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Journal articles on the topic 'Arduino Wifi module'
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1
Goel, Vipul, Rishabh Varshney, Saksham Parashar, Sahil Ali, and Pravesh singh. "Laser Based Smart Security Apparatus Using Arduino." International Journal for Research in Applied Science and Engineering Technology 10, no. 3 (2022): 1862–65. http://dx.doi.org/10.22214/ijraset.2022.40986.
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Abstract: Our paper deals with the plan and execution of a LASER based smart security system for discovering burglar. The principal edge of using the Laser system is that the burglar is unmindful of the fact that a security system is fix in the entry points like doors and windows since laser rays can travel long distances and are almost imperceptible. When someone go through the laser ray the circuit senses the cutoff and stumble the alarm. The alarming sound does not stop until someone turns it off manually after scrutnizing. It is one of the most economical security apparatus that can be used for indoors as well as outdoors. This apparatus centre of attention is on sending a photo of the burglar into the registered email address for sustainable verification with the help of LDR and WIFI module. It is quite competent and need very minimal power. Important terms: Arduino, LDR module, WIFI module, Piezo buzzer, message alert, laser module security
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Chauhan, Dhananjay. "Paper on WiFi Controlled Arduino Based Robot Car." International Journal for Research in Applied Science and Engineering Technology 9, no. VII (2021): 1267–71. http://dx.doi.org/10.22214/ijraset.2021.36569.
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In this paper, we will deliberate how to control robot car using Wi-Fi module through a webpage using computer or smartphone. The advantage of using robot car is it can be used for various purposes like this project can be modified quite easily to include a spy camera as well that can stream the videos to the user over Wi-Fi. Attempts would be made to use solar cells instead of the regular lithium-ion battery for the project. This robot car can also be used to push the objects from one place to another. This project will be enhanced with better Wi-Fi which would enable long distance communication.
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Dang, Trung Ngoc, and Linh Thi Huyen Le. "An Improvement of Remote Control Panel for Numerous Electrical Devices in Smart Homes Using RF and Wifi." International Journal of Online and Biomedical Engineering (iJOE) 15, no. 15 (2019): 127. http://dx.doi.org/10.3991/ijoe.v15i15.11668.
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<p>This study aims to improve a remote control panel for numerous electrical devices in smart homes using radio frequency (RF) and wifi. In this study, RF315MHz transceiver module and Arduino Ethernet Shield wifi module are combined by a programmed algorithm to transmit control signals from a central processor to the electrical devices in the smart house. The RF315 MHz transceiver with hard coding is modified to be a soft coding module in which each control channel can switch on/off 256 electrical devices. Then, a remote control panel is developed to control numerous electrical devices based on the requirements of the number of control buttons and the technology in the smart house. Moreover, this proposed method allow to control the electrical devices in the house by various panels. An experimental model with two separate transmission channels using two soft-coded RF315MHz modules has been done to verify the applicability of the proposed method.</p>
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Aristiyana, Fadil Danu, Feri Nugroho, Sinka Wilyanti, Ribut Nawang Sari, and Indra Satriadi. "Pengontrol Lampu Berbasis IoT dengan Arduino untuk Pencegahan Penularan Covid-19." Jurnal Informatika Universitas Pamulang 8, no. 1 (2023): 1–6. http://dx.doi.org/10.32493/informatika.v8i1.20091.
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With the Covid-19 virus pandemic that has plagued various countries, the need for a system to prevent transmission of the virus is very important. By utilizing IoT technology to be applied to light control systems, it can reduce the spread of the Covid-19 virus. The design of this IoT-based light control system is carried out using the Android application and the Arduino Uno via a Wifi connection and using a PIR sensor that can be connected to the ESP8266 Wifi module. With the PIR motion sensor, it can be implemented as a controller of light intensity with 3 brightness differences.
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Saputra, Andrial, Muhammad Hafizd Ibnu Hajar, and Ahmad Rasikh Bahrain. "Sistem Kontrol Pada Hydroponics Grow Room Dengan Menggunakan Module Esp8266-01." Jurnal Teknologi Elektro 10, no. 1 (2019): 16. http://dx.doi.org/10.22441/jte.v10i1.003.
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Media tanaman yang digunakan pada penelitian ini adalah teknik hidroponik dengan memakai tanaman kangkung untuk media pengamatan yang akan dilakukan pada Hydroponics grow room menggunakan lampu LED Grow Light sebagai pengganti cahaya matahari. Dalam sistem kontrol ada 3 input yang akan di proses menjadi output adalah sensor DHT11 sebagai input untuk pembacaan hasil pada program arduino yang akan mengontrol relay terhadap kipas, sensor LDR sebagai input untuk pembacaan hasil pada program arduino yang akan mengontrol relay terhadap lampu, kemudian water level sensor sebagai input untuk pembacaan hasil pada program arduino yang akan mengontrol relay terhadap pompa. Pada sistem monitoring yang akan dihasilkan pada internet web Thinkspeak mempunyai 4 output dari sensor suhu DHT11, sensor kelembaban DHT11, sensor Ultrasonik HC-SR04 untuk mengukur ketinggian tanaman, dan water level sensor untuk mengukur ketinggian air pada baki. Hasil pada pengaturan kontrol otomatis sesuai dengan pembacaan data oleh arduino, yaitu kipas akan hidup (on) ketika suhu >300 dan kelembaban sebesar >60% pada Hydroponics Grow Room. Kemudian pada pompa air akan hidup (on) ketika ketinggian air pada baki hidroponik kurang dari 50 % sesuai dengan setpoint yang dibutuhkan. Selanjutnya adalah kontrol pada lampu LED grow light dan LED bulb ketika sensor LDR mencapai setpoint >500 dalam keadaan terang, dan <500 dalam keadaan gelap. Pada sistem monitoring melalui wifi module esp8266-01 yang terhubung hotspot internet mempunyai waktu update / menerima data di web Thingspeak rata-rata selama 2,4 detik dari waktu pengiriman data melalui arduino dan wifi module esp8266-01. Untuk hasil pengamatan pertumbuhan tanaman kangkung menggunakan pencahayaan LED bulbs memiliki pertumbuhan lebih pesat dibandingkan pertumbuhan tanaman kangkung menggunakan pencahayaan LED grow light. Faktor yang menyebabkan pertumbuhan menggunakan pencahayaan LED bulbs lebih cepat dibandingkan dengan pertumbuhan menggunakan LED grow light adalah adanya pengaruh dari hormon auksin. Jika terkena cahaya LED grow light, auksin menjadi tidak aktif, tetapi apabila terkena cahaya LED bulbs pengaruh auksin menjadi lebih aktif dan menghasilkan kondisi batang dan daun menjadi kuning pucat serta layu.
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Kurniawan, Afdal Eka, Mayda Waruni Kasrani, and A. Asni B. "PERANCANGAN PROTOTYPE ALAT PENDETEKSI KEBOCORAN GAS LPG BERBASIS ARDUINO UNO R3 DENGAN MODUL SIM800L DAN ESP8266 SEBAGAI MEDIA INFORMASI." Jurnal Teknik Elektro Uniba (JTE Uniba) 4, no. 2 (2020): 47–53. http://dx.doi.org/10.36277/jteuniba.v4i2.62.
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Abstract— The LPG (Liquefied Petroleum Gas) gas leak detection and monitoring system is an anticipatory measure for safety from hazards such as gas cylinder explosions. This research aims to build a detection system by integrating MQ-6 sensor, Arduino microcontroller and ESP8266. Data can then be displayed on the Blynk application and notifications will be given via the application and email. The process of sending data using SIM800L module GSM/GPRS is a part that serves to communicate between the main monitors with mobile phone and the module ESP8266E ESP 12E WIFI IOT for data transfer in WIFI network . And this system has fulfilled the rules of the Internet of things, making it easier for the community in its application.
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Shahare, Girish, Aditya Tiwari, Manav Tiwade, Gaurav Umredkar, Uday Buradkar, and Puranashti Bhosale. "Mobile-Controlled River Cleaning Boat." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 09, no. 04 (2025): 1–9. https://doi.org/10.55041/ijsrem43741.
