Abstract: A method and system for minimizing inter-coefficient crosstalk in imaging the internal properties of a scattering medium. The method and system minimizing inter-coefficient. crosstalk in image reconstruction by solving a system of linear perturbation equations with the use of relative detector values, weight matrix scaling, and constraints based on either the know or unknown direction of the perturbations in the medium's properties. The constraint being either (1) positive or negative corresponding to the direction of a known perturbations, or (2) solving the system of equations with both positive and negative constraints and summing the results where the direction of the perturbations are unknown. The advantages of the inventive method and system result in effective isolation of absorption and scattering coefficient variations, even for complex combinations of perturbations in these coefficients.

Abstract: An isotopomer absorption spectral analyzing apparatus and its method for precisely measuring the isotope ratio by substantially equalizing the absorption signal levels of different species of isotopes. In an isotopomer absorption spectral analyzing apparatus, a sample cell (21) capable of providing optical paths of different optical lengths is installed, optical beams A, B are caused to enter the sample cell (21) and travel along paths of different optical lengths, thereby determining the abundance ratio between species of isotopes in molecules from the ratio between intensities of signals corresponding to the species of isotopes.

Abstract: An apparatus and method for determining a type and/or a condition of a note passing through the apparatus includes a note transport (12) which moves the note past sensing assemblies (18). Each sensing assembly includes emitters (32). Each of the emitters produces radiation at a different wavelength. The sensing assemblies include a reflectance detector (20) and a transmission detector (22) which are disposed on opposed sides of the passing note. The emitters direct radiation onto test spots (34) on the passing note. Reflectance values are generated from radiation reflected from each type of emitter to the reflectance detector. Transmission values are generated from radiation transmitted from an emitter through each test spot to the transmission detector. A control circuit produces a sensed value set including the reflectance and transmission values from each of the emitters in each of the sensing assemblies. The control circuit also determines an angle of skew of the passing note.

Abstract: A measuring system for in-situ measurements down a well (1) by a spectrometer (4) is provided. The spectrometer (4) includes a radiation source (5) and a detector (6). A probe (15) optically connected to the spectrometer (4) and includes an optical pathway (7) for transmission of a radiation from the radiation source (5) and at least a second optical pathway for transmission of a characteristic radiation from a sample to the detector (6). A positioner is provided to position the probe (15) near a side surface (11) of the borehole (3) and to optically couple the optical pathways (7) to the side surface (11), wherein the probe (15) is traversable up and down the well (1) by way of a guide operatively connected to the probe (15) and to a fixed location at the wellhead. By use of the apparatus and method a concentration of methane or other substance of interest is obtained, and thereby, a potential production of a coal bed methane formation is obtained.

Abstract: A system and method for determining the relative losses and/or efficiencies of the individual channels of a multi-channel measurement system, such as a multi-channel optical tomography system. The system and method provide several independent estimates of the losses associated with each of the plurality of source and detector components, whereby statistical analysis of the independent estimates can be used to reveal system errors or misalignments.

Abstract: An apparatus for detecting organic molecules, especially biomolecules and polymers, in a probe substance, comprises

Abstract: A detector device for detecting the presence of airborne particles such as smoke includes a light source, an optical bridge, a measurement path, a reference path, a measurement receiver and a reference receiver. The optical bridge, in addition to the light source and the measurement and reference receivers, are the only optical elements of the detector device. The optical bridge includes two circular apertures arranged downstream of the light source along the radiation path. The light source is arranged in a chamber having an air reservoir, whose surface area is substantially greater than that of the light source. A temperature drift curve is determined by heating the light source and storing the detector signal at different temperatures.

Abstract: Successive packets of cigarettes or the like are monitored to ascertain the integrity or absence of integrity of their outer envelopes by conveying them across at least one curtain of radiation so that a packet having an improperly glued flap or tuck or label or an analogous defect affecting the acceptability of its outline intercepts a greater amount of radiation than a packet having an outline matching that of a prototype. First signals denoting the amount of radiation intercepted by successive packets are compared with a reference signal denoting the amount of radiation intercepted by the prototype and, when the difference between a first signal and the reference signal is outside of a permissible range, the corresponding packet is segregated from other packets.

