Abstract: A method of detecting an open arc in a DC plasma arc furnace which is based on detecting a linear decrease in the log of the magnitude of the frequency spectrum of the voltage between the anode and cathode.

Abstract: Robust merchandise tags, patches, inlays and labels are provided for mounting on garments, fabrics, apparel accessories and other flexible merchandising materials. These are robust enough to withstand processing during manufacturing, including steps such as machine washing, stone washing and chemical treatments, while being capable of remaining on the garment, fabric or the like during inventory handling, merchandising and consumer use. The robust merchandise tags combine a hybrid-slot loop antenna structure with an uncharacteristically large area conductor sheet in the nature of a foil or the like. Overlaminations and fold-over portions also can be included for robustness enhancement.

Abstract: A method for installing an optical fiber unit in a protective tube housing a pulling rope includes the steps of: providing a mini tube having a longitudinal opening from end to end; transversally inserting a portion of the pulling rope in the longitudinal opening; contacting the pulling rope and optical fiber unit over a predetermined length; slipping the mini tube over at least a portion of the contacting length of the pulling rope and optical fiber unit; crimping the mini tube around the pulling rope and optical fiber unit; and drawing the optical fiber unit through the protective tube by pulling the pulling rope.

Abstract: A safety automation builder that assists in development of compliant safety functions for industrial safety systems is provided. The safety automation builder imports a system drawing or image of a user's manufacturing line, machine, or production area, and guides the user through a workflow that facilitates configuration of safety functions for each hazardous access point. The safety automation builder leverages a library of safety devices and encoded knowledge of industrial safety standards to guide the user toward selection of suitable safety devices for mitigating risks associated with the access points. Once configured, the safety automation builder can export the safety function data to an external verification system for confirmation that the configured safety functions comply with the prescribed industrial safety standards.

Abstract: A marine catamaran craft, comprising at least one forward hydrofoil fixed to each of the catamaran hulls and at least one rear hydrofoil in which: At least one forward hydrofoil is arranged for shallowly submerged operation At least one rear hydrofoil is arranged for shallowly submerged operation at low speeds and for planing operation at higher speeds A rear part of each of the catamaran hulls remains wetted at all speeds

Abstract: Disclosed is a Centralized Caller Profile System and methods for routing and prioritizing calls. The disclosed systems and methods provide enhanced customer service by allowing multiple parties to update and share the same set of profile information from a centralized database. The disclosed systems and methods provide for faster, easier access to profile information, more efficient call routing, and the ability to prioritize callers in a caller queue.

Abstract: A method of communicating information describing a voice call from a caller device to a recipient device. Call subject information describing the call is obtained from the caller device and sent to the recipient device to inform the recipient about the subject of the call. The call subject information is can be presented as a subject line displayed to on the recipient device to inform the recipient about the nature of the call and/or its urgency, thereby enabling the recipient to better determined whether to answer the call. The call subject information can be input by the caller or extracted automatically from an application from which the call was initiated.

Abstract: A system for analysing data from a microwave inverse scattering imaging apparatus, said system comprising a processor which is configured to: process data derived from radiation scattered by an object under test by performing a reconstruction process, said reconstruction process being configured to reconstruct the material properties of the object under test by constructing a numerical mode! to fit said data and updating said numerical model in an iterative manner, the processor being further configured to process data concerning information about a feature of interest within the object under test and adapt the reconstruction process by weighting data derived from the scattered radiation on the basis of said information, wherein the weighting selected for a current iteration of the reconstruction process is dependent on the outcome of an earlier iteration.

Abstract: Techniques for automating testing of a first computing system comprises identifying a plurality of system interface elements of a second computing system; determining an untested state at the first computing system of one of the identified plurality of system interface elements; determining the existence of any dependency of the one of the identified plurality of system interface elements upon another of the identified plurality of system interface elements; responsive to a finding of no the dependency, seeking in a repository a system interface element test corresponding to the one of the identified plurality of system interface elements and having an expected output according to a structure of the second computing system; and executing the system interface element test at the first computing system.

Abstract: In one embodiment a method for sensor reader calibration comprising: performing a calibration of a sensor reader wherein the calibration comprises open circuit calibration, a short circuit calibration, and a load circuit calibration, or any combination thereof in any succession; enabling connection of a pickup coil to the sensor reader to measure a sensor response; and applying a baseline correction to the sensor response, wherein the baseline correction is obtained utilizing measurements from the calibration step.

