Relevant bibliographies by topics / NodeMuc

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers

Academic literature on the topic 'NodeMuc'

Author: Grafiati
Published: 5 June 2025
Last updated: 16 July 2025

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Journal articles on the topic "NodeMuc"

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Dr.R.M.S.Parvathi, R.Sathishkumar, V.Sujitha, and S.Praveenkumar. "IOT BASED SMART TEMPERATURE SENSOR FOR HOME BALCONY GARDEN." International Journal for Science and Advance Research In Technology 9, no. 5 (2023): 1–5. https://doi.org/10.5281/zenodo.7896002.

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In an agricultural country like India a lot of people will work with green thumb in mind. Most of the people loves to grow plants at home, but due to their work schedule they won’t often take care of plants. The only solution to this problem is smart monitoring of the plant growth by modernizing the current traditional methods of gardening. Hence the proposed system targets at smart way of monitoring the plant growth using automation and IoT technologies. Internet of things (IoT) provides various applications for crop growth and monitoring the growth conditions. Main theme of this project is to increase the plant growth condition by maintaining the suitable moisture level and temperature with the use of moisture sensor and temperature sensor. This project works for the crop development at low quantity water consumption by providing an automatic watering system to the user. People often waste lot of time for watering the plants so an efficient management of water should be developed. The proposed system will work based on the information send by the sensors and so proper growth for the plant will be estimated. With the help of the moisture sensor and temperature sensor details like moisture content and the temperature will be obtained and so based on those reading automatic watering will be done. The major advantage of this system is to make a suitable environment for plant growth and also to minimize the water consumption.
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R.P., Sharan Kumar, and Vadivel R. "IOT based smart street light fault detection management system." World Journal of Advanced Research and Reviews 21, no. 3 (2024): 1659–66. https://doi.org/10.5281/zenodo.14146372.

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In the contemporary landscape of urbanization and technological progress, efficient resource management, particularly in energy consumption, is paramount. Street lighting stands out as a significant energy consumer in urban environments. This paper proposes a Smart Street Light Fault Detection System utilizing Internet of Things (IoT) technology, a NodeMCU microcontroller, Light Dependent Resistor (LDR), street lights, and the ThingSpeak. The system employs the NodeMCU microcontroller to monitor ambient light conditions through the LDR sensor, enabling automatic control of street lights to optimize energy usage. Furthermore, it integrates fault detection mechanisms to identify abnormalities in street light operations, such as constant light levels amidst changing environmental conditions, indicative of potential faults. Through the ThingSpeak, users can remotely monitor real-time LDR readings, receive notifications about detected faults, and take necessary actions, empowering city authorities or maintenance personnel with timely information for addressing issues and ensuring smooth infrastructure operation. This smart system offers advantages like energy efficiency, automated control, and proactive fault detection, facilitating significant energy savings, reduced maintenance costs, and enhanced sustainability in urban environments, thereby showcasing a practical implementation of IoT technology for smarter and more sustainable cities.
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Sajiah, Adha Mashur, Natalis Ransi, Jumadil Nangi, and Sandy Suseno. "SISTEM ABSENSI DIGITAL MAHASISWA TERINTEGRASI ONE FILE CABINET (OFC) UNIVERSITAS HALU OLEO DENGAN RFID BERBASIS INTERNET OF THINGS (IOT)." Simtek : jurnal sistem informasi dan teknik komputer 7, no. 2 (2022): 139–42. http://dx.doi.org/10.51876/simtek.v7i2.151.

