Your search keyword '"multisensor system"' showing total 14 results

1. Addressed Combined Fiber-Optic Sensors as Key Element of Multisensor Greenhouse Gas Monitoring Systems.

Author

Morozov, Oleg, Tunakova, Yulia, Hussein, Safaa M. R. H., Shagidullin, Artur, Agliullin, Timur, Kuznetsov, Artem, Valeev, Bulat, Lipatnikov, Konstantin, Anfinogentov, Vladimir, and Sakhabutdinov, Airat

Subjects

*FIBER Bragg gratings, *FABRY-Perot resonators, *DETECTORS, *POLYMER films, *OPTICAL fibers, *MICROWAVE photonics

Abstract

The design and usage of the addressed combined fiber-optic sensors (ACFOSs) and the multisensory control systems of the greenhouse gas concentration on their basis are investigated herein. The main development trend of the combined fiber-optic sensors (CFOSs), which consists of the fiber Bragg grating (FBG) and the Fabry–Perot resonator (FPR), which are successively formed at the optical fiber end, is highlighted. The use of the addressed fiber Bragg structures (AFBSs) instead of the FBG in the CFOSs not only leads to the significant cheapening of the sensor system due to microwave photonics interrogating methods, but also increasing its metrological characteristics. The structural scheme of the multisensory gas concentration monitoring system is suggested. The suggested scheme allows detecting four types of greenhouse gases (CO2, NO2, CH4 and Ox) depending on the material and thickness of the polymer film, which is the FPR sensitive element. The usage of the Karhunen–Loève transform (KLT), which allows separating each component contribution to the reflected spectrum according to its efficiency, is proposed. In the future, this allows determining the gas concentration at the AFBS address frequencies. The estimations show that the ACFOS design in the multisensory system allows measuring the environment temperature in the range of −60...+300 °C with an accuracy of 0.1–0.01 °C, and the gas concentration in the range of 10...90% with an accuracy of 0.1–0.5%. [ABSTRACT FROM AUTHOR]

Published

2022

2. Insights into Phytoplankton Dynamics and Water Quality Monitoring with the BIOFISH at the Elbe River, Germany.

Author

Wilhelms, Andre, Börsig, Nicolas, Yang, Jingwei, Holbach, Andreas, and Norra, Stefan

Subjects

WATER quality monitoring, WATER quality, PHYTOPLANKTON, BODIES of water, WATERSHEDS, OXYGEN saturation

Abstract

Understanding the key factors influencing the water quality of large river systems forms an important basis for the assessment and protection of cross-regional ecosystems and the implementation of adapted water management concepts. However, identifying these factors requires in-depth comprehension of the unique environmental systems, which can only be achieved by detailed water quality monitoring. Within the scope of the joint science and sports event "Elbschwimmstaffel" (swimming relay on the river Elbe) in June/July 2017 organized by the German Ministry of Education and Research, water quality data were acquired along a 550 km long stretch of the Elbe River in Germany. During the survey, eight physiochemical water quality parameters were recorded in high spatial and temporal resolution with the BIOFISH multisensor system. Multivariate statistical methods were applied to identify and delineate processes influencing the water quality. The BIOFISH dataset revealed that phytoplankton activity has a major impact on the water quality of the Elbe River in the summer months. The results suggest that phytoplankton biomass constitutes a substantial proportion of the suspended particles and that photosynthetic activity of phytoplankton is closely related to significant temporal changes in pH and oxygen saturation. An evaluation of the BIOFISH data based on the combination of statistical analysis with weather and discharge data shows that the hydrological and meteorological history of the sampled water body was the main driver of phytoplankton dynamics. This study demonstrates the capacity of longitudinal river surveys with the BIOFISH or similar systems for water quality assessment, the identification of pollution sources and their utilization for online in situ monitoring of rivers. [ABSTRACT FROM AUTHOR]

