Relevant bibliographies by topics / Nodemcu ESP8266 WI-FI

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Academic literature on the topic 'Nodemcu ESP8266 WI-FI'

Author: Grafiati
Published: 4 June 2025
Last updated: 23 June 2025

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Journal articles on the topic "Nodemcu ESP8266 WI-FI"

1

Adhamdi Abza Tria Putra, Yuni Sihombing, Nurhayati, Imelda Gultom,. "KONTROL ROBOT MENGGUNAKAN SMARTPHONE ANDROID MELALUI WI-FI BERBASIS NODEMCU ESP8266." Jurnal Intra Tech 5, no. 1 (2021): 11–20. http://dx.doi.org/10.37030/jit.v5i1.91.

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Robot merupakan salah satu tantangan dalam dunia robotika yang diselenggarakan untuk dapat lebih mengembangkan robotika dan kecerdasan buatan serta sebagai ajang bertukar ilmu bagi para peneliti di seluruh dunia.Telah dirancang sebuah alat Impelementasi Robot Menggunakan Kontrol Smartphone Android dengan Sistem komunikasi WI-FI Berbasis NodeMCU ESP8266. Sistem robot ini menggunakan mikrokontroller NodeMCU ESP8266 yang dimana NodeMCU ESP8266 berfungsi sebagai pengolah data, dan juga penerima jaringan WI-FI yang dipancarkan oleh sebuah sistem jaringan WI-FI. Sistem robot ini menggunakan sistem pengontrolan dengan menggunakan smartphone android untuk mengontrol gerakan dari robot gerakan roda maupun, robot ini menggunakan sistem komunikasi jaringan WI-FI agar sistem robot dan smartphone android dapat terkoneksi, pada sistem robot ini menggunakan 1 driver pengerak arah putaran motor DC yang dimana driver Berfungsi menggerakan arah putaran motor DC pada roda robot.. Power supply pada robot ini menggunakan 3 buah baterai Li-Ion 3,7 Volt yang di rangkai secara seri agar medapat tegangan 12 volt, tegangan 12 volt baterai masuk terlebih dahulu pada rangkaian ic regulator 7805 agar mendapat tengangan output sebesar 5 volt, tegangan 5 volt inilah yang berfungsi untuk mensupply sistem robot agar dapat dioperasikan
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Todica, M. "P2P (Bilateral) Communication Between Nodemcu Esp8266 Boards Using Arduino Ide." Studia Universitatis Babeș-Bolyai Physica 65, no. 1-2 (2020): 69–86. http://dx.doi.org/10.24193/subbphys.2020.08.

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"Bilateral communication between the boards NodeMcu ESP826 is achieved using the WI FI capabilities of these devices and particularly code based on Arduino IDE. The system is used to control servos, DC motors or led. The duplex communication allows feedback action between sender and receiver. Real time feedback is obtained by particularly connection of the servo to the board. Keywords: Bilateral communication, NodeMcu ESP8266, Arduino. "
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A.Anandkumar, Kumar M.Aravinth, G.Guhan, and M.Karthik. "Wi-Fi Controlled RC Car using ESP8266." Recent Innovations in Wireless Network Security 2, no. 2 (2020): 1–4. https://doi.org/10.5281/zenodo.3968317.

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<em>Robots have suddenly started grabbing attention in this world for their applications. Wi-Fi controlled robots or NodeMCU helps to rescue individuals from collapsed buildings due to natural disasters. Currently the operations of Robots are controlled by remote sensor technology. The proposed concept of this modified Wi-Fi controlled robots or node MCU Robot used for navigation or location identification. By Introducing this navigation and location identification concepts in robots can save human beings from a risky and harmful natural disasters especially that happens in power plants.</em>
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SUSANA, RATNA, FEBRIAN HADIATNA, and APRIANTI GUSMANTINI. "Sistem Multihop Jaringan Sensor Nirkabel pada Media Transmisi Wi-Fi." ELKOMIKA: Jurnal Teknik Energi Elektrik, Teknik Telekomunikasi, & Teknik Elektronika 9, no. 1 (2021): 232. http://dx.doi.org/10.26760/elkomika.v9i1.232.

