Abstract: A method and system for servicing requests, including receiving, from a client, a first request to perform an action, obtaining a first persona object for a user associated with the first request, servicing the first request using the first persona object to obtain a result, and providing the result to the client.

Abstract: In one example, a portion of a shed includes a blow molded plastic door, a blow molded plastic wall panel, and a double jointed hinge configured to connect the blow molded plastic door and the blow molded plastic wall panel to each other. The double jointed hinge includes a first hinge element that connectible to the blow molded plastic wall panel, a second hinge element that is connectible to the blow molded plastic door, and a first link and a second link, the first link and the second link configured to connect the first hinge element to the second hinge element, and when the shed portion is in an assembled state, and the blow molded plastic door is fully closed, the first link and the second link are received within a recess cooperatively defined by the blow molded plastic wall panel and the blow molded plastic door.

Abstract: An example luggage processing station comprises: an injector adapted to receive a piece of luggage, the injector comprising an injector conveyor belt integrated into a floor of the injector; a group of sensors positioned around the injector directed towards the injector conveyor belt; a controller adapted to assess the piece of luggage compared to an acceptance parameter whilst the piece of luggage is stationary on the injector conveyor belt; and the controller is configured to actuate the injector conveyor belt when the controller assesses the piece of luggage as meeting the acceptance parameter.

Abstract: An example processing station for registering a passenger's luggage for a trip is provided, the processing station comprising: an injector for receiving a piece of luggage associated with the passenger; at least one sensor associated with the injector for sensing whether the dimensions of the piece of luggage exceed a predetermined limit; a weighing machine associated with the injector for weighing the piece of luggage whilst in the injector; a controller associated with the at least one sensor and weighing machine, the controller being adapted to accept the piece of luggage if feedback from the at least one sensor and weighing machine indicate that dimensions and weight of the piece of luggage are within respective predetermined limits; and an injector conveyor in the floor of the injector for conveying the piece of luggage in a first direction, if accepted, to a downstream collector conveyor system.

Abstract: In one example, a double jointed hinge connects a blow molded plastic door and a blow molded plastic wall panel. The double jointed hinge includes a first hinge element that defines a first axis of rotation, and the first hinge element is connected to the blow molded plastic wall panel, a second hinge element that defines a second axis of rotation and is connected to the blow molded plastic door, and the second hinge element is spaced apart from the first hinge element, and a first link and a second link, the first link and the second link connecting the first hinge element to the second hinge element.

Abstract: The present invention relates to novel formulations comprising an organic semiconductor (OSC) and one or more organic solvents. The formulation comprises a viscosity at 25° C. of less than 15 mPas and the boiling point of the solvent is at most 400° C. Furthermore, the present invention describes the use of these formulations as inks for the preparation of organic electronic (OE) devices, especially organic photovoltaic (OPV) cells and OLED devices, to methods for preparing OE devices using the novel formulations, and to OE devices, OLED devices and OPV cells prepared from such methods and formulations.

Abstract: Embodiments of a leno weave mesh of the present invention generally include a plurality of high-temperature weft yarns, high-temperature warp yarns, and low melting point warp yarns; wherein each low melting point warp yarn is intertwined with a high-temperature warp yarn, each intertwined pair of warp yarns is positioned such that the low melting point warp yarn and high-temperature warp yarn are disposed alternatingly on either side of the woven mesh at intersections of the weft and warp yarns, and the woven mesh is heated whereby the surfaces of the low melting point warp yarns adhere to the surface of the high-temperature warp yarns and said high-temperature weft yarns at contact points there between. An intumescent coating system employing embodiments of the mesh, and a method of providing thermal protection to a substrate utilizing the intumescent coating system, are also provided.