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Saat ini Universitas Halu Oleo sebagai universitas terbesar di Sulawesi Tenggara masih menggunakan absensi tradisional pada perkuliahan dengan mahasiswa membubuhkan paraf pada kertas absensi. Hal ini memiliki banyak kekurangan di antaranya absen yang mudah hilang karena sering berpindah tempat, biaya pembelian kertas, cetak, dan proses pemeriksaan dan perangkuman absen sangat lambat. Penelitian ini mengembangkan prototype sistem absensi online berbasis IoT menggunakan NodeMCU dan RFID reader. RFID reader digunakan untuk membaca kartu RFID sedangkan NodeMC mengirimkan data hasil baca tersebut ke sistem Universitas Halu Oleo Online Integrated System (UHO2IS). Selain menggunakan alat prototype tersebut untuk membaca kartu RFID juga sebagai alternatif dapat digunakan smartphone android yang memiliki fitur NFC reader. Sistem hasil absen tersebut dapat dilihat pada aplikasi android. Hasil pengujian menunjukkan bahwa untuk membaca kartu RFID membutuhkan waktu rata-rata 0,43 detik dan mengirimkan data ke server membutuhkan waktu rata-rata 0,93 detik sehingga total waktu melakukan proses absen secara kesulurahan rata-rata adalah 1,36 detik. Waktu yang kurang dari 1,5 detik akan membuat proses absen menjadi lebih efisien.
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Yatindra, Gaurav, Nigam Sauhard, Kumar Verma Mithilesh, Chauhan Rajesh, Kumar Maurya Prashant, and Bhaskar Shantanu. "NodeMCU integrated irrigation system." i-manager’s Journal on Embedded Systems 10, no. 2 (2022): 27. http://dx.doi.org/10.26634/jes.10.2.18764.

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Agriculture is one of India's most important and fastest-growing industries. About 70% of people living in rural areas make their living from agriculture. One of the most important things to do is to implement the latest innovations. Irrigation is difficult in dry places or when there is insufficient rainfall. So, it has to be controlled by the machine to get the right crop, and it has to be done from afar to keep the farmer safe. This will accelerate the transition from traditional to modern farming. The rising cost of energy and the depletion of water resources indicate that water management needs to be improved. The aim of the paper is to use water more efficiently, which is one of the most important and used natural resources. In irrigated agricultural systems, the rational use of water resources is very important to save money. Drip irrigation systems are another economical way to manage water. These systems have automatic control to turn the control values on and off, which helps farmers manage the water supply to the fields and keep the soil moist, resulting in increased yields. Thus, this project gives farmers the best way to water their crops at an affordable cost. This increases their productivity and facilitates the care of crops.
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Ishita, Jain, Kere Tanmay, Chaurasiya Aditya, and Chaugale Archana. "Home Automation using NodeMcu." Journal of Advances in Computational Intelligence Theory 3, no. 1 (2021): 1–6. https://doi.org/10.5281/zenodo.4457440.

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<em>The Internet of Things (IoT) is a worldwide industry development that unites individuals, cycle, information, and things to make organized associations more significant and important than any other time before. Internet of Things currently contacting each edge of the globe, IOT just characterize as communication between Physical world with Computerized World utilizing Sensors and actuators. This paper presents an ease and adaptable home control and ecological observing framework. The proposed framework doesn&#39;t need a committed worker PC regarding comparable frameworks and offers a novel correspondence convention to screen and control the home climate with something beyond the exchanging usefulness.</em>
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Nimit, Bhinde, Dama Punit, Gori Karan, and Rathod Santosh. "Attendance System using NodeMCU." Recent Trends in Information Technology and its Application 5, no. 2 (2022): 1–6. https://doi.org/10.5281/zenodo.6659115.

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In today&rsquo;s recent technological trends, we wish to do stuff without any touches or minimalizing it. The technology itself is being developed at a rapid pace where everything menial work is either getting replaced or completed eliminated by automated or wireless technology. RFID is one such technology, which is in its upward trend for technology. An enormous number of industries have benefitted by the likes of RFID technology for technological enhancements. In our proposed system, the authorized students are given an RFID smart ID tag. Accordingly, the data shall be stored on this said card is the identification/attendance of the person. Once the student places the ID card in front of the RFID reader, it reads the data bytes of the card and stores the it on the google sheets.
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Kumar, P. Vishun, Golla Chatrapati, Shivaji Shivaji, Mangali Jagadeesh, Saritala Abishaik, and Pocha Devendra Reddy. "Speech control Robot using NodeMCU." Journal of Communication Engineering and its Innovations 8, no. 2 (2022): 1–6. http://dx.doi.org/10.46610/jocei.2022..2022.v08i02.001.

