Abstract: A multimeter with a filtered measurement mode. By pressing a single button or key, a low-pass filter is switched into the signal path to filter voltage spikes, noise, and switching transients from pulse-width modulated pulses, or lower frequency sinusoidal signals with higher frequency components, and at the same time an on-screen icon indicates to a user that the filtered mode has been selected. The user can switch back and forth between filtered and unfiltered modes. The filtered measurement mode is useful in measuring the outputs of modern adjustable-speed motor drives, uninterruptible power sources, and switch power supplies.

Abstract: A small microcontroller or a DSP may be used to process digital signals representative of a measurement. Furthermore, special RMS AC measurement or DC noise rejection algorithms may have to be run on the microcontroller or the DSP. Other implementations may use custom digital logic, such as FPGAs, to process the digital signals. The DSP may not have enough capacity to store and process all data at the same time. Certain physical limitations are inherent to the DSP architectures, such as the trade-off of on-board memory size vs. speed, power consumption, and physical chip size. As a result, the RMS AC Measurement and the DC Noise rejection algorithms enable computational devices such as DSP's to perform sophisticated and accurate RMS measurements for waveforms ranging from DC to high frequency. The RMS AC Measurement and the DC Noise rejection algorithms uses on the on-the-fly computation of interpolated window values.

Abstract: A sensor capable of simply and quickly measuring the electrical activities of a number of cells simultaneously and a device comprising the sensor and capable of detecting the signal transmission between subject cells are provided. The sensor comprises a plurality of electrodes provided on a substrate. The electrodes individually measure a signal generated by a biological sample held by each of the electrodes. Each of the electrodes comprises a depression for holding the biological sample, a throughhole which is in communication with the depression and penetrates to a rear side of the substrate, an electrode portion, and a drawing line from the electrode portion. The electrodes are arranged so that the samples held by the depressions electrically communicate with one another.

Abstract: A control arrangement and method is provided for detecting and responding to disturbances in electrical power systems. In a preferred arrangement, an integration is initiated that is based on a comparison of actual voltage of a source and a reference voltage. When the integration exceeds a predetermined value, the source is considered unreliable. Also in a preferred arrangement, a determination is made as to whether or not the disturbance is a downstream fault condition. For example, this is useful for applications where a transfer is made from a first source to a second source when predetermined disturbances are detected. In this manner, the transfer of the load to a second source is avoided which would continue the supply of the downstream fault. Additionally, the arrangement distinguishes between various degrees of disturbances to permit appropriate response based on the severity and type of disturbance. For example, a first immediate response, i.e.

Abstract: The present invention is directed at a system and method for statically checking source code to determine potential compatibility issues with a new software release. The system and method perform a static check on input source files associated with a software release. The static check includes identifying programming constructs, such as function prototypes, structures, unions, and the like, within source code files associated with the software release. The programming constructs undergo a filtering process that reduces the number of potentially false change errors. The filtered programming constructs are saved in a database associated with the software release. The database is then compared with another database containing programming constructs for another software release in order to identify differences between the two software releases. A list of changes is generated that identifies the differences between the two software releases.

Abstract: The subject invention pertains to an imaging technique and apparatus which can utilize an array of RF probes to measure the non-resonant thermal noise which is produced within a sample, such as a body, and produce a non-resonant thermal noise correlation. The detected noise correlation is a function of the spatial overlap of the electromagnetic fields of the probes and the spatial distribution of the conductivity of the sample. The subject technique, which can be referred to as Noise Tomography (NT), can generate a three-dimensional map of the conductivity of the sample. Since the subject invention utilizes detection of the thermal noise generated within the body, the subject method can be non-invasive and can be implemented without requiring external power, chemicals, or radionuclides to be introduced into the body. The subject imaging method can be used as a stand along technique or can be used in conjunction with other imaging techniques.

Abstract: The present invention provides systems and methods for statistically analyzing collected data and providing training for the collection of the data. In one embodiment, the system and method are configured to collect data about a plurality of objects and determine a measure of agreement between the collected data and a benchmark. Based on the measure of agreement reliability and a variance of the collected data are determined relative to the benchmark. In training a plurality of raters are instructed to rate at least one of a plurality of objects such that each rater collects data that rates at least one of the objects. A measure of agreement of the data collected by a rater is determined relative to the benchmark, and reliability and variance of the data collected are determined, which are used to evaluate the rater.

