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Artykuły w czasopismach na temat „Environmental monitoring”

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Autor: Grafiati
Data publikacji: 4 czerwca 2021
Data aktualizacji: 1 sierpnia 2024

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1

Mashevska, Marta, Roman Shchur i Aleksander Ostenda. "GLOBAL ENVIRONMENTAL MONITORING SYSTEM". Measuring Equipment and Metrology 82, nr 4 (2021): 26–31. http://dx.doi.org/10.23939/istcmtm2021.04.026.

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This article reveals the problems of creating a monitoring system to assess the ecological state of the environment of the selected area. An information model of the system has been developed, which takes into account the parameters of air, surface water, and soil pollution. The main components of the system, including the logical model of the database, have been designed and implemented. To assess the state of the environment according to the selected pollution parameters, the fuzzy logic model is constructed.
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Kettrup, Antonius A. F. "ENVIRONMENTAL MONITORING". Environmental Engineering and Management Journal 2, nr 2 (2003): 119–30. http://dx.doi.org/10.30638/eemj.2003.011.

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Greenwood, Richard, Graham A. Mills i Bran Vrana. "Improving environmental monitoring". TrAC Trends in Analytical Chemistry 25, nr 8 (wrzesień 2006): 751–54. http://dx.doi.org/10.1016/j.trac.2006.07.005.

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Fredericks, Sarah E. "Monitoring Environmental Justice". Environmental Justice 4, nr 1 (marzec 2011): 63–69. http://dx.doi.org/10.1089/env.2010.0024.

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Dhermain, Joël. "Environmental Monitoring Technology". Military Medicine 167, suppl_1 (1.02.2002): 26–29. http://dx.doi.org/10.1093/milmed/167.suppl_1.26.

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Zdravcheva, N. D. "Hyperspectral environmental monitoring". IOP Conference Series: Materials Science and Engineering 614 (24.09.2019): 012014. http://dx.doi.org/10.1088/1757-899x/614/1/012014.

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Hulwan, Prof D. B. "Environmental Monitoring System". International Journal for Research in Applied Science and Engineering Technology 11, nr 5 (31.05.2023): 3590–95. http://dx.doi.org/10.22214/ijraset.2023.51826.

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Abstract: In recent times especially in India, people have become increasingly aware of the importance of the environment they reside in. This has led to a growing demand for a dependable environmental monitoring system. Apart from its industrial application, an environment friendly system to monitor the air quality is too essential for ensuring the safety of workers in chemical, mining, and food industries etc., where there are chances of air getting contaminated by baleful impurities. Largescale sensor deployment for such purposes raises concerns over gathering of the data, handling, connectivity, utilization of power and the potential of the system. Internet of Things (IoT) technology is ideally suited to address these challenges. This paper takes IOT as base and designed the whole system using sensors, micro controllers, and IoT-based technology to effectively monitor changes in the environment. The proposed module enables users to monitor the certain parameters of environment such as humidity, moisture, temperature and expose the present contaminants in the atmosphere. So, the paper also describes the development of a web application that provides vital information to users and allows them to set up notifications for the certain vital changes in data provided by sensor. Compared to other such parallel systems, this system which we have come up with is very cost effective, precise, friendly, and very simple to monitor and visualize the data provided. This proposed system has been checked at different stages The system has been evaluated in various stages and has demonstrated an intense perfection under different conditions.
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8

P, Tuccimei. "mproving Gas Permeability Measurements for Environmental Monitoring and Management". Open Access Journal of Waste Management & Xenobiotics 2, nr 2 (2019): 1–11. http://dx.doi.org/10.23880/oajwx-16000123.