Abstract: A scanner for a medical optical imaging device, comprises an illumination source positioned to direct emitted light into a breast positioned below a support surface; first and second groups of photodetectors positioned in an arc around the breast to simultaneously detect light emerging from the breast; and optical filters disposed in front of the first group of photodetectors to restrict the wavelength of light reaching the first group of photodetectors.

Abstract: A scanner for a medical optical imaging device, comprises an illumination source positioned to direct emitted light into a breast positioned below a support surface; a plurality of detectors positioned to detect light emerging from the breast; and a container disposed below the illumination source and the detectors adapted to trap light reflected from the breast.

Abstract: The present invention includes a method and an apparatus for the quantitative determination of particles in fluid. The apparatus of the invention includes an emitters set of one or more light emitters, in combination with a detector set of one or more light detectors sensitive to the output of the emitters. During analysis of the sample, data from a plurality of signal paths between the emitter and detector sets are gathered. This information is subsequently evaluated by comparison with known data for different fluid particle contents. Some differentiation between different particles in a fluid sample are possible in many embodiments. Typical uses include analysis of milk and dairy fluids, blood samples, lubricants, suspensions of pigments, etc.

Abstract: Described herein is an optical measurement instrument for a living body, comprising light incident means for simultaneously applying incident light of a wavelength in a visible-infrared region to a plurality of incident positions on the surface of a subject, light detection means for simultaneously detecting lights obtained by allowing the incident light to pass through the subject, at a plurality of detection positions on the surface of the subject, and imaging means for imaging information on the inside of the subject using detected signals outputted from the light detection means. The light incident means includes light modulation means for intensity-modulating the incident light applied to the plurality of incident positions with modulation frequencies respectively different every the respective incident positions.

Abstract: An integrated-optic spectrometer is disclosed for analyzing the composition of light reflected off a sample under analysis. In a simplified embodiment, the spectrometer includes a buffer, located on the top of a substrate, which is etched to create a diffraction grating having grating lines. The diffraction grating and grating lines are formed to provide diffraction of discrete wavelengths of light, while providing for maximum transmission of non-diffracted wavelengths. A waveguide is fabricated on top of the etched buffer through which the reflected light is directed. A photodiode detector array is located above the waveguide into which the diffracted wavelengths are diffracted, providing an analysis of the composition of the reflected light. A clad encompasses the integrated-optic spectrometer, thereby providing protection from outside interference.

Abstract: A gas volume concentration is determined. An electromagnetic radiation is emitted (state 1) through the gas volume. The radiation is filtered by temporally modulating the spectral transmission of said filter so as to obtain a temporal modulation of the energy of the radiation transmitted by the gas volume and this filter. This temporally modulated energy is detected and a signal E is extracted from it, the signal particularly depending on the concentration of the gas. The component Eac(1) of the time-variable signal and the component Edc(1) of the signal, which is not a time-variable signal are isolated. A radiation stops is emitted (state 0), and the component Eac(0) and the component Edc(0) of the signal received by the detector are isolated. The terms Eac(1)-Eac(0) and Edc(1)-Edc(0) are calculated, and the ratio (Eac(1)-Eac(0))/(Edc(1)-Edc(0)) is formed which then solely depends on the gas concentration c. From this, c is deduced.

Abstract: An apparatus for measuring optical density of highly absorptive materials in which a beam splitter divides light from a laser source into a reference beam, which is directed to a reference detector, and a sample beam, which is reflected off a diffusing plate, through a light limiting aperture, and to a sample. The emanations from the sample are directed to a sample detector. An instrumentation amplifier compares the intensities of the two detectors. The aperture and reference detector are positioned so that the measured intensities are equal, and the optical density of the sample is calculated.

Abstract: An image system captures and records optical and photon images of an activity, such as cellular phenomena. The images are simultaneously recorded on videotape and displayed. Image data is processed and stored for later analysis and for comparison to new data.

