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1

Sutita, Yuwono izzah, and Heri Irwan. "Perancangan Arduino Uno pada Design Mesin Pick and Place Sorting Colour Automation untuk Meningkatkan Produktivitas." Journal of Manufacturing in Industrial Engineering & Technology 3, no. 2 (2024): 72–82. https://doi.org/10.30651/mine-tech.v3i2.23987.

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Arduino Uno adalah sebuah mikrokontroler open-source yang berbasis pada mikrokontroler Atmel AVR. Arduino Uno memungkinkan pengguna untuk merancang dan mengembangkan berbagai proyek elektronik dengan mudah. Arduino Uno ini menggunakan Intergrated Circuit(IC) yaitu mikrokontroler ATMega328P. Arduino Uno dirancang agar mudah digunakan oleh pemula sekalipun. Tersedia banyak tutorial dan komunitas yang siap membantu. Arduino Uno digunakan untuk mengendalikan putaran motor servo Sg90, dan untuk membaca warna pada sensor TCS3200, dan .Tujuan dari jurnal ini untuk mengetahui Komponen apa saja yang di
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DEEPA, KERUTAGI, and MOLE NAMRATA. "CLOSED LOOP CONTROL OF DC MOTOR USING FIRING ANGLE." IJIERT - International Journal of Innovations in Engineering Research and Technology 5, no. 4 (2018): 40–46. https://doi.org/10.5281/zenodo.1453975.

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<strong>which improves the performance of the speed control without using any kind of starter for starting purpose which is normally used in our laboratory also I^2R losses are almost reduces which developed in rheostat operation. The speed contro l of DC motor is very crucial in application where precise and protection is required. For precise control we need to use a controller that has high accuracy. In this paper we present a convert er based closed loop speed control by varying firing angle for DC motor using microcontroller Arduino Uno ATmega328p . Feedback speed monitoring is based on I
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Pratama, Bayu rizki, and Jaka persada Sembiring. "Rancang Bangun Alat Pemilah Biji Kopi Berdasarkan Kualitas Buah Menggunakan Sensor TCS3200." Electrician : Jurnal Rekayasa dan Teknologi Elektro 18, no. 2 (2024): 104–11. http://dx.doi.org/10.23960/elc.v18n2.2553.

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Coffee fruit is a trade commodity that has been known for centuries. Coffee fruit can be processed into a delicious drink, but when coffee farmers harvest at the same time, farmers combine immature and ripe coffee fruit in one container, this results in a decrease in the quality of the taste. significant. In this research, the fuzzy Sugeno method was used to determine the classification of ripe, semi-ripe and ripe coffee fruit. This tool uses an Arduino Uno Atmega328 microcontroller to control the TCS3200 color sensor as a reader for the color of the coffee fruit and uses a servo to sort the c
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Junita, Riska, and Zaenal Arifin. "ANALISIS EKONOMI PADA MESIN PEMARUT DAN PEMERAS KELAPA BERBASIS ARDUINO." PROFISIENSI: Jurnal Program Studi Teknik Industri 11, no. 2 (2023): 136–43. http://dx.doi.org/10.33373/profis.v11i2.5869.

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The Arduino Uno is a device commonly used as the brain of a control system. It utilizes an Integrated Circuit (IC) known as the ATMega328P. The Arduino Uno comes equipped with a user-friendly programming environment, making it suitable for both beginners and experienced developers. It finds applications in various devices, such as the Coconut Grater and Coconut Squeezer machines. In the case of these machines, the Arduino Uno is employed to control the direction of the Coconut Squeezer's motor rotation and the activation of the Coconut Grater's motor using buttons. The objective of this journa
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5

Rifai, Bakhtiar. "Implementasi Arduino Uno dan ATmega328P Untuk Perancangan Alat Keamanan Sepeda Motor." JSAI (Journal Scientific and Applied Informatics) 2, no. 2 (2019): 144–48. http://dx.doi.org/10.36085/jsai.v2i2.235.

