Abstract: The invention is directed to a method and a kit for calibrating a photoluminescence measurement system, in particular a fluorescence measurement system. The kit includes a number of fluorescence standards i and their corrected and certified fluorescence spectra Ii(?), whereby the fluorescence standards i are selected, so that their spectrally corrected fluorescence spectra Ii(?) cover a broad spectral range with high intensity. The standards are characterized by large half-widths FWHMi of their bands of at least 1400 cm?1. According to the method of the invention, partial correction functions Fi(?) are generated by forming the quotient of the measured fluorescence spectra Ji(?) and the corresponding corrected fluorescence spectra Ii(?), which are then combined to form a total correction function F(?) for a broad spectral range.

Abstract: A process system adapted for processing of or with a material therein. The process system includes: a sampling region for the material; an infrared photometric monitor constructed and arranged to transmit infrared radiation through the sampling region and to responsively generate an output signal correlative of the material in the sampling region, based on its interaction with the infrared radiation; and process control means arranged to receive the output of the infrared photometric monitor and to responsively control one or more process conditions in and/or affecting the process system.

Abstract: A Trident Probe Groundwater Exchange System (NC#096456). The apparatus includes a groundwater conductivity sensor, designed to determine a groundwater conductivity surface; a water conductivity sensor, designed to determine a surface water conductivity groundwater; a temperature sensor, designed to determine a groundwater temperature; a surface water temperature sensor, designed to determine a surface water temperature; and a processor operatively coupled to a plurality of sensors and designed to receive information from the plurality of sensors.

Abstract: The present invention is directed to a system for identifying and managing corrosion and methods related thereto. In particular, the invention provides a system for identifying and managing the structural corrosion potential for an assembly by measuring a “Relative Corrosion Index” (“RCI”).

Abstract: There is provided a method of automatically identifying and characterizing spectral peaks of a spectrum generated by an analytical apparatus and reporting information relating to the spectral peaks to a user, comprising the steps of: receiving the spectrum generated by the analytical apparatus; automatically subtracting a baseline from the spectrum so as to generate a baseline-corrected spectrum; automatically detecting and characterizing the spectral peaks in the baseline-corrected spectrum; and reporting at least one item of information relating to each detected and characterized spectral peak to a user. In embodiments, baseline model curve parameters or peak model curve parameters are neither input by nor exposed to the user prior to the reporting step.

Abstract: Techniques for displaying chromatographic data using a graphical user interface are provided. Chromatographic separation data that represent a series of measurements for multiple samples at a detection location over time can be displayed on a display device as a series of bands, the bands being arranged to resemble output from an electrophoresis gel. Additionally, the chromatographic separation data may be displayed in the form of measured intensity at the detection location versus time.

Abstract: Methods and systems are disclosed for determining emission outputs. One method bypasses a predictive emission function whenever an operating level is the same as an operating level from the original training set, and reports the emission level ascertained by the EPA reference method test during original training set acquisition. Another method uses a Predictive Emission Monitoring System to replace a Continuous Emission Monitoring System for cost effective management of pollution control equipment.

Abstract: The present invention provides, in a first aspect, a method, system, and program product for controlling chemical reactions in a digital microfluidic system that include logically partitioning cells of a digital microfluidic system array into a plurality of virtual components wherein at least one of the virtual components is capable of handling droplets of reactants associated with distinct chemical reactions concurrently. In a second aspect, a respective next cell is determined for each of a plurality of chemical droplets in the digital microfluidic system array, which may include droplets of reactants associated with distinct chemical reactions. In another aspect, a method, system, and program product for controlling chemical reactions in a digital microfluidic system in accordance with the present invention induce a chemical droplet of the plurality of chemical droplets in the digital microfluidic system array to move to the respective next cell determined for the chemical droplet.

Abstract: A system for transferring data includes an analyte test instrument (ATI) adapted to store data, a wirelessly enabled data management device (DMD) for comprehensively analyzing data, and an adaptor removably connected to the ATI for transferring data stored on the ATI to the DMD. The adaptor includes a data communication device capable of removable connection with the ATI, a microprocessor electrically connected to the data communication device, a wireless controller electrically connected to the microprocessor and a wireless transceiver electrically connected to the wireless controller. In use, data transfer is executed between the ATI and the DMD by electrically and mechanically connecting the adaptor to the ATI. Data stored on the ATI is then automatically downloaded into adaptor memory. Upon completion of the download, the user activates an externally accessible input device on the adaptor which, in turn, wirelessly transmits data from the adaptor memory to the DMD.

