures within a list of structures is analyzed to identify features of the structures within the locations. Ranks may be calculated for the structures based upon structure scores and installation scores calculated from the features. In response to a rank for a structure exceeding a threshold, wireless equipment deployment of a communication device may be triggered so that the communication device is controlled to exchange communication signals with devices proximate the structure.

Abstract: Flat-plate antennas, antenna systems, and associated methods of manufacturing are provided. An example flat-plate antenna includes an integral body defining a top portion, a bottom portion opposite the top portion, and one or more side portions extending therebetween. The body further defines a channel at least partially enclosed by the body. The flat-plate antenna further includes a plurality of top openings formed in the top portion and one or more bottom openings formed in the bottom portion. The body is configured such that the plurality of top openings are in communication with the one or more bottom openings via the channel such that, in operation, electromagnetic radiation may pass therebetween, such as generated by or received by a radio transceiver communicably coupled with the flat-plate antenna via the bottom portion of the body.

Abstract: A surgical table having a tabletop to be rotatable about a trend axis, the trend axis extending in a transverse direction across the tabletop; and an actuator mechanism coupled to the movable framework and arranged to raise and lower the movable framework relative to the column and to raise and lower the trend axis and to rotate the movable framework about the trend axis, and a control mechanism arranged to control the actuator mechanism to cause (i) the height of the trend axis to be translationally variable within a first dimensional range having a lowermost position, at which the trend axis extends through the column, and an uppermost position, at which the trend axis is above the upper end of the column the trend axis and is spaced at spacing height above the upper end of the column, and, simultaneously and/or independently (ii) the location of the trend axis in a lateral direction orthogonal to the trend axis to be translationally variable within a second dimensional range extending between first and sec

Abstract: Apparatus and methods are provided for using a retroflected target for calibrating environmental geometric sensing systems. In particular, apparatus and methods are provided for unstructured calibrations using a plurality of spatial sensing data acquisitions and the data correlations thereof. In various implementations, a combined LiDAR-RADAR detector is used to associate one with the other. According to one aspect of the present disclosure, a predetermined LiDAR detector is used as a reference frame for RADAR segmentation. Specifically, a LiDAR point-of-interest is conveyed to RADAR system for unstructured calibration. To that end, RADAR and LiDAR can be calibrated with one another without the need for absolute positioning.

Abstract: A surgical table having a tabletop to be rotatable about a trend axis, the trend axis extending in a transverse direction across the tabletop; and an actuator mechanism coupled to the movable framework and arranged to raise and lower the movable framework relative to the column and to raise and lower the trend axis and to rotate the movable framework about the trend axis, and a control mechanism arranged to control the actuator mechanism to cause (i) the height of the trend axis to be translationally variable within a first dimensional range having a lowermost position, at which the trend axis extends through the column, and an uppermost position, at which the trend axis is above the upper end of the column the trend axis and is spaced at spacing height above the upper end of the column, and, simultaneously and/or independently (ii) the location of the trend axis in a lateral direction orthogonal to the trend axis to be translationally variable within a second dimensional range extending between first and sec

Abstract: One or more systems and methods for wireless equipment deployment are provided herein. Imagery of locations depicting structures within a list of structures is analyzed to identify features of the structures within the locations. Ranks may be calculated for the structures based upon structure scores and installation scores calculated from the features. In response to a rank for a structure exceeding a threshold, wireless equipment deployment of a communication device may be triggered so that the communication device is controlled to exchange communication signals with devices proximate the structure.

Abstract: Apparatuses, methods, program products, and systems are disclosed for interactive learning. An apparatus includes a content module that receives content for generating at least one learning games for a subject. An apparatus includes a gamification module that generates the at least one learning game based on the received content. An apparatus includes a competition module that creates at least one competition using the at least one learning game between a plurality of users associated with the subject.