Abstract: An airblast fuel injector for a gas turbine engine fuel spray nozzle has, in order from radially inner to outer, a coaxial arrangement of an inner air swirler passage, an annular fuel passage, an annular outer air swirler passage, and an annular shroud air swirler passage. The injector further has an annular shroud having an inner surface profile. Relative to the overall axial direction of flow through the injector the shroud inner surface profile has a convergent section followed by a divergent section, the transition of which forming a first inwardly directed annular nose. The injector further has an annular wall having an outer surface profile, and having an inner surface profile. Relative to the overall axial direction of flow through the injector the wall outer surface profile has a convergent section followed by an outwardly turning section which faces across the shroud air passage to the first nose.

Abstract: An optical termination assembly may include an optical termination box and a drop cable. The drop cable may have a first end housed in a first compartment of the optical termination box. The first end of the drop cable may be pre-connectorized. The optical termination box may include at least one first fixing element accessible from an outside of the optical termination box suitable for fixing the optical termination box to a support structure. An optical termination assembly may include an optical termination box and a drop cable including a plurality of optical fibers. The drop cable may have a first end housed in a first compartment of the optical termination box. At the first end of the drop cable, each of the plurality of optical fibers may be connected to a respective optical connector. The optical termination box may include the at least one first fixing element.

Abstract: An RFID device using a printed electronic circuit (PEC) is disclosed. The PEC or electronic circuit which includes printed elements is coupled to a conductor structure, such as an antenna, by reactive means, such as an electric field, a magnetic field, or a combination of both. The RFID device comprises a base layer and a conductive layer (antenna structure) disposed over the base layer. A dielectric layer is then disposed over at least a portion of the conductive layer. A barrier layer is then disposed over the dielectric layer and fully covers the PEC to protect against oxygen and moisture ingress. Further, the PEC is typically attached to a carrier or strap to facilitate coupling between the antenna structure and PEC. In another embodiment, the barrier layer can be replaced with an adhesive layer that acts as both the barrier layer and the dielectric layer.

Abstract: An RFID antenna structure for use with an RFID device is disclosed. A printed electronic circuit (PEC) is assembled onto an area of a conductor that is initially substantially flat, with minimal apertures cut into it. The substantially flat conductor makes the printing of the functional chip/circuit easier. Then, the conductor is cut post process with a laser or other cutting tool to create the interconnection. In another embodiment, the conductors of the PEC bridge the position where an aperture should be to create part of an RFID antenna. Further, the conductive layer and the PEC are then cut post process to create an antenna for the RFID device.

Abstract: RFID labels blend with a branding color, a branding pattern or a branding color and pattern of an item of merchandise or packaging to which it is attached in order to provide inventory control and security functions, which are digitally printed onto a label substrate having an RFID inlay. When desired, the printed label has UV ink dots applied in a useful orientation and can provide a glowing code attribute to the label. Defined label shaping can be provided by digital cutting. Digital adhesive application can be included on the label substrate, which can be combined with digital cutting to provide for self-adhesion of the label, and the digital cutting and digital adhesive placement can be arranged so as to include dry tab characteristics to the label.

Abstract: An RFID device includes a conductive sheet defining at least first and second portions, with an intermediate portion joining the other portions. One or more RFID chips electrically coupled to the portions, such as one or both of the first and second portions of the conductive sheet and to the intermediate portion. The first portion of the conductive sheet defines a multi-turn high frequency antenna having one or more disruptions in the conductive sheet positioned between and/or defining adjacent turns of the multi-turn antenna. The second portion of the conductive sheet defines a first radiating arm of an ultra high frequency antenna. The disruptions direct a high frequency current around the turns of the multi-turn high frequency antenna, while allowing an ultra high frequency current to flow across the disruptions, resulting in the first portion of the conductive sheet defining a second radiating arm of the ultra high frequency antenna.

Abstract: Systems and methods are provided for better reading large populations of RFID tags. Such systems include an RFID reader and a plurality of RFID tags, each having an antenna and an associated RFID chip. Each chip includes an auto-tune circuit and is programmed to confirm the occurrence of a preselected condition. Upon such confirmation, the RFID chip modifies the functionality of the auto-tune circuit to reduce the effects of proximity coupling within the population. The preselected condition may be the tag being read by the RFID reader or the elapse of a preselected amount of time since a power-on-reset of the chip or some other event. The modification to the functionality of the auto-tune circuit may be the disabling of the auto-tune circuit or the changing of the impedance value of the chip or a decrease in the power supplied to the chip or some other modification.