Abstract: A method of supporting a rotating member of a tailstock includes rotating a rotating member coupled to a workpiece support slidably mounted in a housing of the tailstock, causing the rotating member to shift along a longitudinal axis in a first direction, and measuring an amount of vertical displacement of the rotating member.

Abstract: Dereferencing comprises separating content of a source from structure of the source and separating content of the source from a meaning of the content within the structure.

Abstract: An electric vehicle includes a battery having a housing. The housing includes a rear side which is defined as a side facing away from a forward travelling direction of the electric vehicle. The electric vehicle further includes a frame, a motor having a housing, and a pivot shaft stack-up assembly co-aligned along a pivot shaft axis. The pivot shaft stack-up assembly includes first and second portions of the frame, a swingarm extending therebetween, and an idler bracket. A shock mount is integral with the battery housing. The shock mount extends from the rear side of the battery housing. The battery housing is configured as a stressed chassis member in which each of the motor housing, the frame, and the pivot shaft stack-up assembly are aligned thereof. The shock mount provides a path along which a load is directed to the battery housing.

Abstract: Systems as described herein may include authorizing the sharing of data and sharing data between a variety of systems. A request to share data may be provided to a first system. The system may create sharing session data on a distributed ledger accessible by a number of systems. Sharing session data may be stored using a transaction stored on a distributed ledger. A second system may obtain the sharing session account and verify the sharing session. On verification of the sharing session, a variety of data may be shared between the systems identified in the sharing session data. The sharing session data may be established between two or more systems. The distributed ledger may be maintained by the systems themselves and/or a distributed network system. In a variety of embodiments, encrypted data may be stored and/or obtained using the distributed ledger.

Abstract: For a wellbore drilled in a low or subnormal pressure reservoirs, a static loss rate of drilling fluid is monitored within a limit of a drilling rate. In reaching the limit, the annulus is closed off to returns using a rotating control device, or the annulus may remain open to the atmosphere at surface. Operations may not be able to keep the annulus filled with a mud cap so pressurized mud cap drilling cannot be sustained. Instead, an initial fluid level of the mud cap is defined in the annulus. Drilling the wellbore with the mud cap then involves: pumping a sacrificial fluid through the drillstring without returns to surface through the annulus, and monitoring the initial fluid level in the annulus to detect a change. Monitoring uses downhole instrumentation to measure pressure, temperature, and gas level of the mud cap. In response to the detected change, the drilling can be further controlled, including stopping the drilling, turning off pumps, and possibly bullheading the well.

Abstract: A detection system is configured to detect improper handling of a wearable visualization device. The detection system includes a sensor coupled to the wearable visualization device, a light emitter coupled to the wearable visualization device, and a processor configured to receive a signal from the sensor. The processor is also configured to determine whether the signal indicates improper handling of the wearable visualization device, and to instruct illumination of the light emitter in response to determining that the signal indicates improper handling of the wearable visualization device.

Abstract: Examples of golf equipment covers and methods to manufacture golf equipment covers are generally described herein. In one example, a golf club head cover may include a body portion having an outer shell portion, an inner liner portion, and an opening for receiving a golf club head. The golf club head cover may include a magnetic portion that allows the golf club head cover to be magnetically attached to a metallic structure, such as a steel golf cart basket. A magnet identifier may be visibly located proximate to the magnetic portion. The magnet identifier may notify an individual as to a location of the magnetic portion. Other examples may be described and claimed.

Abstract: A hair grasping device comprising a handle and a grasping mechanism on an end of the handle. The grasping mechanism includes a finger having a handle end and a grasping end and a hair grip extending from the grasping end of the finger. The hair grip and the finger are moveable with respect to one another between a hair grasping position and a hair holding position and the hair grip is operably coupled with the finger when in the hair holding position.

Abstract: In some embodiments, a method of reducing power consumption by a mobile telephone includes (1) providing a mobile telephone including a processor, an antenna, and a memory having computer program code; and (2) employing the processor of the mobile telephone and computer program code to (a) determine if the mobile telephone is in a vehicle; and (b) in response to the mobile telephone being in a vehicle, initiate a reduced power sequence in which the mobile telephone repeatedly turns off transmission by the antenna of the mobile telephone for a first time period and turns on transmission by the antenna of the mobile telephone for a second time period. Numerous other aspects are provided.

Abstract: A precision triggering mechanism for engaging a portion of a device and a method of using the same are provided. The mechanism comprises an electric linear motor, a force limiter, a force sensor, an engagement slide, and a controller. The electric linear motor includes a drive rod, a driver that applies a force to the drive rod to move the drive rod linearly, and a sensor for detecting a linear position of the drive rod. The force limiter is connected to the drive rod and is configured to absorb an amount of axial force asserted by the drive rod above a maximum amount. The force sensor is connected to the force limiter and is configured to detect an amount of force applied by the force limiter on the force sensor. The engagement slide includes an end extending from the force sensor for engaging the portion of the device.