Abstract: A method and apparatus for interfacing a plurality of gas measurement systems, including a mainstream and a sidestream gas measurement system, to a host system via an interface unit. The present invention also pertains to a sidestream gas measurement system that output signals emulating the signals output by a mainstream gas measurement system or portion thereof, so that the sidestream gas measurement system can seamlessly communicate with a host system configured to communicate with a mainstream gas measurement system or a portion thereof.

Abstract: A System and Method for Gas Recognition by Analysis of Bispectrum Functions is based on the Higher-Order Spectral analysis of time series measurements of resistance fluctuations in Metal Oxide Semiconductor (MOS) gas sensors, such as Taguchi-type sensors. A two-dimensional contour plot module of the bispectrum function is treated as a pattern. These patterns include information about the analyte(s) whereby characteristics of the gas can be identified.

Abstract: A chromatographic analyzer is provided for facilitating curve fitting by means of the linear least-square method for a chromatogram that contains a plurality of overlapping peaks. The present invention is characterized by a chromatographic data processor for executing data processing of a chromatogram obtained by separating a sample to be measured using a column and detecting the separated sample, wherein fitting processing is executed to each peak in an arbitrary time region having the plurality of peaks of the chromatogram starting from the front side of the time region or from the back side of the time region, and the processed peaks are subtracted from the chromatogram in the time region so that the plurality of peaks in the chromatogram can be separated from one another. Thus, the plurality of overlapping peaks, particularly three or more overlapping peaks in the chromatogram can be easily separated from one another only by defining some setting conditions.

Abstract: Apparatus and methods for discriminating late software commands sent to hardware from software executed by a processor. The apparatus, in particular, includes a storage device configured to receive information concerning a timing requirement for software commands transmitted from a microprocessor, where the timing requirement is dependent on a system time. A time counter is also included and configured to determine the system time. The apparatus further includes a comparator configured to determine whether the timing requirement has been met, and a switching circuit configured to selectively allow the software command to be issued from the processor to a hardware circuit based on the determination of whether the timing requirement has been met. Complementary methods are also disclosed.

Abstract: Route planning methods for use by a package delivery service provider are disclosed that satisfy a stochastic daily demand while taking advantage of drivers' route familiarity over time. A model for estimating the value of driver familiarity is disclosed along with both an empirical and a mathematical model for estimating the value of route consistency, along with a Core Area Route Design which involves the concepts of combinatorial optimization, meta-heuristic algorithms, tabu search heuristics, network formulation modeling, and multi-stage graph modeling. In one embodiment, a service territory is divided into unassigned cells associated with a grid segment involving prior driver delivery stops, and a driver from a pool of unassigned drivers is assigned to a route based on examining each driver's grid segment visiting frequency limit with respect to a minimum limit so as to optimize driver selection based on of each driver's familiarity with the route.

Abstract: A system, method, and computer program product are provided for determining a performance associated with a graphics processor. In use, at least one aspect of a usage of a graphics processor is identified. Further, a performance of a video output of the graphics processor is determined, based on the identified aspect.

Abstract: Chromatograms and mass spectra produced by an LC/MS system are analyzed by creating a two-dimensional data matrix of the spectral and chromatographic data. The two-dimensional matrix can be created by placing the spectra generated by the mass spectrometer portion of the LC/MS system in successive columns of the data matrix. In this way, the rows of the data matrix correspond to chromatographic data and the columns of the data matrix correspond to the spectra. A two-dimensional filter is specified and applied to the data matrix to enhance the ability of the system to detect peaks associated with ions. The two-dimensional filter is specified according to desired criteria. Rank-1 and rank-2 filters can be specified to improve computational efficiency. One method of applying the two-dimensional filter is through convolution of the data matrix with the two-dimensional filter to produce an output data matrix. Peaks corresponding to detected ions are identified in the output data matrix.