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Water pollution is a major environmental challenge, with floating waste in rivers and lakes contributing to ecological degradation. Our project, a WiFi-Controlled River Cleaning Boat, aims to provide an efficient and cost-effective solution for manual waste collection from water bodies. Unlike automated systems, our boat operates under direct human control, ensuring adaptability to different cleaning requirements. The system is powered by an ESP8266 WiFi module, enabling wireless control through a mobile application. A L298N motor driver facilitates the movement of the boat, allowing precise maneuvering in water. The boat's structure is designed for stability and ease of operation, incorporating a mechanical collection system to gather floating waste efficiently. By eliminating the need for Arduino and sensors, our design reduces complexity and cost while ensuring robust performance. The WiFi-based control system allows operators to guide the boat remotely, making it an accessible and effective tool for river cleaning. This project offers a practical, scalable, and environmentally friendly approach to maintaining clean water bodies. Key Words: IoT (Internet of Things), Water Surface Cleaning, ESP8266 WiFi Module, L298N Motor Driver, Gear Motors,
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Simarmata, Sapta Darma, Indra Gunawan, Ika Purnama Sari, Sumarno Sumarno, and Ika Okta Kirana. "Sistem Kendali Pintu Gerbang Otomatis Menggunakan Koneksi Wireless Module Wifi Berbasis Mikrokontroler Arduino Uno." Jurnal Pendidikan dan Teknologi Indonesia 1, no. 7 (2021): 297–308. http://dx.doi.org/10.52436/1.jpti.67.
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Pada setiap rumah pasti memiliki pintu gerbang atau pintu pagar yang dilengkapi dengan penguncinya. Dari hal tersebut, pintu gerbang rumah yang berguna untuk keamanan kondisi rumah maupun keamanan kendaraan pribadi. Pada umumnya untuk membuka pintu gerbang atau pintu pagar serta menguncinya dengan menggunakan manual atau dengan tangan manusia. Dari masalah tersebut, maka penulis membuat suatu prototype pintu gerbang otomatis berbasis mikrokontroler Arduino Uno dan Android sebagai sistem operasi. Suatu sistem pada Android yang dapat berfungsi sebagai saklar dan dapat membuka dan mengunci pintu gerbang dengan secara otomatis, yang di kontrol oleh Android, yang terbuhung pada koneksi Wireless atau Wifi device. Dengan perancangan sistem otomatis pada pintu gerbang yang berbasis mikrokontroler Arduino Uno dan Android sebagai sistem operasinya, maka dapat membantu mempermudah pengguna dalam mengatur untuk membuka dan mengunci pintu gerbang tanpa harus keluar dari kendaraan ataupun keluar rumah.
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Nugroho, Prasetyo Adi. "KONTROL LAMPU GEDUNG MELALUI WIFI ESP8266 DENGAN WEB SERVER LOKAL." JEIS: JURNAL ELEKTRO DAN INFORMATIKA SWADHARMA 1, no. 2 (2021): 1–11. http://dx.doi.org/10.56486/jeis.vol1no2.95.
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This study aims to design a Building Automation System that can control electrical devices that are carried out remotely at the same location or via WiFi and Web Server applications, to make it easier for people to control devices located in distant buildings without direct contact and can be accessed. anywhere within range of the local network. The research method used is research and development methods, namely by conducting literature studies and interviews with electrical and arduino experts. The results of the research are a system made using the ESP8266 WiFi module which is set as a station, which connects Arduino to the local internet which will be controlled by the Web Sever application from anywhere with local internet connection range. The Building Automation System that is made can switch Hologen lamps and incandescent lamps and is set using the blynk application that is connected to an internet connection.
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Atanasov, Asparuh Ivanov, Radko Mihaylov, Svilen Stoyanov, and Desislava Mihaylova. "Combined WiFi sensor for temperature and moisture of soil." ANNUAL JOURNAL OF TECHNICAL UNIVERSITY OF VARNA, BULGARIA 6, no. 2 (2022): 77–82. http://dx.doi.org/10.29114/ajtuv.vol6.iss2.279.
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Physical parameters, such as temperature and moisture of soil, are important indicators in agriculture. The current study focuses on the development and assembly of an autonomous sensor for soil moisture and temperature through the use of a standard Arduino d1 mini module, equipped with a capacitive humidity sensor. The developed sensor configuration is distinguished with the possibility to transmit data via WiFi communication network and renewable energy system with photovoltaic power panel, which allows the results to be transmitted wirelessly and the sensor to operate autonomously powered by solar energy.
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Raja, Babu, Astha Shuruti, and Kumar Yadav Sachin. "Create a Robot that can be Controlled Wirelessly over Wi-Fi and has the ability to Produce Speech." Journal of Sensor Research and Technologies 6, no. 1 (2024): 6–11. https://doi.org/10.5281/zenodo.10803109.
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<em>The Wi-Fi talking robot is an intelligent device that can establish a WiFi network connection to the internet. Three major parts make up the robot's construction: a voice recognition and synthesis module, a Wi-Fi module, and a microprocessor. The robot is designed with a power source, a speaker, and a microphone. The robot can connect wirelessly to the internet thanks to the Wi-Fi module, and it can detect and produce speech that sounds human thanks to the voice recognition and synthesis module.</em>
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Maulana, Fahmi Fuadi, Muhammad Iqbal Muzaki, Dewi Cahya Febrina, and Bambang Purwahyudi. "Rancang Bangun Sistem Kontrol ON-OFF Pada Lampu Berbasis TELEGRAM." INTER TECH 2, no. 1 (2024): 1–9. https://doi.org/10.54732/i.v2i1.1074.
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Dengan adanya IoT kita dapat mengontrol alat yang diinginkan dimana pun dan kapan pun hanya dengan melalui jaringan internet / WiFi. Penelitian ini bertujuan untuk merancang alat kontrol on - off pada lampu tanpa berkontak secara langsung menggunakan teknologi IoT. Pada jurnal ini dibahas proses dari awal sampai akhir pengaplikasian alat berbasis IoT. Pertama Node MCU ESP32 sebagai mikrokontroler yang telah terintegrasi dengan WiFi mode yang nantinya akan terkoneksi dengan Smartphone dan diteruskan pada Relay Module yang bertugas untuk memutus dan menghubungkan input tegangan pada Lampu. Modul ini harus diprogram dahulu menggunakan software Arduino untuk menghubungkan antara perangkat Smartphone dan Node MCU ESP32. Jika sudah selesai, kita koneksikan Node MCU ESP32 dengan WiFi, maka dengan mudah kita dapat mematikan dan menyalakan lampu rumah dimana pun melalui aplikasi Telegram.
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Nila Pratiwi. "Perancangan Sistem Rumah Cerdas Berbasis Internet of Things (IoT) Menggunakan Aplikasi BLYNK." Jurnal Penelitian Rumpun Ilmu Teknik 2, no. 3 (2023): 257–66. http://dx.doi.org/10.55606/juprit.v2i3.2390.
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Increased use of the internet has resulted in innovation in control systems. The Internet of things (IOT) is an innovation where some electronic devices can be controlled remotely by utilizing the internet to obtain a more efficient control system, and save time. So a tool based on the Internet of things (IOT) is made that uses a smartphone as a controller for household appliances such as lights and fans. Where this tool uses the Arduino Uno as the brain to do the work and the WIFI module ESP-01 as a connection for the wifi signal which is connected to a smartphone that has been programmed via Arduino software, while several trials of the Internet Of Things (IOT) tool were carried out, namely distance trials to be tested from the closest distance of 1 meter and the farthest 100 meters to control household appliances.
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Sabeena, K., and P. Y. Haseena. "Solar Aqua Guard: A Next-Gen IoT Approach to Water Tank Monitoring." Solar Aqua Guard: A Next-Gen IoT Approach to Water Tank Monitoring 8, no. 11 (2023): 6. https://doi.org/10.5281/zenodo.10148767.