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Saat ini di Indonesia jumlah sepeda motor terus mengalami peningkatan yang signifikan setiap tahunnya. Disisi lain tingkat kejahatan pencurian kendaraan bermotor (curanmor) juga mengalami peningkatan. Penelitian ini bertujuan untuk merancang sebuah alat keamanan sepeda motor yang dapat dikendalikan melalui smartphone android untuk mengurangi tingkat pencurian kendaraan bermotor (curanmor). Alat ini dipasang pada sepeda motor dan menggunakan koneksi modul bluetooth HC-05 untuk terhubung dengan smartphone android dengan jarak maksimal + 15 meter. Sistem keamanan yang digunakan adalah dengan memu
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Sharma, Jayesh. "Live GPS Location Tracking using GPRS." International Journal for Research in Applied Science and Engineering Technology 9, no. VI (2021): 744–48. http://dx.doi.org/10.22214/ijraset.2021.36081.

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In this paper, a real time tracking system is put forward. In this we are going to design a system which is used for tracking and positioning by using (GPS) and (GSM). This design is based on embedded application, which will regularly monitor location and report the status. This tracking device which is used in real time vehicle location tracking is done using the Arduino Uno Atmega328P, SIM800A module and NEO 6M GPS module. For doing so, the Arduino Uno Atmega328P is combined serially to a GSM module and GPS module. The design make use of RS-232 protocol for serial communication between the m
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Varied Agus Wahyu Triyanto, Ratna Mustika Yasi, and Charis Fathul Hadi. "Rancang Bangun Score Board Digital pada Olahraga Bola Voli." JOURNAL ZETROEM 3, no. 2 (2021): 1–9. http://dx.doi.org/10.36526/ztr.v3i2.1477.

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Abstract - The scoreboard is a tool that can provide values ​​or numbers in a match, to show the results of a match in the field of volleyball. Scoreboards that still use conventional technology are very inefficient in changing scores or scores. Therefore, a digital scoreboard was created that uses an android application that is sent via a bluetooth connection which is displayed on the screen. The digital scoreboard displays the score with an LED screen display that can make it easier for the audience to see clearly. Design and build a digital score board in volleyball using Arduino Uno which
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Jumadril, Jumadril, and Sasa Ani Arnomo. "SISTEM PENGONTROLAN DENGAN MENGGUNAKAN FUZZY LOGIC UNTUK MENGHINDARI BAHAYA KEBAKARAN." Jurnal Desain Dan Analisis Teknologi 1, no. 1 (2022): 28–35. http://dx.doi.org/10.58520/jddat.v1i1.17.

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Perancangan prototipe alat pemadam kebakaran otomatis ini menggunakan mikrokontroler Arduino Uno atmega328p yang berbasis fuzzy logic. Alat ini bekerja mendeteksi suhu suatu ruangan, dan bekerja pada suhu normal. Adapun sensor yang digunakan adalah LM35 dan MQ-3 sebagai sensor suhu dan sensor asap. Sistem kontrol ini bekerja berdasakan suhu panas dan kepekatan asap. Pengontrolan ini menggunakan fuzzy logic dengan error pada keluarannya adalah 3%, dan ini lebih efektif dan efisien.
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9

Odoemelam, Paul Onyedikachi, Joseph Ijeoma Onwuemeka, Doris Nwakaego Ndubueze, et al. "AI-Robotic Vehicle for Distribution of Pharmaceutical Products." International Journal of Advances in Engineering and Management 6, no. 10 (2024): 382–88. https://doi.org/10.35629/5252-0610382388.

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A robotic car is a car with artificial intelligence and the ability to drive itself without any human interaction most especially during the time of COVID-19. The basic operation was achieved using some Arduino components such as solderless breadboard, motor driver module, jumper wires, motor chassis, four tires, Arduino Uno and Arduino IDE, etc built with a microcontroller (ATMEGA328P). This work describes the development from scratch of a complete autonomous robotic car for pharmaceutical purposes. The outcome suggests that the car helps in pharmacies for delivering of pharmaceutical product
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Hendry, Chairul Rizal, and Supiyandi. "Perancangan Prototipe Rain Drop Sensor Berbasis Arduino Uno." Bulletin of Computer Science Research 3, no. 4 (2023): 315–18. http://dx.doi.org/10.47065/bulletincsr.v3i4.264.

