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Articoli di riviste sul tema "Smart monitoring"

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Autore: Grafiati
Pubblicato: 1 giugno 2024

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1

M, Ravi Kumar, Jayaprakash S, Racliana NS, Lekha H, Priya S e Rashmitha Reddy R. "Smart Textile for Healthcare Monitoring". International Journal of Research Publication and Reviews 5, n. 4 (11 aprile 2024): 3194–99. http://dx.doi.org/10.55248/gengpi.5.0424.1006.

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Kaushal, Rajesh Kumar, Harini T, Pavithra Lency D, Sandhya T e Soniya P. "IOT BASED SMART FOOD MONITORING SYSTEM". International Journal of Current Engineering and Scientific Research 6, n. 6 (giugno 2019): 73–76. http://dx.doi.org/10.21276/ijcesr.2019.6.6.14.

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K, Shahin, Kanimozhi R e Balachandar A. "IoT Based Smart Horticulture Monitoring System". International Journal of Trend in Scientific Research and Development Volume-3, Issue-3 (30 aprile 2019): 1668–70. http://dx.doi.org/10.31142/ijtsrd23466.

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Zariman, Asnazulfadhli. "Smart Garbage Monitoring". International Journal of Artificial Intelligence 6, n. 1 (20 settembre 2019): 75–81. http://dx.doi.org/10.36079/lamintang.ijai-0601.33.

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This study develops a garbage monitoring based on Internet of Things (IoT) that can be used in the garbage management system in the city. Through this project, it can help to keep the city clean from the rubbish. By using Blynk as an application, this project will monitor the garbage bins and send the notification to the garbage collector about the level of garbage collected in the garbage bins. By receiving the information about the garbage level, the garbage collector will come on time in collecting the rubbish. The objective and purpose in developing smart garbage monitoring system is to save the time between users and the garbage collector. Abstrak: Studi ini mengembangkan pemantauan sampah berdasarkan Internet of Things (IoT) yang dapat digunakan dalam sistem pengelolaan sampah di kota. Melalui proyek ini, dapat membantu menjaga kebersihan kota dari sampah. Dengan menggunakan Blynk sebagai aplikasi, proyek ini akan memantau tempat sampah dan mengirimkan pemberitahuan kepada pemulung tentang tingkat sampah yang dikumpulkan di tempat sampah. Dengan menerima informasi tentang tingkat sampah, pengumpul sampah akan datang tepat waktu dalam mengumpulkan sampah. Tujuan dan tujuan dalam mengembangkan sistem pemantauan sampah pintar adalah untuk menghemat waktu antara pengguna dan pengumpul sampah.
5

Kadam, Dr D. B. "Smart Dustbin Monitoring". International Journal for Research in Applied Science and Engineering Technology 7, n. 4 (30 aprile 2019): 2284–89. http://dx.doi.org/10.22214/ijraset.2019.4413.

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YA, Divya. "Smart Water Monitoring System using Cloud Service". International Journal of Trend in Scientific Research and Development Volume-3, Issue-2 (28 febbraio 2019): 406–8. http://dx.doi.org/10.31142/ijtsrd21379.

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Masane, Mr Gopal V., Miss Roshani A. Naphade e Mr Dnyaneshwar R. Raut Mr Nilesh M. Verulkar. "Smart Garbage Monitoring System : Present And Future". International Journal of Trend in Scientific Research and Development Volume-1, Issue-6 (31 ottobre 2017): 26–31. http://dx.doi.org/10.31142/ijtsrd2473.

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Gonsor, Oksana. "SMART SYSTEM FOR MONITORING WATER QUALITY PARAMETERS". Measuring Equipment and Metrology 83, n. 4 (2022): 18–23. http://dx.doi.org/10.23939/istcmtm2022.04.018.

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Water is the most crucial factor for all living organisms, so it is essential to protect it. And water quality monitoring is one of the first steps required in the rational development and management of water resources. Smart systems used for real-time quality control and power consumption are rapidly developing. Their implementation in water quality assurance systems is essential and actual. The three-level smart system presented in this article involves the processing of water samples testing results from water supply sources, from the distribution network (consumers), test results of testing laboratories, and data from water consumption accounting systems. Transmission of the obtained results to consumers applying wireless communication technologies is an important system feature.
9

Nagaraju, Mr D., J. Gangaraju, G. Pavan Kumar Reddy, S. Aslam Bhasha e S. Pramod Kumar Reddy. "Smart Helmet with Driver Monitoring System UsingArduino". International Journal of Research Publication and Reviews 4, n. 4 (27 aprile 2023): 4866–68. http://dx.doi.org/10.55248/gengpi.234.4.38298.