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Intrinsic permeability is a crucial parameter to interpret soil gas data recorded from monitoring stations in different environmental settings. It is also fundamental for environmental management and pollution reme diation. An improved version of a permeameter (PRM3) recently developed for environmental applications is presented and calibrated against a reference instrument (RADON - JOK produced by RADON v.o.s.). The innovations of this prototype are: i) the absence of the flow meter, and ii) a membrane pump in place of a rotary vane device. Proper calculation of the permeability from Darcy’s law is provided, as well as a modified formula for permeability determination in volcanic areas. Actually, soil gas viscosity and permeability are affected by changing gas temperature and composition. The effects of these two parameters on soil gas viscosity and permeability are also displayed. The second part of the paper shows the employ of permeability measurements in environment al monitoring. The aim of these field - works was the study of lateral and vertical variability of soil permeability at a very small scale (step of 0.25 m) and the effect of intrinsic permeability on gas transport through the soil and on gas concentration al ong depth profiles . We chose 2 different test sites: Valle della Caffarella (Roma, Italy) and Solfatara Volcano (Pozzuoli, Italy) areas. A specific protocol, designed to check any interference among permeability measurements carried out at very close dista nces demonstrated that no disturbance is occurring. Intrinsic permeability profiles resulted to be good proxy indicators for the degassing style of the two areas. In both cases, it gave important hints to interpret environmental data and help in the manage ment of the sites.
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9

Kozhemyako, A. V., O. O. Sidoruk i M. I. Ursan. "Optoelectronic environmental monitoring system". Optoelectronic Information-Power Technologies 37, nr 1 (listopad 2019): 116–22. http://dx.doi.org/10.31649/1681-7893-2019-37-1-116-122.

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Menon, Karthik Sudhakaran, Brinzel Rodrigues, Akash Prakash Barot i Prasad Avinash Gharat. "Smart Environmental Monitoring System". International Journal of Green Computing 10, nr 1 (styczeń 2019): 43–54. http://dx.doi.org/10.4018/ijgc.2019010103.

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In today's world, air pollution has become a common phenomenon everywhere, especially in the urban areas, air pollution is a real-life problem. In urban areas, the increased number of hydrocarbons and diesel vehicles and the presence of industrial areas at the outskirts of the major cities are the main causes of air pollution. The problem is seriously intense within the metropolitan cities. The governments around the world are taking measure in their capability. The main aim of this project is to develop a system which may monitor and measure pollutants in the air in real time, tell the quality of air and log real-time data onto a remote server (Cloud Service). If the value of the parameters exceeds the given threshold value, then an alert message is sent with the GPS coordinates to the registered number of the authority or person so necessary actions can be taken. The Arduino board connects with Thingspeak cloud service platform using ESP8266 Wi-Fi module. The device uses multiple sensors for monitoring the parameters of the air pollution like MQ-135, MQ-7, DHT-22, sound sensor, LCD.
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11

Ho, Clifford, i M. Schöning. "Sensors for Environmental Monitoring". Sensors 5, nr 1 (28.01.2005): 1–3. http://dx.doi.org/10.3390/s5010001.

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12

Oura, Masahiro. "Perspective for Environmental Monitoring". Japan journal of water pollution research 9, nr 12 (1986): 747. http://dx.doi.org/10.2965/jswe1978.9.747.

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13

Nistor, P., i I. Orha. "Environmental Parameters Monitoring System". Carpathian Journal of Electronic and Computer Engineering 14, nr 2 (1.12.2021): 6–10. http://dx.doi.org/10.2478/cjece-2021-0007.

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Abstract The project presents the development of a system for monitoring environmental parameters. At the base of this system is the ESP-32S board that collects, processes and transmits data from the three sensors to the two web interfaces. The role of these web interfaces is to display the data collected from the sensors. The local web interface consists of two windows, the first window contains the table of sensors that displays the data measured by the sensors at that time. In the second window you can see the data measured by the sensors through graphs. They store the sensor data, giving the user the ability to view previously measured data. The local web interface provides sensor data only in the Wi-Fi network coverage area, and its data is deleted when the server is closed. The global web interface displays data using graphs. At the base of this web interface is the ThingSpeak platform that allows the system to transmit data anywhere in the world, store data in the Cloud space and the possibility of using special analysis functions.
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14

Settele, Josef, i Wiebke Zueghart. "GMO environmental impact monitoring". BioRisk 8 (8.08.2013): 1–2. http://dx.doi.org/10.3897/biorisk.8.5949.