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In Indonesia, the climate is mostly hot and humid, and most of the rainfall occurs. As a result, people are less aware of how much rain occurs inside rooms, homes, and offices. We need a warning to explain the problem so that we can take the necessary action when it rains. By creating Arduino-based rain sensors and implementing the fourth industrial revolution in everyday life, the study aims to raise awareness of rain unknowingly. The initial method is the implementation of the Raindrop Sensor based arduino which is an Arduino standard board based on the ATmega328P microcontroller. The Rain D
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Sharon, Jereen, Manjunatha D V, Abhishek M, Gayathri B, and Naveen H S. "Smart Shoes for Blind." International Research Journal of Computer Science 10, no. 04 (2023): 27–32. http://dx.doi.org/10.26562/irjcs.2023.v1004.01.

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Blind people come across various challenges in their life. They take assistants of a guardian or a care taker to reach their destination. There are over 2.2 million people who suffer from blindness. The proposed system overcomes this problem by using Arduino UNO board with AtMEGA328P microcontroller and an Android Application which is voice controlled. The Ultrasonic sensors detect the manhole, staircase and obstacles. The Moisture Sensor is used for detecting the water and gives an alert Buzzer Sound to the user while walking. The Android Application is connected through Bluetooth to the Ardu
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12

Dani Atik, Moh Umar, Abdurrakhman Hamid Al - Azhari, and Djuniadi Djuniadi. "Pengatur Suhu Otomatis pada Kandang Ayam selama Masa Brooding Berbasis Arduino Uno dan Sensor LM35." AVITEC 6, no. 1 (2024): 83. http://dx.doi.org/10.28989/avitec.v6i1.2080.

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Ayam merupakan hewan berdarah panas (endotermik), penting menjaga kondisi kandang ayam dan perawatan ayam dengan baik. Penelitian ini membahas pengaturan suhu otomatis pada kandang ayam selama periode brooding dengan menggunakan prototipe berbasis Arduino Uno dan sensor LM35. Pengujian dilakukan untuk memantau suhu di dalam kandang dan suhu ruangan secara bersamaan. Hasil pengujian menunjukkan bahwa set point suhu yang diatur bekerja dengan baik, dengan perbedaan suhu yang tercatat antara kandang dan ruangan. Prototipe ini terdiri dari mikrokontroler ATmega328p (Arduino UNO), sensor suhu LM35,
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Suradi, Suradi, Fadhli Rahman, Sitti Selvi, and Adji Wahyudi. "PERANCANGAN SISTEM STARTER SEPEDA MOTOR MENGGUNAKAN APLIKASI ANDROID BERBASIS ARDUINO UNO." ILTEK : Jurnal Teknologi 15, no. 01 (2020): 17–20. http://dx.doi.org/10.47398/iltek.v15i01.502.

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Sepeda motor membutuhkan perawatan terutama pada mesin, dengan selalu memanaskan sepeda motor sebelum digunakan maupun tidak digunakan. Namun, terkadang seseorang malas untuk memanaskan mesin sepeda motor. Tujuannya yaitu untuk memudahkan pengguna untuk melakukan pemanasan mesin sepeda motor guna menghindari kerusakan pada mesin dan mempermudah pengguna sepeda motor jika starter elektrik pada motor mengalami kerusakan. Metode penelitian menggunakan aplikasi android berbasis arduino uno, yaitu mikrokontroler ATMega328p yang terkoneksi dengan smartphone android melalui bluetooth untuk menstarter
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Suradi, Suradi, Fadhli Rahman, Sitti Selvi, and Adji Wahyudi. "PERANCANGAN SISTEM STARTER SEPEDA MOTOR MENGGUNAKAN APLIKASI ANDROID BERBASIS ARDUINO UNO." ILTEK : Jurnal Teknologi 15, no. 01 (2020): 17–20. http://dx.doi.org/10.47398/iltek.v15i01.5.

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Sepeda motor membutuhkan perawatan terutama pada mesin, dengan selalu memanaskan sepeda motor sebelum digunakan maupun tidak digunakan. Namun, terkadang seseorang malas untuk memanaskan mesin sepeda motor. Tujuannya yaitu untuk memudahkan pengguna untuk melakukan pemanasan mesin sepeda motor guna menghindari kerusakan pada mesin dan mempermudah pengguna sepeda motor jika starter elektrik pada motor mengalami kerusakan. Metode penelitian menggunakan aplikasi android berbasis arduino uno, yaitu mikrokontroler ATMega328p yang terkoneksi dengan smartphone android melalui bluetooth untuk menstarter
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Prabowo, Ridho, Abdul Muid, and Riza Adriat. "Rancang Bangun Alat Pengukur Kecepatan Angin." PRISMA FISIKA 6, no. 2 (2018): 94. http://dx.doi.org/10.26418/pf.v6i2.25260.