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Menon, Karthik Sudhakaran, Brinzel Rodrigues, Akash Prakash Barot e Prasad Avinash Gharat. "Smart Environmental Monitoring System". International Journal of Green Computing 10, n. 1 (gennaio 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.
11

Sah, Jitesh, Akshay Rawat, Manish Dhiman, Ankur Bhat e Anoopshi Johari. "Smart Vehicle Monitoring System". International Journal of Science and Engineering for Smart Vehicles 1, n. 1 (30 luglio 2017): 7–14. http://dx.doi.org/10.21742/ijsesv.2017.1.1.02.

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P, Sabeena, Uma Sheeri e Divya Mourya. "Smart Patient Monitoring System". European Journal of Information Technologies and Computer Science 2, n. 2 (29 aprile 2022): 13–17. http://dx.doi.org/10.24018/compute.2022.2.2.53.

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During the current COVID-19 epidemic, IoT-based health monitoring devices could be incredibly useful for COVID-19 sufferers. This study develops an IoT-based system for real-time health monitoring that incorporates the patient's measured body temperature, pulse rate, and oxygen saturation, which are the most important critical care indicators. A liquid crystal display (LCD) shows the current temperature, heart rate, and oxygen saturation level, which can be easily linked with a mobile application for quick access. Using an Arduino Uno-based device, the recommended IoT-based technique was tested and verified on five human test subjects. The system's results were promising: the data collected by the system was saved fast. The system's results were found to be accurate when compared to other commercially available devices. IoT-based gadgets could be immensely valuable in saving people's lives during the COVID-19 epidemic.
13

Tambe, Harishkumar. "Smart Nutrition Monitoring System". International Journal for Research in Applied Science and Engineering Technology 7, n. 12 (31 dicembre 2019): 404–6. http://dx.doi.org/10.22214/ijraset.2019.12067.

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Saksena, Chhavi. "Smart Sleep Monitoring System". International Journal of Emerging Trends in Engineering Research 8, n. 8 (25 agosto 2020): 4640–47. http://dx.doi.org/10.30534/ijeter/2020/96882020.

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Ezhilarasi, P., S. Rajeshkannan e P. Gokulaprasath. "Smart Health Monitoring System". Journal of Computational and Theoretical Nanoscience 17, n. 5 (1 maggio 2020): 2261–65. http://dx.doi.org/10.1166/jctn.2020.8881.

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This paper proposes a Smart Health Monitoring System (SHMS) which monitors and takes care of patient's health. Nowadays in hospital, taking care of patient is a big task because of growing population and also regular check-ups are not at all possible. The percentage of death rate by only heart attack is 24.8%, which is not higher but these death rate can be reduced by monitoring the condition of patient's heart every second continuously. This can be achieved with the help of a technology called Internet of Things (IoT). The concept of IoT is that it can connect any device with the internet. Here the sensor can measure the heart rate and connects to the internet. Then it will update the status of the patient's heart to the person who wants to monitor the patient. Hence the prevention of death due to heart attack is being introduced. This idea can also be implemented for workers in industry
16

Premkumar, R., Jayanarayani K, Lavanya J, Nirubaa A.G e Thirupurasundari K. "Smart Dumpster Monitoring System". International Journal of Engineering & Technology 7, n. 3.34 (1 settembre 2018): 172. http://dx.doi.org/10.14419/ijet.v7i3.34.18940.

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The project is about smart way of collecting and disposing garbage. A system is designed by automatic opening and closing of the lid when the sensor senses the hand motion. The level of the wastes is measured using sonar sensor and the smell from the waste is detected using gas sensor. In order to avoid the smell, sprayer is placed inside the dustbin which is activated when the signal is sent. There is a motor attached to the lid is used to compress the garbage for further dumping. Once the bin is fully filled the lid is closed automatically and a message is send through GSM. The status of the bin will be displayed as a message outside the bin using LCD display. The problem of overflowing of garbage and the smell will be avoided leading to a good hygienic environment.
17

Kumar, Abhishek, Gaurav Chattree e Sasikumar Periyasamy. "Smart Healthcare Monitoring System". Wireless Personal Communications 101, n. 1 (21 aprile 2018): 453–63. http://dx.doi.org/10.1007/s11277-018-5699-0.

