Abstract: A method for determining third party network compliance with a host entity network is provided. The method may include generating a scanning file that includes host entity network compliance standards and transferring the scanning file to an intermediary entity network. The method may further include generating an executable file that may run a plug-in scanning file to scan hardware and software resident at the third-party network for compliance. The method may further include transferring the executable file from the intermediary entity network to the third party network. The method may further include executing the executable file, generating a log file upon the completion of the running of the plug-in scanning file and digitally signing the log file. The method may further include deciphering the log file at the intermediary entity network, generating a readable report based on the deciphering and transferring the readable report to the host entity network.

Abstract: An ML-based method for conforming a target network to control requirements of a host network is provided. The method may include running a first digital scan of the host network and determining the host network's control requirements based on the first digital scan. The method may include identifying, based on the second digital scan, elements of the target network that violate the control requirements. The method may include generating a compliance report and/or an executable file. The compliance report may include a compatibility score of the target network vis-à-vis the host network, and a compatibility plan that includes steps which improve the compatibility score and conform the target network to the control requirements of the host network. The executable file, when executed at the target network, may execute the compatibility plan.

Abstract: Disclosed is an unmanned Aerial Vehicle, UAV, comprising a plurality of rotors, a camera and an explosive payload, wherein the UAV comprises a generally elongate body, and the camera and the payload are arranged substantially in-line within the body.

Abstract: The present invention relates to the control of weapons, particularly weapons which are controlled via a communications link, possibly at some distance from the weapon's location. The invention is to an apparatus comprising safety-critical and non-safety-critical functional parts wherein at least one of a plurality of safety-critical functional parts is only connected to at least one other of the plurality of safety-critical functional parts.

Abstract: A plurality of images are received from one or more social media platforms associated with a user. For a selected image of the plurality of images, a plurality of text descriptions are generated. The plurality of text descriptions are computer-generated captions that describe features of the selected image of the plurality of images. The plurality of text descriptions are processed through a natural language processing model. Based on processing, a plurality of interest contexts are derived from the plurality of text descriptions. A mapping of each of the plurality of interest contexts to one or more predefined categories associated with an online marketplace is generated. Based the mapping of each of the plurality of interest contexts to the one or more predefined categories, a user device associated with the user is caused to display an app page or web page associated with the one or more predefined categories.

Abstract: An imaging system is provided, the imaging system is configured to generate video streams of a moving target in a predefined area, the imaging system comprising: first and second image capture devices configured to be movable and to capture first and second video streams of the moving target from a first direction; third and fourth image capture devices configured to be movable and to capture third and fourth video streams of the moving target from a second and third directions, the second and third directions being substantially opposite to one another and substantially perpendicular to the first direction; a fifth image capture device configured to be stationary and to capture a fifth video stream of the moving target from a fourth direction, the fourth direction being substantially perpendicular to the first to third directions; and a controller configured to move the first to fourth image capture devices along with the moving target in the predefined area.

Abstract: An elution generator including an elution column having a container defining an interior volume and a septum, a radiation shield having an upper shield portion defining a central recess and a coaxial flow needle extending downwardly into the central recess, and a lower shield portion having body portion defining a central recess, wherein the elution column is disposed in the central recess of the lower shield portion, the body portion of the lower shield portion is disposed in the central recess of the upper shield portion, and the coaxial flow needle extends downwardly through the septum into the internal volume of the elution column.

Abstract: A plurality of images are received from one or more social media platforms associated with a user. For a selected image of the plurality of images, a plurality of text descriptions are generated. The plurality of text descriptions are computer-generated captions that describe features of the selected image of the plurality of images. The plurality of text descriptions are processed through a natural language processing model. Based on processing, a plurality of interest contexts are derived from the plurality of text descriptions. A mapping of each of the plurality of interest contexts to one or more predefined categories associated with an online marketplace is generated. Based the mapping of each of the plurality of interest contexts to the one or more predefined categories, a user device associated with the user is caused to display an app page or web page associated with the one or more predefined categories.

Abstract: A system includes a PTO device that selectively couples to a driveline of a vehicle, a motor/generator electrically coupled to an electrical power storage system, and a shared load selectively powered by one of the driveline or the motor/generator. The PTO device further includes a coupling actuator that couples the shared load to the motor/generator at a first selected ratio in a first position, and couples the shared load to the driveline at a second selected ratio in a second position.

Abstract: A non-metallic gasket for flanged connections that is capable of achieving the necessary gasket stress to maintain a leak-free seal between the two flanges especially in applications when metallic gaskets cannot be used. The gasket may utilize glass reinforced epoxy, or rigid non-metallic material, as the gasket core. The core receives a kammprofile set of serrations machined into both faces. On top of the serrations a sealing element of varying material is adhered.