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The movement of robot controlling via IoT technology. The field of robotic technology is implemented in many domains. Specific tasks are performed by robots which humans cannot and also humans are takes more time to complete. Robots are followed human instructions and perform the tasks such as security operations, act as spy robots etc. In this paper, we discuss about a smart robotic vehicle that operates on human voice commands, given remotely by using an Android platform based smart IoT device. The robotic assistant is developed on a NodeMCU ESP8266 micro-controller based platform. The voice commands are carried out and this signal is converted to text format and then communicated through Wi-Fi network. This robot is able to move in different directions like left, right, stop, backward, forward.
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Dombele, Mbangi Cajomar, and Antônio Carlos Lima de Santana. "AUTOMAÇÃO RESIDENCIAL COM NODEMCU ESP8266." Revista Estudos & Pesquisas Unilins 1, no. 1 (2021): 13–25. http://dx.doi.org/10.54149/pesquisaunilins.2019.v1.29.

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Sistemas embarcados é um dos objetivos comuns nos dias de hoje. A possibilidade de sistemas automatizados como robôs, eletrodomésticos, casas, dentre outras oportunidades, tem sido o sonho de muitos. Por essa razão, vários projetos trazem equipamentos ou componentes que podem fornecer um vislumbre desse sonho. Neste projeto será apresentado um, dentre os vários equipamentos existentes. Este projeto apresenta a placa NodeMCU ESP8266 ESP-12 que está, hoje, entre as mais desejadas e entre as mais utilizadas para projetos de automação industrial, bem como, residencial. O projeto apresenta, de forma detalhada, a construção de um sistema de automação residencial baseado na tecnologia ESP8266, usando como equipamento principal a placa NodeMCU ESP8266.
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Awasthi, Ayush. "Job Portal Indication Using NodeMCU." International Journal for Research in Applied Science and Engineering Technology 9, no. VII (2021): 3257–60. http://dx.doi.org/10.22214/ijraset.2021.37140.

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At this time jobs are the big reason of concern, it is not possible for the every job seeker to view the newspaper daily. Job seekers have to go to the agency and check the available jobs at the agency .People have to visit different places for the jobs which is much time consuming and costly. So to acquire a one this project consists of a website which is hosted and helpful in finding a job but the Indicator system here gives a boom to this project. A hardware device which works on Node MCU ESP8266 contains a LED for indication as well as a LCD display which will display jobs in seconds on submission , it will helps in reducing workload for the person sitting on admin side as well as we can use it on big screens over the public places for thousands of job seekers.
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Gupta, Mr Zatin. "Home Automation System using NodeMCU." International Journal for Research in Applied Science and Engineering Technology 8, no. 4 (2020): 372–77. http://dx.doi.org/10.22214/ijraset.2020.4058.

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Dissertations / Theses on the topic "NodeMuc"

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Хапченко, О. В. "Розумне освітлення". Thesis, Київський національний університет технологій та дизайну, 2018. https://er.knutd.edu.ua/handle/123456789/11079.

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Панченко, С. А. "Бездротові мережі зв’язку для керування елементами приміщення: принцип роботи та параметри". Master's thesis, Сумський державний університет, 2020. https://essuir.sumdu.edu.ua/handle/123456789/82023.

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Мета роботи полягає у вивченні та ознайомленні з безпровідними мережами, з ознайомленням концепту розумного будинку. Розглядання різних видів розумних будинків та принципу їх функціонування. Розглядання Wi-Fi розетки як зручного та простого елементу приміщення, її створення на базі мікроконтролера NodeMCU 8266 CP 2102 та реле. Актуальність теми полягає в тому, що раніше фантастичний «розумний» будинок тепер став реальністю і з кожним днем набирає ще більшої популярності та стає більш доступним. Тому такі прості рішення як Wi-Fi розетка є дуже важливими. При виконанні роботи було розглянуто різні типи бездротового зв’язку, їх недоліки та переваги. Були розглянуті різні види «розумних» будинків та технології які в них використовуються. Була виділена Wi-Fi розетка, як елемент «розумного» приміщення. Запропонований варіант такої розетки. У результаті роботи було проведено вивчення Wi-Fi розетки та створення її за допомогою плати NodeMCU та реле. Виділення її на фоні решти елементів розумного будинку, як простого та доступного елементу, який можна створити власноруч.
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Solazzi, Riccardo. "JavaScript e Internet of Things - l'utilizzo di Espruino sulla board ESP8266." Bachelor's thesis, Alma Mater Studiorum - Università di Bologna, 2017. http://amslaurea.unibo.it/14723/.