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Mehetre, Rahul. "Smart Agriculture Monitoring System". International Journal for Research in Applied Science and Engineering Technology 11, n. 6 (30 giugno 2023): 604–8. http://dx.doi.org/10.22214/ijraset.2023.53655.

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Abstract: In this morden industry remote monitoring and controlling equipment at farm from a long distance is challenging now a days. At present we are able to control the equipment with the help of smartphones using IOT. This paper presents a novel of smart agriculture system using ATmega328P with global connection using Internet of Things (IOT). Internet of Thing (IOT) plays a important role in smart agriculture system. Smart agriculture helps to reduce the farmers work. It works automatically or farmer can operate it from anywhere. Smart agriculture monitoring system used wireless sensor network that collect all live information from different sensors and send that data through wireless protocol. Sensors that are used in system provides information about agriculture field. This project is developed to monitor crop-field using sensors (Soil Moisture Sensor, Rain Sensor, Temperature and Humidity Sensor).
19

Sowmya, V., K. Dharani, A. J. Vishalini, C. Priya Dharshini e R. Sujitha. "Smart Healthcare Monitoring System". Journal of ISMAC 5, n. 1 (marzo 2023): 65–73. http://dx.doi.org/10.36548/jismac.2023.1.005.

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Nowadays, extreme priority is focused on health, due to the out- break of Corona virus, to ensure precautions before any illness. In many circumstances, people tend to forget the importance of health and fail to monitor the health parameters, such as temperature, heart rate, and so on, due to work and busy schedules. Therefore, a smart healthcare system has been proposed in this research, wherein five sensors such as MAX30100 sensor, DS18B20 sensor, DHT11 sensor, MQ9, and MQ135 sensor which sense the patient and patient’s room conditions, are used. The obtained values are displayed in the web server, through which the patient’s condition is communicated to the hospital staff, where they can detect and evaluate the current health status of the patient. This approach will enhance the current healthcare system, by potentially saving many lives. Furthermore, medication should also be taken at the right time to improve the state of health which is too difficult for old patients and those who give less preference to health than work. Hence, a pill reminder system which uses IR sensor and a buzzer to remind the patients regarding the proper intake of medication is also designed.
20

Kolay, Bithika, Juyel Majumder, Pratyay Mishra, Akash Saha e Monalisa Datta. "Smart Environment Monitoring Device". American Journal of Advanced Computing 2, n. 1 (3 aprile 2023): 81–84. http://dx.doi.org/10.15864/ajac.21024.

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In the 21st century Internet of Things (IoT) has won great attention from the researchers leading to a series of intensive and extensive studies with the development of various project works on different field of researchers' interest. The system discussed in this paper is an efficient and a productive solution of monitoring the environment in a proper way making an IoT based smart environment monitoring device that collects data related to the weather and environment using different sensors. Microcontroller will use the data using the sensors along with the power source and sends it to the database using WIFI which then using IoT receives the data to the client as a receiver. This device uses temperature and humidity sensor, smoke sensor to measure temperature, humidity and presence of smoke and also an alarm device (buzzer) for notification. This device had been developed focusing on the old aged or asthmatic patients who are bedridden in their house.
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Gouda,, Dr Pramod Kumar. "SMART HOME MONITORING SYSTEM". INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 08, n. 04 (3 aprile 2024): 1–5. http://dx.doi.org/10.55041/ijsrem30020.