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Pada penelitian initelah dilakukan pembuatan alat pengukur kecepatan angin berbasis mikrokontroler ATMega328P. Alat ini dirancang agar dapat merekam data kecepatan angin secara real time dan hasilnya disimpan pada kartu memori. Sistem dibuat menggunakan modul board Arduino Uno R3, optocoupler, modul Real Time Clock (RTC), Secure Digital Card (SD Card), dan Liquid Crystal Display (LCD). Sensor kecepatan angin dibangun dari baling-baling tipe 3cup dan piringan bercelah dengan 100 celah. Pengujian dilakukan dengan membandingkannya dengan alat standar yaitu AWS (Automatic Weather Station) milik Ba
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16

Olabisi, Olusegun, Adewale Gabriel Ebisemiju, Christianah Aderonke Ojedokun, and Opeyemi Samuel Ajadi. "Intelligent Temperature Monitor with remote control Electric Fan." Advancement of Signal Processing and its Applications 3, no. 3 (2020): 1–6. https://doi.org/10.5281/zenodo.4307658.

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<em>Due to problems encountered by physical challenged, sick, old age and stressed people to control the speed of an electric Fan leads to the development of an intelligent temperature monitor with remote control Electric Fan. The systems is developed using a LM35 temperature sensor, ATMEGA328P micro controller, BC547 transistor, Arduino chip and a TSOP 382 Infrared receiver . LM35 senses the ambient temperature and TSOP 382 infrared light receives signal from the remote. The two signals get to the microcontroller which is the heart of the system. The Arduino Uno software is programmed inside
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Hanafie, Ahmad, Suradi Suradi, Susilawati Susilawati, and Hasmirawati Hasmirawati. "PERANCANGAN SISTEM PINTU PAGAR OTOMATIS MENGGUNAKAN REMOTE KONTROL WIRELESS RF 315." ILTEK : Jurnal Teknologi 15, no. 2 (2020): 87–90. http://dx.doi.org/10.47398/iltek.v15i2.525.

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Pagar sebagai akses keluar masuk ke dalam pekarangan atau rumah, umumnya pintu pagar dibuka secara manual. Namun, pada kondisi tertentu seperti pada saat hujan melakukan buka tutup pagar rumah dengan manual akan sangat repot. Tujuannya, merancang pagar menggunakan remote kontrol wireless RF315 dan mengaplikasikan software arduino uno dengan remote kontrol.. Metode penelitian ini berbasis arduino uno, yaitu mikrokontroler ATMega328p yang terkoneksi dengan remote control melalui radio frekuensi untuk menjalankan fungsi buka tutup pagar otomatis menstarter sepeda motor secara otomatis. Berdasarka
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Hanafie, Ahmad, Suradi Suradi, Susilawati Susilawati, and St Hasmirati. "PERANCANGAN SISTEM PINTU PAGAR OTOMATIS MENGGUNAKAN REMOTE KONTROL WIRELESS RF 315." ILTEK : Jurnal Teknologi 15, no. 02 (2020): 87–90. http://dx.doi.org/10.47398/iltek.v15i02.30.

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Pagar sebagai akses keluar masuk ke dalam pekarangan atau rumah, umumnya pintu pagar dibuka secara manual. Namun, pada kondisi tertentu seperti pada saat hujan melakukan buka tutup pagar rumah dengan manual akan sangat repot. Tujuannya, merancang pagar menggunakan remote kontrol wireless RF315 dan mengaplikasikan software arduino uno dengan remote kontrol.. Metode penelitian ini berbasis arduino uno, yaitu mikrokontroler ATMega328p yang terkoneksi dengan remote control melalui radio frekuensi untuk menjalankan fungsi buka tutup pagar secara otomatis. Berdasarkan hasil pengujian dilakukan ketik
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MODI, JAYEN. "R.F.I.D. BASED APPLIANCES." International Journal of Novel Research and Development (www.ijnrd.org) 7, no. 12 (2022): 582. https://doi.org/10.5281/zenodo.10441318.

