Abstract: An aircraft door drainage system includes a precipitation receptacle disposed longitudinally along an upper edge of an aircraft door opening. The receptacle is mounted along the upper edge of the door opening by a plurality of brackets that connect the receptacle to an inside ceiling panel of the aircraft. The receptacle protrudes outward from the upper edge of the door opening into a path followed by precipitation falling off of an outer peripheral surface of a fuselage of the aircraft from locations above, forward, and aft of the door opening into the door opening when the aircraft door is in an open position. The receptacle remains clear of the aircraft door when the aircraft door is closed into the door opening. Drain hoses are connected at first and second ends of the receptacle to direct precipitation collected in the receptacle to an outside of the aircraft.

Abstract: Various aspects of this disclosure relate to gas phase methods to decarboxylate cannabinoid carboxylic acids.

Abstract: Methods, systems and computer program products for activating a software product for use by a customer of a financial institution that accesses an on-line banking product on an on-line banking server. A request from the financial institution to activate the software product for use by the customer is received through an interface such as an extranet site of a host of the on-line banking product. An enablement request is transmitted from the interface to an activation server, and a script on the activation server is executed to modify a configuration element to automatically activate the software program for the customer. Thus, the financial institution, which does not host the on-line banking product, drives automatic activation of the software product without manual input by project managers or technical support persons of the on-line banking product host.

Abstract: An optical defect detection system is provided for recording an image of a transparency for detecting optical defects therein. The transparency may be formed with a contour. The defect detection system may comprise a light source, a diffuser and an image recording device for recording images of the transparency. The light source is configured to emit light and may be positioned adjacent one of the sides of the transparency. The image recording device may be positioned on a side of the transparency opposite the diffuser. The diffuser may be contoured complementary to the contour of the transparency and may be positioned between the light source and the transparency.

Abstract: The present disclosure is related to articles, such as aircraft windows and canopies, including a non-conductive substrate and a conductor pattern including one or more trace lines deposited onto the outside of the substrate such that the entire outside surface of the substrate is not coated with the conductor pattern. The present disclosure also provides methods of dissipating electrostatic charge from non-conductive substrates.

Abstract: A method of detecting optical defects in a transparency may comprise the steps of providing a digital image of the transparency having a plurality of image pixels and detecting at least one candidate defect. The candidate defect may be detected by determining a grayscale intensity of each one of the image pixels and calculating an intensity gradient across adjacent pairs of the image pixels. Each image pixel may be assigned a gradient value comprising a maximum of the absolute value of the intensity gradients associated with the image pixel. A gradient image may be constructed comprising the gradient values assigned to corresponding ones of the image pixels. Image pixels may be identified as candidate pixels if such image pixels have a gradient value exceeding a gradient threshold. The candidate pixels may comprise the optical defect.

Abstract: A method of detecting optical defects in a transparency may comprise the steps of providing a digital image of the transparency having a plurality of image pixels and detecting at least one candidate defect. The candidate defect may be detected by determining a grayscale intensity of each one of the image pixels and calculating an intensity gradient across adjacent pairs of the image pixels. Each image pixel may be assigned a gradient value comprising a maximum of the absolute value of the intensity gradients associated with the image pixel. A gradient image may be constructed comprising the gradient values assigned to corresponding ones of the image pixels. Image pixels may be identified as candidate pixels if such image pixels have a gradient value exceeding a gradient threshold. The candidate pixels may comprise the optical defect.

Abstract: A method of detecting optical defects in a transparency may comprise the steps of providing a digital image of the transparency having a plurality of image pixels and detecting at least one candidate defect. The candidate defect may be detected by determining a grayscale intensity of each one of the image pixels and calculating an intensity gradient across adjacent pairs of the image pixels. Each image pixel may be assigned a gradient value comprising a maximum of the absolute value of the intensity gradients associated with the image pixel. A gradient image may be constructed comprising the gradient values assigned to corresponding ones of the image pixels. Image pixels may be identified as candidate pixels if such image pixels have a gradient value exceeding a gradient threshold. The candidate pixels may comprise the optical defect.

Abstract: A system for evaluating optical distortion in an aircraft transparency, such as a windshield, is disclosed. The system utilizes high resolution digital images (a reference image and a test image) of a test grid structure having a pattern of visible index locations. In one embodiment, the test image is taken through the transparency under test, and the reference image is taken without the transparency. The two images are processed and analyzed by a computing device to determine displacement of each index location, relative to the reference image. The displacement data is further processed to obtain vector divergence field data that represents a quantitative measurement of the optical distortion. The optical distortion measurement data is then rendered in a suitable format that allows the transparency to be rated against certain quality criteria.

Abstract: A system for evaluating optical distortion in an aircraft transparency, such as a windshield, is disclosed. The system utilizes high resolution digital images (a reference image and a test image) of a test grid structure having a pattern of visible index locations. In one embodiment, the test image is taken through the transparency under test, and the reference image is taken without the transparency. The two images are processed and analyzed by a computing device to determine displacement of each index location, relative to the reference image. The displacement data is further processed to obtain vector divergence field data that represents a quantitative measurement of the optical distortion. The optical distortion measurement data is then rendered in a suitable format that allows the transparency to be rated against certain quality criteria.

Abstract: A connector tow for providing external electrical access to an electrical device embedded within a composite structure. The connector comprises a plurality of tubes disposed between a pair of opposed film layers. The film layers are adhered to opposite sides of the plurality of tubes and can be comprised of an insulating material so as to electrically isolate the plurality of tubes. By extending through the edge surface of the composite structure, the electrical ports can be accessed during the fabrication of the a composite structure such that the operations of the embedded electrical device can be monitored.