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The Project is about building a low-cost home automation system. It mainly focuses on creating an Internet based home automation system that can be automatically configured to run based on various conditions or that can be used to control multiple components through the internet. Wireless technology is used to enable remote access from a smartphone, PC, manually and voice command. The system is an accessible interface, affordable construction, and easy installation made it easier for controlling household electrical appliances and devices. The created system supports wireless control of lights, fans, air conditioners, televisions, Alarm, security cameras, electronic doors, computer systems, audio/visual devices, and more. It can be combined into a single portable unit. It is user friendly. Key Words: Wireless Control, Wi-Fi, Microcontroller, ESP RainMaker, Relay, Controlling of appliances, Monitoring.
22

Gajanayake, G. M. T. S., W. E. M. K. D. D. Ekanayake, G. D. C. Malinda, Lakmini Malasinghe e Subashini De Silva. "Smart Health Monitoring System". Journal of Advances in Engineering and Technology 2, n. 2 (28 marzo 2024): 25–36. http://dx.doi.org/10.54389/uesb9651.

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Due to the high inpatient population in hospitals, regular monitoring of inpatients' vital signs is currently a practical concern. As a solution, our proposed system manages the continuous analysis of the vital signs of every inpatient in the general wards, and informs medical professionals in any location at any time about their inpatients' current states in real-time to improve inpatients' health. The suggested system consists of the following arrangements; arrangement for acquiring health readings, identifying the on-duty reported doctors in charge of wards, arrangement for health data exhibiting unit, fall detection, and ECG acquisition. In addition to these arrangements, a website, and an android mobile application were designed to publish measured inpatient vital signs. This proposed product is both novel and different from the existent products because, it comprises of collective arrangements, and is developed in order to assess hospital wards’ inpatients, whereas other systems are designed for remote health monitoring of patients at home. This paper describes the system that was developed and tested successfully. KEYWORDS: Real-time database, Temperature, Heart rate, SpO2, ECG, Fall detection, Website, Mobile application
23

Geisert, Claudio, Julian Polte, Eckart Uhlmann, Hartmut Rauch e Karsten Brach. "Smarte Überwachung elektrischer Großantriebe/Smart monitoring large electric drives". wt Werkstattstechnik online 113, n. 07-08 (2023): 340–45. http://dx.doi.org/10.37544/1436-4980-2023-07-08-74.

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Die Nutzung von Digitalisierungstechnologien im Kontext von Industrie 4.0 bietet insbesondere für den gesamten Bereich der Wartung und Instandhaltung von elektrischen Großantrieben großes Potenzial zur Schaffung innovativer Serviceangebote. Durch erweiterte Sensorik im elektrischen Antrieb und Intelligenz in der Verarbeitung und Analyse von Daten im Betrieb von Anlagen, kann eine vorausschauende Instandhaltungsstrategie eingeführt werden, die eine höhere Verfügbarkeit der Anlagen ermöglicht und gleichzeitig den Aufwand für Instandhaltungseinsätze reduziert. Um diese Potenziale im Servicegeschäft elektrischer Großantriebe zu erschließen, wird in diesem Beitrag ein hypothesengetriebener Ansatz zur Zustandsüberwachung beschrieben. The use of digitization technologies in the context of Industry 4.0 offers great potential for creating innovative service offerings, particularly for the entire area of the maintenance and servicing of large electrical drives. Advanced sensor technology in the electric drive and intelligence in the processing and analysis of data in the operation of plants can be used to introduce a predictive maintenance strategy that enables higher availability of the plants and at the same time reduces the cost of maintenance operations. To unlock this potential in the service business of large electrical drives, the following paper describes a hypothesis-driven approach to condition monitoring.
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Kuhn, Christian, Julian Hermann e Dominik Lucke. "Smarte Schmierstellenüberwachung für Maschinen/Smart lubrication monitoring for machines". wt Werkstattstechnik online 112, n. 06 (2022): 395–98. http://dx.doi.org/10.37544/1436-4980-2022-06-45.

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Das regelmäßige Schmieren von Maschinen verhindert Schäden, reduziert Ausfallzeiten und vermeidet Reparaturkosten. Schmiervorgänge werden jedoch oft unzureichend dokumentiert. Für die Überwachung manueller Schmierprozesse an Maschinen wird daher eine Smart-Maintenance-Lösung aufgebaut. Zusätzlich wird eine intelligente Fettpresse als cyber-physisches System entwickelt. Dadurch lassen sich Schmiervorgänge transparent dokumentieren und Fehlschmierungen verhindern. Regularly lubricating machines prevents damage, reduces downtime and avoids repair costs. However, lubrication processes are often insufficiently documented. For this reason, a smart maintenance solution is developed for monitoring of manual lubrication processes on machines. In addition, an intelligent grease gun is being developed as a cyber-physical system. This allows lubrication processes to be transparently documented and incorrect lubrication to be prevented.
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Kuruba, Padmaja, e V. Madhusudhan. "Smart Growth Monitoring System in Agriculture Using IoT". Journal of Advanced Research in Dynamical and Control Systems 11, n. 12-SPECIAL ISSUE (31 dicembre 2019): 620–30. http://dx.doi.org/10.5373/jardcs/v11sp12/20193258.

