Abstract: One cable shielding has a first metal shielding braided along a length of a cable, a CNT paper shielding surrounding the first metal shielding along the length of the cable, and a second metal shielding braided about the CNT paper shielding along the length of the cable.

Abstract: An improved expandable slit-sheet stock material is configured to aid in temporarily restricting opening of a plurality of slits of the slit-sheet stock material, such as during winding of the unexpanded stock material or during expansion of the stock material. Each slit of the plurality of slits includes one or more un-slit reinforcement portions, such as reinforcement ties, extending fully between opposite longitudinal sides of the slit, and disposed between opposed transverse endpoints of the slit. The reinforcement ties minimize or prevent tearing of the stock material during the winding or expansion. A dunnage conversion system for expanding the slit-sheet stock material includes an expander having a pair of opposed rollers. The rollers engage the stock material to effect breaking of the un-slit reinforcement portions and expansion of the slit-sheet stock material.

Abstract: A medical system includes a catheter and a processor. The catheter includes a first channel and a distal end portion associated with a catheter frame of reference. The processor is configured to receive a first image captured by a first imaging device provided by the catheter within a patient anatomy, and receive a second image of the patient anatomy captured by a second imaging device from outside the patient anatomy. The second image includes the catheter and the first imaging device. The processor is further configured to determine a relative pose between the first imaging device and the distal end of the catheter based on the second image, determine a target location associated with a target structure in the first image, and transform the target location in an image frame of reference associated with the first image to the catheter frame of reference based on the relative pose.

Abstract: The present disclosure is directed to stress-responsive compositions comprising (1) at least one (co)polymer comprising at least one mechanophore comprising at least one thiocarbonylthio functional group or derivative thereof and (2) at least one compound comprising at least one functional group capable of reacting with a free radical, The present disclosure is also directed to articles, coatings, and 3D printing binders comprising such stress-responsive compositions, as well as to processes of imparting the abilities of forming and maintaining protective barriers and mechanical self-healing to such articles, coatings, and 3D printing binders by incorporating such stress-responsive compositions therein.

Abstract: A method performed by a computing system comprises receiving a fluoroscopic image of a patient anatomy while a portion of a medical instrument is positioned within the patient anatomy. The fluoroscopic image has a fluoroscopic frame of reference. The portion has a sensed position in an anatomic model frame of reference. The method further comprises identifying the portion in the fluoroscopic image and identifying an extracted position of the portion in the fluoroscopic frame of reference using the identified portion in the fluoroscopic image. The method further comprises registering the fluoroscopic frame of reference to the anatomic model frame of reference based on the sensed position of the portion and the extracted position of the portion.

Abstract: One example pant-like garment may comprise a front panel comprising a front garment-side layer, a front body-side layer, and one or more front chassis elastic members disposed between the front garment-side layer and the front body-side layer, and a rear panel comprising a rear garment-side layer, a rear body-side layer, one or more rear chassis elastic members disposed between the rear garment-side layer and the rear body-side layer, and one or more rear panel leg elastic members directly overlapping the one or more rear chassis elastic members in a vertical direction perpendicular to longitudinal and lateral directions. The garment may further comprise an absorbent assembly disposed between the front panel and the rear panel.

Abstract: Pant-like absorbent articles having improved chassis structures are disclosed. One pant-like garment comprises a front panel comprising a front garment-side layer, a front body side layer, and front elastic members therebetween, and a rear panel comprising a rear garment-side layer, a rear bodyside layer, and rear elastic members between the rear garment-side layer and the rear bodyside layer, a portion of the rear elastic members proximate a rear waist end edge are being uncovered by one of the rear garment-side layer and the rear bodyside layer. The garment may further comprise a rear secondary elastic member disposed overlapping the uncovered portion of the rear elastic members, and wherein one of the rear garment-side layer and the rear bodyside layer is folded over the rear panel secondary elastic member and overlaps the other one of the rear garment-side layer and the rear bodyside layer.

Abstract: Systems involving distributed control functions are described herein. Each member or device within the system has responsibility for controlling part of the system's behavior, and includes logic to determine what action, if any, will follow as a response to determining information or receiving information from other members or devices within the system. A change of status of one member of a system may provide a basis for action by another member of the system. Status may be the result of sensing a condition of the environment, sensing the condition of a component, receiving the output of a conventional sensor, and/or sensing the condition of a link between components. In some embodiments, action taken by a member of the system may include collecting data during law enforcement activities.

Abstract: A method performed by a computing system comprises receiving a fluoroscopic image of a patient anatomy while a portion of a medical instrument is positioned within the patient anatomy. The fluoroscopic image has a fluoroscopic frame of reference. The portion has a sensed position and sensed orientation in an anatomic model frame of reference. The method further comprises identifying the portion in the fluoroscopic image and identifying an extracted position and an extracted orientation of the portion in the fluoroscopic frame of reference using the identified portion in the fluoroscopic image. The method further comprises registering the fluoroscopic frame of reference to the anatomic model frame of reference based on the sensed position of the portion, the extracted position of the portion, the sensed orientation of the portion, and the extracted orientation of the portion.