Abstract: The present invention relates to a space-invariant independent component analysis and electronic nose for detection of selective chemicals in an unknown environment, and more specifically, an approach to analysis of sensor responses to mixtures of unknown chemicals by an electronic nose in an open and changing environment. It is intended to fill the gap between an alarm, which has little or no ability to distinguish among chemical compounds causing a response, and an analytical instrument, which can distinguish all compounds present but with no real-time or continuous event monitoring ability.

Abstract: A chromatograph analyzing device for automatically executing a base line setting process on an unseparated peak using preset base line conditions. The chromatograph analyzing device comprises a separation unit for separating a component included in a sample, and a data processing device for identifying the component of the sample and the quantity of the component in the sample by using a chromatogram obtained from the separation.

Abstract: Analyzing the pressure profile generated during a limited period of time immediately prior to the end of a liquid aspiration process and comparing the standard deviation of the residuals to a critical value to determine if the liquid was of a desired sufficient volume.

Abstract: A distributed analysis system may include at least one analysis instrument for generating sample data from a sample at a local site. A storage device may hold a library of calibration models at a site remote from the local site). A data processor, which may be integral with or separate from the analysis instrument, may determine a trait of the sample using a calibration model selected from the library and the sample data. The data processor may be located at the local site and may be connectable to the storage device via a telecommunications link. The data processor may temporarily retain the selected calibration model received via the telecommunications link.

Abstract: The present invention provides a system and method for automatically deriving unique surrogate response data from experiment results in which inherent data loss occurs in a sufficient number of the samples to disallow quantitative effects estimation at the experimenter's desired level of confidence for statistical significance. In part, the unique surrogate response data sets of the present invention have four primary characteristics including: each is numerically analyzable; each may be more readily or directly obtained in which inherent data loss occurs; each provides a response value for an experiment trial; and each provides information on the effect of the change made to the process or system that would have been obtainable if the experiment samples had had no inherent data loss.

Abstract: The present invention provides a system and method for automatically deriving unique surrogate response data from experiment results in which inherent data loss occurs in a sufficient number of the samples to disallow quantitative effects estimation at the experimenter's desired level of confidence for statistical significance. In part, the unique surrogate response data sets of the present invention have four primary characteristics including: each is numerically analyzable; each may be more readily or directly obtained in which inherent data loss occurs; each provides a response value for an experiment trial; and each provides information on the effect of the change made to the process or system that would have been obtainable if the experiment samples had had no inherent data loss.

Abstract: A method for determining proportion of diesel fuel in a lubricating oil of a combustion engine, including: forming a mixture containing an oil sample and a C5 hydrocarbon such as a C5 alkane; injecting the mixture into the injector of a gas chromatograph; establishing a chromatograph of the sample; determining a first parameter M representative of the area of a peak associated with the C5 hydrocarbon such as a C5 alkane; determining a second parameter C representing of the area of at least one peak associated with a hydrocarbon representative of diesel fuel; and determining the proportion T of diesel fuel by a formula T = C / ( M ) - b a in which a and b are constants defining equation y=ax+b of a calibration straight line of the ratio between the second and the first parameters as a function of the proportion of diesel fuel.

Abstract: A method is disclosed for classifying plant embryos according to their quality using a logistic regression model. First, sets of image or spectral data are acquired from plant embryos of known quality, respectively. Second, each of the acquired sets of image or spectral data is associated with one of multiple class labels according to the corresponding embryo's known quality. Third the sets of image or spectral data values are filtered to provide filtered image or spectral data values. Fourth, a classification algorithm, e.g., a logistic regression analysis is applied to the filtered data values and their corresponding class labels to develop a classification model. Fifth, image or spectral data are acquired from a plant embryo of unknown quality, and filtered data values are derived therefrom. Sixth, the classification model is applied to the filtered data values for the plant embryo of unknown quality to classify the same.

Abstract: A method and apparatus for interfacing a plurality of volumetric measurement systems, each of which includes a gas measurement and a flow measurement system, to a host system via an interface unit.

Abstract: Techniques for specifying an observing or working position of a sample are provided. Digitized data of a sample is obtained and stored in a 1st storage device. A 1st display area displays an image of a portion containing a desired observing or working position of the digitized data stored in the 1st storage device. A 1st position that is indicated by a pointing device on the 1st display area is stored in a 2nd storage device. The sample is moved to an observing or working position for observation, and an observation image of the sample is stored in the 3rd storage device. A 2nd display area displays the observation image of the sample stored in the 3rd storage device. A position indicated on the 2nd display area and corresponding to the 1st position stored in the 2nd storage device is stored in a 4th storage device.

