Your search keyword '"optical apparatus"' showing total 10 results

1. Convergence of illuminating beams suffering from scattering during the individual measurement of suspended particles

Author

Jiajin Li, Hanbo Deng, Zhiming Guo, Ran Liao, and Hui Ma

Subjects

convergent beam, suspended particles, optical apparatus, individual measurement, Monte Carlo simulation, Physics, QC1-999

Abstract

The convergent illuminating beam is the key factor during the individual measurement of suspended particles in aquatic suspensions. When the illuminating beam propagates in the suspension, the particle scattering in the optical path may destroy the convergence of the illuminating beam, especially in suspensions with a high particle concentration. In this paper, using the Monte Carlo simulation, the convergence of the illuminating beam is investigated by changing the physical properties of particles, such as size and concentration, and the optical path length of the illuminating beam. A dimensionless quantity, as the product of the scattering coefficient of suspension and the optical path length, is found to determine the achievement of the convergent beam. Moreover, an individual measurement setup based on the convergence of the illuminating beam is used to measure polystyrene microspheres with different concentrations. The experiment results are consistent with those of the simulations. Furthermore, improvement strategies are proposed and proved to effectively keep the convergence of the illuminating beam in turbid water. The results in this work can provide clues for designing a similar optical apparatus used in aquatic environment monitoring.

Published

2022

2. An Instrument for the Characterization and Calibration of Optical Sensors

Author

Enrico Gastasini, Niccolò Capecci, Francesco Lupi, Alessio Gagliardi, Sergio Saponara, and Michele Lanzetta

Subjects

optical apparatus, camera testing, light uniformity, CCD, CMOS, EMVA 1288 standard, Chemical technology, TP1-1185

Abstract

This paper presents the development of a hardware/software system for the characterization of the electronic response of optical (camera) sensors such as matrix and linear color and monochrome Charge Coupled Device (CCD) or Complementary Metal Oxide Semiconductor (CMOS). The electronic response of a sensor is required for inspection purposes. It also allows the design and calibration of the integrating device to achieve the desired performance. The proposed instrument equipment fulfills the most recent European Machine Vision Association (EMVA) 1288 standard ver. 3.1: the spatial non uniformity of the illumination ΔE must be under 3%, and the sensor must achieve an f-number of 8.0 concerning the light source. The following main innovations have achieved this: an Ulbricht sphere providing a uniform light distribution (irradiation) of 99.54%; an innovative illuminator with proper positioning of color Light Emitting Diodes (LEDs) and control electronics; and a flexible C# program to analyze the sensor parameters, namely Quantum Efficiency, Overall System Gain, Temporal Dark Noise, Dark Signal Non Uniformity (DSNU1288), Photo Response Non-Uniformity (PRNU1288), Maximum achievable Signal to Noise Ratio (SNRmax), Absolute sensitivity threshold, Saturation Capacity, Dynamic Range, and Dark Current. This new instrument has allowed a camera manufacturer to design, integrate, and inspect numerous devices and camera models (Necta, Celera, and Aria).

Published

2021

3. An Instrument for the Characterization and Calibration of Optical Sensors

Author

Sergio Saponara, Niccolò Capecci, Enrico Gastasini, Michele Lanzetta, Alessio Gagliardi, and Francesco Lupi

Subjects

Computer science, Machine vision, optical apparatus, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, camera testing, 02 engineering and technology, TP1-1185, 01 natural sciences, Biochemistry, Signal, Article, Analytical Chemistry, 010309 optics, light uniformity, Signal-to-noise ratio, 0103 physical sciences, 0202 electrical engineering, electronic engineering, information engineering, Electronic engineering, Calibration, Electrical and Electronic Engineering, Instrumentation, CCD, Dynamic range, Chemical technology, EMVA 1288 standard, CMOS, Camera testing, Light uniformity, Optical apparatus, Visual inspection, Atomic and Molecular Physics, and Optics, 020201 artificial intelligence & image processing, Charge-coupled device, Sensitivity (electronics), visual inspection, Dark current

Abstract

This paper presents the development of a hardware/software system for the characterization of the electronic response of optical (camera) sensors such as matrix and linear color and monochrome Charge Coupled Device (CCD) or Complementary Metal Oxide Semiconductor (CMOS). The electronic response of a sensor is required for inspection purposes. It also allows the design and calibration of the integrating device to achieve the desired performance. The proposed instrument equipment fulfills the most recent European Machine Vision Association (EMVA) 1288 standard ver. 3.1: the spatial non uniformity of the illumination ΔE must be under 3%, and the sensor must achieve an f-number of 8.0 concerning the light source. The following main innovations have achieved this: an Ulbricht sphere providing a uniform light distribution (irradiation) of 99.54%, an innovative illuminator with proper positioning of color Light Emitting Diodes (LEDs) and control electronics, and a flexible C# program to analyze the sensor parameters, namely Quantum Efficiency, Overall System Gain, Temporal Dark Noise, Dark Signal Non Uniformity (DSNU1288), Photo Response Non-Uniformity (PRNU1288), Maximum achievable Signal to Noise Ratio (SNRmax), Absolute sensitivity threshold, Saturation Capacity, Dynamic Range, and Dark Current. This new instrument has allowed a camera manufacturer to design, integrate, and inspect numerous devices and camera models (Necta, Celera, and Aria).