Abstract: The invention relates to a method for calculating parameters fro frequency and/or amplitude modulated electromagnetic pulses for adiabatic transfer steps in a quantum mechanical system. The dynamic steps of the quantum mechanic system comprise a Hamilton Operator (H(t)) of a current system of co-ordinates.

Abstract: Angle data ranging from 0° to 360° obtained by performing polar conversion with respect to a periodic signal are input to a low pass filter having: a phase accumulator for outputting smoothed angle data; a phase comparator for obtaining a phase error between the angle data and the smoothed angle data; a first amplifier for amplifying the phase error; a second amplifier for further amplifying the phase error; an integrator for integrating the phase error PE amplified by the second amplifier to obtain a velocity error; and an adder for adding the phase error amplified by the first amplifier and the velocity error to determine a control voltage. The phase accumulator controls the frequency of the smoothed angle data so that the phase error is zero based on the control voltage to remove a high frequency component in the angle data.

Abstract: In a Bayes mixture probability density calculator for calculating Bayes mixture probability density which reduces a logarithmic loss A modified Bayes mixture probability density is calculated by mixing traditional Bayes mixture probability density calculated on given model S with a small part of Bayes mixture probability density for exponential fiber bundle on the S. Likewise, a prediction probability density calculator is configured by including the Bayes mixture probability density calculator, and by using Jeffreys prior distribution in traditional Bayes procedure on the S.

Abstract: A method is described for calculating head disk interference (HDI) using a dynamic parametric test. In one embodiment, HDI is calculated based on an actual and ideal sensitivity profile based on a read-back signal track profile for the slider/head.

Abstract: A sensor is provided in one illustrative embodiment that includes a microcontroller that executes a program that generates quadrature output signals that indicate the change in a parameter being measured. As an example, the sensor could comprise a linear position transducer. The quadrature output signals can comprise square wave signals that are ninety degrees out of phase, each transition of the signals representing a unit of change in position of the measured mass. According to another aspect, the quadrature signals can be placed into phase with one another to indicate an error condition. In another aspect, user inputs can be provided to allow the user to select parameters such as frequency, update rate, and/or resolution. Moreover, at least one of the sensor inputs can be utilized to load calibration factor data for the sensor.

Abstract: A method and counter for reducing the background counting rate in gas-filled alpha particle counters wherein the counter is constructed in such a manner as to exaggerate the differences in the features in preamplifier pulses generated by collecting the charges in ionization tracks produced by alpha particles emanating from different regions within the counter and then using pulse feature analysis to recognize these differences and so discriminate between different regions of emanation. Thus alpha particles emitted from the sample can then be counted while those emitted from the counter components can be rejected, resulting in very low background counting rates even from large samples. In one embodiment, a multi-wire ionization chamber, different electric fields are created in different regions of the counter and the resultant difference in electron velocities during charge collection allow alpha particles from the sample and counter backwall to be distinguished.

Abstract: An LED-based spectrophotometer uses a reconstruction algorithm, based on spectral information of an illumination source and a reference spectrophotometer, to convert integrated multiple illuminant measurements from a non-fully illuminant populated color sensor into a fully populated spectral curve using a reference database. A dynamic, Least Squares-based spectral reconstruction algorithm, used to reconstruct spectra, gives greater importance to the data from the reference database in the neighborhood of the color sample under measurement. This is done using linear operators.

Abstract: A small microcontroller or a DSP may be used to process digital signals representative of a measurement. Furthermore, special RMS AC measurement or DC noise rejection algorithms may have to be run on the microcontroller or the DSP. Other implementations may use custom digital logic, such as FPGAs, to process the digital signals. The DSP may not have enough capacity to store and process all data at the same time. Certain physical limitations are inherent to the DSP architectures, such as the trade-off of on-board memory size vs. speed, power consumption, and physical chip size. As a result, the RMS AC Measurement and the DC Noise rejection algorithms enable computational devices such as DSP's to perform sophisticated and accurate RMS measurements for waveforms ranging from DC to high frequency. The RMS AC Measurement and the DC Noise rejection algorithms uses on the on-the-fly computation of interpolated window values.