Abstract: A fiber optic connector for establishing an optical connection with an optical fiber embedded within a composite structure is provided. The fiber optic connector includes a first lens element, such as a metal sheathed graded index (GRIN) lens, that is attached to the portion of the edge surface of the composite structure to which the optical fiber extends. The fiber optic connector also includes an alignment tube and a second optical fiber, external to the composite structure, having an end portion disposed within one end of the alignment tube. By sliding the other end of the alignment tube over the first lens element, optical communication is established between the first optical fiber embedded within the composite structure and the second optical fiber external to the composite structure. The fiber optic connector also typically includes a ferrule mounted upon the end portion of the second optical fiber and inserted at least partially into one end of the alignment tube.

Abstract: A method is provided for fabricating a composite structure having an externally accessible electrical device embedded therein. At least one supporting ply is initially provided that has first and second depressions. An electrical device having at least one electrical lead is disposed in the first depression and a connector tow having at least one tube with opposed first and second ends is disposed in the second depression. The first end of the tube of the connector tow is electrically connected to the electrical lead. Thereafter, at least one additional ply is stacked on the supporting ply such that the electrical device and the connector tow are embedded. The stacked plies can then be consolidated to form an integral laminate structure. Following the consolidation, the second end of the tube of the connector tow can be accessed through the edge surface of the laminate structure to thereby define an externally accessible electrical port for receiving a corresponding connector.

Abstract: A composite structure having an externally accessible electrical device embedded therein includes at least one tube disposed within the composite structure and extending from a first end which is electrically connected to an electrical lead of the electrical device to a second end which opens through the edge surface of the composite structure to thereby define an externally accessible electrical port. By plugging a corresponding connector into the electrical port, electrical contact can be established via the electrical lead with the electrical device embedded within the composite structure. By extending through the edge surface of the composite structure, the electrical ports can be accessed during the fabrication of the composite structure such that the operations of the embedded electrical device can be monitored.

Abstract: A composite structure and related fabrication method is provided which has a plurality of composite material layers and at least one embedded shape memory alloy component for providing controlled structural deformation. The shape memory alloy component includes a shape memory alloy tendon having a relaxed shape at temperatures below a predetermined transition temperature and a contracted shape at temperatures above the predetermined transition temperature. The shape memory alloy component also comprises a pair of electrically insulating opposing face sheets adhered to opposite sides of the shape memory alloy tendon to electrically isolate the shape memory alloy tendon from the surrounding composite material layers.

Abstract: A dye tube spacer for package dyeing. The spacer prevents distortion of the ends of the yarn package when the package is compressed prior to dyeing. The spacer includes a continuous vertical inner wall having an upper edge and a lower edge, the inner diameter of the wall being substantially equal to the outer diameter of the tube. A vertical outer wall is spaced from the inner wall and has an upper edge and a lower edge. A top annular wall is inclined upwardly from the upper edge of the inner to the upper edge of the outer wall, the wall having a diameter substantially equal to the diameter of the end of the yarn winding. A bottom annular wall extends from the lower edge of the inner wall to the lower edge of the outer wall. A support shelf extends inwardly from the inner wall and is positioned to engage the end of the tube. The inclined top and bottom annular walls contact the ends of the yarn packages and prevent undesirable distortion of the yarn during compression prior to dyeing.

Abstract: A method for producing a desired resistive taper under computer control for controlling the surface resistivity of an electrical element, which comprises the steps of creating a computer controlled optically graded pattern corresponding to the desired resistive taper, producing a phototool from the graded pattern and using the phototool to photochemically etch the graded pattern onto a substrate.

Abstract: A composite structure and related fabrication method is provided which has a plurality of composite material layers and at least one embedded shape memory alloy component for providing controlled structural deformation. The shape memory alloy component includes a shape memory alloy tendon having a relaxed shape at temperatures below a predetermined transition temperature and a contracted shape at temperatures above the predetermined transition temperature. The shape memory alloy component also comprises a pair of electrically insulating opposing face sheets adhered to opposite sides of the shape memory alloy tendon to electrically isolate the shape memory alloy tendon from the surrounding composite material layers.

Abstract: A dye tube spacer for package dyeing. The spacer prevents distortion of the ends of the yarn package when the package is compressed prior to dyeing. The spacer includes a continuous vertical inner wall having an upper edge and a lower edge, the inner diameter of the wall being substantially equal to the outer diameter of the tube. A vertical outer wall is spaced from the inner wall and has an upper edge and a lower edge. A top annular wall is inclined upwardly from the upper edge of the inner to the upper edge of the outer wall, the wall having a diameter substantially equal to the diameter of the end of the yarn winding. A bottom annular wall extends from the lower edge of the inner wall to the lower edge of the outer wall. A support shelf extends inwardly from the inner wall and is positioned to engage the end of the tube. The inclined top and bottom annular walls contact the ends of the yarn packages and prevent undesirable distortion of the yarn during compression prior to dyeing.

Abstract: A dye tube spacer for package dyeing. The spacer prevents distortion of the ends of the yarn package when the package is compressed prior to dyeing. The spacer includes a continuous vertical inner wall having an upper edge and a lower edge, the inner diameter of the wall being substantially equal to the outer diameter of the tube. A vertical outer wall is spaced from the inner wall and has an upper edge and a lower edge. A top annular wall is inclined upwardly from the upper edge of the inner to the upper edge of the outer wall, the wall having a diameter substantially equal to the diameter of the end of the yarn winding. A bottom annular wall extends from the lower edge of the inner wall to the lower edge of the outer wall. A support shelf extends inwardly from the inner wall and is positioned to engage the end of the tube. The inclined top and bottom annular walls contact the ends of the yarn packages and prevent undesirable distortion of the yarn during compression prior to dyeing.