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Balol, Lavanya Anantakumar, e K. Mallamma Byahatti. "Smart Car Parking Monitoring System with Android Application". Bonfring International Journal of Software Engineering and Soft Computing 6, Special Issue (31 ottobre 2016): 160–62. http://dx.doi.org/10.9756/bijsesc.8266.

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Soliman, Ahmed, Mohammad Zaher Akkad e Rima Alloush. "Smart bin monitoring system for smart waste management". Multidiszciplináris tudományok 10, n. 2 (2020): 402–12. http://dx.doi.org/10.35925/j.multi.2020.2.45.

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The fourth industrial revolution offers new technologies and solutions to increase efficiency, availability, flexibility, and decrease the economical footprint of manufacturing and service processes. In smart cities, a wide range of Industry 4.0 technologies can be used in the field of road traffic monitoring, health monitoring, and many operations, like the municipal waste collection. Internet of Things makes it possible to reduce the required material handling solutions of municipal waste collection, like loading and unloading, transportation, and warehousing. With smart waste management, no need for trucks to come every day and check every single dustbin if it is full or not as in the traditional situation, therefore the human power, time, cost, and spreading of toxic gas will be reduced. The amounts of the garbage will be monitored by sensors, pollution level by moisture sensor, and an odor sensor. The collected data can also be used to find the optimal path for the truck’s drivers. Within the frame of this article, the authors describe an on-line smart bin monitoring system.
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Pino, Esteban, Dorothy Curtis, Thomas Stair e Lucila Ohno-Machado. "SMART". International Journal of Healthcare Delivery Reform Initiatives 1, n. 4 (ottobre 2009): 1–16. http://dx.doi.org/10.4018/jhdri.2009100101.

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Patient monitoring is important in many contexts: at mass-casualty disaster sites, in improvised emergency wards, and in emergency room waiting areas. Given the positive history of use of monitoring systems in the hospital during surgery, in the recovery room, or in an intensive care unit, the authors sought to use recent technological advances to enable patient monitoring in more diverse circumstances: at home, while traveling, and in some less well-monitored areas of a hospital. This paper presents the authors’ experiences designing, implementing and deploying a wireless disaster management system prototype in a real hospital environment. In addition to a review of related systems, the sensors, algorithms and infrastructure used in our implementation are presented. Finally, general guidelines for ubiquitous methodologies and tools are shared based on the lessons learned from the actual implementation.
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RICHA, K., MIRJHA SAMIKSHA, SEWATISAHU, GAURAV KUNAL e CHANDRAKAR MUKESH. "WEARABLE HEALTH MONITORING SMART GLOVES". i-manager's Journal on Digital Signal Processing 7, n. 3 (2019): 1. http://dx.doi.org/10.26634/jdp.7.3.17155.

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M, uthuselvi, elva Ganesh S, Sajeev A, Venkitesh S.V.R e Thangaraja S. "Smart Field Monitoring Using IoT". International Journal of Computer Sciences and Engineering 7, n. 3 (31 marzo 2019): 636–40. http://dx.doi.org/10.26438/ijcse/v7i3.636640.

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Abdullah, Muhammad Saef Tarqani, e Lucyantie Mazalan. "Smart Automation Aquaponics Monitoring System". JOIV : International Journal on Informatics Visualization 6, n. 1-2 (28 maggio 2022): 256. http://dx.doi.org/10.30630/joiv.6.1-2.925.

