Evaluation of the quality of measuring devices

A significant part of the water resources used in agricultural production comes for irrigation. Due to the strong dependence of soil moisture on weather factors, the irrigation process must be carefully managed. To date, irrigation management is mainly carried out either as a function of soil moisture or according to a predetermined program. The article shows that both methods of management are imperfect since they can lead to a violation of agrotechnical requirements and waste of water. In order to improve the quality of irrigation and eliminate overspending of water resources, it was proposed to manage the water in a combined way. In this case, the formation of the control action occurs according to the results of the comparison of the controlled variable and disturbing influences with the reference values. The controlled value is the soil moisture, and as disturbing influences are considered the temperature and humidity of the air, atmospheric pressure, wind speed, precipitation. In addition, the proposed irrigation management method takes into account the forecast of the synoptic services on precipitation, their intensity and duration. To obtain information on the controlled value, as well as on disturbing influences, appropriate measuring devices are used, and information on the prediction of precipitation is delivered from a specialized server via the Internet. Before starting to use the control method, the agrotechnical requirements, the type, age and vegetation period of the plants are determined and set. The inclusion of irrigation equipment is carried out in accordance with the program and shut down - depending on the magnitude of the control signal.

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Risk Assessment Terms and Definitions

Journal of Food Protection ◽

10.4315/0362-028x-59.13.6 ◽

1996 ◽

Vol 59 (13) ◽

pp. 6-9 ◽

Cited By ~ 8

Author(s):

MORRIS E. POTTER

Keyword(s):

Risk Assessment ◽

Scientific Data ◽

Public Confidence ◽

Process Variability ◽

Sources Of Uncertainty ◽

Modeling Process ◽

Measuring Devices ◽

Data Collection Process

ABSTRACT Risk assessment is the characterization of potential adverse effects of exposures to hazards, including estimates of the magnitude of the risk, the severity of outcome, and an indication of the uncertainties involved. Because risk assessments are based on statistical and other treatments of scientific data, the quality of such assessments is only as good as the data that go into their calculation. Sources of uncertainty include scanty and/or unrepresentative data, imprecise measuring devices, systematic flaws in the data collection process, variability in host response, and difficulties in the modeling process. Sources of uncertainty tend to be different for infectious and noninfectious hazards, which has led to the use of different risk assessment approaches. The ultimate goal in using risk assessment is to provide some objective estimate of risk that can be used by the food industry and regulatory agencies to assure that foods are acceptably safe. Public confidence in the risk-assessment technique will be won by its successful application and communication.

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Modeling perceptions using common impressions: Perceptual “authenticity,” “luxury,” and “quaintness” for leather

Textile Research Journal ◽

10.1177/0040517520935534 ◽

2020 ◽

Vol 91 (1-2) ◽

pp. 73-86

Author(s):

Shuhei Watanabe ◽

Takahiko Horiuchi

Keyword(s):

Animal Rights ◽

Subjective Evaluation ◽

Surface Shape ◽

Leather Processing ◽

Measuring Devices ◽

Angle Measuring ◽

Artificial Leather ◽

Perception Model ◽

Simple Equations

Genuine leather has numerous applications, such as car interiors and clothing, owing to its excellent quality. However, due to the high cost of genuine leather, animal rights issues, and environmental effects of leather processing, artificial leather has increasingly replaced genuine leather. The materials and processing methods used for artificial and genuine leathers are different, resulting in a variety of impressions and shitsukan, that is, the sense of quality of the object. In this study, we focused on the perceptual “authenticity,” “luxury,” and “quaintness,” which are important components needed to achieve the shitsukan of leather used in various products and examined the quantification of qualitative shitsukan using a perception model. We hypothesized that shitsukan can be recognized from the common potential impressions perceived from the properties of a material. Therefore, we developed a method for evaluating shitsukan using representative words for impressions that we perceive in objects and measured their image properties. The physical and psychophysical properties were obtained using several measurements. Multi-angle measuring devices were developed for the measurement experiments. Moreover, several subjective evaluation experiments were conducted to estimate the representative impressions that were potentially perceived in leather. Subsequently, we estimated two independent impressions, “surface shape” and “impression of stateliness” from the properties of leather. In addition, “authenticity,” “luxury,” and “quaintness,” were quantified using simple equations basis the impressions.

