Abstract: In an embodiment, an energy-absorbing device can comprise: a polymer reinforcement structure, wherein the polymer reinforcement structure comprises a polymer matrix and chopped fibers; and a shell comprising 2 walls extending from a back and forming a shell channel, wherein the shell comprises continuous fibers and a resin matrix; wherein the polymer reinforcement structure is located in the shell channel.

Abstract: Systems and methods for secure virtualized intermediated configuration and control of payment processing peripheral devices, as may be embodied in a SNIPP system, are provided. Such systems and methods enable the request of purchaser payment information from payment processing peripheral device(s) on behalf of a POS system and the aggregation and association of that purchaser payment information with a corresponding purchase transaction received from the POS system. The purchase transaction and the payment transaction are aggregated and thereby associated; and the resulting aggregated payment transaction is submitted to an electronic payments processing facility that responds with a confirmation indicating ‘acceptance’ or ‘denial’ of the payment transaction. The confirmation is relayed to the POS system and possibly to the payment processing peripheral device(s) such that it may be displayed to the purchaser and/or an attendant.

Abstract: An implantable medical device system is configured to generate signals and deliver the signals to a heart of a patient. The implantable medical device system includes electronic circuitry configured to deliver cardiac pacing, couplings for an implantable medical lead receptacle, at least some of the couplings electrically connected with the electronic circuitry, a polymeric enclosure having the electronic circuitry contained therein, the polymeric enclosure formed of polymeric material filled around the electronic circuitry and couplings and forming the implantable medical lead receptacle. The implantable medical device may include a first cavity filled with a first material and a second cavity filled with a second material, and the first material is different than the second material.

Abstract: A golf club comprises a shaft, a club head, and a connection assembly that allows the shaft to be easily disconnected from the club head. In particular embodiments, the connection assembly includes a removable hosel sleeve that allows a shaft to be supported a desired predetermined orientation relative to the club head. In this manner, the shaft loft and/or lie angle of the club can be adjusted without resorting to traditional bending of the shaft. In another embodiment, the club head has an adjustable sole that can be adjusted upwardly and downwardly relative to the strike face of the club head, which is effective to adjust the face angle of the club head.

Abstract: Systems and methods of manipulating/controlling robots. In many scenarios, data collected by a sensor (connected to a robot) may not have very high precision (e.g., a regular commercial/inexpensive sensor) or may be subjected to dynamic environmental changes. Thus, the data collected by the sensor may not indicate the parameter captured by the sensor with high accuracy. The present robotic control system is directed at such scenarios. In some embodiments, the disclosed embodiments can be used for computing a sliding velocity limit boundary for a spatial controller. In some embodiments, the disclosed embodiments can be used for teleoperation of a vehicle located in the field of view of a camera.

Abstract: An actuator, including a housing having a flow conduit therethrough, a pressure balanced poppet disposed in the housing, initially preventing flow through the housing, and a heat evolving composition disposed to move the poppet by fluid heating to cease preventing flow through the housing upon ignition of the heat evolving composition. A method for actuating a tool, including igniting the heat evolution composition, heating a fluid located between the poppet and the housing, driving the poppet to move with the heated fluid, and flowing fluid through the housing. A borehole tool, including the actuator, a tool member disposed in the tool and movable by the fluid flowing through the housing, the movement of the tool member changing an operational condition of the tool. A borehole system, including a borehole in a subsurface formation, a string in the borehole, the actuator disposed within or as a part of the string.

Abstract: A digital display includes a plurality of pixel rows. For each pixel row, the digital display includes an EM gate driver configured to supply the pixel row with a luminance-controlling signal during each of a plurality of image frames. A luminance controller is configured to instruct the EM gate drivers to supply a pulse-width modulated signal to the plurality of pixel rows. Some pixel rows are supplied with a pulse-width modulated signal starting with an on pulse, and some pixel rows are supplied with a pulse-width modulated signal starting with an off pulse, on the same or different image frames.

Abstract: Various components for use within a modular system are provided. In various embodiments, the coupling systems provided herein facilitate coupling modular units, such as by providing multiple sliding directions or mechanisms to couple different units. Also provided are systems for communicating between modular units, such as by providing information and/or power between modular units.

Abstract: Methods and systems are described herein for enabling aerial vehicle navigation in GPS-denied areas. The system may use a camera to record images of terrain as the aerial vehicle is flying to a target location. The system may then detect (e.g., using a machine learning model) objects within those images and compare those objects with objects within an electronic map that was loaded onto the aerial vehicle. When the system finds one or more objects within the electronic map that match the objects detected within the recorded images, the system may retrieve locations (e.g., GPS coordinates) of the objects within the electronic map and calculate, based on the coordinates, the location of the aerial vehicle. Once the location of the aerial vehicle is determined, the system may navigate to a target location or otherwise adjust a flight path of the aerial vehicle.

Abstract: A water treatment device, comprising: a controller operably connected to a tank containing a water softening resin; a sensor in communication with the controller and configured to provide date for determining a treatment capacity of the water softening resin and for determining a quantity of water treated by the water softening resin; and a valve configured to pass water to be treated through the water softening resin; wherein the controller is configured to monitor a remaining treatment capacity of the water softening resin by subtracting the quantity of water treated by the water softening resin from the treatment capacity of the water softening resin; and wherein the controller is configured to record the remaining treatment capacity, as a negative value, when the quantity of water treated by the water softening resin exceeds the treatment capacity of the water softening resin.