Abstract: Systems and methods allowing for the automatic control and scheduling of a staining apparatus for biological samples on slides present within the apparatus are provided. In some embodiments, the actions of a robot coupled to the staining apparatus, which performs some of the staining tasks on the individual slides in accordance with their respective protocols, may be prioritized and scheduled. In some embodiments, the scheduling may result in increasing or maximizing the throughput of slides. In some embodiments, robot scheduling ensures that the individual slides are processed substantially within the tolerances specified by their respective protocols. In some embodiments, the robot scheduler may respond to spontaneous user actions and adaptively schedule or re-schedule robot actions.

Abstract: A vapor analysis system comprising a vapor analyzer capable of collecting and analyzing a vapor sample for detection of a compound that may be contained within the vapor sample. A controller is coupled to the vapor analyzer. The controller is programmed to produce an indicator signal indicative of a relative concentration of the compound detected by the vapor analyzer within the vapor sample. A sample probe includes a housing containing a vapor channel through which the vapor sample is collected, and a vapor cable couples the sample probe to the vapor analyzer to allow collection and channeling of the vapor sample to the vapor analyzer. A multi-dimensional user indicator is disposed on the housing of the sample probe receives and operates in response to the indicator signal to indicate the relative concentration of the compound detected within the vapor sample for presentation via a multi-directional stimulus to a user of the vapor analysis system.

Abstract: A system for transferring data includes an analyte test instrument (ATI) adapted to store data, a wirelessly enabled data management device (DMD) for comprehensively analyzing data, and an adaptor removably connected to the ATI for transferring data stored on the ATI to the DMD. The adaptor includes a data communication device capable of removable connection with the ATI, a microprocessor electrically connected to the data communication device, a wireless controller electrically connected to the microprocessor and a wireless transceiver electrically connected to the wireless controller. In use, data transfer is executed between the ATI and the DMD by electrically and mechanically connecting the adaptor to the ATI. Data stored on the ATI is then automatically downloaded into adaptor memory. Upon completion of the download, the user activates an externally accessible input device on the adaptor which, in turn, wirelessly transmits data from the adaptor memory to the DMD.

Abstract: According to various embodiments, variables are grouped in an unsupervised manner after principal component analysis of a plurality of variables from a plurality of samples. A number of principal components are selected. A subset principal component space is created for those components. A starting variable is selected. A spatial angle is defined around a vector extending from the origin to the starting variable. A set of one or more variables is selected within the spatial angle. The set is assigned to a group. The set is removed from further analysis. The process is repeated starting with the selection of a new starting variable until all groups are found.

Abstract: A radioactivity monitoring apparatus is disclosed, where the apparatus comprises signal processing means, and where the signal processing means is configured to determine a high count event when a detected radioactivity level is determined to be greater than a predetermined level. Furthermore, the signal processing means is further configured to determine an alarm condition when a plurality of consecutive high count events is determined.

Abstract: A method for determining solid content concentration in a fluid flow includes measuring a noise signal generated by a fluid flow and correlating the noise signal to the solid content. The noise signal may be correlated to represent the solid content concentration such as by applying one or more filters to the noise signal or applying one or more physical or numerical methods to the noise signal. For example, the fluid flow may be pressurized to a selected level to collapse gas bubbled entrained in the fluid flow, thereby eliminating or substantially reducing a component of the noise signal unrelated to the solid content.

Abstract: There is provided a user interface which enables all users to input a purpose of use of a chromatography data system, recognize a series of operation flow of the analysis of chromatograph data according to the input purpose, improve an operability and prevent an operation error regardless of the user's knowledge on analyzing the chromatograph data or the user's proficiency in the chromatography data system. In a chromatograph data processing, the present invention relates to recognizing chromatograph data analyzing means on a picture and displaying the chromatograph data analyzing means on the picture in accordance with purpose of use. According to the present invention, the chromatography data system can be easily operated regardless of the knowledge on the analysis of chromatograph data or proficiency in the chromatography data system.

