Abstract: A method and apparatus for generating a data structure to be embedded in a ranging signal or in a synchronization preamble of a digital signal are disclosed. In a preferred embodiment, a plurality of blocks 0 through i, where i is an integer, are formed from random sequences of components A0 to Ai, each of the components being N bits, and each block including A0 through Ai components. A plurality of random sequences of components B0 through Bi, where i is an integer, of 2N bits is also formed. The components A0 through Ai in blocks 0 to i are formed into a matrix and the polarities of the components A0 through Ai are made to correspond to the polarities of a Hadamard matrix. The components A0 through Ai of each block are randomly permuted with components B0 through Bi. When the permuted components of the blocks are embedded in a ranging signal or in a synchronization preamble of a signal, the blocks will appear to an unauthorized user of the signal as being unrelated.

Abstract: The present invention is an automated ice vending machine for delivering ice to consumers. The machine of the present invention includes an insulated enclosure, an ice manufacturing apparatus, a cooling unit, an ice inventory storage bin, an ice agitating device, an incline ice transport device, and a bagger assembly. The present invention also includes a method of vending ice to a consumer.

Abstract: A transmitter employing a cryptographic algorithm and key generates and transmits a staggered pulse signal that includes a plurality of high-power pulses that are part of a pseudonoise (PN) code. The high-power pulses are separated by a group of low-power chips and the time interval between the high-power pulses is varied according to the cryptographic algorithm and key. A receiver, employing a corresponding cryptographic algorithm and key receives the signal and correlates it with a locally generated code that is modified according to the cryptographic algorithm and key to detect the phase of the received PN code. The receiver also can include a matched filter configured according to the cryptographic algorithm and key to detect the sequence of high-power pulses in the received signal.

Abstract: A detector receives a signal and detects from it a long code composed from shorter codes, where the shorter codes are dithered according to a non-repeating dither pattern. The received signal is correlated with a reference code, the correlation sums are ranked, and short codes detected from the ranked sums. Because of a high jamming to signal (J/S) ratio, all the transmitted short codes may not be detected. A dither matching algorithm determines an interval between the detected codes and matches it with a previously stored dither pattern. If there is a strong match, the correlation sums and respective receive times are stored in a hypothesis data structure. If enough subsequent correlation pair have similar matches to exceed a threshold, the match is declared correct and the results are output. The time difference between received and matched pairs can be a measure of a pseudorange between transmitter and receiver.

Abstract: An interleaved coding method can be used in a transmitter, in which the two or more pseudonoise (PN) codes are interleaved to form a longer interleaved code. The method can be used in a transmitter that includes a first code generator generating a first code of n symbols, and a second code generator generating a second code of m symbols, where n and m can be mutually prime, such as m=n+1. An interleave unit is coupled to the first and second code generators, and interleaves the symbols of the first code with the symbols of the second code to output an interleaved code. The interleaved code has a period longer than either of the constituent PN codes, providing for much increased noise tolerance over using the short codes alone, and can be detected at a much lower hardware and time cost than if using a single PN code of equal length.

Abstract: An apparatus and method of detecting a transmission code from a received signal, where the transmission code is composed of a plurality of dithered codes. The codes can be dithered either by varying the length of the code or varying the phase of the code according to a dither pattern and can be a stationary dither pattern that is fixed and generally known. The method includes detecting the plurality of dithered codes, and detecting the long code based on the detected dithered codes. A detection signal is generated for each detected dither code, the detection signals are combined, and the long code is detected based on the combination of detection signals. If the composite code includes M dithered codes, the correlation signals are combined by summing the M correlation sums to generate a present final sum.

Abstract: A receiver that receives a long pseudonoise (PN) code signal composed of two shorter codes interleaved with one another, includes a correlator unit that correlates the received signal with one or more reference codes corresponding to the two interleaved codes, respectively, and generates correlation signals. The receiver also includes an even code detector coupled to the correlator unit, for detecting from the correlation signals one of the two shorter codes, and an odd code detector coupled to the correlator unit, for detecting from the correlation signals the short code that is not detected by the even detector. A delay unit is coupled to the even and odd code detectors, and delays the even or the odd correlation signals so as to align the correlation signals. The aligned signals are combined and evaluated by a merit function.

Abstract: A generator generates a composite code from dithered copies of a reference code to form an optimal stationary dither code. The generator either dithers the length of the reference code to generate a boundary dither code composed of a series varying length short codes, or it dithers the phase of the reference code to generate rotation dither code composed of a series of fixed length short codes that vary in phase. The generator dithers the reference code according to a dither pattern. The composite code is an optimal dither code, having an optimal autocorrelation properties, by generating a dither pattern in which phase vectors for the constituent code are not repeated within the code.

