Abstract: A hair care accessory is provided for use in drying and/or styling hair. The hair care accessory can include an elongate frame having a longitudinal axis and an inner lumen extending there through along the longitudinal axis. The hair care accessory can also include a plurality of plates disposed on the elongate frame. The plurality of plates can include a first row of plates that can be spaced circumferentially around a first longitudinal portion of the elongate frame, and at least one second row of plates that can be spaced circumferentially around a second longitudinal portion of the elongate frame. Each plate in the first row of plates can define a first longitudinally extending outlet and each plate in the second row of plates can define a second longitudinally extending outlet. The second longitudinally extending outlet being circumferentially offset from the first longitudinally extending outlet.

Abstract: Certain aspects relate to systems and techniques for alignment and docking of robotic arm of a robotic system for surgery. In one aspect, the system includes a robotic arm, a drive mechanism attached to the robotic arm, and a cannula. The system may further include a first sensor coupled to either the robotic arm or the drive mechanism configured to direct automatic movement of the robotic arm towards the cannula, and a second sensor, that is different than the first sensor, coupled to either the robotic arm or the drive mechanism configured to direct manual movement of the robotic arm towards the cannula.

Abstract: Embodiments of the disclosure provide a structure and canopy for mounting of a photovoltaic panel. A structure of the disclosure may provide a rail mounting clip including a first segment shaped for mounting on a purlin surface, a second segment at a lateral end of the first segment and extending perpendicularly outwardly therefrom. A rail assembly is coupled to the rail mounting clip and has a slot substantially aligned with a centerline axis of the rail assembly. The slot receives the second segment of the rail mounting clip, and the rail assembly is shaped for mounting a photovoltaic panel thereon.

Abstract: Interior space customizable, re-customizable, modular, hydronic system, comprising: one or more modular base heating and/or cooling units, each adapted for residing between studs of the room's wall and selectively comprising one of a frame adapted to be completely recessed between studs, partially (e.g., approximately ½-way) recessed between the studs, and not recessed at all but still substantially located between the studs, each modular base unit adapted for successive repeated linear implementation with other modular base units of like composition to meet greater or lesser heating and/or cooling needs of the interior space; and one or more contiguous face cover members, and optional edge members, adapted to be secured to corresponding modular base unit(s), wherein the face cover members and optional edge cover members each comprise peripheral edges adapted to achieve, singularly or in combination, an aesthetically coherent face, and optional aesthetically coherent edge cover members, for the system.

Abstract: Service for a machine such as a laboratory instrument can be facilitated by capture of images showing the field of view of a user of the machine, and modification of those images to remove confidential information. Modified images can then be provided to service technicians so that the service technicians can have visual information that would allow them to more effectively communicate and interact with the machines' users.

Abstract: Disclosed are various approaches for automatically assigning weights to vertices of a skin or mesh that control how said vertices in the 3D model move under the influence of skeletal rotation and translation. A computing device can receive a first model weightings matrix. Next, the computing device can include adjusting the number of rows in the first model weightings matrix to generate an adjusted model weightings matrix with a number of rows that matches an input number of rows for a machine-learning model, each row in the adjusted model weightings matrix representing a vertex of a mesh applied to a three-dimensional model. Then, the computing device can apply the machine learning model to the adjusted model weightings matrix, to generate an output polygonal mesh model weightings matrix.

Abstract: The present disclosure relates to the use of occluding fluids, such as a high-density fluid (a “z-fluid”) or a low-density fluid (an “a-fluid”), to displace resin within a vat during 3D printing. Further, an a-fluid may act as a protective boundary for a 3D printing resin wherein the a-fluid sits on top of the printing resin. Another embodiment of the disclosure provides a process of assessing which regions of a computer-aided design (CAD) model take advantage of a buoying force supplied by the occluding fluid, such that fewer support structures are needed for printing a final CAD model compared to printing the CAD model without the occluding fluid.

Abstract: Digital image correlation is provided. The method comprises applying two or more unique X-ray attenuating patterns to a number of test samples and then applying physical deformation to the test samples. The test samples are irradiated concurrently with an X-ray source, and a path-integrated composite X-ray image is recorded that superimposes the unique X-ray attenuating patterns on each other. According to the path-integrated composite X-ray image, the method determines respective deformation of each of the unique X-ray attenuating patterns produced by the physical deformation of the test samples.

Abstract: A special effect system may include fog generation equipment configured to generate fog, a show element comprising one or more compartments, and a controller communicatively coupled to the fog generation equipment. The fog generation equipment may include one or more positive pressure sources and one or more negative pressure sources. The controller may perform operations comprising applying negative pressure from the one or more negative pressure sources to the one or more compartments for a period of time, permitting the fog to enter the one or more compartments after the period of negative pressure, and applying a positive pressure from the one or more positive pressure sources to cause the fog to exit the one or more compartments to trigger a combustion effect.