Abstract: Analytical system for evaluating test elements having means of determining whether a sufficient amount of sample liquid was evenly applied to an application zone comprising in a first embodiment of the invention at least two sources of light which illuminate separate or at least not fully overlapping areas of the application zone or the evaluation zone of the test strip, a control unit with which the light sources, of which there at least two, can be independently activated, at least one sensor which detects light reflected by the evaluation zone or transmitted by the evaluation zone and supplies an output signal proportional to the intensity of light as well as an evaluation unit which receives a first output signal from the sensor and converts it into a first measured value when the first of the light sources is activated, receives a second output signal from the sensor and converts it into a second measured value when the second of the light sources, is activated and compares the measured values and determ

Abstract: A laser absorption sensor system for performing optical measurements on a sample is described. The sensor system includes a tunable laser, capable of being tuned at rates exceeding 1 KHZ, and with a tuning range approaching 1 GHz. The laser beam is modulated at a modulation frequency between 1 and 100 KHz. Modulation in this frequency range is termed wavelength modulation. The beam is split into two beams, a signal beam and a reference beam. The signal beam traverses the sample where characteristic absorption takes place and is incident on a signal photodetector. The reference beam is incident directly on a reference photodetector. A noise cancellation circuit combines signal and reference photo-currents from signal and reference photodetectors reducing signal noise and increasing system sensitivity. The combination of wavelength modulation and the noise cancellation scheme provide a highly sensitive simple, rugged, low cost laser absorption sensor system.

Abstract: A method for analyzing an impurity in a gas including the steps of: introducing a gas with an impurity into a first cell; introducing a gas with no impurity into a second cell; maintaining identical pressures in the first and second cells; irradiating a light from a light irradiating source; varying the frequency of the light over a frequency spectrum including an absorption frequency of the impurity; splitting the light by a splitting device in order to pass a first beam through the first cell and to pass a second beam through the second cell; measuring the intensity of the light passing through the first cell over the frequency spectrum with a first measuring device and the intensity of the light passing through the second cell over the frequency spectrum with a second measuring device; and determining an absorption spectrum of the impurity in the gas based on the difference between data measured with the first measuring device and data from measured with the second measuring device.

Abstract: The present invention provides for a system for the precision optical coating of substrates and a method of operating the system. The system has a vacuum chamber, a plasma source in the vacuum chamber, a plurality of e-beam evaporation units which generate a vapor of optical coating material in the vacuum chamber, and a plurality of stations, each station holding one substrate and rotating the substrate during deposition of the optical coating material upon the substrate. Each of the stations has an optical monitoring unit which monitors in situ the deposition of the optical coating material upon the corresponding substrate. With the described system, high production rates of precision optical elements, such as narrow bandpass optical filters, can be achieved.

Abstract: A device for imaging a turbid medium, for example a breast of a female, includes a holder for receiving the medium, a light source, a photodetector and a processing unit for deriving the image from the intensities measured. The holder is adapted to receive besides the turbid medium also an adaptation medium for influencing a photon path distribution of the turbid medium. The use of different values of optical parameters of the adaptation medium introduces different photon path distributions in the turbid medium. By means of these different photon path distributions the resolution of the image can be improved by utilizing the light sources and/or photodetectors in the same positions. When a liquid is used as the adaptation medium the shape of the adaptation medium can be perfectly matched between the holder and the turbid medium.

Abstract: An apparatus and method for providing an indication of a type of note passing through the apparatus includes a note transport (12) which moves the note past transversely spaced spot sensing assemblies (18). Each spot sensing assembly includes four emitters (32). Each of the emitters produces radiation at a different wavelength. The spot sensing assemblies include a reflectance detector (20) and a transmission detector (22) which are disposed on opposed sides of the passing note. The emitters direct radiation onto test spots (34) on the passing note. The emitters in each assembly are activated individually and repeatedly in a sequence. Radiation reflected from each type of emitter to the reflectance detector at each test spot causes a control circuit (24) to generate reflectance values. Radiation transmitted from each emitter through each test spot to the transmission detector causes the control circuit to generate transmission values.