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Water is an essential element of life, we must take measures to conserve water resources and ensure the water quality that we receive. The primary objective of our project is to develop a modular and user-friendly system that enables real-time monitoring and dissemination of water quality data to consumers. The system incorporates arduino, automatic water flow control, sensors and a wireless communication module to achieve this goal. The system operates by collecting water quality parameters through the deployed sensors. These sensors measure key parameters such as pH, turbidity, temperature and TDS, which are crucial indicators of water quality. The collected data from the sensors is then transmitted to the arduino. To ensure seamless and real-time communication, the system incorporates a WiFi wireless transmission module. This module facilitates the transmission of the processed water quality data from the controller to a remote management platform or server. The data is securely uploaded to the server via WiFi connectivity, allowing for immediate access by authorized users. This user interface provides a convenient means for users to receive, query,and visualize the monitoring data. Users can access the latest water quality information, view historical trends and set up customized alerts or notifications to be promptly informed of any significant changes or potential water quality concerns. Overall our project develops a modular IoT-based system that seamlessly integrates sensors, arduino, and wireless communication to enable real-time monitoring and dissemination of water quality data. By providing users with easy access to this information, we aim to enhance awareness, empower decision-making, and promote proactive measures for water quality management.Keywords:- iot; water tank; solar;smart;
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More, Sushant. "Electricity theft detection and Prevention using Arduino and iot." International Scientific Journal of Engineering and Management 03, no. 03 (2024): 1–9. http://dx.doi.org/10.55041/isjem01464.
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One of the biggest issues facing the Maharashtra State Electricity Board (MSEB) and power providers is electricity theft. As a result, consumers must pay higher electricity bills and power providers are unable to make a profit from the selling of electricity. This study addresses the use of Internet of Things (IoT) technologies to construct a low-cost system for detecting and preventing electricity theft. gives to. The Arduino microcontroller board serves as a dual-purpose component. The GSM module uses WiFi to notify the user and Mahavitaran about system activity. With a portable laptop computer, this system can be operated..
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Kumar, Dr S. Naresh, and Dhanalakota Srihitha. "USER FRIENDLY WIRELESS DIGITAL NOTICE BOARD USING WIFI." International Journal of Engineering, Science and Advanced Technology 24, no. 10 (2024): 374–78. http://dx.doi.org/10.36893/ijesat.2024.v24i10.047.
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To collect data on LED matrix display, use a wireless digital notice board display. Institutions, organisations, etc. may also utilise this project, however daily notice-sending is a laborious operation. The advanced notice board is the subject of this project. With our suggested solution, users will be able to send wireless announcements on a notice board by utilising a smart phone and a controller WiFi module. They will also get automatic notifications via the cloud. Arduino microcontrollers are the foundation of its functioning. When a person concurrently submits a notice via their smartphone, the message is shown on the LED display board and other users get automatic notifications on their smartphones via the cloud.
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Febriyana, Karisman, and Asep Saepuloh. "Application Internet of Things in Controlling Fan Based Telegram." Journal of Engineering and Science Application 1, no. 1 (2024): 16–23. http://dx.doi.org/10.69693/jesa.v1i1.4.
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IoT is a technology that is currently developing. Iot is used to control an electronic device remotely through a certain device. One of the IoT supporting devices for controlling electronic devices is Telegram. This study aims to create an Internet of Things (IoT) Application System in Telegram-Based Fan Control. The method used to create this system is to apply IoT to fans using the Arduino esp8266 which is a wifi module that functions as an additional microcontroller such as Arduino so that it can connect directly to wifi and make TCP/IP connections. This tool is used as a tool to process input data that will be sent to the output device on the system. This system also consists of a relay prototype that is used to control the electric current path on the fan. The results of the study show that smart phones can also be used to control electronic devices such as fans and other electronic devices.
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Asif, A. Rahimoon, Noor Abdullah Mohd, and Taib Ishkrizat. "Design of a contactless body temperature measurement system using arduino." Indonesian Journal of Electrical Engineering and Computer Science (IJEECS) 19, no. 3 (2020): 1251–58. https://doi.org/10.11591/ijeecs.v19.i3.pp1251-1258.
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The recent advances in electronics and microelectronics devices allow the development of newly low-cost monitoring tools used by peoples for health preventive purposes. Sensors used in medical equipments convert various forms of human body vital signs into electrical signals. Therefore, the healthcare monitoring systems considering non-invasive and wearable sensors with integrated communication mediums allow an efficient solution to live a comfortable home life. This paper presents the remote monitoring of human body temperature (HBT) wirelessly by means of Arduino controller with different sensors and open source internet connection. The proposed monitoring system uses an internet network via wireless fieldity (wifi) connection to be linked with online portal on smart phone or computer. The proposed system is comprised of an Arduino controller, LM-35 (S1), MLX-90614 (S2) temperature sensors and ESP-wifi shield module. The obtained result has shown that real time temperature monitoring data can be transferred to authentic observer by utilizing internet of things (IoT) applications. The findings from this research indicates that the difference of average temperature in between Sensor S1 and S2 is about 15 0C.
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-, Darmin, and Budi Isdiyanto. "Sistem Monitoring Pengisian Air Otomatis Berbasis Web Server Menggunakan Nodemcu dan Sensor Ultrasonik." ISTA Online Technologi Journal 2, no. 2 (2021): 21–33. http://dx.doi.org/10.62702/ion.v2i2.39.
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Abstrak Air mempunyai peranan penting dalam kelangsungan makhluk hidup di bumi. Manusia memanfaatkan air untuk berbagai kebutuhan, pada rumah tangga misalnya untuk konsumsi, mandi, mencuci dan sebagainya. Dalam pemakaian air perlu penghematan baik penggunaan maupun pengisiannya, hal ini perlu pengontrol pengisian agar air tidak meluap. Tujuan dari penelitian ini adalah merancang pengontrol pengisian tandon air yang dapat membantu atau mempermudah manusia dalam mengontrol pengisisan air pada beberapa tandon dan dapat mencegah meluapnya air pada tandon. Dalam perancangan alat ini menggunakan NodeMCU v3 Esp 8266 sebagai pengolah data dan penerima sinyal WIFI, sensor ultrasonik sebagai pengukur kedalaman air, relay dan pompa air sebagai outputnya.Dengan adanya perancangan alat ini dapat mengisi tandon air secara otomatis dan akan berhenti mengisi air sehingga mencegah meluapnya air pada tandon air Kata kunci: Arduino, Penampungan Air, Esp 8266, WIFI module Abstract Water has an important role in the survival of living things on earth. Humans use water for various needs, for example in households for consumption, bathing, washing, and so on. In the use of water, it is necessary to save both use and filling, this is necessary to Control the filling so that the water does not overflow. The purpose of this research is to design a water reservoir filling Controller that can help or facilitate humans in Controlling water filling in several reservoirs and can prevent water overflowing in the reservoirs. In designing this tool using NodeMCU v3 Esp 8266 as a data processor and WIFI signal receiver, ultrasonic sensor as a water depth meter, relay, and water pump as the output. With the design of this tool, it can fill the water reservoir automatically and will stop filling the water to prevent the water from overflowing in the water reservoir Keywords: Arduino, Water Storage, Esp8266, WIFI module
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Rahimoon, Asif A., Mohd Noor Abdullah, and Ishkrizat Taib. "Design of a contactless body temperature measurement system using Arduino." Indonesian Journal of Electrical Engineering and Computer Science 19, no. 3 (2020): 1251. http://dx.doi.org/10.11591/ijeecs.v19.i3.pp1251-1258.
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<span lang="EN-US">The recent advances in electronics and microelectronics devices allow the development of newly low-cost monitoring tools used by peoples for health preventive purposes. Sensors used in medical equipments convert various forms of human body vital signs into electrical signals. Therefore, the healthcare monitoring systems considering non-invasive and wearable sensors with integrated communication mediums allow an efficient solution to live a comfortable home life. This paper presents the remote monitoring of human body temperature (HBT) wirelessly by means of Arduino controller with different sensors and open source internet connection. The proposed monitoring system uses an internet network via wireless fieldity (wifi) connection to be linked with online portal on smart phone or computer. The proposed system is comprised of an Arduino controller, LM-35 (S1), MLX-90614 (S2) temperature sensors and ESP-wifi shield module. The obtained result has shown that real time temperature monitoring data can be transferred to authentic observer by utilizing internet of things (IoT) applications. The findings from this research indicates that the difference of average temperature in between Sensor S1 and S2 is about 15 <sup>0</sup>C</span>
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Anuvarshitha, Pamisetty. "Smart Shopping Trolley with Automated Billing using Arduino." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 08, no. 04 (2024): 1–5. http://dx.doi.org/10.55041/ijsrem30802.