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15

Lovett, Gary M., Douglas A. Burns, Charles T. Driscoll, Jennifer C. Jenkins, Myron J. Mitchell, Lindsey Rustad, James B. Shanley, Gene E. Likens i Richard Haeuber. "Who needs environmental monitoring?" Frontiers in Ecology and the Environment 5, nr 5 (czerwiec 2007): 253–60. http://dx.doi.org/10.1890/1540-9295(2007)5[253:wnem]2.0.co;2.

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16

Meggitt, G. C., i David R. Williams. "Environmental monitoring and modelling". Analytical Proceedings 26, nr 5 (1989): 161. http://dx.doi.org/10.1039/ap9892600161.

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17

Canter, L. W., i D. M. Fairchild. "POST-EIS ENVIRONMENTAL MONITORING". Impact Assessment 4, nr 3-4 (marzec 1986): 263–85. http://dx.doi.org/10.1080/07349165.1986.9725787.

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18

Gaisford, W. C., i D. M. Rawson. "Biosensors for Environmental Monitoring". Measurement and Control 22, nr 6 (lipiec 1989): 183–86. http://dx.doi.org/10.1177/002029408902200604.

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19

Schröder, Winfried, Gunther Schmidt i Roland Pesch. "Harmonization of environmental monitoring". Environmental Science and Pollution Research 10, nr 6 (listopad 2003): 415. http://dx.doi.org/10.1065/ehs2003.07.010.

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20

Martin, Graham, i Nigel Blades. "Cultural property environmental monitoring". Studies in Conservation 39, sup2 (styczeń 1994): 159–63. http://dx.doi.org/10.1179/sic.1994.39.supplement-2.159.

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21

Fu, Liling, Panagiotis Dallas, Virender K. Sharma i Kewei Zhang. "Sensors for Environmental Monitoring". Journal of Sensors 2016 (2016): 1. http://dx.doi.org/10.1155/2016/4108790.

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22

KARUBE, ISAO, KAZUYOSHI YANO, SATOSHI SASAKI, YOKO NOMURA i KAZUNORI IKEBUKURO. "Biosensors for Environmental Monitoring". Annals of the New York Academy of Sciences 864, nr 1 ENZYME ENGINE (grudzień 1998): 23–36. http://dx.doi.org/10.1111/j.1749-6632.1998.tb10285.x.

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23

Jiang, Rui, Yaqi Xu, Zhen Huang i Zheng Ma. "Wireless Environmental Monitoring Device". Procedia Engineering 15 (2011): 2469–73. http://dx.doi.org/10.1016/j.proeng.2011.08.464.

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Rüdel, Heinz, Winfried Schröder, Karl Theo von der Trenck i Gerhard Andreas Wiesmüller. "Substance-related environmental monitoring". Environmental Science and Pollution Research 16, nr 5 (23.12.2008): 486–98. http://dx.doi.org/10.1007/s11356-008-0085-1.

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Gibson, J. A. B., J. A. Dennis i J. R. Harvey. "Quantities for environmental monitoring". Journal of Radiological Protection 9, nr 1 (1.03.1989): 61–62. http://dx.doi.org/10.1088/0952-4746/9/1/409.

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Rogers, K. R., i J. N. Lin. "Biosensors for environmental monitoring". Biosensors and Bioelectronics 7, nr 5 (styczeń 1992): 317–21. http://dx.doi.org/10.1016/0956-5663(92)85026-7.

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27

Nielsen, K. S., K. M. Mattson, D. G. Kelly i L. G. I. Bennett. "Environmental radionuclide monitoring programme". Journal of Radioanalytical and Nuclear Chemistry 271, nr 3 (marzec 2007): 621–27. http://dx.doi.org/10.1007/s10967-007-0317-8.