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ABSTRAKDengan menerapkan sistem multihop pada jaringan sensor nirkabel, pembacaan kondisi lingkungan dapat dilakukan pada lingkungan yang lebih luas. Pada penelitian ini, sistem multihop jaringan sensor nirkabel menggunakan platform IoT NodeMCU V3 yang memiliki modul Wi-Fi ESP8266. Jumlah sensor node yang digunakan merupakan batas maksimal client yang dapat terhubung kepada Wi-Fi ESP8266, yaitu 1 sink node dan 4 sensor node. Sensor node akan mengirimkan datanya kepada sink node, kemudian data tersebut akan dikirimkan kepada website untuk ditampilkan pada dashboard Adafruit.io. Pengiriman data diuji menggunakan 2 topologi yaitu bus dan tree. Berdasarkan hasil pengujian, jarak maksimal pengiriman data pada topologi bus tanpa penghalang adalah 72 meter dengan delay pengiriman 64 detik dan topologi tree adalah 108 meter dengan delay pengiriman 14 detik. Sistem multihop pada topologi bus dan tree dapat mengirim data dengan 2 penghalang yang memiliki ketebalan 15 cm dengan delay pengiriman 29 detik pada topologi bus dan 14 detik pada topologi tree.Kata kunci: jaringan sensor nirkabel, multihop, Wi-Fi, NodeMCU V3 ABSTRACTBy applying a multihop system on wireless sensor network, reading environment condition can be done in wider environment. In this study, multihop system in wireless sensor network uses IoT NodeMCU V3 platform which has a Wi-Fi ESP8266 module. The amount of node sensor is the maximum limit of client which can be linked to Wi-Fi access point in Wi-Fi ESP8266 module, i.e 1 sink node and 4 sink node. The node sensor will transfer the data to the sink node, then the data will be transfered to the website to be shown on Adafruit.io dashboard. The transmission data is tested using 2 topologies, i.e bus and tree. Based on the test, the maximum distance of data transmission in bus topology without barrier is 72 meters with delivery delay which takes 64 seconds and in tree topology is 108 seconds with delivery delay which takes 14 seconds. The multihop system in the bus topology and the tree topology can send the data with 2 barriers which has 15 cm width and delivery delay among the nodes which takes 29 seconds in bus topology and 14 seconds in tree topology.Keywords: wireless sensor network, multihop, Wi-Fi, NodeMCU V3
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Muktashim Billah, Marto Sihombing, and Rahmadani. "Kandang Ayam Pintar Berbasis Internet of Thinks Menggunakan NodeMCU ESP8266." Indonesian Journal of Education And Computer Science 2, no. 2 (2024): 121–30. http://dx.doi.org/10.60076/indotech.v2i2.660.

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Perancangan perangkat kandang ayam pintar berbasis IoT. Sistem perangkat ini menggunakan mikrokontroler NodeMCU ESP8266 yang berfungsi sebagai pengolah data dan pengirim perintah dan juga sebagai penerima jaringan WI-FI. Sistem perangkat kendang ayam pintar ini menggunakan system kontrol menggunakan smartphone android untuk mengontrol dan memonitoring keadaan, kendang ayam pintar ini menggunakan system komunikasi jaringan WI-FI sehingga sistem kendang ayam dan smartphone android dapat terhubung, dalam system kendang ayam pintar ini menggunakan sensor dht11 sebagai pengontrol suhu yang ada di dalam kendang ayam, dan motor servo sebagai penggerak penutup pakan ayam. Supply tegangan yang di gunakan oleh alat ini adalah AC-DC colokan listrik rumah untuk di hububgkan ke lampu, sumber tegangan yang di butuhkan pompa air 5volt. Tegangan AC-DC masuk terlebih dahulu ke rangkaian relay, 5 volt tengangan untuk menghidupkan pompa air. Alat ini dapat diguanakan dengan mudah untuk membantu kegiatan manusia dalam memelihara ayam hanya dengan menggunakan smartphone dan di hubungkan ke WI-FI.
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Rismayadi, Ali Akbar, Muhammad Ali Sobri, Fitri Khoirunnisa, and Asep Dedy. "Perancangan Alat Monitoring Ketinggian Air Bak Berbasis IoT Menggunakan Mikrokontroler Node MCU ESP8266." Jurnal Nasional Komputasi dan Teknologi Informasi (JNKTI) 7, no. 4 (2024): 870–79. https://doi.org/10.32672/jnkti.v7i4.7852.