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In questa tesi viene analizzato il concetto di Internet of Things illustrandone alcune caratteristiche e architetture. Vengono inoltre analizzate alcune board utilizzate nello sviluppo di progetti relativi all'Internet of Things sia per quanto riguarda l'hardware che il software. Vengono anche introdotti dei concetti base del linguaggio JavaScript e nell'ultimo capitolo viene mostrato come utilizzare il linguaggio analizzato precedentemente in una board nata per la programmazione embedded.
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Almeida, António Miguel Portugal Raposo Rodrigues de. "Monitorização e controlo remoto de sistemas de rega agrícola." Master's thesis, Universidade de Aveiro, 2017. http://hdl.handle.net/10773/23396.

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Mestrado em Engenharia Mec ânica<br>Hoje em dia, no sudoeste alentejano, onde a agricultura é uma atividade em expansão, sentem-se de uma forma cada vez mais frequente os efeitos das alterações climáticas. O aumento da temperatura média e a escassez de precipitação na primavera provocam uma redução das reservas de água disponíveis para rega no período estival. De acordo com as diretivas portuguesas, e com o intuito de tornar a agricultura uma atividade viável a longo prazo, é objetivo desta dissertação criar um sistema que aumente a e ciência dos processos de irrigação, com especial enfoque na agricultura do sudoeste alentejano. A maioria dos sistemas de monitorização e controlo de rega hoje em dia comercializados não estão otimizados para alguns dos desa os da agricultura moderna. Em muitos casos os terrenos cultivados não pertencem ao agricultor que os explora (são arrendados), o que limita a instalação de equipamentos de rega. Por outro lado as soluções convencionais exigem muita mão de obra, ou necessitam de fontes energéticas externas, sejam elas combustíveis fósseis ou energia, elétrica da rede de distribuição, ou a troca periódica de pilhas. Estes fatores aumentam os custos com manutenção, criam entraves à utilização dos terrenos cultivados que podem mesmo deixar de ser viáveis. O presente trabalho documenta o desenvolvimento de um sistema de monitoriza ção e controlo de rega, com capacidade para fornecer informação sobre os valores de temperatura e humidade do solo e do ar, ser portátil, de fácil instalação, auto-su ciente energeticamente e capaz de atuar válvulas de rega remotamente. Para alcançar este objetivo foram criados módulos que utilizam um NodeMCU como microcontrolador e comunicam através de Wi-Fi. Estes módulos recarregam as baterias com recurso a painéis solares, e são as unidades remotas do sistema. Para gerir o sistema foi criada uma aplicação que através da internet recebe os dados recolhidos nos terrenos e envia comandos para o início e m dos ciclos de rega. Por m foi desenvolvida uma interface para o utilizador que é servida através de um browser via página web para que seja possível interagir com o sistema em qualquer dispositivo, xo ou móvel, que tenha acesso à internet.<br>Nowadays, in the southwest of Alentejo, where agriculture is an activity in expansion, the e ects of climate change are often felt.The increase of the average temperature and the scarcity of rain in the spring cause a reduction of the water available for irrigation in the summer. According to the Portuguese directives, and in order to make agriculture a viable activity in the long term, this dissertation aims to create a system that increases the e ciency of irrigation systems, with a special focus on Southwest Alentejo agriculture. Most of today's irrigation systems on the market are not optimized for some of the challenges of modern agriculture. In many cases the cultivated land does not belong to the farmer who exploits them (they are rented), which limits the installation of irrigation equipment. On the other hand, conventional solutions either require great amout of labor, or they need external energy sources. External energy may be derived from fossil fuels, or electricity wich can be drwan from the distribution network, or by periodic exchanging of batteries. These factors increase maintenance costs, create barriers to the use of the land and potentially making it not viable for production. The present paper documents the development of a system to monitor and control irrigation. This system must be capable of monitoring the temperature and humidity of the soil and air, it must be portable, easy to install in the eld, energetically self-su cient and be able to operate irrigation valves remotely. To achieve this goal, were developed modules that use a NodeMCU as a microcontroller and to communicate through a Wi-Fi network. These modules recharge the batteries using solar panels, and are the remote terminal units of the system. To manage the system an application was created that receives data from the land through the internet and sends commands to start and end irrigation cycles. Finally, a user interface was developed, which is presented through a web page on a browser so that the user can interact with the system on any xed or mobile device that has access to the internet.
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Santos, Álvaro Rafael Moreira. "Plataforma de medida com suporte de mobilidade." Master's thesis, Universidade de Aveiro, 2017. http://hdl.handle.net/10773/23466.