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28

Dennison, M. J., i A. P. F. Turner. "Biosensors for environmental monitoring". Biotechnology Advances 13, nr 1 (styczeń 1995): 1–12. http://dx.doi.org/10.1016/0734-9750(94)00020-d.

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Price, Martin F. "Environmental monitoring and protection". Technology in Society 11, nr 1 (styczeń 1989): 113–25. http://dx.doi.org/10.1016/0160-791x(89)90045-6.

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Nguyen, Phat-Loc, Simranjeet Singh Sekhon, Ji-Young Ahn, Jung Ho Ko, Lyon Lee, Sung-Jin Cho, Jiho Min i Yang-Hoon Kim. "Aptasensor for environmental monitoring". Toxicology and Environmental Health Sciences 9, nr 2 (czerwiec 2017): 89–101. http://dx.doi.org/10.1007/s13530-017-0308-2.

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31

HUMINIC, Bianca-Laura. "BLUETOOTH ENVIRONMENTAL MONITORING SYSTEM". Review of the Air Force Academy 21, nr 2 (26.02.2024): 60–69. http://dx.doi.org/10.19062/1842-9238.2023.21.2.8.

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The primary goal of this project is to construct an environmental monitoring system integrating a Bluetooth HC-06 module. Drawing upon acquired expertise, the project resulted in the development of a functional system capable of gathering sensor data, transmitting it wirelessly to a mobile device via the Bluetooth module, and displaying it in real-time. The utilization of the FreeRTOS operating system facilitated synchronous data collection, orchestrated through tasks synchronized by semaphores, thereby guaranteeing the integrity of real- time data acquisition and transmission.
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32

Мкртчян, Ф. А., i В. Ю. Солдатов. "ON MONITORING ENVIRONMENTAL DISASTERS". Проблемы окружающей среды и природных ресурсов, nr 9 (1.09.2023): 117–29. http://dx.doi.org/10.36535/0235-5019-2023-09-3.

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В статье рассматриваются вопросы экологических катастроф, которые приобретают все более значимый характер в связи с возрастающей зависимостью человека от неблагоприятных изменений в окружающей среде. Частота возникновения экологических катастроф нарастает с каждым годом. Катастрофические тенденции в последние десятилетия поставили перед учеными в различных областях знания задачу разработки технологий оптимального сочетания антропогенной активности и природоохранной деятельности. В статье оценивается роль ГИМС-технологии диагностики динамики и последствий аномальных явлений, стихийных бедствий и техногенных катастроф. Получены оценки эффективности мониторинговых систем обнаружения аномалий. Рассматриваются вопросы обнаружения и идентификации пятен загрязнителей на водной поверхности The article deals with the issues of environmental disasters, which are becoming more and more significant in connection with the increasing dependence of man on adverse changes in the environment. The frequency of occurrence of environmental disasters is increasing every year. Catastrophic trends in recent decades have set the task for scientists in various fields of knowledge to develop technologies for the optimal combination of anthropogenic activity and environmental protection. The article evaluates the role of GIMS technology for diagnosing the dynamics and consequences of anomalous phenomena, natural disasters and man-made disasters. Estimates of the effectiveness of monitoring systems for detecting anomalies are obtained. The issues of detection and identification of pollutant spots on the water surface are considered.
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VILLA, Sabrina Moura, Thamiris Brandino STELLATO, Joyce Rodrigues MARQUES, Mainara Generoso FAUSTINO, Douglas Batista SILVA, Lucilena Rebelo MONTEIRO, Tatiane B. S. Carvalho DA SILVA, Marycel E. Barbosa COTRIM i Maria Aparecida F. PIRES. "QUALITY ASSURANCE OF ANIONS ENVIRONMENTAL MONITORING IN IPEN S ENVIRONMENTAL MONITORING PROGRAM". Periódico Tchê Química 14, nr 27 (20.01.2017): 91–96. http://dx.doi.org/10.52571/ptq.v14.n27.2017.90_periodico27_pgs_91_96.pdf.