Abstract: Embodiments of a leno weave mesh of the present invention generally include a plurality of high-temperature weft yarns, high-temperature warp yarns, and low melting point warp yarns; wherein each low melting point warp yarn is intertwined with a high-temperature warp yarn, each intertwined pair of warp yarns is positioned such that the low melting point warp yarn and high-temperature warp yarn are disposed alternatingly on either side of the woven mesh at intersections of the weft and warp yarns, and the woven mesh is heated whereby the surfaces of the low melting point warp yarns adhere to the surface of the high-temperature warp yarns and said high-temperature weft yarns at contact points there between. An intumescent coating system employing embodiments of the mesh, and a method of providing thermal protection to a substrate utilizing the intumescent coating system, are also provided.

Abstract: Embodiments of a leno weave mesh of the present invention generally include a plurality of high-temperature weft yarns, high-temperature warp yarns, and low melting point warp yarns; wherein each low melting point warp yarn is intertwined with a high-temperature warp yarn, each intertwined pair of warp yarns is positioned such that the low melting point warp yarn and high-temperature warp yarn are disposed alternatingly on either side of the woven mesh at intersections of the weft and warp yarns, and the woven mesh is heated whereby the surfaces of the low melting point warp yarns adhere to the surface of the high-temperature warp yarns and said high-temperature weft yarns at contact points there between. An intumescent coating system employing embodiments of the mesh, and a method of providing thermal protection to a substrate utilizing the intumescent coating system, are also provided.

Abstract: Embodiments of a leno weave mesh of the present invention generally include a plurality of high-temperature weft yarns, high-temperature warp yarns, and low melting point warp yarns; wherein each low melting point warp yarn is intertwined with a high-temperature warp yarn, each intertwined pair of warp yarns is positioned such that the low melting point warp yarn and high-temperature warp yarn are disposed alternatingly on either side of the woven mesh at intersections of the weft and warp yarns, and the woven mesh is heated whereby the surfaces of the low melting point warp yarns adhere to the surface of the high-temperature warp yarns and said high-temperature weft yarns at contact points there between. An intumescent coating system employing embodiments of the mesh, and a method of providing thermal protection to a substrate utilizing the intumescent coating system, are also provided.

Abstract: Embodiments of a leno weave mesh of the present invention generally include a plurality of high-temperature weft yarns, high-temperature warp yarns, and low melting point warp yarns; wherein each low melting point warp yarn is intertwined with a high-temperature warp yarn, each intertwined pair of warp yarns is positioned such that the low melting point warp yarn and high-temperature warp yarn are disposed alternatingly on either side of the woven mesh at intersections of the weft and warp yarns, and the woven mesh is heated whereby the surfaces of the low melting point warp yarns adhere to the surface of the high-temperature warp yarns and said high-temperature weft yarns at contact points there between. An intumescent coating system employing embodiments of the mesh, and a method of providing thermal protection to a substrate utilizing the intumescent coating system, are also provided.

Abstract: Embodiments of a leno weave mesh of the present invention generally include a plurality of high-temperature weft yarns, high-temperature warp yarns, and low melting point warp yarns; wherein each low melting point warp yarn is intertwined with a high-temperature warp yarn, each intertwined pair of warp yarns is positioned such that the low melting point warp yarn and high-temperature warp yarn are disposed alternatingly on either side of the woven mesh at intersections of the weft and warp yarns, and the woven mesh is heated whereby the surfaces of the low melting point warp yarns adhere to the surface of the high-temperature warp yarns and said high-temperature weft yarns at contact points there between. An intumescent coating system employing embodiments of the mesh, and a method of providing thermal protection to a substrate utilizing the intumescent coating system, are also provided.

Abstract: Embodiments of a leno weave mesh of the present invention generally include a plurality of high-temperature weft yarns, high-temperature warp yarns, and low melting point warp yarns; wherein each low melting point warp yarn is intertwined with a high-temperature warp yarn, each intertwined pair of warp yarns is positioned such that the low melting point warp yarn and high-temperature warp yarn are disposed alternatingly on either side of the woven mesh at intersections of the weft and warp yarns, and the woven mesh is heated whereby the surfaces of the low melting point warp yarns adhere to the surface of the high-temperature warp yarns and said high-temperature weft yarns at contact points there between. An intumescent coating system employing embodiments of the mesh, and a method of providing thermal protection to a substrate utilizing the intumescent coating system, are also provided.