Abstract: Surgical instruments for interfacing with implants can include an inserter configured to dock to a unilateral portion of an implant. The inserter can include a control shaft that is configured to lock or unlock the inserter coupling with the implant. Actuation of the control shaft can occur by way of a knob that can control movement of the control shaft. The inserter can facilitate positioning of the implant relative to a surgical site and allow for application of counter-torque when imparting torque for tightening a set screw, etc. Additional instruments can also be used to manipulate the implant. For example, auxiliary instruments can be coupled to the inserter, such as a reducer instrument, to facilitate rod reduction, etc. Alternatively or in addition, a holder instrument can be used that has a threaded distal engagement feature for coupling to the implant to facilitate positioning thereof.

Abstract: Provided herein are compounds of Formula (I), or pharmaceutically acceptable salt thereof, wherein R1, R2, R3, R4, R5, R6, and n are defined herein. Also provided herein are pharmaceutical compositions comprising a compound of Formula (I) or pharmaceutically acceptable salt thereof, and methods of using a compound of Formula (I) or pharmaceutically acceptable salt thereof, e.g., in the treatment of a mental health disease or disorder.

Abstract: An aggregate representation of a collection of source code examples is constructed. The collection includes positive examples that conform to a coding practice and negative examples do not conform to the coding practice. The aggregate representation includes nodes corresponding to source code elements, and edges representing relationships between code elements. Using an iterative analysis of the aggregate representation, a rule to automatically detect non-conformance is generated. The rule is used to provide an indication that a set of source code is non-conformant.

Abstract: The present disclosure relates to the use of occluding fluids, such as a high-density fluid (a “z-fluid”) or a low-density fluid (an “a-fluid”), to displace resin within a vat during 3D printing. Further, an a-fluid may act as a protective boundary for a 3D printing resin wherein the a-fluid sits on top of the printing resin. Another embodiment of the disclosure provides a process of assessing which regions of a computer-aided design (CAD) model take advantage of a buoying force supplied by the occluding fluid, such that fewer support structures are needed for printing a final CAD model compared to printing the CAD model without the occluding fluid.

Abstract: An apparatus can include: a housing configured to form a receiving chamber that is operable to receive an object; first and second paddles disposed at a distal end of the receiving chamber; a constraining bar movably disposed within the housing and configured to translate linearly along a length of the receiving chamber; and a trigger mechanism configured to releasably couple the constraining bar to the housing. When the constraining bar is in a loaded position, the trigger mechanism can be configured to release the constraining bar in response to a proximally-directed force exerted on the constraining bar, causing the constraining bar to translate distally along the length of the receiving chamber.

Abstract: Disclosed are coating compositions, processes, and designs for endowing vascular devices with thromboresistant and endothelializing properties. Also disclosed are designs of vascular devices used as aneurysm treating devices for assisting in the delivery, packing, and maintenance of embolization coils within an aneurysm, particularly a neurovascular aneurysm.

Abstract: Disclosed herein are systems and methods for reducing or mitigation alert fatigue from real-time alerts in cyber-physical systems or other types of edge computing systems are provided. In one or more examples, the edge computing system monitor can look for one or more patterns within received data that can indicate malicious activity or other conditions that may warrant a real-time or near-real time response from the operator. In one or more examples, a detection of any of the specified patterns in the streaming data can trigger an alert to the operator of the edge computing system. In one or more examples, the alerts can be suppressed until the number of alerts associated with a particular pattern crosses a pre-determined threshold. Additionally or alternatively, alerts can be suppressed based on a duration that the alerts have been generated. The suppression of alerts can be configured to reduce operator alert fatigue.

Abstract: Accordingly, systems and methods for facilitating operator assisted responses to real-time alerts in cyber-physical systems or other types of edge computing systems are provided. In one or more examples, an edge computing system of an enterprise computing network (where an operator is stationed to operate it), can comprise an edge computing system monitor. In one or more examples, the edge computing system monitor can receive streaming analytic data from one or more components of the edge computing system. In one or more examples, the edge computing system monitor can look for one or more patterns within the received data that can be indicative of malicious activity or other conditions that may warrant a real-time or near-real time response from the operator. In one or more examples, a detection of any of the specified patterns in the streaming data can trigger an alert to the operator of the edge computing system.

Abstract: Certain aspects relate to systems and techniques for preparing a robotic system for surgery. In one aspect, the method includes a robotic arm, a sensor configured to generate information indicative of a location of the robotic arm, a processor, and at least one computer-readable memory in communication with the processor and having stored thereon computer-executable instructions. The instructions are configured to cause the processor to receive the information from the sensor, determine that the robotic arm is located at a first position in which a first axis associated with the robotic arm is not in alignment with a second axis associated with a port installed in a patient, and provide a command to move the robotic arm to a second position in which the first axis associated with the robotic arm is in alignment with the second axis.

Abstract: A show system includes a rotatable beam assembly having a rotatable beam, a first track, a second track, and one or more motors. The show system also includes a first show element coupled to the first track to enable the first show element to translate along the first track and a second show element coupled to the second track to enable the second show element to translate along the second track. The show system further includes a controller communicatively coupled to the rotatable beam assembly and configured to provide control signals to the one or more motors to rotate the rotatable beam to cause the first show element to rotate from a show location to a reset location and to cause the second show element to rotate from the reset location to the show location.