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This work aims to assess the internal and external quality control of the anion analysis, accomplished at IPEN, using chromatography technique ions and Statistical Methods for data analysis. So it was possible to conclude that the system is over control, generating reliable results
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Klingel, Ralf, Ralf Krämer, Matthias Stoffels i Jean Thein. "Environmental monitoring on the Wahnbach Reservoir". Zeitschrift der Deutschen Geologischen Gesellschaft 148, nr 3-4 (12.12.1997): 357–67. http://dx.doi.org/10.1127/zdgg/148/1997/357.

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Li, Yijie. "The Structure of Monitoring Node and Monitoring Center of Environmental Monitoring System". E3S Web of Conferences 245 (2021): 02015. http://dx.doi.org/10.1051/e3sconf/202124502015.

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The monitoring items shall be determined in a scientific and reasonable way according to the environmental monitoring standards and specifications, The purpose of environmental monitoring is to reflect the monitoring data of environmental monitoring system in real time, accurately and comprehensively. It provides scientific basis for environmental planning and macro decision-making. It makes the environmental monitoring system feasible and economical. Guided by the technical route of environmental monitoring, combined with the practical principle and priority monitoring principle, the comprehensive planning and reasonable arrangement are made. Environmental protection, scientific research and other purposes. Aiming at the monitoring node and monitoring center of environmental monitoring system, this paper analyzes the important position of environmental management and monitoring plan. This paper discusses the composition and structure of the monitoring system, in order to maximize the role of environmental management, reduce and mitigate the impact of monitoring projects on the ecological environment, and realize the sustainable development and operation of environmental system monitoring.
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MOCHIDUKI, Mariko, i Fukiko UEDA. "The Significance and Problems of Environmental Monitoring: A New Method of Environmental Monitoring". Journal of the Japan Veterinary Medical Association 70, nr 1 (2017): 57–61. http://dx.doi.org/10.12935/jvma.70.57.

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Kharb, Latika, i Deepak Chahal. "Leveraging Edge Computing for Real-time Environmental Monitoring and Analysis". International Journal of Research Publication and Reviews 4, nr 7 (lipiec 2023): 4078–82. http://dx.doi.org/10.55248/gengpi.4.723.47430.

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Dzhumabaev, Marat. "Environmental monitoring of environmental objects: the essence of the concept". АгроЭкоИнфо 3, nr 57 (10.06.2023): 4. http://dx.doi.org/10.51419/202133304.

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The article analyzes various approaches to the definition of the essence of the concept of "environmental monitoring". The key task of environmental monitoring of environmental objects is defined. The types of environmental monitoring are identified and characterized. In the course of the research, the author gave his own concept of "environmental monitoring of environmental objects". The essence of environmental monitoring of environmental objects is revealed. Keywords: ANTHROPOGENIC FACTOR, BIOSPHERE, MONITORING, ENVIRONMENT, NATURAL ENVIRONMENT, ENVIRONMENTAL MONITORING, ENVIRONMENTAL MONITORING OF ENVIRONMENTAL OBJECTS, ECOLOGICAL SYSTEM
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39

Rodríguez‐Ezpeleta, Naiara, Lucie Zinger, Andrew Kinziger, Holly M. Bik, Aurélie Bonin, Eric Coissac, Brent C. Emerson i in. "Biodiversity monitoring using environmental DNA". Molecular Ecology Resources 21, nr 5 (24.05.2021): 1405–9. http://dx.doi.org/10.1111/1755-0998.13399.

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Kingham, N. "Environmental action for community monitoring". Water Science and Technology 45, nr 11 (1.06.2002): 177–84. http://dx.doi.org/10.2166/wst.2002.0393.