Abstract: A multi-carrier transmission system configured to enable variable modulation order reception is contemplated. The system may be configured to facilitate delivery of high-speed data (HSD) over frequency division duplexing (FDD) and/or time division duplexing (TDD) infrastructures to a plurality of receiving devices. Signaling used to facilitate delivery of the HSD may be selectively and dynamically modulated according to performance capabilities of the receiving devices for a given transmission interval.

Abstract: A system is disclosed which includes a laser which has a calibrated optical power and a calibrated tolerance. The system includes a driving circuit configured to generate a first current pulse and a second current pulse. The system includes a primary observer module configured to observe a first and second primary input. The system includes one or more secondary observer modules configured to observe one or more first and one or more second secondary inputs. The system includes a controller communicatively coupled to the laser, driving circuit, primary observer module, and the one or more secondary observer modules. The controller is configured to receive an information packet, calculate an optical power, determine a deviation of the optical power from the calibrated optical power, compare the deviation with the calibrated tolerance, and perform an action if the deviation exceeds the calibrated tolerance.

Abstract: The present disclosure provides a circular stapler. The circular stapler includes a stapling head assembly. A trocar is positioned at least partially within the stapling head assembly. An anvil is detachably attachable to the trocar. A knob rotatable to cause translation of the trocar to adjust a position of the anvil with respect to the stapling head assembly. One or more sensors are configured to generate data associated with a trocar position or an anvil state. A communication element is configured to provide the generated data to a hub, wherein the hub is configured to provide an indicator associated with the trocar position or the anvil state based on the generated data.

Abstract: A method of automatically turning an autonomous mining truck (AMT), including front wheels and rear wheels, around in an operating area, including retrieving boundary data associated with the operating area, determining a first path to follow to execute a turn maneuver within the operating area based at least on the boundary data and dimensions of the AMT, wherein the first path includes a number of legs necessary to follow the first path through the turn maneuver, completing a first leg of the turn maneuver, determining a second path to follow and number of legs necessary to execute the turn maneuver based on an inability to execute the first path, and executing the second path to complete the turn maneuver.

Abstract: An expandable introducer sheath with an interlock dilator. The present technology provides an expandable sheath with a step feature inside its distal opening, and a dilator with an interlock that includes a catch surface configured to engage with the step feature and resist further relative movement so that the body of the dilator is prevented from exiting the distal end of the expandable sheath. This interlocking engagement may allow the dilator to be used to extend and maintain tension on the expandable sheath during insertion into a patient, and then to be retracted from the expandable sheath by pulling the dilator in the opposite direction. The present technology also provides a dilator hub with a spring mechanism configured to achieve and maintain a desired tension on the expandable sheath and to prevent overextension of the expandable sheath when the dilator is being inserted into the expandable sheath.

Abstract: Disclosed herein is a golf club head that comprises a strike face. The strike face has a central region, defined by a forty millimeter by twenty millimeter rectangular area centered on a center of the strike face and elongated in a heel-to-toe direction. Within the central region, the strike face has a characteristic time (CT) of no more than 257 microseconds. Within the central region, no less than 25% of the strike face has a coefficient of restitution (COR) of at least 0.8. Within the central region, no less than 60% of the strike face has a CT of at least 235 microseconds. Within the central region, no less than 35% of the strike face has a CT of at least 240 microseconds.

Abstract: Methods and systems are described herein for navigating a vehicle. A target location may be received, and based on the target location and vehicle parameters, an acceleration profile for the vehicle may be generated. The acceleration profile may include a first duration for accelerating the vehicle and a second duration for not accelerating the vehicle. When the acceleration profile is generated, a trajectory profile for travelling to the target location may be generated using the acceleration profile. The trajectory profile may include multiple instances of the acceleration profile. When the trajectory profile is being executed, a distance travelled by the vehicle after each instance of the acceleration profile is executed may be calculated. Based on the distance travelled after each instance of the acceleration profile is executed, an instance of when the target location is reached may be determined.

Abstract: The controller of the present disclosure enables an autonomous vehicle to travel at increased speed in a high performance driving behavior region (HPDBR), such as when a likelihood of the autonomous vehicle driving off course or colliding with other vehicles and/or people at the work site is low. In some implementations, a controller of an autonomous vehicle may obtain autonomous vehicle position information. The controller may determine, based on the autonomous vehicle position information, that the autonomous vehicle is located within an HPDBR of an autonomous driving area. The controller may determine, based on determining that the autonomous vehicle is located within the HPDBR, whether an HPDBR-related risk exists. The controller may cause, based on determining whether an HPDBR-related risk exists, an autonomous vehicle speed control operation to be performed.

Abstract: A medical device includes a distal wrist link, and a first jaw and a second jaw each coupled to the distal wrist link. A shape fiber carrier is pivotably coupled to the distal wrist link and defines a shape fiber lumen. The medical device includes a shape fiber having a distal end fixedly coupled within the shape fiber lumen. The shape fiber carrier is indirectly coupled to the first jaw and the second jaw, and movement of the shape fiber carrier causes the shape fiber to produce a signal related to movement of at least one of the first jaw and the second jaw.