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Shopping can be an exciting experience, but the long queues at checkout can often leave us feeling drained. customers have to wait in line to have each item individually scanned at the counter, which can be time-consuming, especially during peak shopping hours. This inefficiency not only leads to customer frustration but also affects the overall shopping experience. To tackle this issue, a solution is proposed: the smart shopping trolley with automated billing. This innovative approach allows customers to breeze through their shopping journey. With the smart trolley, shoppers can effortlessly select their items and complete their purchases without the hassle of traditional checkout lines. The trolley automatically generates bill, which is conveniently sent to the customer via app. The customer can make the payment using the app. This system incorporates various components, including an Arduino board, RFID reader for item identification, LCD display for user interaction, Wi-Fi module for connectivity, and sensors for theft detection and an app for the payment. This process not only reduces waiting times but also enhances overall efficiency,making shopping a more pleasant experience for customers. Index Terms-Arduino, RFID Display, RFID tag, LCD dis- play,load cell, wifi module,IR sensor
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R, Hithaishi. "Optimized Hand Gesture Based Home Automation for Feebles." International Journal for Research in Applied Science and Engineering Technology 10, no. 7 (2022): 3433–41. http://dx.doi.org/10.22214/ijraset.2022.45737.
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Abstract: Home automation innovation is utilized to plan and actualize inaccessible, vitality proficient and versatile keen homes with the essential highlights that guarantee inhabitant consolation and security. A savvy domestic robotization framework that mechanizes fans, lights, and other apparatuses for individuals with disabilities, the elderly, and out of commission patients utilizing hand signals. The framework comprises networks (sensors and gadget actuators and cameras that portray a controller that communicates with a hand-off that speaks to the client interface and an Arduino microcontroller). Smart homes are cost effective since they utilize video handling frameworks and sensors. Send and get commands utilizing the MQTT server. It employs a remote WIFI module named Esp8266 NodeMCU to supply smooth and hassle-free WIFI use.
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Raghunatha Rao, Mr H., C. Gayathri Devi, M. Divya Sree, G. Lakshmi Narayana, and M. Jabeen. "Real Time Led Scrolling Display with Wifi Connectivity." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 09, no. 04 (2025): 1–9. https://doi.org/10.55041/ijsrem43753.
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In this project, a web-based P10 Display system is developed using the ESP8266 micro controller to facilitate real-time text display and brightness control. The system enables users to send text input from a PC via web-based Python software or from a mobile device using MQTT based applications. The Node MCU, equipped with Wi-Fi capability, acts as the core micro controller, interfacing with the P10 display module to process data into a visual representation. The input is transmitted to an MQTT cloud server, from where the ESP8266 retrieves the data and updates the P10 Display accordingly. This approach provides a flexible and efficient method for remote content management and control of P10 Displays. The proposed system finds applications in digital signage, educational institutions, public areas, offices, smart advertisements, and interactive display solutions. KEYWORDS- ESP8266 Node MCU Controller, Arduino IDE, Buzzer, Python Flask MQTT Protocol, P10 Display.
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Yusof, K. H., A. S. Ahmad, M. S. S. M. Basir, N. I. A. Katim, and M. M. M. Zaki. "Smart Lawn with Water Sprinkler for Garden Using Arduino UNO." Journal of Physics: Conference Series 2312, no. 1 (2022): 012090. http://dx.doi.org/10.1088/1742-6596/2312/1/012090.
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Abstract This paper presents a system of smart lawn and garden water sprinkler using Arduino UNO, whose water tank can be monitored through smartphone. The main purpose of this system is to minimize the issue of water loss and water delivery system by using Internet of Things (IoT) as a platform to monitor the water tank level/status within range of 20 meters from the WIFI module. In this system, interface YFS201 Hall Effect Water Flow Sensor is used to measure the flow rate and volume of water, while ultrasonic sensor is used to detect water level inside the tank. Two systems (integrated) had been tested. Firstly is the proposed system, where the flow rate and volume of water are displayed on the LCD and the reading of the water tank is displayed on smartphone. The second system is watering clock system, which uses Real Time Clock (RTC) for timer setting purpose. The watering clock system shows the timer of watering session on LCD to ensure the user know their lawn and garden have been watered. The proposed system using the Arduino UNO, IoT Platform and Wi-Fi modules is able to immediately notify consumer to control water losses.
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Tjut Adek, Rizal, Munirul Ula, Bustami, Syibbran Mulaesyi, and Muhammad Bayu Juhri. "Home Surveillance System Based on Internet of Things and Thermal Sensors." Proceedings of Malikussaleh International Conference on Multidisciplinary Studies (MICoMS) 3 (January 14, 2023): 00028. http://dx.doi.org/10.29103/micoms.v3i.187.
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A home security system's primary purpose is to protect and monitor areas that are vulnerable to intruders. The cameras can continuously monitor location; however, it’s had drawbacks such as high installation costs, significant electricity consumption, high memory space utilization of the recording system, and complexity of the hardware circuits, in low light condition it need a night vision camera to obtain clear images. The purpose of the research, is to develop a prototype of surveillance system that uses the PIR sensor and night vision camera to detected intruder in low light condition. The methodology used in this research is prototyping. It started with objectives determination of surveillance system, develop, refine and demonstrate the hardware and software, testing and implement the system. The Arduino Board, programmable Arduino IDE microcontroller, battery, RF module, camera, WIFI module, NodeMCU and PIR sensor are all included in this prototype. An application will be loaded on the user's android device, which will be utilized as the security system monitoring and controller. The WIFI module allows remote control by connecting the system to the internet via the cloud. A PIR sensor will be used to monitor the temperature around for the detecting the presence of human. If the sensor detects the thermal imaging, it will trigger the night vision camera to record. The result of the system testing, shows that the system was working perfectly. The testing on camera operability shows that the night vision camera gets a clear image at maximum 10 m. The limitations of this system are unable to detect the thermal objects at more than 10 m clearly. This weakness can be improved by more complete hardware in future research.
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Subagiyo, Heri, Retno Tri Wahyuni, Memen Akbar, and Fella Ulfa. "Rancang Bangun Sensor Node untuk Pemantauan Kualitas Udara." Jurnal Sains, Teknologi dan Industri 18, no. 1 (2021): 72. http://dx.doi.org/10.24014/sitekin.v18i1.11461.
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Sensor Node untuk pemantauan kualitas udara merupakan perangkat pengukuran parameter kondisi kualitas udara pada suatu titik lokasi tertentu. Parameter yang diukur berdasarkan ISPU (Indeks Standar Pencemaran Udara) meliputi gas karbon monoksida (CO), nitrogen dioksida (NO2), sulfur dioksida (SO2), ozon (O3), dan partikel debu (PM10). Komponen yang digunakan pada sensor node yaitu mikrokontroler Arduino Uno, sensor MQ-7, sensor MQ-131, sensor MQ-135, sensor MQ-136, sensor GP2Y1010AU0F dan WiFi module. Sistem ini dikendalikan oleh mikrokontroler yang berfungsi untuk mengelola data hasil pengukuran sensor. Data mentah yang dibaca dari sensor dikonversi menjadi konsentrasi gas/partikulat debu dalam satuan ppm. Persamaan konversi diperoleh berdasarkan grafik hubungan keluaran sensor dan ppm yang tercantum pada datasheet sensor. Data tersebut selanjutnya dikirim ke server melalui WiFi module. Pengujian keseluruhan dilakukan dengan melakukan pengukuran kualitas udara pada dua titik secara bersamaan di Kota Pekanbaru. Hasil pengujian menunjukkan bahwa keseluruhan sistem dapat berjalan baik dan data berhasil dikirim ke server. Hasil pengukuran sudah berada pada daerah pengukuran masing-masing parameter kualitas udara.Hasil ini menunjukkan bahwa sistem dapat digunakan sebagai langkah awal pengembangan sistem monitoring kualitas udara.