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Mestrado em Engenharia Eletrónica e Telecomunicações<br>A mobilidade foi sempre um fator-chave a ser suportado nas redes de testes sem fios (também conhecidas por testbeds) já existentes. Estas redes permitem a recriação de cenários reais e emulados, encontrando-se uma destas instalada no terraço do Instituto de Telecomunicações (IT) de Aveiro, de nome AMazING. Um carril metálico apoiado num total de 40 pilares, também eles metálicos, foi implementado no terraço do IT. Sobre este carril é colocado um protótipo derivado a partir de um motor de uma bicicleta elétrica capaz de se deslocar ao longo deste carril a velocidades variáveis, permitindo assim que se recriem ou testem cenários de mobilidade nesta rede. Ao longo deste documento diferentes estratégias e técnicas foram estudadas de acordo com o estado de arte, e é apresentada uma proposta de um sistema de localização de modo a estimar a posição deste protótipo, conforme o seu movimento ao longo do carril.<br>Mobility has always been a key-factor to be inserted on already existent wireless networks designed for testing (also named testbeds). These networks allow the recreation of real and emulated scenarios and one of these is currently installed on the rooftop of the Institute of Telecommunications (IT) of Aveiro, named AMazING. A metallic rail supported by a total of 40 pillars, also metallic, has been deployed on the rooftop of IT. Over this rail is placed a prototype, based on the motor of an electrical bicycle, which is able of moving along the full length of the rail at variable values of velocity. This allows the recreation or testing of mobility scenarios on the testbeds. Throughout this document different strategies and techniques were studied accordingly to the state of the art and a proposal is presented of a localization system allowing this way to evaluate the position of the prototype, while it is travelling the metallic rail.
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Porras, Tapia Diego Enrique. "Sistema de monitorización depo-shui mediante una aplicación web, en el nivel de consumo de agua en tanques de domicilios en la urbanización de Pio Pata - El Tambo." Bachelor's thesis, Universidad Continental, 2018. http://repositorio.continental.edu.pe/handle/continental/4684.

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Švancer, Jan. "Automatizované pěstování rostlin." Master's thesis, Vysoké učení technické v Brně. Fakulta informačních technologií, 2017. http://www.nusl.cz/ntk/nusl-363856.

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This thesis combines two current trends - the Internet of Things and Urban Agriculture. It describes technologies for wireless sensors communication in smart homes and hardware for their implementation. Based on these technologies smart hardware for automatic plants growing is implemented and connected to cloud with remote access via iOS mobile application.
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Földvári, Adam. "Návrh inteligentnej senzorickej siete administratívnej budovy." Master's thesis, 2018. http://www.nusl.cz/ntk/nusl-429404.