Abstract: An object of the present invention is to provide a mass spectrometry system capable of improving an efficiency of obtaining information on a structure of substances, shortening a time taken for a measurement and substance identification, and improving identification accuracy. The system comprises: a process of mass analyzing an ionized analyte; a first fragmentation process where a first ion is selected from the ions observed in a mass spectrometry to fragment it; a process of mass analyzing a plurality of the ions generated in the first fragmentation process; a process of determining fragment ion combination capable of reconstructing the first ion using a result of the mass spectrometry; a second fragmentation process where the fragment ions contained in the fragment ion combination are fragmented; and a process of mass analyzing the fragment ions generated in the second fragmentation.

Abstract: A substance detection system having an electronic nose and classifier. The system may extract feature from the electronic signals representing the smells from the electronic nose sensing an unknown substance. The features may be formatted as smellprints that are synthesized as data. The features may be classified, and in a binary tournament fashion, as an illustrative example, may be mapped to be compared or correlated with features of known substances. The known substance or substances having the highest scores for good mapping, comparison or correlation with the sensed substance, may be reviewed in view of decision criteria to determine an identification of the sensed substance.

Abstract: Method and system for determining chemical composition of a single-component or multiple-component gas, using a discharge holdoff mechanism. A voltage difference V between two spaced apart electrodes is brought to a selected value and held, the holdoff time interval ?t(V;ho) required before gas discharge occurs is measured, and the associated electrical current or cumulative electrical charge is measured. As the voltage difference V increases, the time interval length ?t(V;ho) decreases monotonically. Particular voltage values, V? and V0, correspond to initial appearance of discharge (?t??) and prompt discharge (?t?0). The values V? and V0 and the rate of decrease of ?t(V;ho) and/or the rate of increase of current or cumulative charge with increasing V are characteristic of one or more gas components present.

Abstract: Apparatus and method for hemoglobin measurement including irradiating light to a living body, detecting light that has propagated through the living body, and acquiring measured data that represents a change in the concentration of oxidized hemoglobin in the living body and a change in the concentration of deoxidized hemoglobin; irradiating light to the living body, detecting light that has propagated through the living body, and acquiring measured data that represents a change in the concentration of oxidized hemoglobin in the living body and a change in the concentration of deoxidized hemoglobin; classifying the data measured at the first step and the data measured at the second step according to each of an increase or a decrease in the concentration of oxidized hemoglobin and an increase or a decrease in the concentration of deoxidized hemoglobin; and displaying the classifications determined at the third step.

Abstract: A method for generating a model representative of a process. The process includes a result variable representing a product of the process, and a plurality of process variables representing characteristics of the process other than the product of the process. The method includes steps of acquiring a plurality of test values of the result variable; acquiring, for each process variable of the plurality of process variables, a plurality of test values of the process variable, each test value being associated with a result variable value; providing, for each first coefficient of a plurality of first coefficients, a separate test value of the first coefficient associated with each process variable; and, for each second coefficient of a plurality of second coefficients, providing a separate test value of the second coefficient associated with each test value of each process variable.

Abstract: The present invention is a cell-based method of identifying a set of signal transduction proteins having an intracellular localization pattern responsive to toxic compounds. The method requires identifying and screening an initial set of signal transduction proteins against a set of toxic compounds, and determining changes in intracellular localization pattern of each of the proteins. Proteins whose changes in intracellular localization pattern are redundant are discarded from the initial set, and new proteins are added to provide a new set of proteins. I repeat the method steps with new sets of proteins until the set of proteins provides me at least 5 principal components with respect to the range of compounds marketed as small organic molecules.

Abstract: A method for generating a model representative of a process. The process includes a result variable representing a product of the process, and a plurality of process variables representing characteristics of the process other than the product of the process. The method includes steps of acquiring a plurality of test values of the result variable; acquiring, for each process variable of the plurality of process variables, a plurality of test values of the process variable, each test value being associated with a result variable value; providing, for each first coefficient of a plurality of first coefficients, a separate test value of the first coefficient associated with each process variable; and, for each second coefficient of a plurality of second coefficients, providing a separate test value of the second coefficient associated with each test value of each process variable. At least one of the method steps is a computer-implemented step.