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Possibilities of continual Measurement Alignment

MATEC Web of Conferences ◽

10.1051/matecconf/201819603013 ◽

2018 ◽

Vol 196 ◽

pp. 03013

Author(s):

Jakub Chromčák

Keyword(s):

European Union ◽

Slovak Republic ◽

Measurement Technology ◽

European Standard ◽

Track Geometry ◽

Detailed Survey ◽

Measuring Devices ◽

European Standards ◽

Track Quality

The current legislative decree on Slovak republic is in the line with the applicable European Union standards and is based on the original legislative decrees supplemented and updated to meet the requirements of the European standards. The main European standard for track geometry is EN 13848. This standard specifies the requirements for aligning track geometry parameters that present the quality of track. Quality can be measured by different measuring devices mounted on tracking vehicles. This norm is applied to all track parameters. Each parameter is defined hand in hand with the requirements for its´ measuring, methodology of processing and interpreting of the results. [1] That are the reasons, why there is not only needed to be focus of measurement technology, but on the processing and alignment as well. It is also necessary to focus to an inertial precision of the system. There are few problems, such as impossibility of having the identical detailed survey points on a rail superstructure.

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USING A DATA LOGGER WHEN TESTING AND CALIBRATING MEASURING INSTRUMENTS

Oil and Gas Studies ◽

10.31660/0445-0108-2017-2-43-47 ◽

2017 ◽

pp. 43-47

Author(s):

D. A. Bakin ◽

S. .. Srinivasa Pai ◽

D. S. Leontiev

Keyword(s):

Process Control ◽

Human Factor ◽

High Accuracy ◽

Measuring Instruments ◽

Data Logger ◽

Calibration Process ◽

Measuring Devices ◽

Negative Role

Currently, metrology is an important element of any industry. Under these conditions, the accuracy of testing and calibration of measuring devices becomes critical. Due to the high accuracy of modern measuring instruments, human factor can play a significant negative role in the calibration process. Therefore, the use of modern tools, such as a data logger, can significantly improve the quality of the process, reducing staff functions to process control.

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Raising the operating quality of measuring devices

Measurement Techniques ◽

10.1007/bf00976358 ◽

1960 ◽

Vol 3 (4) ◽

pp. 353-353

Author(s):

N. S. Bychkov

Keyword(s):

Measuring Devices

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A review of the principles of turbidity measurement

Progress in Physical Geography Earth and Environment ◽

10.1177/0309133317726540 ◽

2017 ◽

Vol 41 (5) ◽

pp. 620-642 ◽

Cited By ~ 18

Author(s):

Ben GB Kitchener ◽

John Wainwright ◽

Anthony J Parsons

Keyword(s):

Suspended Sediment ◽

Sediment Concentration ◽

Data Sets ◽

New Methods ◽

Measuring Devices ◽

Optical Attenuators ◽

Measurement Units ◽

Definition Of ◽

Rich Data

Turbidity of water due to the presence of suspended sediment is measured and interpreted in a variety of ways, which can lead to the misinterpretation of data. This paper re-examines the physics of light scattering in water, and exposes the extent to which the reporting of turbidity data is inconsistent. It is proposed that the cause of this inconsistency is the fact that the accepted turbidity standards USEPA Method 180.1, ISO 7027 and GLI Method 2 are mutually inconsistent, as these standards give rise to a large number of measurement units that are not based on the optical properties of light absorption and scattering by suspensions in water, but by the arbitrary definition of the degree of turbidity being due to a concentration of formazin or other similar polymer-based calibration standard. It is then proposed that all turbidity-measuring devices should be calibrated with precise optical attenuators such as neutral density filters. Such calibration would allow for the definition of a beam attenuation coefficient for every turbidity-measuring instrument which would be cross-comparable with any other instrument calibrated in the same way. The units for turbidity measurements should be based on attenuation and reported as dB m−1. It is also proposed that a new standard should be drafted according to this attenuation-based method, and this new standard should also define the nomenclature for reporting data collected at any specific scattering angle in terms of an attenuation in dB m−1. The importance of multi-parameter turbidity measurements for the improvement of the quality of turbidity data and the application of parameter-rich data sets to new methods of sediment characterization are discussed. It is suggested that more research into multi-parameter turbidity measurements is needed, as these new methods will facilitate an increase in parity between turbidity and suspended sediment concentration, a relationship that is subjective.

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The Windows in the Modular Structure - Air Tightness and Quality of Installation Diagnostics

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.1041.187 ◽

2014 ◽

Vol 1041 ◽

pp. 187-190

Author(s):

Pavel Oravec ◽

Barbora Hrubá ◽

Zdeněk Peřina

Keyword(s):

Critical Points ◽

Laboratory Testing ◽

Residential Buildings ◽

Apartment Building ◽

Real Condition ◽

Measuring Devices ◽

Time Scanning ◽

The Subject ◽

Air Tightness

Renewal windows and doors in residential buildings is a big trend at present. On windows, as products, a number of strict requirements that are fulfilled during laboratory testing are placed. What is the real condition after installation in the construction? The subject of this paper is the assessment of the tightness of replaced windows and doors in apartment situated in a prefabricated apartment building. For the diagnosis measuring devices Blower Door was used. At the same time scanning by infrared thermocamera was done. Critical points of leakage were detected. In the conclusion possibilities of solving leading to ensuring the required tightness are described.