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Community monitoring began in Australia in the 1980s primarily as an awareness-raising tool. Since that time, the community has developed increased skills and knowledge in monitoring procedures and both the data collectors and data users are placing greater demands on community data to be accurate and reliable. With over 3,500 community groups in the field collecting data at over 5,000 sites across Australia, the Waterwatch Program has developed guidelines and tools for monitoring and data collection for the community to collect reliable, accurate and useful data. This paper will discuss how Waterwatch is providing technical support through a range of data confidence guidelines and procedures to ensure that community monitoring and community data continue to play a significant role in the protection and management of our waterways. This paper will also draw on a couple of case studies from across Australia that demonstrate community data being used by a variety of stakeholders.
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41

Simeonov, Vasil. "Didactical Principles of Environmental Monitoring". Chemistry-Didactics-Ecology-Metrology 24, nr 1-2 (1.12.2019): 99–106. http://dx.doi.org/10.2478/cdem-2019-0008.

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Abstract Environmental monitoring is a very important part of all environmental risk assessment tasks aiming correct estimation of the ecological status of water, air, soil, and biota systems. However, special attention is rarely paid to the problem in the teaching programs for students of bachelor or master degree dedicated to environmental chemistry. The same holds true for secondary school programs for chemical education. It is the aim of the present communication to present in a simple and understandable way the major elements of the environmental monitoring as substantial consistent of the overall scheme of environmental risk assessment as presented to chemistry students and secondary school pupils.
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Rönnbäck, Britt-Inger, Maj-Liz Nordberg, Anders Olsson i Anders Östman. "Evaluation of Environmental Monitoring Strategies". AMBIO: A Journal of the Human Environment 32, nr 8 (grudzień 2003): 495–501. http://dx.doi.org/10.1579/0044-7447-32.8.495.

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Brinzan*, Oana, Eugenia Tigan i Lucian Halmagean. "ENVIRONMENTAL MONITORING THROUGH ECOLOGICAL FOOTPRINT". Environmental Engineering and Management Journal 4, nr 2 (2005): 229–36. http://dx.doi.org/10.30638/eemj.2005.025.

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Lawrence, John, i Keijo I. Aspila. "Quality Assurance for Environmental Monitoring". Water Quality Research Journal 30, nr 1 (1.02.1995): 1–8. http://dx.doi.org/10.2166/wqrj.1995.003.

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Abstract A data quality management framework for ecological monitoring programs is described. A total quality management framework has three key elements: quality management planning, quality control, and quality assessment and audit. The quality management plan establishes the data quality objectives, the protocols and procedure documents to be followed, reporting schedules, training needs and the individuals to be held accountable. Quality control is the systematic set of procedures carried out by each operational unit involved in the measurement process. Quality assessment is the set of procedures designed to provide the overall check on data quality while verifying that the other components of the framework are adequate.
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45

Kumbhare, Sonali, Dilip S. Ramteke i Pravin Charde. "Environmental Monitoring in Offshore Areas". International Journal of Current Microbiology and Applied Sciences 6, nr 6 (10.06.2017): 1957–70. http://dx.doi.org/10.20546/ijcmas.2017.606.229.

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Jaffrezic-Renault, Nicole, i Sergei Dzyadevych. "Conductometric Microbiosensors for Environmental Monitoring". Sensors 8, nr 4 (11.04.2008): 2569–88. http://dx.doi.org/10.3390/s8042569.

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Yadav, Sanchit, i Kamlesh Kumar Singh. "Smart Environmental Health Monitoring System". Journal of Informatics Electrical and Electronics Engineering (JIEEE) 2, nr 1 (5.04.2021): 1–5. http://dx.doi.org/10.54060/jieee/002.01.003.