Abstract: The invention relates to a method and apparatus for determining the concentration of at least carbon dioxide in a gas mixture on the basis of the absorption of infrared radiation (2), said apparatus comprising: a radiation source (1), the radiation emitted thereby being aligned to travel through a measuring cell (4) containing a gas mixture (6) to be analyzed; an optical band-pass filter (10), which is transmissive to a first wavelength band and positioned on the path of radiation emerging from the measuring cell or entering into the measuring cell through which the radiation passes; and a first detector (14), positioned in the radiating direction downstream of said first band-pass filter and used for detecting the radiation intensity falling thereon. Said optical band-pass filter (10) has a band-pass which lies within the wavelength range of 4.38 .mu.m-4.47 .mu.m for measuring the total concentration of carbon dioxide by means of the absorption spectrum of a molecule .sup.13 CO.sub.

Abstract: An optical device for wavelength monitoring and wavelength control. The optical device has an optical element having a first surface and a second surface not parallel to each other. The optical element separates a light beam supplied to the first surface into a first beam reflected on the first surface, a second beam passed through the first surface, reflected on the second surface, and passed through the first surface again, and a third beam passed through the first surface and the second surface in this order. An optical filter is provided so as to transmit the first and second beams. The optical filter has wavelength characteristics different according to an incidence angle. The first and second beams passed through the optical filter are supplied to first and second photodetectors, respectively. On the basis of such a difference in wavelength characteristic, the wavelength of the light beam can be monitored according to outputs from the first and second photodetectors.

Abstract: The fat content and an undissolved solids content of a milk sample, taken from a milk processing flow, are separately determined. In addition, the total solids content of the milk flow is determined. Based on the fat, undissolved solids, and total solids content, the amount of protein and/or casein in the flow is determined. In a control portion of the invention, the fat and undissolved solids are controlled dynamically to standard values, whereby the characteristics of the milk flow are adjusted to standard values useable for whole milk, cheese-making and other uses.

Abstract: An instrument is described for making both fluorometric and spectrophotometric images of plants. The instrument includes two sources of electromagnetic radiation, optical components to direct the radiation, excitation and emission filters, and an imaging device. The instrument can be used to produce high resolution spectrophotometric images of living plants by correcting for water path length.

Abstract: A compensated opto-electronic gas sensor system comprises active apparatus utilizing electromagnetic radiation for sensing gas and sealed apparatus utilizing electromagnetic radiation for sensing gas. The sealed apparatus exhibits matched characteristics to the active apparatus and exhibits a sensing sensitivity dependent upon the wavelength of the electromagnetic radiation. The system further includes tunable wavelength source respectively coupled to the apparatus for sensing gas for supplying it with electromagnetic radiation of a selectable wavelength. A computer coupled to at least the sealed apparatus for sensing gas and is responsive to an output thereof for controlling the wavelength of the electromagnetic radiation such that the sealed apparatus for sensing gas exhibits an optimal sensitivity.

Abstract: A system for normalizing measurements obtained from spectrometers to correct for measurement biases in individual spectrometers. The normalization system is adapted for use in spectrometers having an optical assembly for obtaining characteristic data from a test sample. A normalization factor is obtained in each spectrometer by placing a holographic dispersion filter between the light source and detector in the position normally occupied by the test sample, the filter having been encoded with a symbol representing a nominal value of light expected to pass through the filter. The spectrometer determines the value of light passing through the filter and calculates a normalization factor based on the ratio between the nominal value of the filter and the actual value obtained by the spectrometer. The normalization factor is stored in system memory and the filter removed so that the spectrometer may thereafter be used to evaluate a plurality of test samples.

Abstract: An apparatus and method are provided for selectively measuring color values of a transmittance sample in a transmittance mode and a reflectance sample in a reflectance mode. The spectrophotometer includes two light channels, a first light channel from a light source to a first detector and a second light channel from the same light source to a second detector. The light channels conduct the light through the spectrophotometer. The spectrophotometer includes appropriate circuitry to compare the light striking the first and second detectors to determine the color value of a sample. A transmittance cell is located in the first light channel for selectively receiving a transmittance sample. When a sample is present, light passing through the transmittance sample is altered because the sample selectively absorbs some of the wavelengths of light. The spectrophotometer also includes a reflectance measurement area in the second light channel for selectively receiving a reflectance sample.