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Abstrak - Penelitian ini mengembangkan sistem pemantauan dan kontrol ketinggian air berbasis IoT menggunakan NodeMCU ESP8266 untuk mengoptimalkan penggunaan dan pengelolaan air. Sistem ini memanfaatkan teknologi IoT untuk mengumpulkan dan mengirim data mengenai level air melalui Wi-Fi, serta memungkinkan pengendalian jarak jauh. Dengan menggunakan sensor limit switch dan modul relay, sistem ini mampu memantau dan mengatur aliran air secara otomatis, mengurangi pemborosan, dan memastikan pengelolaan yang efisien. Hasil dari penelitian ini menunjukkan bahwa sistem yang dikembangkan efektif dalam meningkatkan manajemen air dan meminimalisir kesalahan manusia.Kata kunci: Internet of Things (IoT), NodeMCU ESP8266, Monitoring Abstract - This research develops an IoT-based air altitude monitoring and control system using NodeMCU ESP8266 to optimize air use and management. This system utilizes IoT technology to collect and send data about air levels via Wi-Fi, and enables remote control. By using limit switch sensors and relay modules, this system is able to connect and regulate air flow automatically, reducing waste and ensuring efficient management. The results of this research show that the system developed is effective in improving air management and minimizing human error.Keywords: Internet of Things (IoT), NodeMCU ESP8266, Monitoring
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Jawalkar, Mayur Sunil, Nayan Desale, Fanil Suratwala, Amol Lamkhade, Parikshit N. Mahalle, and Poonam N. Railkar. "Intelligent Wildlife Tracking Using Ubiquitous Technological Suite." International Journal of Synthetic Emotions 8, no. 1 (2017): 44–59. http://dx.doi.org/10.4018/ijse.2017010104.

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This paper proposes an intelligent system to track location of an individual animal or animals in wildlife sanctuary. Existing systems makes use of various technologies such as RFID, GPS, GSM, etc. RFID based systems either lack in range if passive tags are used or lack in cost effectiveness if active tags are used. Similarly, GSM based system becomes costlier and requires constant network connectivity. Hence this paper proposes a Wi-Fi based tracking system. Proposed system makes use of ubiquitous technology which encourages the use of Wi-Fi Transceivers. The Stationary Wi-Fi Transceiver consists of ESP8266 NodeMCU development board which detects the Mobile Transceiver. The Mobile Transceiver consists of ESP8266 NodeMCU attached to animals. The Stationary Wi-Fi transceiver detects Mobile Transceivers under its vicinity and sends the data to other Stationary transceiver through hop based transmission and ultimately the data is stored in the database. The mobile application accesses the location information from the database for particular animal and plots it onto the Map. This paper comprises of system architecture, proposed algorithm and mathematical model.
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Abdullah, Subarkah, Risky Fauzi, and Ika Setiawan. "Membangun Sistem IoT Sederhana Pengendalian LED menggunakan Arduino Nodemcu ESP8266 di SMK Media Informatika." Dinamika: Jurnal Pengabdian Masyarakat 2, no. 1 (2024): 36–41. http://dx.doi.org/10.56457/dinamika.v2i1.577.