Abstract: A spectroscopic identification method and system are provided that uses the primary or main spectroscopic features of a source, such as those as arising from chemical functional groups, to describe and distinguish the source. These primary spectroscopic features make up a portion (i.e., are a subset) of the entire spectroscopic data for a particular source but can nevertheless be used as the basis of separating spectra from multiple source. When analyzing spectroscopic data obtained from a sample for one or more sources, the analysis first focuses on the primary spectroscopic features for a source rather than the entire spectra for a source.

Abstract: A method and system for characterizing gun-shot residue. More particularly, embodiments of the present invention provide a method that includes determining a size and an elemental composition of at least one nanoparticle from the gun shot residue and computing a temperature of formation of the at least one nanoparticle based on the size and the elemental composition of the at least one nanoparticle.

Abstract: Described herein are methods for registering analytical images comprising obtaining an image of an array, wherein the image depicts fiducials that can be used to register the sequential images of the array by determining the average intensity of the fiducials and then positioning the sequential images such that the average intensity of the fiducials attains either a maximum or minimum value.

Abstract: An efficient, effective and reliable method for authentication of herbal medicines (HMs) based on a novel wavelet-enhanced automated three-dimensional chromatograms classification system. The method takes advantage of the character of 3D chromatograms which appear as functional curves and the preprocessing power of wavelet transform (WT) to minimize the interferences from noises and baseline drifting of the raw data, and at the same time significantly reduces the data sizes. This compressed data retain the essential features of the original raw data, whereby leading to efficient and reliable method for identifying or authenticating herbal medicines or other chemical mixtures of great complexity.

Abstract: A method of analyzing spectroscopic data, the method comprising collecting spatially resolved measurement spectroscopic data of a sample for a series of measurements spots, assigning the measurement spots into a predefined set of spectral categories, based on characteristics of the spectroscopic data of the respective measurement spots, identifying groupings of the measurement spots based on their respective spectral categories and their spatial relationships, and assigning each grouping of measurement spots to a fundamental sample unit data object.

Abstract: A method and system of monitoring for chemical or other toxic agents includes operating a plurality of first type sensors having a first level of sensitivity to an agent in a monitored area. Concurrently a second type sensor is operated having a second level of sensitivity to the agent in the monitored area, where the second level of sensitivity is at least ten times more sensitive than the first level of sensitivity. Input from the plurality of first type sensors and the second type sensor is received and analyzed, at a central location, in order to determine the presence of the agent in the monitored area.

Abstract: The present invention provides a distributed sensing system in a networked environment for identifying an analyte, including a first sensor array connected to the network comprising sensors capable of producing a first response in the presence of a chemical stimulus; a second sensor array connected to the network comprising sensors capable of producing a second response in the presence of a physical stimulus; and a computer comprising a resident algorithm. The algorithm indicates or selects the most relevant sensor in the network to identify the analyte. The sensors can be separated over large spatial areas, wherein the sensor arrays are networked. Suitable networks include a computer local area network, an intranet or the Internet.

Abstract: In an electrochemical sensor, a peak is detected by grouping data points in windows and detecting two or three windows between which the slope of the data changes sign. The peak can be more precisely detected by detecting the highest data point in the two or three windows.

Abstract: The present invention relates to methods for resolving convoluted peaks in a chromatogram into one or more constituent peaks using peak resolution values. The peaks methods of the invention determine empirical peak resolution values of “well-defined” or “isolated” peaks in the data, then extrapolate these empirical resolution values to peaks in neighboring regions to predict the number of constituent peaks at a given peak position. Predicted peak resolution values are compared to observed peak resolution values of low-resolution or convoluted peaks to determine the number of constituent peaks in the convoluted peaks. These methods enable extension of the region of data that can used for identifying nucleotide sequences, and increase base-calling accuracy in the low-resolution region (end region) of data.

Abstract: The present invention provides a method of analysis which couples principle component analysis (PCA) with ToF-SIMS for obtaining surface chemical information from minerals. Statistical methods, based on the monolayer-sensitive time of flight secondary ion mass spectrometry (ToF-SIMS) technique, combined with principal component analysis (PCA) identifies combinations of factors strongly correlated (positively or negatively) in images or spectra from sets of data. In images, PCA selects these correlations from the mass spectra recorded at each of 256×256 pixels in a selected area of particles. In the image mode, PCA provides a much better method of selecting particles by mineral phase with clearer definition of particle boundaries due to multi-variable recognition.