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Wilutomo, Resnu Mauliyana Mukti, and Teguh Yuwono. "RANCANG BANGUN MEMONITOR ARUS DAN TEGANGAN SERTA KECEPATAN MOTOR INDUKSI 3 FASA MENGGUNAKAN WEB BERBASIS ARDUINO DUE." Gema Teknologi 19, no. 3 (2017): 19. http://dx.doi.org/10.14710/gt.v19i3.21881.
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Resnu Mauliyana Mukti Wilutomo, Teguh Yuwono, 3 phase induction motor must work well and safely. Many types of interference have the potential to interfere with motor performance or even damage the motor itself, including due to power instability which includes imbalance between phase voltages and more phase currents. Monitoring an industrial activity especially monitoring the protection system is very important, it is intended that the disturbance that occurs in the 3 phase induction motor can be analyzed for the value and type of interference. Rapid technological development requires a monitoring system that is practical, fast and accurate. Sensors installed on this device are current sensors, voltage sensors, and speed sensors. The read, current, voltage and speed will be used as input signals to Arduino using the ADC (Analog to Digital Converter) process, Arduino programming uses C ++ language. ESP8266 wifi module) will upload the data from the ADC (Analog to Digital Converter) process to the database which is then displayed on the web using the available internet network. The web programming language used is PHP. This tool makes it easy to monitor a 3 phase induction motor because it can be done anytime and anywhere. There was a difference of ± 0.24A between the Tang Ampere measuring instrument and reading on the web. A ± 4V difference occurs between the Multimeter measuring instrument with readings on the Web. The maximum speed of the 3-phase induction motor with no load is 22Rpm between the tachometer gauge and the web display. Keywords: voltage sensor, current sensor, speed sensor, C ++ language programming, PHP.References Mahardika, Ferdina . 2016. Rancang Bangun Alat Memonitor Ketidakstabilan Daya Berbasis Arduino Mega 2560 Pada Motor Induksi 3 Fasa. Semarang : Laporan Tugas Akhir Teknik Elektro Universitas Diponegoro.2. Girsang, Irma Sika. 2015. Perancangan Monitoring Jarak Jauh Ketinggian Air Pada Bendungan Menggunakan Sistem Android Via Jaringan Wi-Fi. Sumatera utara : Jurnal Ilmiah Ekstensi Fisika Instrumentasi FMIPA Universitas Sumatera Utara.Santoso, Imam , Rizal Isnanto, R, Chaerodin, Achmad. 2008. Sistem Monitoring Suhu Berbasis Web Dengan Akuisisi Data Melalui Port Paralel PC. Semarang : Laporan Tugas Akhir Teknik Elektro Universitas Diponegoro.Zuhal. 2000. Dasar Teknik Tenaka Listrik dan Elektronika Daya. Jakarta : Gramedia Pustaka UtamaArduino. Arduino due. 12 Mei 2017 pukul 21.40.( https://www. arduino.cc/en /Main/ arduino BoardDue ).Kho, Dickso . Pengertian dan prinsip kerja optocoupler. 12 Mei 2017 pukul 20.20. (http: //teknikelektronika .com / pengertian- optocoupler- fungsi- prinsip- kerja- optocoupler).Quang, Sáng Bùi. Rotary Encoder Training Material. 12 mei 2017 pukul 22.15. (https: //www .slideshare.net /sangbuiquang3 /rotary-encoder -training- material).Sugito, Tega.2016. Rancang Bangun Pengasutan Star Delta Pada Motor Induksi Tiga Fasa Berbasis Sensor Kecepatan Menggunakan Mikrokontroler Atmega 16 .Semarang : Laporan Tugas Akhir Teknik Elektro Universitas DiponegoroWidiyaman, Tresna . Pengertian Modul Wifi ESPN8266. 11 Mei 2017 pukul 16.50. ( http: // www. Warriornux .com / pengertian – modul - wifi - esp8266/).Labradoc. ESP8266 WiFi Module Quick Start Guide. 10 Mei pulul 17.40. (http://www.labradoc.com/i/follower/p/notes-esp8266).Prasetio, Andhi. 2012. Buku Pintar Pemrograman Web. Jakarta: Media K.Hidayat, Rahmat. 2010. Cara Praktis Membangun Website Gratis. Jakarta: PT Elex Media Komputindo.Fathansyah. 2012. Basis Data. Bandung: Informatika Bandung.
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Trunov, Alexandr, and Zhan Byelozyorov. "Increasing quality of the wireless module for monitoring and supervision of sound series of the expanded purpose." Eastern-European Journal of Enterprise Technologies 6, no. 5 (114) (2021): 28–40. http://dx.doi.org/10.15587/1729-4061.2021.247658.
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The sound series are considered as an addition to visual and thermal imaging information flows when using computerized monitoring systems (CS). A minimum complete structure of spaced microphones for collecting data on sound rows, which is suitable for calibrating, isolating and transmitting data on sound anomalies (SA), is proposed. Duplication of the data transmission channel by wire and Wi-Fi module for recording and determining the type and coordinates of the SA is provided. An experimental receiving module has been assembled, which includes microphones, amplifiers and signals matching boards for digital and analog forms, an ARDUINO UNO WIFI REV2 controller with an integrated Wi-Fi module. It is presented that its addition with a personal computer and a smartphone with the Android operating system forms a CS for remote wireless control of the course of the experimental analysis of sound series. It has been confirmed experimentally that its structure is minimally complete. An algorithm was developed and a software package was written in C/C++ languages. It is shown that the number of microphones is selected from the conditions of the problem from 1 to 5, but their number is limited to five digital inputs of the ARDUINO UNO WIFI REV2 board. A wave representation of the law of temporal changes in intensity and the integral norm of SA is applied. The possibilities of calibrating all data of sound series in analog and digital form are demonstrated. The article presents the suitability of testing the algorithms for determining the phases of echograms from time series data, containing SAs of different origins and recorded by three different microphones. The effect of connecting a Wi-Fi module on reducing the voltage drop by 0.5–1 V is shown. The necessity of an additional registration condition for all microphones is demonstrated. The software interfaces for the calibration of the receiving module and the operation of the mobile application have been developed.
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Alexandr, Trunov, and Byelozyorov Zhan. "Increasing quality of the wireless module for monitoring and supervision of sound series of the expanded purpose." Eastern-European Journal of Enterprise Technologies 6, no. 5 (114) (2021): 28–40. https://doi.org/10.15587/1729-4061.2021.247658.
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The sound series are considered as an addition to visual and thermal imaging information flows when using computerized monitoring systems (CS). A minimum complete structure of spaced microphones for collecting data on sound rows, which is suitable for calibrating, isolating and transmitting data on sound anomalies (SA), is proposed. Duplication of the data transmission channel by wire and Wi-Fi module for recording and determining the type and coordinates of the SA is provided. An experimental receiving module has been assembled, which includes microphones, amplifiers and signals matching boards for digital and analog forms, an ARDUINO UNO WIFI REV2 controller with an integrated Wi-Fi module. It is presented that its addition with a personal computer and a smartphone with the Android operating system forms a CS for remote wireless control of the course of the experimental analysis of sound series. It has been confirmed experimentally that its structure is minimally complete. An algorithm was developed and a software package was written in C/C++ languages. It is shown that the number of microphones is selected from the conditions of the problem from 1 to 5, but their number is limited to five digital inputs of the ARDUINO UNO WIFI REV2 board. A wave representation of the law of temporal changes in intensity and the integral norm of SA is applied. The possibilities of calibrating all data of sound series in analog and digital form are demonstrated. The article presents the suitability of testing the algorithms for determining the phases of echograms from time series data, containing SAs of different origins and recorded by three different microphones. The effect of connecting a Wi-Fi module on reducing the voltage drop by 0.5–1 V is shown. The necessity of an additional registration condition for all microphones is demonstrated. The software interfaces for the calibration of the receiving module and the operation of the mobile application have been developed.
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Artiyasa, Marina, Isdaryanto Iskandar, and Harurikson Lumbantobing. "Sistem Monitoring PV Menggunakan Simulasi Proteus Untuk Pembelajaran Mahasiswa Teknik Elektro UNsP." FIDELITY : Jurnal Teknik Elektro 4, no. 3 (2022): 57–61. http://dx.doi.org/10.52005/fidelity.v4i3.127.