Published

2021

4. Decline in oxygen consumption correlates with lifespan in long-lived and short-lived mutants of Caenorhabditis elegans

Author

Shoyama, Tetsuji, Shimizu, Yuka, and Suda, Hitoshi

Subjects

*OXYGEN consumption, *LIFE spans, *CAENORHABDITIS elegans, *ENERGY metabolism, *CHEMICAL reactions, *AGING

Abstract

Abstract: In humans, the basal energy metabolism is thought to decline linearly with age. On the other hand, in the nematode Caenorhabditis elegans, two research groups reported independently that it declined exponentially. In this study, furthermore, we used various lifespan-mutant strains to determine whether the previous conclusion is more likely to be true. We can indirectly estimate the metabolic energy by conveniently measuring the oxygen consumption rates of C. elegans using an optical apparatus. From the profile of respiratory rates as a function of age, we can quantitatively isolate the physiological decline rate, λ, that exponentially represents the decay rate of respiratory activity with age. In addition, quantitative analysis indicates that the respiratory activity of worms has a finite value in advanced age. We also show that the maximum and mean lifespans strongly correlate with the reciprocal of the λ. These findings offer crucial biochemical evidence for a molecular mechanism at work in biological aging. Consequently, we here propose a mechanism based on a chemical reaction and offer a definition of the physiological decline rate and the finiteness of respiratory activity in advanced age. [Copyright &y& Elsevier]

Published

2009

5. Remote adjustable focus Raman spectroscopy probe

Author

Archer, William [Bethel Park, PA]

Published

1999

6. Optical apparatus for forming correlation spectrometers and optical processors

Author

Senturia, Stephen [Brookline, MA]

Published

1999

7. An Instrument for the Characterization and Calibration of Optical Sensors.

Author

Gastasini, Enrico, Capecci, Niccolò, Lupi, Francesco, Gagliardi, Alessio, Saponara, Sergio, and Lanzetta, Michele

Subjects

*OPTICAL sensors, *FLEXIBLE electronics, *COMPLEMENTARY metal oxide semiconductors, *CHARGE coupled devices, *LIGHT emitting diodes

Abstract

This paper presents the development of a hardware/software system for the characterization of the electronic response of optical (camera) sensors such as matrix and linear color and monochrome Charge Coupled Device (CCD) or Complementary Metal Oxide Semiconductor (CMOS). The electronic response of a sensor is required for inspection purposes. It also allows the design and calibration of the integrating device to achieve the desired performance. The proposed instrument equipment fulfills the most recent European Machine Vision Association (EMVA) 1288 standard ver. 3.1: the spatial non uniformity of the illumination ΔE must be under 3%, and the sensor must achieve an f-number of 8.0 concerning the light source. The following main innovations have achieved this: an Ulbricht sphere providing a uniform light distribution (irradiation) of 99.54%; an innovative illuminator with proper positioning of color Light Emitting Diodes (LEDs) and control electronics; and a flexible C# program to analyze the sensor parameters, namely Quantum Efficiency, Overall System Gain, Temporal Dark Noise, Dark Signal Non Uniformity (DSNU1288), Photo Response Non-Uniformity (PRNU1288), Maximum achievable Signal to Noise Ratio (SNRmax), Absolute sensitivity threshold, Saturation Capacity, Dynamic Range, and Dark Current. This new instrument has allowed a camera manufacturer to design, integrate, and inspect numerous devices and camera models (Necta, Celera, and Aria). [ABSTRACT FROM AUTHOR]

Published

2021

8. Optical apparatus for conversion of whispering-gallery modes into a free space gaussian like beam

Author

Byers, Jack [Danville, CA]

Published

1992

9. Fiber optics spectrochemical emission sensors

Author

Olsen, Khris [West Richland, WA]

Published

1992

10. Optical apparatus using liquid crystals for shaping the spatial intensity of optical beams having designated wavelengths

Author

Cerqua, Kathleen [Rochester, NY]

Published

1987