Abstract: The inventive method and apparatus include sensory devices that invariantly represent stimuli in the presence of processes that cause systematic sensor state transformations. Such processes include: 1) alterations of the device's detector, 2) changes in the observational environment external to the sensory device and the stimuli, and 3) certain modifications of the presentation of the stimuli themselves. A specific embodiment of the present invention is an intelligent sensory device having a “front end” comprised of such a representation “engine”. The detectors of such a sensory device need not be recalibrated, and its pattern analysis module need not be retrained, in order to account for the presence of the above-mentioned transformative processes. Another embodiment of the present invention is a communications system that encodes messages as representations of signals.

Abstract: A control arrangement and method is provided for detecting and responding to disturbances in electrical power systems. In a preferred arrangement, an integration is initiated that is based on a comparison of actual voltage of a source and a reference voltage. When the integration exceeds a predetermined value, the source is considered unreliable. Also in a preferred arrangement, a determination is made as to whether or not the disturbance is a downstream fault condition. For example, this is useful for applications where a transfer is made from a first source to a second source when predetermined disturbances are detected. In this manner, the transfer of the load to a second source is avoided which would continue the supply of the downstream fault. Additionally, the arrangement distinguishes between various degrees of disturbances to permit appropriate response based on the severity and type of disturbance. For example, a first immediate response, i.e.

Abstract: A circuit that provides the root-mean-square (RMS) value of an input signal and that detects and independently recovers from an output fault condition is provided. The circuit includes reconfigurable circuitry that changes from normal operating mode to fault recovery mode when an output fault is detected. During fault recovery mode, the circuit provides a modified output signal that allows independent recovery from an output fault condition. Once recovery is complete, the circuit returns to normal operating mode and provides a DC output signal proportional to the RMS value of an AC input signal.

Abstract: A circuit that provides the root-mean-square (RMS) value of an input signal and that detects and independently recovers from an output fault condition is provided. The circuit includes reconfigurable circuitry that changes from normal operating mode to fault recovery mode when an output fault is detected. During fault recovery mode, the circuit provides a modified output signal that allows independent recovery from an output fault condition. Once recovery is complete, the circuit returns to normal operating mode and provides a DC output signal proportional to the RMS value of an AC input signal.

Abstract: A method and apparatus are described for remote semiconductor microscopy whereby video signals are broadcast from one or more microscopes to remote viewers. A live video signal is broadcast from the microscope over a network to remote personal computers located in the offices of process engineers. The office-based process engineers are provided real-time, or substantially real-time, views of a wafer, including peripheral views of the wafer outside cell array boundaries. The process engineer, in his office, can direct a technician, operating the microscope in the clean room complex, to display a desired cell region-of-interest with the microscope. As a result, the process engineers can more efficiently collaborate to solve process problems or even develop new process techniques.

Abstract: A system, software program, and method for monitoring performance of a fiber processing apparatus that preferably is a disk refiner or a filter screen that analyzes operating data pertaining to apparatus operation to determine when a plate of the apparatus should be replaced before plate wear undesirably affects performance. Operating data over time is analyzed to determine whether it exhibits a trend characteristic of plate wear.I If so, a plate change recommendation is generated. To avoid fluctuations in performance not due to plate wear from affecting the determination, operating data over several hours of apparatus operation is analyzed. When a plate is changed, an inventory of the plates is updated. If the inventory requires replenishing, plates are ordered over a telecommunications link with a remote supplier computer or system. New replacement plates can be entered into the inventory from information downloaded from a portable input device.

Abstract: A unit converting apparatus for handling units used in wide areas only supported a conversion rate of one area, and a plurality of types of apparatuses were necessary even when handling units of the same name. Conversion rate difference data corresponding to each area is added to conversion rate data in advance and unit conversion is carried out using only a conversion rate of a designated area. The designation of an area can be set by a user using an external switch or the like.