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Viruses are capable of surviving on surfaces outside of the human body. It is highly likely to get exposed to SARS-CoV-2, the virus responsible for the current outbreak, by touching an infected surface or object and then touching your skin. It is wise to limit contact with alien surfaces. The proposed paper presents a solution for the touchless operation of everyday appliances like light bulbs, fans, air conditioners, etc. Touchless appliances are implemented using RFID (Radio Frequency Identification) technology. The light bulb is connected to the AC power supply and the relay module. The rel
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Dahlan, Feri Prayogi, and Indra Roza. "RANCANGAN SISTEM RUMAH PINTAR TYPE 45 MENGGUNAKAN MIKROKONTROLLER ATMEGA328P BERBASIS APLIKASI ANDROID." JiTEKH 9, no. 1 (2021): 20–28. http://dx.doi.org/10.35447/jitekh.v9i1.324.

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Remote control is not something new, so the development of remote control has been done in many applications. The author designed automatic control of equipment and devices at home and buildings from a distance. The microcontroller used in this study was the ATmega 328P AVR type (Alf and Vegaard's Risc). ATmega 328P is an external microcontroller from atmel that has a RISC (Reduce Instruction Set Computer) architecture where each data execution process is faster than the CISC (Completed Intruction Set Computer) architecture. In the research, the application of access to devices in the home suc
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HamaRaouf, Karwan M., and Ayub Othman Abdulrahman. "Microcontroller-Based Kurdish Understandable and Readable Digital Smart Clock." Science Journal of University of Zakho 10, no. 1 (2022): 1–4. http://dx.doi.org/10.25271/sjuoz.2022.10.1.870.

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A smart clock is any digital clock that has at least one intelligent feature. Moreover, it provides time with synchronizing automatically base on the standard measurement, which is determined during the implementation software on the hardware architecture design. This study presents an efficient cost-effective smartwatch for disable people based on the Atmega328p microcontroller (Arduino Uno) that is programmed in “Arduino” (C based) programming language. Moreover, the system uses DS1302 real time clock, SD card memory, push button, voice recognition module, liquid crystal display (LCD), and s
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Palevi, Bima Romadhon Parada Dian, M. Abd. Hamid, and Citra Dewi Megawati. "Rekomendasi Desain Relay Arus Lebih Standar IEC Berbiaya Rendah Menggunakan Arsitektur Mikrokontroller ATMega328P." Prosiding SENIATI 6, no. 3 (2022): 500–506. http://dx.doi.org/10.36040/seniati.v6i3.5086.

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Dalam operasi sistem tenaga listrik, gangguan yang terjadi dapat mengakibatkan terganggunya penyaluran tenaga listrik ke konsumen. Sistem proteksi berperan penting dalam mendeteksi adanya gangguan dan dapat mencegah kerusakan yang dapat menyebabkan gangguan lebih besar. Relay Arus Lebih (Over Current Relay/OCR) adalah suatu perangkat yang bekerja berdasarkan kenaikan arus yang melebihi suatu nilai pengaman tertentu dalam jangka waktu tertentu. Dalam standar IEC Curve metode yang digunakan terdiri dari Extremely Inverse, Very Inverse, Normally Inverse, dan Moderatelly Invese. Pada paper ini tel
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Ayushee, Prajapati, Saeed Nausheen, Noma, Kumar Vishnu, and Gaurav Yatindra. "Single axis solar tracking system using arduino." i-manager’s Journal on Electronics Engineering 14, no. 4 (2024): 7. http://dx.doi.org/10.26634/jele.14.4.20845.

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The future is being built upon the foundation of renewable energy, particularly solar energy. Today, India is the third- largest solar deployment country in the world. Solar energy is an extremely efficient form of energy, making it a popular choice among people. However, the fixed structure of solar panels often limits their productivity. This paper proposes capturing more solar energy using a single-axis solar tracking system designed with an Arduino UNO and LDRs (along with two IR sensors). The proposed system aims to increase the performance of solar panels by continuously tracking the sun
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Mazratul, Firdaus Mohd Zin, Zuhri Kamal Farid, Izawana Ismail Syila, Siti Syahidah Ku Mohd Noh Ku, and Hafiz Kassim Abdul. "Development of dam controller technology water level and alert system using Arduino UNO." Development of dam controller technology water level and alert system using Arduino UNO 31, no. 3 (2023): 1342–49. https://doi.org/10.11591/ijeecs.v31.i3.pp1342-1349.