Published

2022

3. A Pencil-Drawn Electronic Tongue for Environmental Applications

Author

Monireh Dehabadi, Martin Jendrlin, Nabarun Bhattacharyya, Koustuv Ghosh, Andrey Legin, Aleksandar Radu, Rajib Bandyopadhyay, Vladimir L. Zholobenko, Subhankar Mukherjee, Souvik Pal, and Dmitry Kirsanov

Subjects

Electronic tongue, Alkalinity, TP1-1185, electronic tongue, 02 engineering and technology, Inorganic ions, 01 natural sciences, Biochemistry, Article, Analytical Chemistry, Rivers, Sensor array, Water Quality, Partial least squares regression, Potentiometric sensor, QD, Sensitivity (control systems), Least-Squares Analysis, zeolite, Electrical and Electronic Engineering, Electronic Nose, Instrumentation, environmental monitoring, Remote sensing, Chemical technology, 010401 analytical chemistry, 021001 nanoscience & nanotechnology, Atomic and Molecular Physics, and Optics, 0104 chemical sciences, Pencil (optics), Potentiometry, multisensor system, Environmental science, 0210 nano-technology, potentiometric sensors

Abstract

We report on the development of a simple and cost-effective potentiometric sensor array that is based on manual “drawing” on the polymeric support with the pencils composed of graphite and different types of zeolites. The sensor array demonstrates distinct sensitivity towards a variety of inorganic ions in aqueous media. This multisensor system has been successfully applied to quantitative analysis of 100 real-life surface waters sampled in Mahananda and Hooghly rivers in the West Bengal state (India). Partial least squares regression has been utilized to relate responses of the sensors to the values of different water quality parameters. It has been found that the developed sensor array, or electronic tongue, is capable of quantifying total hardness, total alkalinity, and calcium content in the samples, with the mean relative errors below 18%.

Published

2021

4. A Pencil-Drawn Electronic Tongue for Environmental Applications.

Author

Kirsanov, Dmitry, Mukherjee, Subhankar, Pal, Souvik, Ghosh, Koustuv, Bhattacharyya, Nabarun, Bandyopadhyay, Rajib, Jendrlin, Martin, Radu, Aleksandar, Zholobenko, Vladimir, Dehabadi, Monireh, and Legin, Andrey

Subjects

*ELECTRONIC tongues, *PARTIAL least squares regression, *SENSOR arrays, *PEARLITIC steel, *WATER quality

Abstract

We report on the development of a simple and cost-effective potentiometric sensor array that is based on manual "drawing" on the polymeric support with the pencils composed of graphite and different types of zeolites. The sensor array demonstrates distinct sensitivity towards a variety of inorganic ions in aqueous media. This multisensor system has been successfully applied to quantitative analysis of 100 real-life surface waters sampled in Mahananda and Hooghly rivers in the West Bengal state (India). Partial least squares regression has been utilized to relate responses of the sensors to the values of different water quality parameters. It has been found that the developed sensor array, or electronic tongue, is capable of quantifying total hardness, total alkalinity, and calcium content in the samples, with the mean relative errors below 18%. [ABSTRACT FROM AUTHOR]

Published

2021

5. A Combined Temperature and Stress Sensor in 0.18 μm CMOS Technology

Author

Samuel Francois, Samuel Huber, and Oliver Paul

Subjects

Work (thermodynamics), Engineering, Resistive touchscreen, Wheatstone bridge, Stress sensor, business.industry, Stress sensors, Cross sensitivity, temperature sensor, lcsh:A, stress sensor, law.invention, CMOS, law, multisensor system, Electronic engineering, cross-sensitivity, lcsh:General Works, business

Abstract

This paper presents a solution for on-chip temperature and mechanical stress measurement in CMOS integrated circuits. Thereby both temperature and stress sensors are realized as resistive Wheatstone bridges. By design, both sensors show outputs affected by non-linearities and parasitic cross-sensitivities. The novelty presented in this work is to combine both non-ideal sensor outputs by applying a two-dimensional Newton-Raphson method to extract the actual values of temperature and mechanical stress which were obtained with errors of less than 0.5 K and 0.5 MPa.