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The diploma thesis focuses on the design of inteligent sensory network in the enviroment of administrative building. First part of thesis introduces reader to the existing and used technology in thesis, the following section describes the design, construction and implementation of modules and control application. The result of this thesis is a~working sensory network which can be managed by control application, which collects data from end-point modules. The complete solution will be tested in the SmartPEF project.
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Lo, Chun-Yi, and 羅峻譯. "A study of using NodeMCU and MIT App Inventor 2 on Android Mobile Device-Design a Smart Clothing with GPS、Moving Detect and UV Measure." Thesis, 2017. http://ndltd.ncl.edu.tw/handle/c7xs8f.

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碩士<br>國立交通大學<br>理學院科技與數位學習學程<br>105<br>In recent years, the network is becoming more and more popular, people can use mobile phone or tablet to access the Internet at any time any place. It also indirectly driven the Internet of Things (IoT) technology to develop rapidly. In IoT filed, the cost is the advantage of NodeMCU. NodeMCU is a microprocessor. It has WIFI module and multi-GPIO to use. It also compatible with Arduino. So we choose NodeMCU to do our research. The purpose of the study was to access the IoT skills of smart coat. The smart coat use NodeMCU to integration UV measurement, moving detect and GPS Modules. The smart coat can collect data from these modules and upload these data to cloud. We can use the App that develop by myself to download these data from cloud. It can exploit the GPS to support search and rescue. It also can detect the people moving for check people is alive, if people wear the smart coat. And provide the UV value for people do some protect.
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Bensaid, Samira. "Développement d'une stratégie de couplage NODEM-NARCM via le modèle océanique GOTM." Mémoire, 2008. http://www.archipel.uqam.ca/2058/1/M10850.pdf.

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Dans le cadre du développement d'un outil numérique couplé atmosphère-océan-biogéochimie permettant de lier les processus physiques et biogéochimiques et de mieux comprendre la rétroaction entre l'océan et l'atmosphère, nous avons couplé la version unidimensionnelle du modèle atmosphérique NARCM (MLC) au modèle océanique GOTM et au modèle biogéochimique NODEM. Le but de ce travail consistait, d'une part, à développer le modèle couplé NODEM-GOTM-MLC et, d'autre part, à valider et évaluer ce modèle couplé au niveau de l'Hydrostation S en mer des Sargasses durant l'année 1992. Ceci a été réalisé tout en étudiant l'ensemble des processus physiques et biogéochimiques influençant la production du DMS océanique et la ventilation du DMS vers l'atmosphère. Pour réaliser le couplage NODEM-GOTM-MLC, la stratégie suivie consistait au développement d'une interface permettant les échanges des champs atmosphériques et océaniques nécessaires au forçage de surface. Par ailleurs, afin de valider notre modèle couplé NODEM-GOTM-MLC, nous avons comparé, d'une part, les flux d'énergie en surface simulés par le modèle avec ceux de ré-analyses NCEP et, d'autre part, le cycle annuel de la Chla et du DMS(Pp) avec les données d'observations disponibles au niveau de l'Hydrostation S pour l'année 1992. Le résultat de cette recherche montre que le modèle couplé est capable de reproduire les principaux composants du flux net d'énergie d'une manière adéquate. De plus, par comparaison avec l'ancienne version NODEM-GOTM, les simulations des cycles du DMS et du DMSPp ont été améliorées suite au couplage avec MLC. Cette nouvelle version est notamment capable de simuler les trois principaux pics du DMS présents dans les données d'observations. Cette amélioration se traduit quantitativement lors du calcul des coefficients de détermination, qui confirment que cette nouvelle version est mieux corrélée aux observations que l'ancienne. Nous avons conclu notre travail en montrant que le modèle NODEM-GOTM-MLC capte la majorité des événements locaux qui se produisent à petite échelle et à l'échelle saisonnière, en dépit du fait qu'il possède des limitations liées aux erreurs des paramétrages du modèle et à l'incapacité du modèle ID à simuler certains types d'événements. Finalement, cette étude montre qu'une meilleure simulation de tous les composants du système climatique améliore la production du DMS océanique qui sera ventilé vers l'atmosphère. ______________________________________________________________________________ MOTS-CLÉS DE L’AUTEUR : couplage, échanges atmosphère-océan-biogéochimique, DMS, NODEM-GOTM-MLC, version ID de NARCM
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Books on the topic "NodeMuc"

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Urtāns, Aigars. Nodokl̦u un nodevu vēsture Latvijā. Valsts ien̦ēmumu dienests, 2003.