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Photo Voltaic system is now being promoted, mainly because fossil energy will run out, therefore we use Photovoltaic a lot, but monitoring has not been widely used, especially remotely, so on this occasion we will use Proteus simulation to monitor so that the situation of our PLTS remains under control.
 The components used are arduino uno as a microcontroller, then LCd to display values, then solar cell, battery, breadboard, esp8266 module for wifi, current sensor and voltage sensor for monitoring current and voltage.
 The results of the above design use Proteus simulation and use Arduino software for programming, and can run well by displaying monitoring results on the LCD and also in the Arduino program, this is done before being applied to designs that use actual tools.this simulation is good so the student can study in the computer lab ., it prove with the grade before treatment and after treatment from 66, 3 become 79
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Rachman, Iksal, Dede Mukhsin Al Hamdani, and Yandi Setia Permadi. "Rancang Bangun Sistem Monitoring Daya Listrik Cerdas Berbasis Internet of Things Menggunakan Mikrokontroler Arduino Mega Pro 2560 Dan ESP8266-01." Ranah Research : Journal of Multidisciplinary Research and Development 5, no. 4 (2023): 329–34. http://dx.doi.org/10.38035/rrj.v5i4.784.
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This intelligent electricity monitoring system aims to overcome the problem of excessive electricity use which results in skyrocketing electricity costs in homes and industries, as well as minimizing the high risk of damage to household equipment due to excessive loads. The intelligent electricity monitoring system is an instrument designed using an Arduino Mega 2560 as a microcontroller, ESP8266-01 as a WiFi module, an I2C LCD as a display, an audio jack socket as a sensor input, a resistor as a voltage divider and a current sensor. YHDC SCT013 as a current measurement tool. From now on, the Arduino Mega 2560 and ESP8266-01 will send monitoring data to users using Internet of Things (IoT) based technology. Notifications will appear on the LCD and on the blynk platform or application screen.
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Deshmukh, P. G., Bhumi Milind Rahane,, Jitesh Kakaji Shewale, and Nashik Nashik. "ADVANCED HOME SECURITY SYSTEM." International Scientific Journal of Engineering and Management 04, no. 03 (2025): 1–7. https://doi.org/10.55041/isjem02476.
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Security is the most fundamental aspect of our daily lives. Advancements in technologies such as IoT and cloud networks have assisted in making newer security systems more secure apart from becoming applicable and accessible for the common households. Our product is designed to detect intruders or any abnormal situations in our rooms. Any threats that are detected are immediately notified to the user using SMS or call. The user can also monitor the current parameters live from anywhere using the app. Smart devices that provide security in smart home systems have sensors, in our case- motion, piezo Sensor. The sensor readings are fed to the Arduino where all the data conversions and calculations are performed and sent via ESP32Cam Wifi module. This data sent by the Wifi module to the cloud can be accessed from anywhere. The system gives us notifications of intrusion or any other alerts to our phones regardless of our location using GSM module. Since the system is connected to the cloud it always provides real time information without any delay, increasing the efficiency of the system. Also, one of the key aspects of our project is the low cost of the equipment compared to other systems available in the market. Keywords: - GSM, ESP32Cam, LCD.
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Tychuk, Ruslan B., та Sergii D. Petrovych. "СТВОРЕННЯ «SMART» КАБІНЕТУ ФІЗИКИ У ТЕХНІЧНОМУ КОЛЕДЖІ". Information Technologies and Learning Tools 66, № 4 (2018): 78. http://dx.doi.org/10.33407/itlt.v66i4.2133.
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The article highlights the issues related with the creation of "Smart" cabinet of physics based on microelectronics at a technical college. In fact, the "Smart" cabinet of physics is a creative space created by the students and tutors of the educational institution. Such "Smart" cabinet of physics is a "smart" educational environment that is fully automated and can be operated in three modes: "standard", "automatic", "automatic energy saving". The control of the cabinet devices is realized from a smartphone, PC and remote control. The cabinet is equipped with variety of sensors, indicators, electronic components based on Arduino UNO, MEGA, WiFi module ESP8266-12E.The indexes taken from the built-in sensors and indicators of the "Smart" cabinet are used for supplying information about the microclimate of the cabinet, for demonstrations at lectures and laboratory works in physics. The developed "Smart" cabinet of physics consists of three modules: "informational", "executive" and "demonstrational". The microcontroller ATMEL controls each module. The informational module is located in the stand "Physical basics of robotics", and the demonstrational module can be removed and used for demonstrations from the following sections: mechanics, molecular physics, electrodynamics, optics. Various sensors and components of the open-source programming platform Arduino conveniently and quickly connect to the demonstrational module (with the help of a flexible mounting board). Sensors of the "Smart" cabinet of physics give an opportunity to monitor the environment of the cabinet and outside it (temperature, humidity, pressure, illumination, level of carbon dioxide and other gases in the air),as well as to realize remote control of peripheral devices: TV, projector, lamps, sockets, curtains. All three modules connect to the wireless local area network by the topology of the "star" by means of radio communication based on the corresponding modules. The main module in it is the executive one, which has access to the INTERNET. The acquirement of the instrumental, technical, and software tools should become the main part of the system of training in a technical educational institution. The research deals with the issue of creating "Smart" cabinet of physics in a technical college.
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SHRUTIKA, S. YALGAM, VARSHA S. AMALE PROF., and N. ASADE MEGHA. "IOT BASED PRODUCT DETECTION SYSTEM USING ARDUINO." IJIERT - International Journal of Innovations in Engineering Research and Technology NITET-18 (March 17, 2018): 21. https://doi.org/10.5281/zenodo.1451420.
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<strong><strong> </strong>In recent systems whenever we scan the product,its basic information is stored in its local database. But by using IOT whenever we scan the product by using the RFID card the information of the product is stored on the server database with the help of IOT and by using this there is no need to scan the same product every time for inserting the quantity of the product if the product is in bulk,we have to just ente r the quantity by using keypad. We are using Arduinouno as our main controller. Arduinouno is a micro controller based on ATMega328. It has 14 digital IO,6 analog input with 6 PWM outputs and a 16 MHz crystal oscillator. Connect it to a computer with USB cable. UNO is the latest in series of USB Arduino boards and refrence model for Arduino platform.</strong> <strong>https://www.ijiert.org/paper-details?paper_id=141201</strong>
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Ali, Ghazi Shabeeb, J. Al-Askery Ali, and Majid Nahi Zainab. "Remote monitoring of a premature infants incubator." Indonesian Journal of Electrical Engineering and Computer Science (IJEECS) 17, no. 3 (2020): 1232–38. https://doi.org/10.11591/ijeecs.v17.i3.pp1232-1238.
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In this paper, the air temperature and humidity levels in the infant' incubator are monitored remotely by means of Arduino microcontroller with different sensors and an open source internet of things (IoT) applications. The system is connected to a network via a wireless fidelity (Wi-Fi) connection to be linked to an application on the smart phone or to the computer. The system is designed using Arduino microcontroller, DHT11/DHT22 sensor for measuring the body parameters, such as the temperature and the humidity, LCD monitor, ESP8266 WiFi modules, and NodeMCU-v3. The results have shown that real time updated medical records can be transferred to the medical staff utilizing ThingSpeak IoT applications.
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Putra Panji Wicaksono and Mardi Hardjianto. "Penerapan Sensor NFC dan Ultrasonik untuk Sistem Pembayaran Parkir Menggunakan Arduino Uno dan Module ESP8266." Jurnal Ticom: Technology of Information and Communication 12, no. 2 (2024): 64–69. http://dx.doi.org/10.70309/ticom.v12i2.111.