Abstract: A blank for constructing a container includes a front panel, a bottom panel foldably connected to the front panel along a lower front horizontal fold line, and a side panel having a front portion and a rear portion. The side panel is foldably connected to at least one of the bottom panel or the front panel. The blank includes a top panel that is foldably connected to the side panel, and a rear panel foldably connected to the rear portion of the side panel along a rear vertical fold line. The front and rear portions of the side panel are separable from one another along a separation line such that the rear portion of the side panel and the rear panel are configured and adapted for removal.

Abstract: The present invention provides for an apparatus, system, and method for generating a head related audio transfer function in real time. Specifically, the present invention utilizes unique structural components including a tragus structure and an antihelix structure in connection with a microphone in order to communicate the location of a sound in three-dimensional space to a user. The invention also utilizes an audio processor to digitally process the head related audio transfer function.

Abstract: A system for supplying power transcutaneously to an implantable device implanted within a subject is provided. The system includes an external connector including one of a microneedle array and a microwire holder. The system further includes a power cable electrically coupled to the external connector and configured to supply power to the one of the microneedle array and the microwire holder, and an internal connector configured to be implanted within the subject and electrically coupled to the implantable device, the internal connector including the other of the microneedle array and the microwire holder. The microneedle array includes a plurality of electrically conductive microneedles, the microwire holder includes a plurality of electrical contacts, and the microwire holder is configured to engage the microneedle array such that the plurality of electrically conductive microneedles extend through the skin of the subject and electrically couple to the plurality of electrical contacts.

Abstract: A method of interframe point cloud attribute decoding of video data is performed by at least one processor and includes: obtaining a first reconstructed residual; obtaining a quantization index of a second reconstructed residual; obtaining the second reconstructed residual, based on the obtained quantization index of the second reconstructed residual and the obtained first reconstructed residual; and obtaining a color attribute of a point of a point cloud by decoding the obtained second reconstructed residual or decoding a transform residual based on the obtained second reconstructed residual.

Abstract: Mineral-filled polymer compositions and methods of forming such polymer compositions into a thermally stable article are provided. Methods of forming a polymeric article include providing a polymer composition comprising a crystallizable polymer, a mineral filler in an amount of more than about 15 wt-% based on the total weight of the polymer composition, and an impact modifier, wherein the polymer composition is at a temperature less than a crystallization temperature of the crystallizable polymer. The methods further include disposing the polymer composition in a mold, forming the polymer composition into an article within the mold, and releasing the article from the mold. The methods can include thermoforming the polymer composition in a mold, or injection molding the polymer composition in a molten form in a mold.

Abstract: The present invention relates to methods for identifying candidate therapeutics for a disease caused by a viral envelope protein. In particular, the method can include contacting a test envelope protein with the candidate and determining its activity.

Abstract: A movable barrier operator transmits a message to a remote peripheral platform and, upon determining that the remote peripheral platform is presently able to carry out a given functionality, responsively permits a particular function to be carried out by the movable barrier operator. Conversely, upon determining that it cannot be ascertained whether the remote peripheral platform is presently able to carry out the given functionality, the movable barrier operator responsively prevents the movable barrier operator from carrying out the particular function. Also, upon detecting that a targeted remote platform does not acknowledge a previously re-transmitted message and further upon detecting that this same remote platform has also not acknowledged a subsequent wirelessly-transmitted second message, the system can switch to automatically retransmitting that second message a lesser number of times than would otherwise be required.

Abstract: Disclosed herein are methods and compositions for parallel or sequential transgene stacking in plants to produce plants with selected phenotypes.

Abstract: Technology for a repeater is disclosed. The repeater can include a first port and a second port. The repeater can include a transmitter communicatively coupled to the first port and a receiver communicatively coupled to the second port. The transmitter can transmit a path loss signal. The receiver can receive the path loss signal transmitted by the transmitter. The repeater can include a controller. The controller can identify a first power level of the signal transmitted from the transmitter. The controller can identify a second power level of the signal received at the receiver. The controller can determine an antenna feedback path loss of the repeater based on the first power level and the second power level. The controller can set a maximum gain level for the repeater based on the antenna feedback path loss to avoid an oscillation in the repeater.

Abstract: A structural health monitoring method is provided that utilizes self-sensing printed polymer structures. The method is based on resistivity properties of conductive materials, which can be integrated to a 3D printed polymer structure during additive manufacturing. An article to be monitored has at least one 3D printed polymer structure including a circuit comprising at least one conductive pathway extending through a non-conductive material. The resistance across the circuit is measured during or after loading of the article to determine a resistance value. The measured resistance value is compared to a known resistance value, and based on the comparison, a defect can be detected in the 3D printed polymer structure. Structural health monitoring systems and articles with integrated structural health monitoring are also provided.