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Seiring berkembangnya infrastruktur Internet, tidak hanya ponsel cerdas dan komputer yang dapat terhubung ke Internet. Misalnya semua perangkat elektronik yang terhubung ke Internet, seperti remote control lampu. Dalam bidang IT, konsep ini dikenal dengan istilah Internet of Things (IoT), sebuah konsep yang bertujuan untuk memperluas konektivitas jaringan. Ruang belajar ini mempunyai fungsi pengatur lampu yaitu satu lampu dan semua lampu untuk menyalakannya. Dalam hal ini dapat disimpulkan bahwa IoT mengacu dan menggunakan suatu objek yang nantinya dapat berkomunikasi melalui jaringan internet, yaitu. Aplikasi IoT untuk mengontrol pencahayaan lampu LED. ESP8266 adalah modul tambahan Wi-Fi untuk mikrokontroler seperti Arduino, yang memungkinkan koneksi langsung ke jaringan Wi-Fi dan membuat koneksi TCP/IP. Modul ini bekerja pada sekitar 3.3V dan memiliki tiga mode Wi-Fi: Stasiun, Titik Akses, dan Keduanya. Dilengkapi dengan CPU, memori dan GPIO, ESP8266 dapat bekerja secara mandiri tanpa tambahan mikrokontroler. Firmware bawaannya menggunakan AT Command, namun modul ini mendukung beberapa SDK firmware open source seperti NodeMCU (lua), MicroPython (Python), dan AT Command. Pemrograman dapat dilakukan dengan ESPlorer untuk NodeMCU, dempul seperti terminal kontrol AT Command, atau Arduino IDE dengan menambahkan perpustakaan ESP8266 ke board manager.
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Нарожный, В. В., А. С. Назаров та Т. Г. Дегтярева. "ДОСЛІДЖЕННЯ ДАТЧИКА ТЕМПЕРАТУРИ DS18B20 WI-FI МОДУЛЕМ NODEMCU V3 ESP8266". Open Information and Computer Integrated Technologies, № 85 (29 липня 2019): 167–74. http://dx.doi.org/10.32620/oikit.2019.85.10.

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The past decade can be characterized by the accelerating Internet of Things (IoT) development. Currently, the European Research Cluster on the Internet of Things (IERC) defines IoT as a dynamic global network infrastructure with the possibility of self-tuning based on standard and compatible communication protocols. The Internet and microprocessor technology development caused the rise of IoT. Other factors influencing the rapid IoT development were cloud computing and wireless networks popularity growth. As a result, the widespread use of IoT required an increase in the reliability of the devices.In many areas of modern technological processes and physical researches, the temperature is a significant physical characteristic. The paper describes the hardware and software complex connecting the DS18B20 temperature meter (sensor). The complex is designed to study the fault-tolerance of temperature measurements in IoT. The Wi-Fi module NodeMCU V3 based on ESP8266 is applied as a control unit of the complex.The IoT appearance brought to a new level such an important segment of technical researches as the development of the fault-tolerant solutions. One of the important subsystems of such an application is the physical parameters detection of various devices in real-time. The temperature is a significant physical characteristic in many areas of modern technological processes and physical researches. The hardware and software complex for connecting a DS18B20 temperature measurer (sensor) is described in the paper. The complex is designed to examine the temperature measurement fault-tolerance in IoT. The Wi-Fi module NodeMCU V3 based on ESP8266 is applied as the complex controller.As far as the work of IoT depends mainly on the information provided by the sensors, the sensor performance monitoring is critically important. The autonomous system architecture of IoT includes such tasks as perception, localization, planning, management and control over systems exchanging information with each other. For this reason, the reliability of the sensors is of high concern. Therefore, one failure can lead to the IoT system dangerous behavior.The IoT fault-tolerance is an important direction of modern systems design. The research of the ensuring possibility of the IoT fault-tolerance functioning is an urgent task. For such studies, hardware and software complexes are developed.
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Tanjung, Anggi Muhammad, and A. M. H. Pardede. "Distribution Of Lightweight File Delivery Using IoT." Journal of Artificial Intelligence and Engineering Applications (JAIEA) 2, no. 3 (2023): 123–28. http://dx.doi.org/10.59934/jaiea.v2i3.210.

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A lightweight file lifter car distribution device using Iot has been designed. This robot system uses the NodeMCU ESP8266 microcontroller where the NodeMCU ESP8266 functions as a data processor, and also a WI-FI network receiver emitted by a WI-FI network system. This robot car system uses a control system using an Android smartphone to control the movement of the wheels, this robot car uses a WI-FI network communication system so that the robot car system and Android smartphone can be connected, in this robot car system it uses a DC motor rotation direction drive driver which is The driver functions to move the direction of rotation of the DC motor on the wheels of the robot car. The power supply for this robot uses 3 3.7 Volt Li-Ion batteries which are arranged in series to get a 12 volt voltage, the 12 volt battery voltage goes first to the 7805 regulator IC circuit to get an output voltage of 5 volts, 5 volts voltage. this is what functions to supply the robot system so that it can be operated
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Dissertations / Theses on the topic "Nodemcu ESP8266 WI-FI"

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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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Book chapters on the topic "Nodemcu ESP8266 WI-FI"

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Jawalkar, Mayur Sunil, Nayan Desale, Fanil Suratwala, Amol Lamkhade, Parikshit N. Mahalle, and Poonam N. Railkar. "Intelligent Wildlife Tracking Using Ubiquitous Technological Suite." In Veterinary Science. IGI Global, 2018. http://dx.doi.org/10.4018/978-1-5225-5640-4.ch001.