Abstract: A cannula assembly is provided, the cannula assembly comprising a cannula, in particular a graft, for forming a flow channel for bodily fluids, in particular for blood, and a protective element for the cannula, wherein the protective element defines a channel for the cannula, wherein the cannula runs through the channel of the protective element at least in sections, wherein the protective element comprises a plurality of segments, wherein the segments are arranged next to one another in a sequence and wherein each segment defines a sub-section of the channel of the protective element. A blood pump assembly and a method for using the cannula assembly and the blood pump assembly are also provided.

Abstract: A semiconductor nanocrystal structure may include a core, an inner absorption shell surrounding the core, at least one emission shell surrounding the inner absorption shell, and an outer absorption shell surrounding the emission shell(s). The core may include a different material than the optional inner absorption shell and/or the outer absorption shell. The core may be less absorbent to electromagnetic radiation as compared to the optional inner absorption shell and/or the outer absorption shell. An optoelectronic device may include the semiconductor nanocrystal structure.

Abstract: A light emitting device is disclosed. In an embodiment a light-emitting device includes a pixel comprising at least three sub-pixels, wherein the at least three sub-pixel include a first sub-pixel including a first conversion element, wherein the first conversion element includes a green phosphor, a second sub-pixel including a second conversion element, wherein the second conversion element includes a red phosphor and a third sub-pixel free of a conversion element, wherein the third sub-pixel is configured to emit blue primary radiation, wherein each sub-pixels has an edge length of at most 100 ?m, and wherein the pixel is a linear chain of sub-pixels and a plurality of pixels is arranged in a two dimensional ordered pattern so that a first sub-pixel is never adjacent to a third sub-pixel in a vertical direction and in a horizontal direction of the ordered pattern.

Abstract: A semiconductor nanocrystal structure may include a core, an inner absorption shell surrounding the core, at least one emission shell surrounding the inner absorption shell, and an outer absorption shell surrounding the emission shell(s). The core may include a different material than the optional inner absorption shell and/or the outer absorption shell. The core may be less absorbent to electromagnetic radiation as compared to the optional inner absorption shell and/or the outer absorption shell. An optoelectronic device may include the semiconductor nanocrystal structure.

Abstract: A system includes a planetary gear assembly having a ring gear, a plurality of planet gears coupled to a carrier, and a sun gear coupled to a main shaft. The system further includes a driven gear coupled to the carrier, a countershaft gear coupled to the driven gear, a motor/generator coupled to the main shaft, and an actuator structured to change a coupling of the ring gear based on a position of the actuator.

Abstract: A light emitting device is disclosed. In an embodiment a light-emitting device includes a pixel comprising at least three sub-pixels, wherein a first sub-pixel includes a first conversion element having a green phosphor, wherein a second sub-pixel includes a second conversion element having a red phosphor and wherein a third sub-pixel is free of a conversion element, the third sub-pixel configured to emit blue primary radiation, wherein each sub-pixel has an edge length of at most 100 ?m, and wherein the light-emitting device is configured to enhance a gamut coverage of an emitted radiation.

Abstract: A system is provided for connecting a blood pump to a heart, the system comprising: a blood pump for conveying blood, wherein the blood pump comprises a first tubular portion and a second tubular portion, and between the first and the second tubular portion, there is a flange-shaped portion; and comprising a connector having a tubular connector portion extending in an axial direction between a distal end and a proximal end having a lumen for receiving the first tubular portion of the blood pump, and having a flange-shaped connector portion arranged at the distal end for fastening the connector to an organ.

Abstract: Quantum dot delivery methods are described. In a first example, a method of delivering or storing a plurality of nano-particles involves providing a plurality of nano-particles. The method also involves forming a dispersion of the plurality of nano-particles in a medium for delivery or storage, wherein the medium is free of organic solvent. In a second example, a method of delivering or storing a plurality of nano-particles involves providing a plurality of nano-particles in an organic solvent. The method also involves drying the plurality of nano-particles for delivery or storage, the drying removing entirely all of the organic solvent.

Abstract: An imaging system is provided, the imaging system is configured to generate video streams of a moving target in a predefined area, the imaging system comprising: first and second image capture devices configured to be movable and to capture first and second video streams of the moving target from a first direction; third and fourth image capture devices configured to be movable and to capture third and fourth video streams of the moving target from a second and third directions, the second and third directions being substantially opposite to one another and substantially perpendicular to the first direction; a fifth image capture device configured to be stationary and to capture a fifth video stream of the moving target from a fourth direction, the fourth direction being substantially perpendicular to the first to third directions; and a controller configured to move the first to fourth image capture devices along with the moving target in the predefined area.

Abstract: Quantum dot polymer composites for on-chip light emitting diode applications are described. In an example, a composite for on-chip light emitting diode application includes a polymer matrix, a plurality of quantum dots dispersed in the polymer matrix, and a base dispersed in the polymer matrix.