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K, Anbazhagan, and Ambika Parameswari K. Arduino, Raspberry Pi, NodeMCU Simple Projects in Easy Way. Independently Published, 2019.

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kale, Jacob. ESP8266 NodeMCU Using Arduino IDE: Getting Start with ESP8266. Independently Published, 2018.

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4

Kuhnel, Claus. Building an IoT Node for less than 15 $: NodeMCU & ESP8266. Skript Verlag Kühnel, 2015.

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ESP8266: Step by Step Tutorial for ESP8266 IOT, Arduino Nodemcu Dev Kit. Independently Published, 2018.

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Lichtig, Dean. Arduino for Beginner : Opening up the World of Inexpensive Digital Video Recording: How to Connect Ov7670 with Nodemcu. Independently Published, 2021.

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Book chapters on the topic "NodeMuc"

1

Nandeshwar, Vikas, Ishawar Borade, Atharva Borade, et al. "Farm automation using NodeMCU." In Advances in AI for Biomedical Instrumentation, Electronics and Computing. CRC Press, 2024. http://dx.doi.org/10.1201/9781032644752-102.

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Saini, Abhinay, E. Harshini, Revanth Kaparthi, and J. Krishna Chaithanya. "Fruit Freshness Detection Using NodeMCU." In Advancements in Science and Technology for Healthcare, Agriculture, and Environmental Sustainability. CRC Press, 2024. http://dx.doi.org/10.1201/9781032708348-4.

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Singh, Rajesh, Anita Gehlot, Bhupendra Singh, and Sushabhan Choudhury. "Role of NodeMCU in Agricultural Field." In Internet of Things (IoT) Enabled Automation in Agriculture. CRC Press, 2022. http://dx.doi.org/10.1201/9781003364702-3.

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Diwania, Sourav, Sumit Sharma, Salim, and Varun Gupta. "IoT-based home automation using NodeMCU." In Artificial Intelligence and Machine Learning Applications for Sustainable Development. CRC Press, 2024. https://doi.org/10.1201/9781003581246-9.

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Rajeshkumar, G., P. Rajesh Kanna, S. Sriram, S. Sadesh, R. Karunamoorthi, and Prasad Mahudapathi. "Home Automation System Using Nodemcu (ESP8266)." In Studies in Autonomic, Data-driven and Industrial Computing. Springer Nature Singapore, 2023. http://dx.doi.org/10.1007/978-981-99-2768-5_28.

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Suganya, R., N. Tamilarashan, A. Sharan, and K. Vishnu. "Wield NodeMCU IOT to Shelter Coal Mining." In International Conference on Computing, Communication, Electrical and Biomedical Systems. Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-030-86165-0_38.

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Mano Paul, P., Sandeep Dhariwal, P. M. Ebin, et al. "Smart Air Pollution Monitoring System Using NodeMCU." In Lecture Notes in Networks and Systems. Springer Nature Singapore, 2025. https://doi.org/10.1007/978-981-96-2694-6_42.

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Yaichi, Mouaad, Mhamed Rebhi, and Bouchiba Bousmaha. "Smart Unidirectional Road Lighting Control Using NodeMCU ESP8266." In Artificial Intelligence and Renewables Towards an Energy Transition. Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-63846-7_64.

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Namrata, Kumari, Abhishek Dayal, Dhanesh Tolia, Kalaga Arun, and Ayush Ranjan. "IoT-integrated Smart Grid Using PLC and NodeMCU." In Control Applications in Modern Power System. Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-8815-0_21.

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Ayala-Chauvín, Manuel, Joel Andrés Acurio-Pérez, Genís Riba Sanmartí, and Jorge Buele. "Low-Cost Energy Consumption Monitoring System Using NodeMCU." In Communications in Computer and Information Science. Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-031-19961-5_12.