Published

2017

6. Multisensor Systems and Arrays for Medical Applications Employing Naturally-Occurring Compounds and Materials.

Author

Pauliukaite, Rasa and Voitechovič, Edita

Subjects

*BODY fluid analysis, *SENSOR arrays, *INDIVIDUALIZED medicine, *SUSTAINABLE development, *PREVENTIVE medicine

Abstract

The significant improvement of quality of life achieved over the last decades has stimulated the development of new approaches in medicine to take into account the personal needs of each patient. Precision medicine, providing healthcare customization, opens new horizons in the diagnosis, treatment and prevention of numerous diseases. As a consequence, there is a growing demand for novel analytical devices and methods capable of addressing the challenges of precision medicine. For example, various types of sensors or their arrays are highly suitable for simultaneous monitoring of multiple analytes in complex biological media in order to obtain more information about the health status of a patient or to follow the treatment process. Besides, the development of sustainable sensors based on natural chemicals allows reducing their environmental impact. This review is concerned with the application of such analytical platforms in various areas of medicine: analysis of body fluids, wearable sensors, drug manufacturing and screening. The importance and role of naturally-occurring compounds in the development of electrochemical multisensor systems and arrays are discussed. [ABSTRACT FROM AUTHOR]

Published

2020

7. Real-Time Water Quality Monitoring with Chemical Sensors.

Author

Yaroshenko, Irina, Kirsanov, Dmitry, Marjanovic, Monika, Lieberzeit, Peter A., Korostynska, Olga, Mason, Alex, Frau, Ilaria, and Legin, Andrey

Subjects

*CHEMICAL detectors, *MICROWAVE spectroscopy, *WATER pollution, *POLLUTION, *WATER quality

Abstract

Water quality is one of the most critical indicators of environmental pollution and it affects all of us. Water contamination can be accidental or intentional and the consequences are drastic unless the appropriate measures are adopted on the spot. This review provides a critical assessment of the applicability of various technologies for real-time water quality monitoring, focusing on those that have been reportedly tested in real-life scenarios. Specifically, the performance of sensors based on molecularly imprinted polymers is evaluated in detail, also giving insights into their principle of operation, stability in real on-site applications and mass production options. Such characteristics as sensing range and limit of detection are given for the most promising systems, that were verified outside of laboratory conditions. Then, novel trends of using microwave spectroscopy and chemical materials integration for achieving a higher sensitivity to and selectivity of pollutants in water are described. [ABSTRACT FROM AUTHOR]

Published

2020

8. Multisensory Gas Analysis System Based on Reconstruction Attractors.

Author

Cheremisina, Olga, Kulagin, Vladimir, El-Saleem, Suad, and Nikulchev, Evgeny

Subjects

*GAS analysis, *SYSTEM analysis, *ELECTRONIC noses, *FRACTAL dimensions, *SYSTEMS development, *ATTRACTORS (Mathematics)

Abstract

The paper describes the substance image formation based on the measurements by multisensor systems and the possibility of the development of a gas analysis device like an electronic nose. Classification of gas sensors and the need for their application for the recognition of difficult images of multicomponent air environments are considered. The image is formed based on stochastic transformations, calculations of correlation, and fractal dimensions of reconstruction attractors. The paper shows images created for substances with various structures that were received with the help of a multisensor system under fixed measurement conditions. [ABSTRACT FROM AUTHOR]

Published

2020

9. Electronic Tongues for Inedible Media.

Author

Kirsanov, Dmitry, Correa, Daniel S., Gaal, Gabriel, Riul, Antonio, Braunger, Maria L., Shimizu, Flavio M., Oliveira, Osvaldo N., Liang, Tao, Wan, Hao, Wang, Ping, Oleneva, Ekaterina, and Legin, Andrey

Subjects

*ELECTRONIC tongues, *CHEMICAL detectors, *SYSTEM analysis, *LIQUID analysis, *PUNCHED card systems, *HYPOGLOSSAL nerve