Abstract: A user interface may be provided for displaying a series of reports. The user interface may include a primary report area, a secondary report area and a navigation slider. The primary report area may be utilized to display a selected report image associated with a report in a report series. The secondary report area may be utilized to display one or more additional report images associated with other reports in the report series. The navigation slider may be utilized to navigate among the report images displayed in the secondary report area. The report images displayed in the primary and secondary report areas may be manipulated by one or more user commands received in the user interface.

Abstract: High quality flake graphite is produced by methods that include mixing a carbon-containing feedstock with a catalyst to form a feedstock/catalyst mixture, or coating a catalyst with a carbon-containing feedstock, and subjecting the mixture or feed-stock-coated catalyst to irradiation with a laser to convert the feedstock into flake graphite in the presence of the catalyst. In some instances, the feedstock is converted to a char by pyrolysis and the char is instead subjected to laser irradiation. The feedstock can be a biomass or a carbonaceous material. The catalyst can be an elemental metal, an alloy, or a combination thereof. In some instances, methods described herein have been found to produce high quality flake graphite in the form of potato shaped agglomerates.

Abstract: A detector for detecting the removal and/or insertion of a firearm out of and/or into a holster. The detector may transmit a message each time the firearm is removed from the holster. A recording system may receive the message and determine whether or not it will begin recording the data it captures. A detector may detect the change in a magnitude of an inductance and/or an impedance of a circuit to detect insertion and removal of the firearm into and out of the holster. The holster is configured to couple to the detector to position the detector to detect insertion and removal of the firearm. An adhesive tape may couple a detector to a holster.

Abstract: One example includes a system control architecture that includes local control systems to provide respective condition signals associated with situational awareness conditions of an associated system architecture. A central system controller receives the condition signals, generates a control scheme for control of operational aspects of the associated system architecture based on the condition signals, and generates control signals based on the control scheme. The control scheme defines contributions of each of the local control systems to a control authority of each of the operational aspects. Operational components provide mechanical control of each of the operational aspects of the associated system architecture in response to the respective control signals to implement the control scheme.

Abstract: An evidence ecosystem that includes a capture system that detects physical properties in the environment around the capture system and captures data related to the physical properties. The capture system analyzes the captured data in accordance with patterns to detect characteristics and patterns in the captured data. Upon detecting a characteristic or a pattern, the capture system records the identified data and alignment data that identifies the location of the identified data in the captured data. The capture system sends the captured data, identified data, and alignment data to an evidence management system for use in generating reports and producing redacted copies of the captured data for distribution or presentation.

Abstract: A dunnage conversion assembly includes a supply of expandable sheet material and a dunnage conversion apparatus configured to expand the expandable sheet material. The apparatus includes a frame, a supply support mounted to the frame to support a supply of sheet material, and first and second expansion members rotatably mounted to the frame downstream of the supply support to receive the sheet material therebetween. At least one of the first expansion member or the second expansion member is rotatably driven. A drive assembly of the apparatus includes a drive member and a motive device that drives rotation of the drive member to dispense the sheet material from the supply. The drive member is movable between an operating position adjacent the supply support and a disengaged position spaced from the supply support. The drive member in the operating position is biased toward the supply support.

Abstract: A method performed by a computing system comprises receiving a fluoroscopic image of a patient anatomy while a portion of a medical instrument is positioned within the patient anatomy. The fluoroscopic image has a fluoroscopic frame of reference. The portion has a sensed position in an anatomic model frame of reference. The method further comprises identifying the portion in the fluoroscopic image and identifying an extracted position of the portion in the fluoroscopic frame of reference using the identified portion in the fluoroscopic image. The method further comprises registering the fluoroscopic frame of reference to the anatomic model frame of reference based on the sensed position of the portion and the extracted position of the portion.

Abstract: A detector monitors the presence, absence, insertion, and/or removal of an object in a holster. The detector broadcasts a message to an electronic device reporting whether the object, such as a weapon, has been removed from the holster and/or if the holster lock has been unlocked. The detector repeatedly probes for the presence of the object in the holster. The electronic device, in response to authenticating the message, may control the recording of audio, video, and/or other data in conjunction with the insertion or withdrawal. The detector stores information about when an object has been removed or inserted from the holster and provides it the electronic device.

Abstract: An evidence ecosystem that includes a capture system that detects physical properties in the environment around the capture system and captures data related to the physical properties. The capture system analyzes the captured data in accordance with patterns to detect characteristics and patterns in the captured data. Upon detecting a characteristic or a pattern, the capture system records the identified data and alignment data that identifies the location of the identified data in the captured data. The capture system sends the captured data, identified data, and alignment data to an evidence management system for use in generating reports and producing redacted copies of the captured data for distribution or presentation.

Abstract: Systems and methods presented herein provide for elastomeric and flexible cables. In one embodiment, the cables are configured with elastomeric cabling and circuitry. For example, a flexible circuit line (or lines) may be wrapped about an extruded elastomeric substrate (e.g., a polymer). Integrated circuits (e.g., sensors, accelerometers, light emitting diodes, controllers, microprocessors, etc.) may be disposed at various points along the circuit line(s). The cable may then be wrapped with a Polytetrafluoroethylene (PTFE) tape than can be heated to shrink about the cable for protection of the underlying circuitry. Then, the cable may be surrounded with a layer of polymer and extruded to form an elastomeric and flexible cable.