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Parkir merupakan tempat pemberhentian sementara waktu bagi alat transportasi khususnya kendaraan pribadi roda dua. Saat ini pembayaran biaya parkir dengan uang tunai masih banyak digunakan. Hal ini mengakibatkan proses pembayaran membutuhkan waktu, ditambah lagi bila terjadi adanya pengembalian uang. Dampak dari pembayaran menggunakan uang tunai, dapat terjadi antrian bila ada beberapa motor yang keluar pada saat bersamaan. Berdasarkan permasalahan tersebut maka perlunya dibuatkan sistem pembayaran biaya parkir dengan menggunakan uang elektronik metode yang digunakan berbasis teknologi NFC untuk mengatasi masalah pada tempat penelitian. Sistem sensor NFC dan Ultrasonik dengan mikrokontroler Arduino Uno dan WiFi Module ESP8266 berbasis web yang akan mempercepat proses pembayaran parkir. Konsep dasar dari sistem sensor NFC yaitu dengan prinsip pertukaran data melalui sinyal gelombang radio. Teknologi yang digunakan NFC didasarkan pada RFID (Radio Frequency Identification) yang menggunakan induksi eleketromagnetik untuk pertukaran data. Dengan sistem ini mempercepat saat proses pembayaran parkir dan petugas parkir dapat mencetak data transaksi melalui website, serta dapat meningkatkan kualitas layanan
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Ahmad, Arman. "Rotatable WIFI Security Camera using ESP32 Cam." International Journal of All Research Education & Scientific Methods 10, no. 05 (2022): 1017–19. http://dx.doi.org/10.56025/ijaresm.2022.10506.
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The security cameras like CCTV (Closed Circuit Television) are tools that can minimize theft in both private homes and public places. But the problem with most of the CCTV and security cameras are that they are not having the mechanisms that can be used to monitor the place at an angle that is difficult to reach by a CCTV camera, i.e. they cannot be panned and tilted to reach an angle that is difficult to reach. Also, the CCTV cameras are not portable, are not wireless and requires a dedicated systems in order to be operable. In this study, a simulation tool was designed that combines an ESP32 Camera Module, that can be programmed using Arduino IDE, with 180 degree rotatable SG90 servo motors, in order for it to rotate horizontally and vertically. Its cost is significantly lesser than the cost of a moving CCTV camera, and it can be controlled from anywhere in the house within the WIFI range and its wireless. And with this simulation can be an alternative of CCTV cameras. Also, the requirement for a dedicated system and a dedicated person for the surveillance is absent, as it can be accessed from anyone having the WIFI credentials and within the range of the wifi network. Dedicated system is not required as it only needs a smartphone or PC/laptop for viewing camera footage
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Istoko, Anggit Damaz, and Aulia Faqih Rifa'i. "Web-based Queue Machine Development using Raspberry and ESP8266." IJID (International Journal on Informatics for Development) 7, no. 1 (2018): 4. http://dx.doi.org/10.14421/ijid.2018.07102.
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At a recent time, a computer-based queue machine, which is using the computer as both a client and a server, is rated to be less practical and inefficient. In this case, the queue machine will need a number of the computer as many as the locket and the network configuration. Given these points, the aim of this research is to build a practice and applicable queue machine. In the development of this system, the writer adopted the prototyping method. Acquiring Arduino Uno to convert the analog signal become a digital which will be shown in the LED P10, utilizing NodeMCU ESP8266 as a WiFi module, and adapting Raspberry Pi 3 as a server, this queue system expected to solve the problem before. In addition, to build the web, this queue system is using javascript and node.js as the software. This research derives a practice, easy to use, and portable queue machine because it uses wifi for their connection.
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Wahyuni, Retno Tri, Abdur Rahman Haritsah, Heri Subagiyo, and Edi Rahmanto. "Rancang Bangun Sensor Node untuk Monitoring Parameter Cuaca dan PM2.5 Menggunakan Arduino WiFi." Jurnal Elektro dan Mesin Terapan (ELEMENTER), Vol. 7 No. 2 (2021) (November 30, 2021): 7–17. http://dx.doi.org/10.35143/elementer.v7i2.5162.
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The node sensor for monitoring weather parameters and PM2.5 consists of weather parameter sensors, such as temperature, humidity, sun radiation intensity, rainfall, wind speed and wind direction. In addition, there are air quality parameters contains, namely pm2.5 sensors. Data processing and delivery is carried out by Arduino Uno WiFi which is a microcontroller device that has been integrated with ESP8226 which is a module to connect with WiFi networks. Sensor data is sent from Arduino to the data base server to be displayed on the website. The test results of each sensor compared to BMKG data showed small measurement error results for temperature and rainfall parameters with error percentages of 4.61% and 9.95% respectively. The results of measuring wind speed parameters have a considerable error of 30.03% caused by wind speed measurements carried out at different altitudes to BMKG sensors. Measurements of wind direction show different wind direction frequencies because they do not set the same reference point as the BMKG sensor at the time of the sensor laying. The PM2.5 measurement also showed a considerable measurement error result of 14.7% because the laying of the sensor was not conditioned with standards as in the BMKG sensor so that the particulate sample measured was not the same as the BMKG sensor. For measurement of sun radiation intensity and humidity each has shown a trend that is in accordance with environmental conditions. Data delivery testing also works well because all data stored on the server database is in the correct column on the data base and shows the same results compared to the sample data that the sensor reads manually. Article Details
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El Kasmi, Anas, Mostafa Abouricha, and Abdelkader Boulezhar. "A patient's temperature remote control system based on NODEMCU ESP8266." E3S Web of Conferences 297 (2021): 01053. http://dx.doi.org/10.1051/e3sconf/202129701053.
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With the prompt development in wireless communication, in addition to the evolution of wireless patient monitoring system, and to reduce the death of a big number of patients who endear as a result of heart failure or sudden high temperature in children. This paper proposed a sophisticated method of observation human body parameters like temperature measurements with employ at NodeMcu ESP8266 unit in the Internet of Things (IoT). This prototype is based on NodeMcu module (a static access point that provides the WIFI network, a server, a client and a mobile access point attached to the remote surveillance object) programmed under Arduino IDE and communicating between them via the HTTP protocol.
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Prasetya, Nyoman Wira, Arya Rizky Imansyah Harahap, Fadhli Aulady, and Inayah Wulandari. "Design of Water Monitoring System in Aquaponics Based on Arduino Nano and Raspberry Pi." MATICS: Jurnal Ilmu Komputer dan Teknologi Informasi (Journal of Computer Science and Information Technology) 15, no. 1 (2023): 29–42. http://dx.doi.org/10.18860/mat.v15i1.23005.
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The aquaponic system is an agricultural technology that can provide a lot of results in a limited space by recirculating water and nutrients from the symbiosis created between fish farming and hydroponic plant cultivation. To maximize the nutritional needs of water that will be supplied to plants and maintain good water conditions for fish life, it is necessary to check several parameters that can be measured in water periodically in fishponds in an aquaponic system so that farmers can provide appropriate actions in managing the system. aquaponic farming. Based on this background, a system was designed using the Internet of Things concept that can monitor water conditions in aquaponic fishponds, store water parameter data in a database, then data can be monitored via the Website. The system is designed using the Arduino Nano microcontroller board as a data processor which is equipped with the ESP8266-07 wifi module which is connected via a WiFi Local Area Network (LAN) network and connected to the Raspberry Pi 3 Model B as a gateway to the database using the MQ Telemetry Transport Protocol (MQTT). The water parameters that are measured in the designed system are: water temperature, water turbidity, dissolved solids, dissolved oxygen, and water acidity (pH). The results of the designed system show that this system can run as expected so that it can facilitate monitoring of water in aquaponic farming systems
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Hertzog, Pierre E., and Arthur J. Swart. "Non-Complex Cost-Effective Energy Monitoring using the Internet of Things." 2018 International Conference on Multidisciplinary Research 2018 (December 31, 2018): 31–40. http://dx.doi.org/10.26803/myres.2018.03.
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Energy monitoring is vital to identifying ways of reducing energy consumption. This may lead to a reduction in the use of non-renewable energy sources (such as coal), increasing the lifespan of current energy storage systems (such as batteries) and reducing financial costs (such as electrical utility costs). Current commercial monitoring systems may prove too complex or too expensive for the average homeowner to install and use. How can the internet of things, therefore, be used to identify sources of energy consumption? The purpose of this paper is to describe the design and setup of a non-complex cost-effective energy monitoring system for a residential home environment. This may enable homeowners to identify unwanted energy consumption and thereby reduce their electrical utility bills. The system incorporates an Arduino Uno Board, ESP8266 WiFi module and a cloud server called ThingSpeak. No physical wiring connections are needed, as only a current transformer sensor needs to be hooked around the main AC supply line from the electrical utility provider. No PC data storage is required, as the data is stored on the cloud server. The only key requirement is internet connectivity so that the WiFi module may connect directly to the cloud server where all data is captured and presented.