Abstract: A method and apparatus are provided for removing broken filaments from a continuous filament tow (60) traveling at a tow velocity between a source and a collector. The tow (60) is contacted with a rotatable, cylindrical roller (13), having an axis of rotation and an outer surface, located in the path of travel by the tow from the source to the collector. The axis of rotation is oriented generally perpendicular to the direction of travel of the tow (60). The roller (13) rotates in a direction counter to the direction of travel of the tow (60) to lift broken fibers from the tow. The lifted broken fibers are entrained in an airflow created by a tubular vacuum header (12) to remove the broken fibers from the tow.

Abstract: A transmitter employing a cryptographic algorithm and key generates and transmits a staggered pulse signal that includes a plurality of high-power pulses that are part of a pseudonoise (PN) code. The high-power pulses are separated by a group of low-power chips and the time interval between the high-power pulses is varied according to the cryptographic algorithm and key. A receiver, employing a corresponding cryptographic algorithm and key receives the signal and correlates it with a locally generated code that is modified according to the cryptographic algorithm and key to detect the phase of the received PN code. The receiver also can include a matched filter configured according to the cryptographic algorithm and key to detect the sequence of high-power pulses in the received signal.

Abstract: A method and apparatus are provided for removing broken filaments from a continuous filament tow (60) traveling at a tow velocity between a source and a collector. The tow (60) is contacted with a rotatable, cylindrical roller (13), having an axis of rotation and an outer surface, located in the path of travel by the tow from the source to the collector. The axis of rotation is oriented generally perpendicular to the direction of travel of the tow (60). The roller (13) rotates in a direction counter to the direction of travel of the tow (60) to lift broken fibers from the tow. The lifted broken fibers are entrained in an airflow created by a tubular vacuum header (12) to remove the broken fibers from the tow.

Abstract: A phase meter precisely measures the phase of two signals with very different frequencies by using a sampler, permuter and a matched filter. The phase meter includes a sampler that samples the fast clock with the slow clock; a permuter that permutes the samples based on the frequencies of the fast and slow clocks; and a matched filter that sums sequences of the samples and generates maximum and minimum phase positions. The maximum and minimum phase positions indicate transition times in the fast clock. The filter can take the average of the minimum and maximum values to determine the phase of the fast clock at the middle point of a cycle. The phase meter can also be used with an interval counter to precisely adjust the transition count used by the interval counter to detect a number of cycles in the interval, and to account for partial cycles that fall within the interval.

Abstract: A phase meter measures the phase of a first signal with respect to a second signal, where the first and second signals have different frequencies and the frequency of the first signal is higher than the frequency of the second signal. The phase meter samples the first signal using the second signal to produce a plurality of samples, where each sample has a sample phase and value. The phase meter permutes the plurality of sample phases to place their phase positions in phase order, and determines, for each permuted sample phase if the sample phase is within a phase range corresponding to a predetermined phase bin. If the sample is within a phase range for a phase bin, a bin counter for that bin in incremented. The phase of the faster signal is determined based on the counts in each of the phase bins.

Abstract: The present invention relates to serine protease inhibitors having a P site binding moiety and a divalent cation(s) chelating moiety which are pre-prepared as divalent cation(s) complexes or combined with the serine protease in the presence of divalent cation(s) and methods for identifying and using the inhibitors. The compounds are shown to have high inhibitory activity when complexed to divalent cation(s) and are useful in various processes associated with serine protease isolation and inhibition.

Abstract: A method is presented for determining if the inhibition of metal mediated serine proteases can be potentiated by cobalt or zinc ions.

Abstract: Serine protease inhibitors are provided comprising compounds having a P site binding moiety and a divalent cation(s) chelating moiety which are pre-prepared as divalent cation(s) complexes or combined with the serine protease in the presence of divalent cation(s). The compounds are shown to have high inhibitory activity when complexed to divalent cation(s) and find use in various processes associated with serine protease isolation and inhibition.

Abstract: Serine protease inhibitors are provided comprising compounds having a P site binding moiety and a divalent cation(s) chelating moiety which are pre-prepared as divalent cation(s) complexes or combined with the serine protease in the presence of divalent cation(s). The compounds are shown to have high inhibitory activity when complexed to divalent cation(s) and find use in various processes associated with serine protease isolation and inhibition.

Abstract: Serine protease inhibitors are provided comprising compounds having a P site binding moiety and a divalent cation(s) chelating moiety which are pre-prepared as divalent cation(s) complexes or combined with the serine protease in the presence of divalent cation(s). The compounds are shown to have high inhibitory activity when complexed to divalent cation(s) and find use in various processes associated with serine protease isolation and inhibition.

Abstract: A highly reliable, versatile and long lasting motorcycle gasket made of a special rubber-covered metal having dual raised silicone beads around the perimeter on both the front and back surfaces of the gasket. The raised silicone beads are provided around the perimeter of both the inner bore and the outer edge of the gasket to provide a double seal. Mirror-images of these same raised beads are provided on both the front and rear surfaces of the gasket further improving its sealing characteristics. A broad silicone layer is provided on both surfaces of the gasket in areas which correspond to known gaps in the metal parts of the engine with which the gasket is to be used.