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Modern agriculture, such as aquaponics, has become a well-known solution nowadays for farming, especially in Asia countries. It provides an alternative to support food demands and maintain environmental sustainability. However, it requires manpower and time to maintain and monitor the system. This research proposes a smart automation aquaponic monitoring system that helps users maintain and monitor the system through smartphone applications. The system uses DHT11 to record temperature and humidity, HC-SR04 for water level, and FC-28 to maintain soil moisture. The sensors are integrated with WeMos D1 Wi-Fi Uno based ESP8266 microcontroller to process the data. The data collected is stored in the cloud and retrieved via the Blynk application, which also performs as an actuator and allows users to control the parameters involved. The application helps to monitor the humidity, temperature, and water level in the fish tank and control the actuator for feeding fish. The system also sends a notification to the user for any activities performed, such as watering plants, feeding fish, and abnormality of temperature in the surroundings. The performance of the system was evaluated using regression modeling. The result indicates positive growth for both plants and fish during the monitoring duration, suggesting the proposed system's effectiveness. Overall, this solution helps to reduce manpower and operation costs as well as alternatives for food demand and stabilize environmental sustainability, especially in the urban residency.
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More, Shweta Dhuraji, Shilpa Nandedkar e Shilpa Kodgire. "A Smart Greenhouse Monitoring System". Journal of Control System and Control Instrumentation 8, n. 2 (12 luglio 2022): 19–27. http://dx.doi.org/10.46610/jocsaci.2022.v08i02.003.

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The system proposed in this paper is an advanced result for covering the all conditions at a particular place and making the information visible anywhere in the world. The technology behind this is the Internet of Things (IoT), which is an advanced and effective result for connecting the effects to the internet and to connect the entire world of effects in a network. Then effects might be whatever like electronic widgets, detectors and automotive electronic outfits. The system deals with monitoring and controlling the environmental conditions like temperature, relative moisture and CO position with detectors and sends the information to the web runner and compass the detector data as graphical statistics. The data streamlined from the enforced system can be accessible on the internet from anywhere in the world.
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Singh, Rishi Pratap, Rakesh Kumar Yadav, Ravi Kumar, Tarique Ali, Ziaul Haq e Mohd Asim. "Smart Class & Monitoring System". IARJSET 4, n. 3 (15 marzo 2017): 43–46. http://dx.doi.org/10.17148/iarjset.2017.4309.

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Gaikwad, Srigandhrav, Rushikesh Deshpande e Shivam Bhattad. "Smart Air Quality Monitoring System". International Journal for Research in Applied Science and Engineering Technology 10, n. 10 (31 ottobre 2022): 743–47. http://dx.doi.org/10.22214/ijraset.2022.47074.

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Abstract: The idea proposed in this project is depends on the current situation which all are facing and surviving our single day in a hope that all things will come to end very soon. All are saying that the pandemic is the only reason for all the disasters but that’s not the case there are n numbers of such reasons and one of them is Air pollution. All can easily see how the environment qualities are depleting day by day but we ignore the situations and just let them on their condition, but unless we step by ourselves into it and try to push it all the way possible that situations can’t be get good for us. Air is the important factor in the living things daily life but the quality now a days is so worse that many of us have some ill effects and side effects of the environment. To control and maintain the quality of air many agencies in India are working on it and try to find the easy solutions that can be adapted by the society easily. So in the honour of all such agencies we decided to put some efforts and our time to find the solution and try to have something from our side that can help mankind in such bizarre situation. Air quality monitoring is the important and yet to be fully discovered topic in this area, and also trying to implement the following project that may help to tract down and list down some measures that can be taken in future for better quality air.
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Yadav, Sanchit, e Kamlesh Kumar Singh. "Smart Environmental Health Monitoring System". Journal of Informatics Electrical and Electronics Engineering (JIEEE) 2, n. 1 (5 aprile 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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Md Ilyas, Siti Sarah, Muhammad Amirul Rosyad Mohd Halim, Nadia Abdul Wahab e Norfiza Ibrahim. "IoT-based Smart Garbage Monitoring". Journal of Computing Research and Innovation 6, n. 2 (1 settembre 2021): 21–28. http://dx.doi.org/10.24191/jcrinn.v6i2.187.