Abstract: Embodiments of a leno weave mesh of the present invention generally include a plurality of high-temperature weft yarns, high-temperature warp yarns, and low melting point warp yarns; wherein each low melting point warp yarn is intertwined with a high-temperature warp yarn, each intertwined pair of warp yarns is positioned such that the low melting point warp yarn and high-temperature warp yarn are disposed alternatingly on either side of the woven mesh at intersections of the weft and warp yarns, and the woven mesh is heated whereby the surfaces of the low melting point warp yarns adhere to the surface of the high-temperature warp yarns and said high-temperature weft yarns at contact points there between. An intumescent coating system employing embodiments of the mesh, and a method of providing thermal protection to a substrate utilizing the intumescent coating system, are also provided.

Abstract: Embodiments of a leno weave mesh of the present invention generally include a plurality of high-temperature weft yarns, high-temperature warp yarns, and low melting point warp yarns; wherein each low melting point warp yarn is intertwined with a high-temperature warp yarn, each intertwined pair of warp yarns is positioned such that the low melting point warp yarn and high-temperature warp yarn are disposed alternatingly on either side of the woven mesh at intersections of the weft and warp yarns, and the woven mesh is heated whereby the surfaces of the low melting point warp yarns adhere to the surface of the high-temperature warp yarns and said high-temperature weft yarns at contact points there between. An intumescent coating system employing embodiments of the mesh, and a method of providing thermal protection to a substrate utilizing the intumescent coating system, are also provided.

Abstract: A method and system for servicing requests, including receiving, from a client, a first request to perform an action, obtaining a first persona object for a user associated with the first request, servicing the first request using the first persona object to obtain a result, and providing the result to the client.

Abstract: A method and system for servicing requests, including receiving, from a client, a first request to perform an action, obtaining a first persona object for a user associated with the first request, servicing the first request using the first persona object to obtain a result, and providing the result to the client.

Abstract: An example processing station for registering a passenger's luggage for a trip is provided, the processing station comprising: an injector for receiving a piece of luggage associated with the passenger; at least one sensor associated with the injector for sensing whether the dimensions of the piece of luggage exceed a predetermined limit; a weighing machine associated with the injector for weighing the piece of luggage whilst in the injector; a controller associated with the at least one sensor and weighing machine, the controller being adapted to accept the piece of luggage if feedback from the at least one sensor and weighing machine indicate that dimensions and weight of the piece of luggage are within respective predetermined limits; and an injector conveyor in the floor of the injector for conveying the piece of luggage in a first direction, if accepted, to a downstream collector conveyor system.

Abstract: Clamping device includes a clamp frame that is configured to move between an open configuration, in which the clamp frame is configured to receive at least one longitudinal element, and a closed configuration, in which the clamp frame wraps around and holds the at least one longitudinal element. The clamp frame includes a coupling end having an inner surface and a coupling base having an outer surface. The inner and outer surfaces have profiles that form a locked engagement to hold the clamp frame in the closed configuration. The clamping device also includes a secondary locking mechanism that secures the coupling end and the coupling base to each other. The secondary locking mechanism is activated after the clamp frame is held in the closed configuration by the locked engagement.

Abstract: Disclosed herein is a processing station (10) for registering a passenger's luggage for a trip. The processing station (10) comprises an injector (14) for receiving a piece of luggage associated with the passenger. A plurality of sensors (16a-16i) are associated with the injector. A weighing machine (18) is also associated with the injector (14) for weighing the piece of luggage whilst in the injector (14). The luggage processing (station 10) also comprises a user interface (20) for receiving various inputs for confirming that a passenger has checked-in and to display information to the passenger during processing of the piece of luggage. A controller (28) is associated with the sensors (16a-16i) and weighing machine (18) and the user interface (20).