Abstract: A design for a fast absorption optical tomography instrument is disclosed. The subject invention is capable of generating 100 projections of 100 elements each in less than 200 ns. It comprises and optical pulse generator, a tomography ring with temporally multiplexed fiber-optic fan-beam sources and fast detectors, and data acquisition electronics. A single short pulse (<10 ns) of radiation tuned to an absorption transition of the chemical species of interest produces a cross sectional image of concentration. Supplying two such pulses to the instrument can yield simultaneous quantitative images of temperature and absolute concentration in fields with temperature inhomogeneities. Additional pulses lead to concentration images of additional species.

Abstract: A method and apparatus for determining the types and amounts of impurities contained in a fluid medium wherein light is projected into a fluid medium and light which is not absorbed by impurities contained in the fluid medium is transmitted to a spectrometer or photomultiplier. The relationship between the light injected into the fluid medium and the light transmitted out of the fluid medium is analyzed to determine the amounts and types of impurities contained in the fluid medium based on the percentage of light of certain wavelengths transmitted out of the fluid. The apparatus comprises a probe which preferably is slip-stream fit to a pipeline through which the fluid medium flows. The probe is coupled to a light source, such as a tunable laser, by a first fiber and to a spectrometer or photomultiplier by a second fiber. Light is transmitted along the first fiber to the probe from the light source and from the probe to a spectrometer or photomultiplier along the second fiber.

Abstract: A transmissometer for measuring a volume attenuation coefficient of a column of water, including a transmissometer housing; a light source, producing an optical light beam; a Y-splitter, splitting the optical light beam into two light beams within the transmissometer housing; a pressure proof connector and two optical fibers, routing the two light beams outside the transmissometer housing; two collimators for collimating outputs of the two optical fibers prior to transmission through the column of water; a reflecting prism, reflecting the outputs of the two collimators back into the transmissometer housing via a sensor view port where a distance between a first of the two collimators and the reflecting prism is R1 and a distance between a second of the two collimators and the reflecting prism is R2; two detectors for detecting intensities I1 and I2 of the two light beams reflected by the reflecting prism; and a processor for determining the volume attenuation coefficient of the column of water according to:.

Abstract: In a two-beam gas analyzer, a measurement beam passes through a measurement cuvette filled with a measurement gas, and a comparison beam passes through a comparison cuvette filled with a comparison gas. Using a detector arrangement, a difference signal is generated from the beams exiting from the two cuvettes resulting in a measurement value which corresponds to the measurement gas concentration when weighted with a weighting factor. To allow recalibration after a calibration of the two-beam gas analyzer with calibration gas and adjustment of the weighting factor to a value which results in the appropriate calibration value as the measurement value, without having to fill the measurement cuvette with a calibration gas, an additional factor is determined when the measurement cuvette is not filled or is filled with inert gas. Thus, the difference signal corresponds to the calibration value when weighted with the weighting factor and the additional factor.

Abstract: A plurality of radiation receiving elements disposed outside a pipe at equal distances from the axis thereof so that radiation from a radiation source is received through the pipe wall. As the thickness of the pipe wall varies, the received radiation varies accordingly. If the received radiation fluctuates in excess of the allowable range, the thickness of the pipe wall is judged to be outside the allowable range. When the fluctuation of the received radiation is within the allowable range, the thickness of the pipe wall is within the preset tolerances.

Abstract: Calibration curve data is collected by measuring transmitted light intensities of a treating solvent while solvent temperature is varied. Also measured are a standard transmitted light intensity (transmitted light intensity of a standard treating solution prepared at a predetermined concentration and temperature) and a reference transmitted light intensity (transmitted light intensity of the solvent). Estimated transmitted light intensity of the solvent when its temperature is the same as that of the standard treating solution, is derived from the temperature of the standard treating solution and the calibration curve data stored. A correction factor is computed from a ratio between the reference transmitted light intensity and estimated transmitted light intensity. Then, transmittance of the standard treating solution (standard transmittance) is computed from the standard transmitted light intensity, reference transmitted light intensity and a correction factor.