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Smart Garbage Monitoring System using Arduino and Blynk is an IoT-based project that is integrated with cloud computing service. It was developed specifically to help janitors and residential college representative committee in a public university in Malaysia in monitoring the level of garbage in the dustbin through Blynk application, which makes it easy to empty the dustbin and optimize the garbage collection time. This project uses ultrasonic sensor to measure the level of garbage in the dustbin and the data can be viewed through mobile application, Blynk. It will also notify users through email once the garbage bin capacity is full. Other than notification function, Smart Garbage Monitoring System also consists of automatic open and close lid, track dustbin location and humidity level. The objectives of this project are to design the IoT system that detects the level of the garbage displayed in Blynk and an LCD attached to the dustbin and to validate the user acceptance test for the system. The development of Smart Garbage Monitoring System used the System Development Life Cycle (SDLC) by implementing the agile model as the methodology. A User Acceptance Testing was conducted with 20 respondents including students from the student representatives’ body and janitors. This testing aimed to determine the acceptance of the system by conducting an evaluation. The results of the User Acceptance Test shows that most of the participants agreed and verified that the system works for them and a suitable solution for their problems. Therefore, based on the features and functionalities offered by the Smart Garbage Monitoring System, it could be concluded that this system is beneficial to all the users, especially the janitors and students of the residential college.
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Binti Zahir, Shahirah, Phaklen Ehkan, Thennarasan Sabapathy, Muzammil Jusoh, Mohd Nasrun Osman, Mohd Najib Yasin, Yasmin Abdul Wahab et al. "Smart IoT Flood Monitoring System". Journal of Physics: Conference Series 1339 (dicembre 2019): 012043. http://dx.doi.org/10.1088/1742-6596/1339/1/012043.

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Singh, Vaishnavi. "Animal Health Smart Monitoring Device". International Journal for Research in Applied Science and Engineering Technology 8, n. 11 (30 novembre 2020): 449–54. http://dx.doi.org/10.22214/ijraset.2020.32190.

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Aswin, E. M. "Sewage Workers Smart Monitoring System". International Journal for Research in Applied Science and Engineering Technology 8, n. 5 (31 maggio 2020): 2371–75. http://dx.doi.org/10.22214/ijraset.2020.5389.

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Pan, P. H., J. J. van der Aa, F. J. Gomez, J. H. van Oostrom, J. E. W. Beneken e J. S. Gravenstein. "A450 SMART ANESTHESIA MONITORING SYSTEM". Anesthesiology 73, n. 3A (1 settembre 1990): NA. http://dx.doi.org/10.1097/00000542-199009001-00448.

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Song, G., B. Xu e SC M. Ho. "Interface monitoring using smart sensors". Smart Materials and Structures 26, n. 10 (30 agosto 2017): 100201. http://dx.doi.org/10.1088/1361-665x/aa8579.

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Bacco, Manlio, Franca Delmastro, Erina Ferro e Alberto Gotta. "Environmental Monitoring for Smart Cities". IEEE Sensors Journal 17, n. 23 (1 dicembre 2017): 7767–74. http://dx.doi.org/10.1109/jsen.2017.2722819.

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Sărăcin, Cristina Gabriela, e Florin Daniel Streche. "Smart parking monitoring software application". Revista Romana de Inginerie Civila/Romanian Journal of Civil Engineering 13, n. 4 (30 settembre 2022): 309–19. http://dx.doi.org/10.37789/rjce.2022.13.4.1.

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Totawar, Aniket, Umakant Sonawane, Abhishek Suryawanshi e Dr N. R. Dhumale. "IOT Monitoring Smart School Bus". International Journal for Research in Applied Science and Engineering Technology 11, n. 5 (31 maggio 2023): 5984–87. http://dx.doi.org/10.22214/ijraset.2023.53101.

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The IOT-based school bus tracking and monitoring system which uses a GPS for tracking and monitoring school buses in real-time. The system provides an easy-to-use interface for students, parents, and school administrators to monitor the location of the school bus, the number of students on the bus, and their safety. It also provides the ability to send out automated alerts if the bus deviates from its defined route. In addition, the system can be integrated with other existing school management systems for better tracking and monitoring. By providing an efficient and reliable tracking and monitoring system, the proposed system can help to improve student safety and reduce the workload of school administrators
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Imdaadh, M. J. M., M. N. M. Saajidh, A. Ahmed e S. Ahagaash. "Smart City Garbage Monitoring System". International Journal for Research in Applied Science and Engineering Technology 10, n. 11 (30 novembre 2022): 515–20. http://dx.doi.org/10.22214/ijraset.2022.47374.