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Application of computed tomography for measuring of roundness

Mechanik ◽

10.17814/mechanik.2017.12.197 ◽

2017 ◽

Vol 90 (12) ◽

pp. 1157-1159 ◽

Cited By ~ 1

Author(s):

Bartosz Gapiński ◽

Michał Wieczorowski ◽

Karol Grochalski ◽

Katarzyna Peta

Keyword(s):

Computed Tomography ◽

Comprehensive Assessment ◽

Measuring Technique ◽

Customer Expectations ◽

Measuring Devices ◽

Measurement Results ◽

Form Deviation ◽

Ct Measurement

Customer expectations in terms of products quality are constantly growing. Therefore, to control only dimensions is not enough; it is necessary to check also the form deviation or roughness. The vast majority of measurement nowadays is carried out by different coordinate measuring devices. Measuring computed tomography is the newest field of coordinate measuring technique, which makes many aspects of its accuracy and possible applications still open. The paper presents the measurement results of elements with different values of roundness deviations. Examined samples were checked on a formtester and computed tomography. For CT measurement, different strategies to verify the influence on received results were used. The ability to measure form deviations on CT allows to verify the quality of hard to reach part areas, but also a comprehensive assessment of geometry, e.g. parts made of plastic and measured on CT.

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ANALYSIS OF METHODS FOR CONTROLLING THE ACCURACY OF PAINT MATCHING

Южно-Сибирский научный вестник ◽

10.25699/sssb.2021.37.3.001 ◽

2021 ◽

pp. 103-108

Author(s):

О.В. Трапезникова

Keyword(s):

Data Processing ◽

Statistical Data ◽

Reliable Control ◽

Labor Intensity ◽

Technological Operation ◽

Color Combination ◽

Measuring Devices ◽

Printing Inks ◽

Test Objects

К числу основных контролируемых показателей, характеризующих качество многокрасочного изображения на печатном изделии, относится совмещение красок. Совмещение красок на оттиске представляет собой технологическую операцию, состоящую в нанесении на запечатываемую подложку отдельных печатных красок для формирования совмещенного многокрасочного изображения на печатном изделии в соответствии с требованиями его целостностности и информативности. Контроль и оценку совмещения красок на оттиске осуществляют различными методами и проводят по приводочным крестам, тест-объектам или по полученному изображению. Актуальность работы обоснована тем, что анализ запатентованных методов контроля совмещения красок при печатании и рекомендуемых стандартизированных методов показал, что для них свойственна высокая трудоемкость, наличие специальных устройств для проведения контроля, нестабильность оценки результата, а также они не обеспечивают нужную точность и объективность определения параметров совмещения красок. Это приводит к ухудшению качества напечатанных оттисков и появлению брака. В работе разработан алгоритм оценки смещения контрольных меток с применением оптических измерительных приборов и идентификацией полученного результата совмещения красок с вариантами компьютерного моделирования, с последующей статистической обработкой данных. Предложенный подход обеспечивает достоверность контроля совмещения красок и точность определения параметров его стабилизации (0,05-0,01 мм), а также позволяет объективно управлять процессом совмещения красок для обеспечения качества печатных изделий. One of the main controlled indicators that characterize the quality of a multicolored image on a printed product is the combination of colors. The combination of colors on the impression is a technological operation that consists in applying separate printing inks to the printed substrate to form a combined multicolored image on the printed product in accordance with the requirements of its integrity and informativeness. Control and evaluation of the combination of colors on the impression is carried out by various methods and is carried out on the drive crosses, test objects or on the resulting image. The relevance of the work is justified by the fact that the analysis of the patented methods of controlling the combination of paints in printing and the recommended standardized methods showed that they are characterized by high labor intensity, the presence of special devices for monitoring, instability of the result evaluation, and they do not provide the necessary accuracy and objectivity in determining the parameters of the combination of paints. This leads to a deterioration in the quality of the printed prints and the appearance of defects. The paper develops an algorithm for estimating the displacement of control marks using optical measuring devices and identifying the resulting result of combining colors with computer modeling options, followed by statistical data processing. The proposed approach provides reliable control of the color combination and the accuracy of determining the parameters of its stabilization (0.05-0.01 mm), and also allows you to objectively control the process of combining colors to ensure the quality of printed products.

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