Abstract: A portable and potentially computer-controlled aircraft windscreen or the like test arrangement for quantitative determination of haze and energy transmissivity characteristics in the windscreen material. The test arrangement includes two portable transducer enclosures which lend to convenient use in tested aircraft environments and provides optical assistance in achieving a desired alignment of these transducer enclosures prior to testing. Improved sensitivity over prior haze evaluation arrangements is achieved through use of this accurate alignment and through capture of a large fraction of a haze generated optical signal with an efficient transducer configuration. The testing arrangement also includes optical filtering capability and laser signal modulation assistance in excluding ambient illumination interference with measurement-related optical signals. A plurality of use environments are contemplated including military and non-military uses.

Abstract: The invention relates to apparatus for open-path gas monitoring and is particularly concerned with measuring the opacity of stack gases. Single and double pass systems to provide an optical across the stack, are known, but to provide meaningful data, gain compensation is required to deal with temperature variations and the possibility of ageing of electronic components.

Abstract: An apparatus and method for optically measuring concentrations of components allow enhancement in measurement accuracy of concentration. The apparatus includes a cell, a light irradiator, a photodetector, and an arithmetic unit. The cell presents different optical path lengths at different locations and is to contain a sample therein. The light irradiator, which includes a variable-wavelength laser generator and a measuring system composed of convex lenses, outputs a collimated, enlarged laser beam, and makes the laser beam incident upon the cell. The photodetector comprises a multiplicity of photodetectors arranged in parallel to the surface of the cell, so that it can detect intensity of rays of transmitted light that have traveled over different optical path lengths at positions of an equal distance from the cell.

Abstract: In a exhaust smoke sensor a light emitter generates a light beam which passes through a region containing the exhaust gas to a first light sensor. To reduce interference the light emitter is driven by a near square wave signal produced by passing a square wave through a low pass filter.

Abstract: A noise-suppressing capillary separation system for detecting the real-time presence or concentration of an analyte in a sample is provided. The system contains a capillary separation means through which the analyte is moved, a coherent light source that generates a beam which is split into a reference beam and a sample beam that irradiate the capillary, and a detector for detecting the reference beam and the sample beam light that transmits through the capillary. The laser beam is of a wavelength effective to be absorbed by a chromophore in the capillary. The system includes a noise suppressing system to improve performance and accuracy without signal averaging or multiple scans.

Abstract: The invention provides a method consisting successively in producing two electromagnetic radiations of the same wavelength that is modulated as a function of time over a range of wavelengths, a "measurement" one of said radiations passing through a gas that presents selective absorption for said radiation in the range, while the other radiation constitutes a "reference" radiation. Each of said radiations is transformed into a respective "measurement" or "reference" electrical signal. The measurement signal is divided by the reference signal to obtain a first quotient electrical signal which is in turn split into two portions: a time-varying AC portion and a DC portion that does not vary with time. The AC portion is divided by said DC portion in order to obtain a second quotient electrical signal representative solely of the electromagnetic radiation absorbed by the gas.

Abstract: The present invention describes an apparatus for detecting biological activities in a large number of blood culture vials. The vials are placed in a plurality of arcuate shaped drawers that together form a drum that is rotated about a central horizontal axis. In one preferred embodiment, the apparatus includes five drawers with each drawer containing forty-eight vials. The apparatus includes a door on the front that opens and permits the lower drawer to be removed from the apparatus by lab personnel to load the entire drawer with up to forty-eight vials and unload the same when necessary from the top of the drawer. Another embodiment has an indicator associated with each vial in the drawer to provide additional information to lab personnel about the status of each vial in the drawer.