Abstract

"Electronic tongues", "taste sensors", and similar devices (further named as "multisensor systems", or MSS) have been studied and applied mostly for the analysis of edible analytes. This is not surprising, since the MSS development was sometimes inspired by the mainstream idea that they could substitute human gustatory tests. However, the basic principle behind multisensor systems—a combination of an array of cross-sensitive chemical sensors for liquid analysis and a machine learning engine for multivariate data processing—does not imply any limitations on the application of such systems for the analysis of inedible media. This review deals with the numerous MSS applications for the analysis of inedible analytes, among other things, for agricultural and medical purposes. [ABSTRACT FROM AUTHOR]

Published

2019

10. Three-Dimensional Measurement Method of Four-View Stereo Vision Based on Gaussian Process Regression.

Author

Gong, Miao, Zhang, Zhijiang, Zeng, Dan, and Peng, Tao

Subjects

*KRIGING, *BINOCULAR vision, *MULTISENSOR data fusion, *POINT cloud, *KERNEL functions, *GAUSSIAN processes

Abstract

Multisensor systems can overcome the limitation of measurement range of single-sensor systems, but often require complex calibration and data fusion. In this study, a three-dimensional (3D) measurement method of four-view stereo vision based on Gaussian process (GP) regression is proposed. Two sets of point cloud data of the measured object are obtained by gray-code phase-shifting technique. On the basis of the characteristics of the measured object, specific composite kernel functions are designed to obtain the initial GP model. In view of the difference of noise in each group of point cloud data, the weight idea is introduced to optimize the GP model, which is the data fusion based on Bayesian inference method for point cloud data. The proposed method does not require strict hardware constraints. Simulations for the curve and the high-order surface and experiments of complex 3D objects have been designed to compare the reconstructing accuracy of the proposed method and the traditional methods. The results show that the proposed method is superior to the traditional methods in measurement accuracy and reconstruction effect. [ABSTRACT FROM AUTHOR]

Published

2019

11. Acquisition System Based on Multisensors for Preserving Traditional Korean Painting.

Author

Choi, Taewon, Jung, Soonchul, Choi, Yoon-Seok, Jeon, Hyeong-Ju, and Kim, Jin Seo

Subjects

*PAINT, *CULTURAL property

Abstract

Rapid industrialization has significantly influenced people's lifestyles in the recent decades, and the influence of traditional culture is diminishing. Recently, several studies attempted to simultaneously utilize various sensors to record delicate and sophisticated performances of intangible cultural heritage (ICH). Although painting is one of the most common ICH of human history, few research studies have recorded traditional painting work. In this paper, we aim to lay the groundwork for reviving Korean painting, even if there would be no painters to produce these traditional Korean paintings in the future. We propose a novel multisensor-based acquisition system that records traditional Korean painting work while minimizing interference in the work. The proposed system captures real-time data originating from the painter, brushes, pigments, and canvas, which are the essential components of the painting work. We utilized the proposed system to capture the painting work by two experts, and we visualize the captured data. We showed the various results of statistical analysis, and also discussed the usability. [ABSTRACT FROM AUTHOR]

Published

2019

12. A Multisensor System for the Characterization of the Field Pressure in Terrain. Accuracy, Response, and Adjustments.

Author

Sicilia, Isabel, Aparicio, Sofía, Frutos, Borja, Muñoz, Eduardo, González, Margarita, and Anaya, José Javier

Subjects

*SOIL air, *PRESSURE sensors, *CONCRETE slabs, *PRESSURE, *PHENOMENOLOGICAL theory (Physics), *SUBSOILS

Abstract

In different disciplines of science, the knowledge of the resulting pressures in the subsoil can help to understand physical phenomena of mass exchange between the atmosphere and the terrain. The measurement of lower differential pressures is complicated given the low range of detected values. In this paper, a multisensor system has been designed and developed to measure differential pressures in radon gas transport studies. The adequacy of this system has been proven using a purpose-built pressure chamber and an automatic motion system developed by the authors. The temporal response frequencies, the pressure values measured by the sensors, and their ability to link in series were analyzed to offer a multisensor spatial and temporal mapping. At the same time, the influence of the components required for a real deployment were studied using different tube lengths and diameters, connectors, and obstructions across the operating range of the pressure sensors. The system has also been tested for measuring differential pressures in a real model with a concrete slab above the soil and a pressure generator system below. It was found that this system is very suitable for outdoor measurements that demand a quick temporal response and accuracy. [ABSTRACT FROM AUTHOR]

Published

2019

13. Modified Diamide and Phosphine Oxide Extracting Compounds as Membrane Components for Cross-Sensitive Chemical Sensors.