Abstract: Training labs for training linemen and other power or utility technicians are disclosed. The training labs can be configured to provide equipotential zone (EPZ) grounding training in overhead and/or underground power scenarios. In some instances, the training labs can be mobile. For example, a mobile training lab can comprise an overhead training side that comprises one more deployable overhead power poles and/or an underground side comprising one or more component cabinets.

Abstract: A surgical table having a tabletop to be rotatable about a trend axis, the trend axis extending in a transverse direction across the tabletop; and an actuator mechanism coupled to the movable framework and arranged to raise and lower the movable framework relative to the column and to raise and lower the trend axis and to rotate the movable framework about the trend axis, and a control mechanism arranged to control the actuator mechanism to cause (i) the height of the trend axis to be translationally variable within a first dimensional range having a lowermost position, at which the trend axis extends through the column, and an uppermost position, at which the trend axis is above the upper end of the column the trend axis and is spaced at spacing height above the upper end of the column, and, simultaneously and/or independently (ii) the location of the trend axis in a lateral direction orthogonal to the trend axis to be translationally variable within a second dimensional range extending between first and sec

Abstract: Disclosed herein are systems and methods for electrically coupling energy storage devices to an external load or power source. Examples of such coupling include connecting energy storage devices to an electric power grid using a power conversion system with suitable characteristics including, for example, active/real power and reactive power control capabilities, response time, current, voltage, phase, frequency, fault protection and/or information exchange protocols. The power conversion system can include an inverter.

Abstract: Disclosed herein are systems and methods for electrically coupling energy storage devices to an external load or power source. Examples of such coupling include connecting energy storage devices to an electric power grid using a power conversion system with suitable characteristics including, for example, active/real power and reactive power control capabilities, response time, current, voltage, phase, frequency, fault protection and/or information exchange protocols. The power conversion system can include an inverter.

Abstract: Provided herein is technology relating to polymer nanocomposites, and particularly, but not exclusively, to polymer nanocomposites comprising two or more nanomaterials and methods of producing nanocomposites comprising two or more nanomaterials.

Abstract: A power delivery rate from a renewable power source to a load is managed by determining, by processing circuitry, a change in a power generation rate, determining, by the processing circuitry, whether the change in the power generation rate exceeds a limit, and then, adjusting, by control circuitry, a power transfer rate to or from a power storage device, such that the adjusting is sufficient to prevent the power delivery rate from exceeding the limit.

Abstract: Provided herein is technology relating to polymer-graphene nanocomposites and particularly, but not exclusively, to methods for producing polymer-graphene nanocomposites using master batches comprising graphene and a polymer or polymer precursor. The resulting polymer-graphene nanocomposites comprise a high degree of exfoliation and dispersion of graphene nanoplatelets within the polymer matrix.

Abstract: The present invention is directed to a method and corresponding apparatus for verifying connectivity in a storage area network. An embodiment begins by communicating with one or more storage devices, through at least one of one or more host machines connected to one or more network switches. Based on the communication, the method may activate a test procedure at the one or more storage devices. The method may determine, through the test procedure, each state of connectivity from the one or more storage devices to each member computing device of a connectivity set. The connectivity set may include at least one of the following: at least one other storage device, at least one of the one or more network switches, and at least one of the one or more host machines. The method may provide a report to one or more users, the report including each state of connectivity.

Abstract: A power delivery rate from a renewable power source to a load is managed by determining, by processing circuitry, a change in a power generation rate, determining, by the processing circuitry, whether the change in the power generation rate exceeds a limit, and then, adjusting, by control circuitry, a power transfer rate to or from a power storage device, such that the adjusting is sufficient to prevent the power delivery rate from exceeding the limit.

Abstract: Provided herein is technology relating to polymer-graphene nanocomposites and particularly, but not exclusively, to methods for producing polymer-graphene nanocomposites using master batches comprising graphene and a polymer or polymer precursor. The resulting polymer-graphene nanocomposites comprise a high degree of exfoliation and dispersion of graphene nanoplatelets within the polymer matrix.