Abstract: Systems and methods are described for a GPS receiver capable of functioning in the presence of interference. A method includes detecting an interfering signal including: tuning a band pass filter over a frequency range; and at each of a plurality of incremental frequencies: computing a set of band pass filter coefficients; sending the set of band pass filter coefficients to a digital filter; repeatedly transforming an analog-to-digital converter output having a quantization level in excess of 2 bits into a band pass filter output with the digital filter to obtain a plurality of samples; computing an average of the plurality of samples; and comparing the average to a threshold to detect peaks that exceed a threshold.

Abstract: A lenticular lens array for creating a visual effect for an image viewed through the lenticular lens array comprises a plurality of lenticules disposed adjacent to each other. Each lenticule comprises a lenticular lens element on one side and a substantially flat surface on an opposite side. Each lenticular lens element has a vertex and a cross section comprising a portion of an elliptical shape. Alternatively, the cross section can comprise an approximated portion of an elliptical shape. The elliptical shape comprises a major axis disposed substantially perpendicular to the substantially flat surface of each respective lenticular lens element. The vertex of each respective lenticular lens element lies substantially along the major axis of the elliptical shape.

Abstract: Systems and methods are described for a GPS receiver capable of functioning in the presence of interference. A method includes detecting an interfering signal including: tuning a band pass filter over a frequency range; and at each of a plurality of incremental frequencies: computing a set of band pass filter coefficients; sending the set of band pass filter coefficients to a digital filter; repeatedly transforming an analog-to-digital converter output having a quantization level in excess of 2 bits into a band pass filter output with the digital filter to obtain a plurality of samples; computing an average of the plurality of samples; and comparing the average to a threshold to detect peaks that exceed a threshold.

Abstract: Systems and methods are described for bonding asynchronous transfer mode permanent virtual circuits using a multi-link segmentation and reassembly sublayer. A method includes: transforming a stream of asynchronous transfer mode cells into a stream of bonded asynchronous transfer mode cells; demultiplexing the stream of bonded asynchronous transfer mode cells into a plurality of streams of inverse multiplexed bonded asynchronous transfer mode cells; and transmitting the plurality of streams of inverse multiplexed bonded asynchronous transfer mode cells to a remote location via a plurality of permanent virtual circuits, characterized in that the transmitted plurality of streams of inverse multiplexed bonded asynchronized transfer mode cells can be multiplexed into a multiplexed stream of asynchronized transfer mode cells after transmission via at least two permanent virtual circuits, which compose the plurality of permanent virtual circuits, that do not have an identical bit-rate.

Abstract: Systems and methods are described for a GPS receiver capable of functioning in the presence of interference. A method includes detecting an interfering signal including: tuning a band pass filter over a frequency range; and at each of a plurality of incremental frequencies: computing a set of band pass filter coefficients; sending the set of band pass filter coefficients to a digital filter; repeatedly transforming an analog-to-digital converter output having a quantization level in excess of 2 bits into a band pass filter output with the digital filter to obtain a plurality of samples; computing an average of the plurality of samples; and comparing the average to a threshold to detect peaks that exceed a threshold.

Abstract: A lenticular lens array for creating a visual effect for an image viewed through the lenticular lens array comprises a plurality of lenticules disposed adjacent to each other. Each lenticule comprises a lenticular lens element on one side and a substantially flat surface on an opposite side. Each lenticular lens element has a vertex and a cross section comprising a portion of an elliptical shape. Alternatively, the cross section can comprise an approximated portion of an elliptical shape. The elliptical shape comprises a major axis disposed substantially perpendicular to the substantially flat surface of each respective lenticular lens element. The vertex of each respective lenticular lens element lies substantially along the major axis of the elliptical shape.

Abstract: Systems and methods are described for the measurement of time delay, time delay variation and cell transfer rate in asynchronous transfer mode networks. A method includes generating a time-stamp information cell at a first location; transmitting the time-stamp information cell to a second location via a network link; and receiving the time-stamp information cell at the second location. An apparatus includes an asynchronous transfer mode network including a time delay information cell generator.

Abstract: Systems and methods are described for multi-link segmentation and reassembly for bonging multiple virtual circuits in an inverse multiplexing arrangement. A method includes: generating a plurality of multilink segmentation and reassembly sublayer cells at a first location; distributing the plurality of multilink segmentation and reassembly sublayer cells across a plurality of virtual circuits; transmitting the plurality of multilink segmentation and reassembly sublayer cells to a second location via the plurality of virtual circuits; and receiving the plurality of multilink segmentation and reassembly sublayer cells at the second location. An apparatus includes a multilink segmentation and reassembly sublayer transmitter, including: a source buffer; a multilink controller coupled to the source buffer; and a plurality of virtual circuits coupled to the multilink controller.