Author

Khaydukova, Maria, Militsyn, Danila, Karnaukh, Mikhail, Grüner, Bohumir, Selucký, Pavel, Babain, Vasily, Wilden, Andreas, Kirsanov, Dmitry, and Legin, Andrey

Subjects

CHEMICAL detectors, PHOSPHINE oxides, PLASTICIZERS, RARE earth oxides, DIAMIDES, VINYL chloride, SYSTEMS development

Abstract

This research is devoted to the development and study of novel cross-sensitive sensors based on modified extracting ligands. According to the previous results of liquid extraction studies, the chemical modification of membrane active components would change the analytical characteristics of a sensor comprising them. The sensing elements of the studied sensors consisted of various derivatives of N,N,N′,N′-tetraoctyldiamide of diglycolic acid (TODGA) and di-phenyl-N,N-di-i-sobutylcarbamoylmethylen phoshine oxide (CMPO) used as neutral carriers, CCD (chlorinated cobalt dicarbollide) as a lipophilic additive, different plasticizers, and poly(vinyl chloride) (PVC) as a polymer. TODGA-based sensors demonstrated a stable and reproducible response towards rare earth cations in acidic media (pH = 2). Changing the concentrations and ratio of neutral carriers and the lipophilic additive, it is possible to modify the sensitivity and selectivity of the sensors towards the same target ions. Bonded ligands, such as cobalt dicarbollide covalently attached to TODGA and CMPO, exhibited lower selectivity and sensitivity to rare earth cations. A possibility to vary the cross-sensitivity patterns of the sensors in a wide range might be of great interest for the development of multisensor systems allowing the simultaneous determination of several analytes in multicomponent solutions. [ABSTRACT FROM AUTHOR]

Published

2019

14. Rapid Evaluation of Integral Quality and Safety of Surface and Waste Waters by a Multisensor System (Electronic Tongue).

Author

Legin, Evgeny, Zadorozhnaya, Olesya, Khaydukova, Maria, Kirsanov, Dmitry, Rybakin, Vladimir, Zagrebin, Anatoly, Ignatyeva, Natalia, Ashina, Julia, Sarkar, Subrata, Mukherjee, Subhankar, Bhattacharyya, Nabarun, Bandyopadhyay, Rajib, and Legin, Andrey

Subjects

*WATER treatment plants, *CHEMICAL oxygen demand, *POTENTIOMETRY, *MULTISENSOR data fusion, *AQUATIC sports safety measures

Abstract

The paper describes a wide-range practical application of the potentiometric multisensor system (MS) (1) for integral safety evaluation of a variety of natural waters at multiple locations, under various climatic conditions and anthropogenic stress and (2) for close to real consistency evaluation of waste water purification processes at urban water treatment plants. In total, 25 natural surface water samples were collected around St. Petersburg (Russia), analyzed as is, and after ultrasonic treatment. Toxicity of the samples was evaluated using bioassay and MS. Relative errors of toxicity assessment with MS in these samples were below 20%. The system was also applied for fast determination of integral water quality using chemical oxygen demand (COD) values in 20 samples of water from river and ponds in Kolkata (India) and performed with an acceptable precision of 20% to 22% in this task. Furthermore, the MS was applied for fast simultaneous evaluation of COD, biochemical oxygen demand, inorganic phosphorous, ammonia, and nitrate nitrogen at two waste water treatment plants (over 320 samples). Reasonable precision (within 25%) of such analysis is acceptable for rapid water safety evaluation and enables fast control of the purification process. MS proved to be a practicable analytical instrument for various real-world tasks related to water safety monitoring. [ABSTRACT FROM AUTHOR]

Published

2019