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Pollution is a growing issue these days. It is necessary to analyze environment & keep it in check for a for best future as well as healthy living for all. Here we propose an Envi-ronment Monitoring System that permit us to watch & check live environment in espe-cially areas through Internet of Things (IOT). IoT supported a real time environmental monitoring system. It plays a crucial role in today’s world through a huge and pro-tract-ed system of sensor networks concerned to the environment & its parameters. This technique deals with monitoring important environmental conditions like temperature, humidity & CO level using the sensor & then this data is shipped to the web page. This information is often access from anyplace over the internet & then the sensor in-formation is presented as graphical statistics during mobile application. This paper explains & present the implementation & outcome of this environmental system uses the sensors for temperature, humidity, air quality & different environmental parameters of the surrounding space. This data is often used to take remote actions to regulate the conditions. Information is pushed to the distributed storage & android app get to the cloud & present the effect to the end users. The system employs a Node MCU, DHT-11 sensor, MQl35 sensor, which transmits data to WEBPAGE. An Android application is made which accesses the cloud data and displays results to the end users. The sensors interact with microcontroller which processes this information & transmit it over internet. This system is best method for any use in monitoring the environment and handling it because everything is controlled automatically through all the time of the process. The results say everything about the application of this system across different field where it was controlled precisely and effectively which further explains that this system easily makes our work easier because of this automatic monitoring system worries about other unexpected climate issues for world.
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Bondarenko, E., i O. Yatsenko. "GIS IN ENVIRONMENTAL MONITORING TASKS". Bulletin of Taras Shevchenko National University of Kyiv. Geography, nr 76-77 (2020): 95–100. http://dx.doi.org/10.17721/1728-2721.2020.76-77.14.

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The article proposes a methodological approach to general (standard) environmental monitoring based on the functionality of geographic information systems (GIS). It consists of the theoretical and methodological substantiation of the algorithm for the creation of primary assessment cartographic models that determine the state of the environment as a whole and for individual components. The authors formulated requirements for creating a system of geoinformation monitoring of the environment, which generally correlate with the tasks of the state system of environmental monitoring. These are the multilevel nature of the monitoring system, the complexity of observations of the state and dynamics of environmental management objects, the mutual consistency of heterogeneous indicators, the dependence of the observation frequency on the development of natural and anthropogenic processes, the consistency of observations with the development of forecasting and modeling techniques, the need to systematize observation data in GIS databases. The authors presented a group of methodological principles for constructing a monitoring system based on GIS and disclosed their content. The regulatory principles for the creation and operation of GIS monitoring are the following principles: objectivity, systematic observation of the state of the environment, multilevel, consistency of regulatory and methodological support, consistency of software and hardware, interoperability, the efficiency of information passing between individual links of the system, openness of information for the population. The principles that ensure the state of the necessary information for its use in GIS include the principles: completeness of information, reliability, modernity, complexity in the assessment of environmental information, multivariate presentation of results. The article also defines the requirements for the information support of GIS environmental monitoring. These are: taking into account the entire complex of natural, social, and economic characteristics of environmental objects; the need to use thematic and special maps of different content and purpose in addition to field observations; supplementing cartographic materials with statistical, textual data reflecting the statics and dynamics of objects and monitoring phenomena, presented on the resulting maps; periodic updating of GIS information support using remote sensing materials. GIS monitoring by structure blocks with a distributed architecture. The GIS-based environmental monitoring algorithm is implemented on the example of creating primary resulting cartographic models of the estimated type – maps of atmospheric air pollution fields according to the atmospheric air quality index AQI PM 2.5.
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Vaughan, Robert D., Elaine Geary, Mila Pravda i George G. Guilbault. "Piezoelectric Immunosensors for Environmental Monitoring". International Journal of Environmental Analytical Chemistry 83, nr 7-8 (lipiec 2003): 555–71. http://dx.doi.org/10.1080/0306731021000050714.

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Tortolini, Cristina, Franco Mazzei i Luciano Carlucci. "Electrochemical biosensors for environmental monitoring". International Journal of Environment and Health 6, nr 2 (2012): 93. http://dx.doi.org/10.1504/ijenvh.2012.049328.

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