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Swathika, M., and G. Indirani. "IoT Based Access Control Mechanism Using RFID Technology." Asian Journal of Computer Science and Technology 7, S1 (2018): 115–18. http://dx.doi.org/10.51983/ajcst-2018.7.s1.1791.
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Internet of Things plays a vital role in day to day life of this developing technological world. IoT involves many technologies such as RFID technology, sensor technology, smart technology, Nano technology etc. IoT based RFID technology is studied in this paper. The introduction about IoT is firstly presented. Then, the RFID technology-Radio Frequency Identification Technology and its components are explained. Then, the interfacing of RFID-RC522 with Arduino Uno and the interfacing of wifi module ESP8266 with Arduino Uno are mentioned. Then, the overall procedure of using RFID for security purpose is explained with flow diagram. For this security system, the output of accessing certain number of selected tags and denying all other tags is obtained. Some applications related to IoT based security system using RFID technology are attached. Finally, the output is discussed in conclusion part. We believe that the RFID technology will be developed further and innovated to provide many applications and services for users in the future.
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Amale, Devdas. "Aquaculture Monitoring and Control System Based On IOT." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 08, no. 04 (2024): 1–5. http://dx.doi.org/10.55041/ijsrem32363.
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- This project offers a comprehensive solution for monitoring and regulating aquaculture conditions using cutting-edge Internet of Things (IoT) technology. By leveraging ESP8266 NodeMCU and Arduino UNO, alongside a range of sensors including the DS18B20 waterproof temperature sensor, water level sensor, and turbidity sensor, it ensures real-time monitoring of vital parameters in aquatic environments. Precise control of water circulation and management is made possible through the integration of motor drivers with submersible pumps. The Blynk App serves as the user-friendly control interface, granting remote access and management of water pumps. Meanwhile, sensor data is continuously collected and displayed on ThingSpeak, offering consumers valuable insights into the current state of their aquaculture setup. This project harnesses IoT technology to enhance aquaculture management efficiency and productivity, while also ensuring optimal environmental conditions for aquatic life. Its modular design enables scalability and customization, catering to various aquaculture configurations and settings. Key Words: Arduino UNO, Sensors, Motor Driver, Wifi Module, ThingSpeak, IOT, Aquaculture, Blynk App.
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Preethi, Poojary, B. Mathias Jacintha, H. D. Ranjith, T. S. Samanth, Hegde Shreyas, and Poojary Preethi. "Automatic Alert System for Monitoring & Detection of Blockage in Manholes." International Journal of Innovative Science and Research Technology 7, no. 5 (2022): 1405–9. https://doi.org/10.5281/zenodo.6735095.
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The society is in the need of a better and a cleaner resource as a future goal to be called as a smart city. An important feature while implementing a smart city is to have an advanced underground infrastructure. An essential role to keep the city clean is mainly dependent upon the drainage monitoring system. As the manual manhole monitoring is lacking ability, this results in the problems of slow handling in drainage and it takes more time to resolve it. The proposed project takes the help of various types of sensors so keep track of its respective parameters. When these sensors reach its threshold value, particular value is being updated to the Arduino Uno. Arduino Uno updates the resulting signal and the respective location of the manhole to the concerned municipal corporation through WIFI module and the authorities could easily locate the exact manhole that has the problem and can take appropriate measures.
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Akshay, Munnolli, Balaji H. V. Avinash, Tahashildar Bandenavaj, M. V. Rahul, and T. R. Lokesh. "IOT Application for Fault Detection of UG Cables Through Node MCU Module Using GSM." Advancement of Signal Processing and its Applications 6, no. 2 (2023): 6–10. https://doi.org/10.5281/zenodo.8098575.
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<em>Earlier if any fault occurs in underground cables, it is very difficult to find the place of fault occurred but due to the advent of IOT and wireless systems now we can bring out the big difference. We have to use GSM and Wi-Fi with the Thingspeak application using Arduino Mega 2650 we can develop a Fault detection system. This new technology can save Money and Time. It can solve the problems of outages of electricity due to faults in cables. It can observe the fault time, and fault cable in our Web Dashboard. Also, we can see this in our Aurdino IDE too. This may help in saving time that can be efficient.</em>
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Bhavi, Supriya. "IoT based Smart Billing Trolley." International Journal for Research in Applied Science and Engineering Technology 9, no. VI (2021): 2217–21. http://dx.doi.org/10.22214/ijraset.2021.35387.
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The smart purchasing trolley machine helps clients while buying. The trolley has an automated billing gadget and it follows the movement instructions supplied by the consumer by using using hand gesture. An android utility is established in customers mobile. The goods bought via the consumer and their value will be robotically updated to the android application via internet and that invoice will routinely ship to the billing counter gadget in the store. This helps client by way of changing tedious process of pulling and pushing the trolley and saves time spent inside the billing counter. The automated buying trolley is a clever trolley which integrates with ultrasonic sensor, arduino, wifi module,weigh sensor in it. The scanned items by the purchaser using cellular app in order to automatically log into the shopping cart and thereby can generate bill for items decided on. These modules are included into an iot gadget and are tested to meet the functionality.
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Kornu, Nitish. "IOT-Based Smart Traffic Management System." International Journal for Research in Applied Science and Engineering Technology 13, no. 3 (2025): 1044–50. https://doi.org/10.22214/ijraset.2025.67322.
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Using a four-lane configuration outfitted with LED traffic signals for efficient traffic control and infrared sensors for real-time vehicle density monitoring, this project showcases the creation of an intelligent traffic management system utilising Internet of Things technology. To optimise traffic flow, the Arduino Uno and Node MCU WiFi module act as the central controller units, analysing sensor data to modify the traffic lights in real-time. In order to improve road safety and efficiency, the system has a mobile application for tracking traffic density and remotely controlling the signals. Through a useful and interactive model, this creative approach shows how IoT technology may be used to address urban traffic issues
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Shalini, S., S. Kalaiselvi, M. Logeshwari, and P. Pavithra. "Implementation of Farm Weeding and Soil Moisturization Techniques using Agribot." International Journal of Engineering and Advanced Technology (IJEAT) 9, no. 3 (2020): 3699–702. https://doi.org/10.35940/ijeat.C6227.029320.
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Agriculture plays a vital role in Indian economy sector as it contributes about 17% to the total GDP. This agribot project aims at reducing the work of farmers in addition to increasing the speed and accuracy of the work. It fulfills the fundamental functions of agriculture such as seed sowing, fertilizer mist and arm gripper. The above feature is carried out using Arduino mega 2560, soil moisturization sensor, temperature sensor (LM35 sensor), L293D driver, DC servo motor, ESP8266 module, relay, power supply, WIFI camera and mobile app. Our project work is implemented using IOT methodology. This system is efficient and operator friendly. This is particularly important for workers in the area where health and jobs are potentially harmful.
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A. Payas Ahammed, A. Nathim Basha, A. Sahul Jafir Maricar, R. Mohamed Fazil, and Priya Selvamany. "Studies on Health Parameters and Real-Time Safeguarding of Distributed Transformers Using the Internet of Things." International Research Journal on Advanced Engineering Hub (IRJAEH) 3, no. 04 (2025): 1766–73. https://doi.org/10.47392/irjaeh.2025.0255.
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The reliability and efficiency of transformers are crucial for the stable operation of power distribution systems. This project focuses on the Condition Monitoring of Transformers Based on IoT Technology, enabling real-time monitoring of critical parameters such as temperature, oil level, voltage. By integrating sensors, Arduino Uno, and the NodeMCU ESP8266 WiFi module, the system continuously collects data and transmits it to a cloud-based platform for remote monitoring and analysis. The implementation of IoT technology enhances predictive maintenance, reducing unexpected failures and minimizing downtime. Additionally, data-driven insights help optimize transformer performance, extend its lifespan, and reduce maintenance costs. This approach ensures a more efficient, reliable, and cost-effective power distribution network.