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Conference papers on the topic "NodeMuc"

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Bindal, Rohi, Aniruddha Yadav, Prajjwal Dewanzan, Aditya Shinde, Yuvraj Salaria, and Shubhangi Deokar. "NodeMCU Based Weather Monitoring System." In 2023 IEEE International Carnahan Conference on Security Technology (ICCST). IEEE, 2023. http://dx.doi.org/10.1109/iccst59048.2023.10726856.

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Mihir, D. V. S., Baramkula Vishnu Datta Pavan, Yogen Avinash Aralaguppi, Pranav Biju Nair, and Meena Belwal. "Environmental Monitoring Using LoRa and NodeMCU." In 2025 3rd International Conference on Intelligent Data Communication Technologies and Internet of Things (IDCIoT). IEEE, 2025. https://doi.org/10.1109/idciot64235.2025.10914844.

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Kasiselvanathan, M., K. Vijayakumar, A. Vijay, G. Bharanidharan, A. Benedict Raj, and K. Hari Prasath. "Enhanced Device Alert System using NodeMCU." In 2024 8th International Conference on Electronics, Communication and Aerospace Technology (ICECA). IEEE, 2024. https://doi.org/10.1109/iceca63461.2024.10800971.

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Muthekar, Divya S., Kishor V. Gadekar, A. M. Deulkar, and D. B. Pardeshi. "Smart Irrigation System using ESP8266, NodeMCU & ThingSpeak." In 2024 8th International Conference on Inventive Systems and Control (ICISC). IEEE, 2024. http://dx.doi.org/10.1109/icisc62624.2024.00110.

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M, Suresh Chinnathampy, Jobin C. J, Jarin T, V. P. M. B. Aarthi, and N. Raghavendran. "Cloud Computing's IoT based ThingSpeak, NodeMCU for Weather Monitoring." In 2024 5th International Conference on Electronics and Sustainable Communication Systems (ICESC). IEEE, 2024. http://dx.doi.org/10.1109/icesc60852.2024.10689978.

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Mary, D. Magdalin, S. Sheik Riazudeen, D. Mahesh Prasath, and P. Surya. "Wireless Access Control System for Motorcycles with NodeMCU ESP8266." In 2024 10th International Conference on Advanced Computing and Communication Systems (ICACCS). IEEE, 2024. http://dx.doi.org/10.1109/icaccs60874.2024.10717055.

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Mangal, Mayank, Vikas Sharma, Arun Chavar, Manish Singh, and Suaid Momin. "Building IoT Based Wireless Network Pen-Testing Using NodeMCU." In 2024 International Conference on Advances in Computing Research on Science Engineering and Technology (ACROSET). IEEE, 2024. http://dx.doi.org/10.1109/acroset62108.2024.10743524.

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Tandel, Rajat, Ebenezer V, Santhiya P, Bijolin Edwin, Stewart Kirubakaran S, and Roshni Thanka. "IoT-Based Plant Health Monitor Using NodeMCU and ESP8266." In 2024 International Conference on IoT Based Control Networks and Intelligent Systems (ICICNIS). IEEE, 2024. https://doi.org/10.1109/icicnis64247.2024.10823336.

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Sayekti, Naufal Choirully, Mohamad Agus Fhaizal, Wisnu Wijaya, Nenny Hendajany, Ine Aprianti, and Kusmadi. "Smart Farming Design with NodeMCU ESP32 for NFT HYDROPONIC." In 2024 18th International Conference on Telecommunication Systems, Services, and Applications (TSSA). IEEE, 2024. https://doi.org/10.1109/tssa63730.2024.10864065.

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Patil, Neha Rajas, Amruta Amune, Ishan Shivankar, et al. "Air Quality Index Prediction Model Utilizing Random Forest and NodeMCU." In 2024 IEEE 4th International Conference on ICT in Business Industry & Government (ICTBIG). IEEE, 2024. https://doi.org/10.1109/ictbig64922.2024.10911414.

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