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Abstract: In Sri Lanka, garbage dumping has long been a problem. The regional organizations have made various attempts to address this issue. But unfortunately, no appropriate action has been taken thus far. As a consequence, there are several environmental issues as well as human health issues, particularly among children. As a result, we have suggested some approaches to resolving these issues so that we can advance the nation. The prime objective of the suggested system is to provide a nation free from waste, and the suggested solutions support this objective as well. The suggested approach will benefit the municipality council in a variety of ways, reducing both labour and capital costs. The proposed system will calculate the amount of garbage that has been piled up effectively, giving truck drivers information that can be tracked via a mobile application. The system will warn pedestrians if they attempt to dump garbage out of the bin and also if they pile particular garbage in a different type of a bin other than designated bin. This will aid road cleaners in efficiently collecting garbage other than focusing more collecting trash from the roads. It will improve the garbage segregation process because the designated types of bins are also kept separately and can be utilized by the local bodies as they require, which helps to achieve our objective of this system
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Pei, Chenxing, Weiqi Chen, Qisheng Ou e David Y. H. Pui. "Smart Filter Performance Monitoring System". Aerosol and Air Quality Research 23 (2023): 220416. http://dx.doi.org/10.4209/aaqr.220416.

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Bhutada, Sudit, Suparn More, Tarush Shrivastav, Chaitanya Suryawanshi e Pranav Suryawanshi. "IoT Based Smart Sewage Monitoring System for Smart City". International Journal for Research in Applied Science and Engineering Technology 10, n. 11 (30 novembre 2022): 1702–7. http://dx.doi.org/10.22214/ijraset.2022.47704.

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Abstract: Sewer monitoring is an important aspect of maintaining cleanliness around us. Lack of sewage monitoring systems may lead to blockage of the drainage. These blockages in sewers may lead to sewer flooding and pollution. Sometimes, workers may meet with accidents as they might not be aware of the condition inside the manhole. This paper aims to measure and analyze the real time levels of sewage. In order to ensure safety of the workers working under some severe conditions. This project attempts to devise an IOT technology that shall detect the level of sewage in the tunnel while keeping track of flow rate of it. If the level exceeds beyond threshold, it shall send an alert through the blynk web app. Additionally provide the information about the flow through the blynk web app itself. To obtain the desired output ultrasonic sensor, flow sensor, nodemcu esp8266, Arduino Uno and blynk web app are used in the proposed model.
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B N, Rakesh, Navasanthanalakshmi A, Savitha C, Varalakshmi V e Thejeshwini H. "SMART GREEN HOUSE MONITORING AND CONTROLLING SYSTEM USING IOT". International Journal of Current Engineering and Scientific Research 6, n. 6 (giugno 2019): 96–103. http://dx.doi.org/10.21276/ijcesr.2019.6.6.18.

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GP, Revathi, e Vanishree K. "Development of Smart Agricultural Monitoring and Automatic Irrigation System". International Journal of Innovative Research in Computer Science & Technology 7, n. 3 (maggio 2019): 48–53. http://dx.doi.org/10.21276/ijircst.2019.7.3.5.

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Orakwue, Stella Ifeoma, Hamza Mohammed Ridha Al-Khafaji e Mays Zahid Chabuk. "IoT Based Smart Monitoring System for Efficient Poultry Farming". Webology 19, n. 1 (20 gennaio 2022): 4105–12. http://dx.doi.org/10.14704/web/v19i1/web19270.

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This paper presents a smart system using Internet of things (IoT) for monitoring and controlling environmental conditions of poultry farming. Environmental parameters such as temperature, humidity, and air quality in a poultry house which are vital for the survival of poultry birds were monitored in order to adequately nurture poultry birds, reduce mortality rate and improve production. The system utilizes ESP32 microcontroller which has embedded Wi-Fi function, DHT11 temperature and humidity sensor, the PIR motion detector sensor, and MQ135 gas detector sensor. In addition, a buzzer was added to alert the farmer in the event of an intruder, while the integrated Wi-Fi unit would send a message to the farmer. Furthermore, the proposed system controls the brightness of a lamp inside the poultry house to either increase or reduce its temperature. This work which is a prototype, was implemented in a small poultry house. All the tests carried out illustrated that the designed system is sufficient and that the aim has been achieved.
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