Abstract: A focused light beam instrument measures characteristics of webs of sheet material. The instrument and a reference surface, a backing tile in a carousel, are on opposite sides of the web which is maintained a fixed distance from the reference surface by a Bernoulli hold down device such that variations in the gap affect the beam focus. The instrument and reference surface scan the web via a scanning frame. The instrument is calibrated-standardized in an off sheet position where a first surface, a carousel backing tile, is moved opposite to the instrument and in the plane of the web. The instrument measures the first surface and a second surface, another carousel backing tile, which is moved opposite to the instrument but spaced farther from or closer thereto than the first surface. The distance of the instrument from the web is calculated from the difference between the measurements of the first and second surfaces.

Abstract: A turbidimeter including a sensor apparatus that has a housing with first and second receptacles. An incident light beam is established within the housing by a light source module that is releasably engaged with the first receptacle. A test liquid holder is removably engaged with the first receptacle. A test liquid holder is removably received by the second receptacle for positioning a liquid to be tested in the path of the incident beam. A photodetector or analogous instrument is provided at an angle to the incident light beam for sensing light scattered by the test liquid. An analyzer apparatus includes appropriate circuitry that is responsive to the photodetector for determining the turbidity of the test liquid. The turbidity is then displayed in both graphic and instantaneous alphanumeric form.

Abstract: A method and apparatus for countering the rotation of a striped pipe during extrusion is provided. A sensor for detecting the stripe sends a signal to a pipe rotating means which, in response to the signal, rotates the pipe to correct any turning occurring during extrusion, forming and cooling of the pipe.

Abstract: A determination of optimal energy insertion, or input, results from a measurement of opacity at various heights in a fluid coagulating system and at the same time from measuring a deviation width of the opacity at a lower measuring point. Simultaneously, a continuous comparison takes place of the opacity measured at the various measuring points, which changes with time, and a comparison of the deviation width of opacity. The optimal energy insertion in the fluid coagulating system is achieved if, at each point in time, the opacity at all measuring points is maintained approximately the same and the deviation width of the opacity is maintained at or near a maximum.

Abstract: An automatic water injector for a wet mop cleaner and an operation method thereof which detects the soil level of a mop so as to automatically inject washing water thereto, wherein the water injector has a soil level detector for detecting the soil level of the mop, a controller for controlling the water injection depending on the detected soil level, a water absorber operated under the control of the controller and a water injector operated under the control of the controller. The method includes driving the mop in accordance with a user input, determining if the mop needs to be washed by detecting the soil level of the mop and comparing the detected level with a predetermined standard level, washing the mop if the comparison determines the need for washing the mop and stopping the mop operation according to stop key input. Accordingly, a proper quantity of water corresponding to the soil level of the mop is automatically injected, to thereby provide convenience to users.

Abstract: The present invention concerns a new optical photometry system for on-line analysis of industrial fluid streams. The invention is a general purpose optical photometer, capable of absorption, fluorescence and reflectance measurements at single wavelengths in the ultraviolet, visible and near infrared spectral ranges. Light signals generated by the light source are carried between a central photometric console and remote analysis sites by fiber optic cables. The return light signals are compared with a standard to make the desired analysis.

Abstract: In a spectrophotometer for measuring the concentration of a specific substance, a pulsating (modulated) source of radiation gives rise to an alternating current component, a direct current component and a dark signal component in a measurement signal. The response time for changes in the concentration of the specific substance is reduced while the measurement signal's signal-to-noise ratio is simultaneously improved when the pulsation frequency is from 50 to 1000 Hz, and the direct current component in the measurement signal is filtered out for normalization by a reference signal in a signal analyzer so the concentration of the specific substance can be calculated.

Abstract: A multiple angle and redundant visibility sensor includes a plurality of optical transmitter/receiver pairs, each pair cooperatively coupled so as to transmit and receive in conically controlled beams along a common optical axis such that each transmitter faces, and directs optical energy directly into, its receiver pair. The plurality of pairs are staggered in angular orientation with respect to each other, with a common volume of intersection through which the approximate center of each optical axis passes. Each transmitter propagates a substantially conical beam of light which passes through an aerosol media which causes molecular scattering of the light. A single transmitter outputs optical energy at any given time, and the receiver intercept the appropriate scattered energy at different scattering angles depending on the relative axial orientation with respect to the scattering volume and the incident radiation.