Abstract: Systems and methods are described for multi-link segmentation and reassembly for bonging multiple virtual circuits in an inverse multiplexing arrangement. A method includes: generating a plurality of multilink segmentation and reassembly sublayer cells at a first location; distributing the plurality of multilink segmentation and reassembly sublayer cells across a plurality of virtual circuits; transmitting the plurality of multilink segmentation and reassembly sublayer cells to a second location via the plurality of virtual circuits; and receiving the plurality of multilink segmentation and reassembly sublayer cells at the second location. An apparatus includes a multilink segmentation and reassembly sublayer transmitter, including: a source buffer; a multilink controller coupled to the source buffer; and a plurality of virtual circuits coupled to the multilink controller.

Abstract: Systems and methods are described for a GPS receiver capable of functioning in the presence of interference. A method includes detecting an interfering signal including: tuning a band pass filter over a frequency range; and at each of a plurality of incremental frequencies: computing a set of band pass filter coefficients; sending the set of band pass filter coefficients to a digital filter; repeatedly transforming an analog-to-digital converter output having a quantization level in excess of 2 bits into a band pass filter output with the digital filter to obtain a plurality of samples; computing an average of the plurality of samples; and comparing the average to a threshold to detect peaks that exceed a threshold.

Abstract: A method of forming a novelty card using an in-line web offset printing and production process, including the steps of providing a web of printable material and a web of a transparent material of a predetermined width to a printing apparatus. A strip of the printable material is formed having at least a front panel, a rear panel and an insert panel. At least one image is printed on the rear panel, and at least one image is printed on the transparent material. A window is formed in the front panel through which the printed image on the rear panel can be viewed. A panel is then formed from the portion of the transparent material bearing the printed image. The panel is secured to the front panel so that it spans the window. The insert is separated from the strip of printable material and positioned onto the front panel to separate the images. The rear panel is folded onto the front panel so that the image on the second side of the rear panel is aligned with the interior of the window and viewable therethrough.

Abstract: The present invention provides a method of producing in a single in-line process a printed image suitable for creating an illusion of depth in the perception of a viewer of the image, comprising the steps of:(1) providing an opaque web to an in-line printing process,(2) providing a transparent web to the in-line printing process, the transparent web having a lenticular surface on one side and a flat surface on an opposing side,(3) transporting either the opaque web or the transparent web to a first printer unit of the in-line printing process at a preselected speed and printing a line-formed image on the opaque web or the flat surface of the transparent web, the line-formed image being compatible for viewing when viewed through the lenticular surface of the transparent web, and(4) setting the image on either the opaque web or flat surface of the transparent web in a heat setting unit of the in-line printing process.

Abstract: The present invention provides a method of producing in a single in-line process a printed image suitable for creating an illusion of depth in the perception of a viewer of the image, comprising the steps of:(1) providing an opaque web to an in-line printing process,(2) providing a transparent web to the in-line printing process, the transparent web having a lenticular surface on one side and a flat surface on an opposing side,(3) transporting either the opaque web or the transparent web to a first printer unit of the in-line printing process at a preselected speed and printing a line-formed image on the opaque web or the flat surface of the transparent web, the line-formed image being compatible for viewing when viewed through the lenticular surface of the transparent web, and(4) setting the image on either the opaque web or flat surface of the transparent web in a heat setting unit of the in-line printing process.

Abstract: A printed image, suitable for creating an illusion of depth in the perception of a viewer of the image, comprises a multilayer transparent laminate structure having a back surface and a viewing front surface. A number of the layers in the laminate structure each has a portion of the perceived image printed upon at least one surface of the layer front and back surfaces. That portion of the image perceived to be most distant from the viewer is located upon a printed layer which is furthest from the viewing front surface of the laminate structure, and that portion of the image percieved to be most proximate to the viewer is located upon a printed layer closest to the viewing front surface. The portions of the image perceived to be at varying distances therebetween are located upon intermediate printed layers in a sequence which corresponds to the perceived varying distances of the intermediate image portions. At least a majority of the image portions are dissimilar parts of the perceived image.