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This paper proposes an intelligent system to track location of an individual animal or animals in wildlife sanctuary. Existing systems makes use of various technologies such as RFID, GPS, GSM, etc. RFID based systems either lack in range if passive tags are used or lack in cost effectiveness if active tags are used. Similarly, GSM based system becomes costlier and requires constant network connectivity. Hence this paper proposes a Wi-Fi based tracking system. Proposed system makes use of ubiquitous technology which encourages the use of Wi-Fi Transceivers. The Stationary Wi-Fi Transceiver consists of ESP8266 NodeMCU development board which detects the Mobile Transceiver. The Mobile Transceiver consists of ESP8266 NodeMCU attached to animals. The Stationary Wi-Fi transceiver detects Mobile Transceivers under its vicinity and sends the data to other Stationary transceiver through hop based transmission and ultimately the data is stored in the database. The mobile application accesses the location information from the database for particular animal and plots it onto the Map. This paper comprises of system architecture, proposed algorithm and mathematical model.
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R, Gayathri. "DESIGN AND IMPLEMENTATION OF CLOUD PLATFORM FOR SMART HOME AUTOMATION." In Futuristic Trends in Electrical Engineering Volume 3 Book 2. Iterative International Publishers, Selfypage Developers Pvt Ltd, 2024. http://dx.doi.org/10.58532/v3bdee2p8ch3.

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The design and implementation of a cloud platform for IOT devices is presented in this report. This platform is specifically developed to provide the user with a portal to control the physical devices anywhere from the geo or globe. The system utilizes a 5V relay module typically consists of a relay, driver circuitry, and supporting components. The NodeMCU which is an open-source development board based on the ESP8266 Wi-Fi module and microcontroller unit (MCU) with built-in Wi-Fi connectivity. This methodology consists of Ac supply which is been connected to the bulb and the relay parallelly and web application which gives the user to take input and the following inputs are being converted to actions. This platform for IOT devices is an innovative and sustainable solution for controlling the status of the electrical equipment’s overcoming the challenges such as manual switching and failure in data analysis. This platform which also supports the application from smartphones makes it much more flexible in usage. The successful implementation of this projecthas a great capability for improving the IoT application and has much more future prospect on the same.
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Conference papers on the topic "Nodemcu ESP8266 WI-FI"

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G K, Siddesh, Rakesh Kumar Patel, Sayan Maitra, Sabitabrata Bhattacharya, Shaik Moosa, and Pattubala Pavan. "Robotic Car Using NodeMCU ESP8266 Wi-Fi Module." In 2023 9th International Conference on Advanced Computing and Communication Systems (ICACCS). IEEE, 2023. http://dx.doi.org/10.1109/icaccs57279.2023.10113098.

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Jurj, Sorin Liviu, Raul Rotar, Flavius Opritoiu, and Mircea Vladutiu. "White-Box Testing Strategy for a Solar Tracking Device Using NodeMCU Lua ESP8266 Wi-Fi Network Development Board Module." In 2018 IEEE 24th International Symposium for Design and Technology in Electronic Packaging (SIITME). IEEE, 2018. http://dx.doi.org/10.1109/siitme.2018.8599250.

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Rezwan, Sifat, Wasit Ahmed, Mahrin Alam Mahia, and Mohammad Rezaul Islam. "IoT Based Smart Inventory Management System for Kitchen Using Weight Sensors, LDR, LED, Arduino Mega and NodeMCU (ESP8266) Wi-Fi Module with Website and App." In 2018 Fourth International Conference on Advances in Computing, Communication & Automation (ICACCA). IEEE, 2018. http://dx.doi.org/10.1109/icaccaf.2018.8776761.

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