Abstract: An integrated circuit, system and method monitors parameter performance for optimization of controller performance. The integrated circuit includes a memory controller, one or more buffers coupled to the memory controller, and a performance monitoring circuit coupled to the one or more buffers and an SDRAM controller, the performance monitoring circuit to receive at least one parameter related to the buffers and provide statistical data related to the parameter. The statistical data may be used to set an amount of data to accumulate in the one or more buffers. A method includes transmitting one or more parameters related to performance of one more components of an integrated circuit to a performance monitoring circuit located within the integrated circuit. The performance monitoring circuit then determines statistical data related to the parameter independent of an interrupt to the integrated circuit.

Abstract: Principal features are inventively derived from a non-stationary time series signal, and can be used to classify the attributes of the signal. Intrinsic to the invention is its recognition of the value of information contained within singular vectors. The invention therefore seeks to render singular vectors as proper density functions for purposes of formulating at least one feature of a signal, which is or has been sensed. To this end, the signal is typically evaluated thusly according to the invention: a time-frequency distribution (e.g., positive time-frequency distribution) matrix is generated; the time-frequency distribution matrix is decomposed; an element-by-element square of singular vectors is performed; the non-principal singular values are sorted and truncated; density functions are obtained; the density functions are normalized; and, at least one feature from the normalized density functions is formulated.

Abstract: A method for accurately measuring the integral nonlinearity (INL) and differential nonlinearity (DNL) of an analog front end (AFE) system, such as an analog/digital converter (ADC), is provided. In particular, the method eliminates the need for well-calibrated equipment and an accurate signal source. Differing from conventional approaches, according to the invention, the INL of the AFE system is obtained by directly transferring the output of the AFE system rather than by accumulating the DNL. Therefore, the INL of the measured AFE system according to the invention is only slightly affected by inputted signal source.

Abstract: A circuit that provides the root-mean-square (RMS) value of an input signal and that detects and independently recovers from an output fault condition is provided. The circuit includes reconfigurable circuitry that changes from normal operating mode to fault recovery mode when an output fault is detected. During fault recovery mode, the circuit provides a modified output signal that allows independent recovery from an output fault condition. Once recovery is complete, the circuit returns to normal operating mode and provides a DC output signal proportional to the RMS value of an AC input signal.

Abstract: The present invention, according to one embodiment, relates to a method for matching the dynamic range of an information signal to the dynamic range of a receptor. The method comprises the steps of: monitoring the information signal; varying the gain of the information signal in response to the monitoring step so as to provide a gain adjusted information signal; generating a variable control signal having a frequency outside frequency range of the information signal, in response to the monitoring step; combining the control signal with the gain adjusted information signal so as to provide a combined information signal; and providing a variable amplitude dependent gain to the combined information signal so as to provide an output signal that substantially matches the dynamic range of the receptor.

Abstract: In a Bayes mixture probability density calculator for calculating Bayes mixture probability density which reduces a logarithmic loss A modified Bayes mixture probability density is calculated by mixing raditional Bayes mixture probability density calculated on given model S with a small pary of Bayes mixture probability density for exponential fiber bundle on the S. Likewise, a prediction probability calculator is configured by including the Bayes mixture probability density calculator, and by using Jeffredys prior distribution in traditional Bayes procedure on the S.

Abstract: Automatic optical signal type identification method including the steps of: (a) converting an optical signal into an electrical signal; (b) storing a reference pattern dictionary with a plurality of reference patterns each uniquely identifying a different optical signal type; and (c) spotting a reference pattern embedded in the electrical signal for identifying the optical signal type of the optical signal.

Abstract: An incremental signal emulation method and apparatus which utilizes a variable frequency signal which is based on the rate of change of a sensor measurement. Preferably, the variable frequency signal is made up of a number of pulses, the frequency of which is based upon the rate of change of the sensor measurement. The variable frequency signal is converted to A and B incremental signals, the phase relationship between the A and B signals representing the sign (positive or negative) of the rate of change, and each transition in the A or B signal representing an increment to be added to or subtracted from the synthesized sensor measurement count. In one embodiment, a voltage-to-frequency converter is used to convert a velocity signal to a variable frequency signal, and flip flops and inverters are used to create the A and B signals. Preferably the A and B signals are square waves in quadrature.

Abstract: A circuit that provides the root-mean-square (RMS) value of an input signal and that detects and independently recovers from an output fault condition is provided. The circuit includes reconfigurable circuitry that changes from normal operating mode to fault recovery mode when an output fault is detected. During fault recovery mode, the circuit provides a modified output signal that allows independent recovery from an output fault condition. Once recovery is complete, the circuit returns to normal operating mode and provides a DC out signal proportional to the RMS value of an AC input signal.

Abstract: The present invention relates to a method for providing an output signal (Ua) having a desired value of a characteristic quantity (Uarms) at the output of a switched-mode power supply unit. At least one low-voltage lamp is connected to the output of the switched-mode power supply unit. A load current (IL) corresponds to the sum of the currents (I1, I2) flowing through all the low-voltage lamps. The input side the switched-mode power supply unit is driven by an input signal (Ue1, Ue2) having at least one variable characteristic quantity (PW), and the switched-mode power supply unit is connected to an operating voltage (UB).

Abstract: A portable unit, preferably adapted for plugging into a common wall outlet, has circuitry for monitoring the voltage and/or current provided through an electrical outlet. In addition to the monitoring circuitry, the unit preferably includes a microprocessor for digitally processing the power waveform as well as analytical quantities related to the waveform. Further, the unit preferably has a storage area for storing samples of the input waveform as well as a log of related analytical quantities for downloading to a computer, local area network, or other destination, for collection and analysis. Preferably, the unit is provided with a local visual display and an alarm indicator.

Abstract: An integrated circuit includes a performance monitoring circuit which includes an adaptive adder circuit coupled to receive a first input signal indicative of a performance parameter of the integrated circuit and to provide a count value as a measure of the probability of the performance parameter. The adaptive adder circuit includes a random number generator circuit providing a random number, a counter circuit providing a count value and a comparator circuit coupled to compare the random number and the count value and to output a compare signal indicative thereof, the compare signal being provided to the counter as an up/down count signal. The adaptive adder circuit also includes a first logic circuit coupled to receive the performance parameter being measured and the compare signal which outputs a first signal which is used for controlling operation of the counter circuit.

Abstract: An engineering unit converter system for converting an analog measurement into an engineering value. An analog measurement of a physical quantity is transformed into a digital value. The digital value is then split into a high order digit and a lower order digit. The high order digit is used as an address to a memory device for fetching a line segment coefficient and a line segment offset coefficient. The lower order digit is multiplied with the line segment coefficient in a multiplier resulting in a product. The product is added to the line segment coefficient offset resulting in a sum whose value is an engineering unit. One embodiment is directed to converting temperature measurements into engineering units via thermocouples. This embodiment includes: thermocouple devices, resistance thermal devices or positive temperature coefficient thermistors, adders, multipliers, and memory devices (readable and writable memory devices).

Abstract: A method and system for the identification of genetic information from a polynucleotide sequence is described. Genetic information from a raw polynucleotide sequence is identified by assigning values to nucleotide base changes along the raw polynucleotide sequence and processing these values. Particularly, a distribution of the values of the base changes is generated and the variance from a random distribution of this distribution is calculated by determining the root mean square variance of the distribution. The types of genetic information that can be identified using this system and method include the presence of a protein encoding region, or gene; the number of genes in a given overall polynucleotide sequence; the reading frame for the gene sequence; and tRNA and rRNA sites.

Abstract: A method and apparatus for prescaling graphics data for use in a graphics overlay operating mode of a set top box processing system. RGB pixel data for a given pixel are first converted to luminance and chrominance data for that pixel. The luminance and chrominance data are then prescaled by a blending value associated with the given pixel. An interpolation operation is performed on the luminance and chrominance data as well as on the blending value for the given pixel using corresponding luminance and chrominance data and blending values for at least one other pixel in the stream. This interpolation may include operations such as horizontal filtering and may also include chroma filtering to convert the luminance and chrominance data into a 4:2:2 chrominance format compatible with MPEG-2 video. The interpolation operation produces interpolated luminance and chrominance data and an interpolated blending value for the given pixel.