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Recently, various water level detection monitoring systems integrations were implemented to various places such as rivers and reservoirs to avoid floods. Thus, it is determined to construct a project primarily focused on water level management, named dam controller technology (DCOTech). DCOTech is a system that controls the amount of water in a reservoir using a microcontroller ATMEGA328p and several functions to prevent flash floods. Water sustainability requires proper monitoring via sensors and a controller. Moreover, a buzzer is used in DCOTech to give a warning signal to the people around
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Hardianti, Dinda, Mutia Rizki, and Fajri Yanti. "PENGGUNAAN DHT11 DAN ARDUINO UNO SEBAGAI PENDETEKSI SUHU PADA LAPTOP." Relativitas: Jurnal Riset Inovasi Pembelajaran Fisika 1, no. 2 (2019): 38. http://dx.doi.org/10.29103/relativitas.v1i2.1463.

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Laptop merupakan salah satu perangkat elektronik atau komputer yang membantu pekerjaan manusia yang sangat sering digunakan. Penggunaan laptop yang terlalu berlebihan dapat menyebabkan laptop menjadi panas/overheat. Jika dibiarkan akan menimbulkan masalah pada laptop. Overheating merupakan salah satu penyebab utama kerusakan hard drive. Kerusakan ini dapat dicegah dengan menggunakan software sensor suhu, salah satunya adalah DHT11 dan Aduino Uno. DHT11 adalah salah satu sensor yang digunakan untuk mengukur suhu dan kelembaman (humidity). Sedangkan Aduino Uno adalah kit atau papan rangkaian ele
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Hardianti, Dinda, Mutia Rizki, and Fajri Yanti. "PENGGUNAAN DHT11 DAN ARDUINO UNO SEBAGAI PENDETEKSI SUHU PADA LAPTOP." Relativitas: Jurnal Riset Inovasi Pembelajaran Fisika 2, no. 1 (2019): 38–45. https://doi.org/10.29103/relativitas.v2i1.1463.

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Laptop merupakan salah satu perangkat elektronik atau komputer yang membantu pekerjaan manusia yang sangat sering digunakan. Penggunaan laptop yang terlalu berlebihan dapat menyebabkan laptop menjadi panas/overheat. Jika dibiarkan akan menimbulkan masalah pada laptop. Overheating merupakan salah satu penyebab utama kerusakan hard drive. Kerusakan ini dapat dicegah dengan menggunakan software sensor suhu, salah satunya adalah DHT11 dan Aduino Uno. DHT11 adalah salah satu sensor yang digunakan untuk mengukur suhu dan kelembaman (humidity). Sedangkan Aduino Uno adalah kit atau papan rangkaian ele
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27

Ramanda, Kresna, Susanto Susanto, and Arief Rusman. "Implementasi Analytical Hierarchy Process Dalam Pemilihan Arduino Board." Jurnal Sisfokom (Sistem Informasi dan Komputer) 10, no. 1 (2021): 99–105. http://dx.doi.org/10.32736/sisfokom.v10i1.1034.

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Internet Of Things (IoT) is one of the trends that is in demand to carry out various automation and control of devices or machines easily anytime and anywhere, the existing Internet Of Things (IoT) devices are of various kinds according to the needs of the One of the users is the Arduino Board. Arduino is a microcontroller board based on the ATmega328P microchip which is used to control various electronic components. Analytical Hierarchy Process is applied in the selection of Arduino board in data calculation and analysis with the addition of Expert Choice software. Primary data collection is
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Zin, Mazratul Firdaus Mohd, Farid Zuhri Kamal, Syila Izawana Ismail, Ku Siti Syahidah Ku Mohd Noh, and Abdul Hafiz Kassim. "Development of dam controller technology water level and alert system using Arduino UNO." Indonesian Journal of Electrical Engineering and Computer Science 31, no. 3 (2023): 1342. http://dx.doi.org/10.11591/ijeecs.v31.i3.pp1342-1349.

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Recently, various water level detection monitoring systems integrations were implemented to various places such as rivers and reservoirs to avoid floods. Thus, it is determined to construct a project primarily focused on water level management, named dam controller technology (DCOTech). DCOTech is a system that controls the amount of water in a reservoir using a microcontroller ATMEGA328p and several functions to prevent flash floods. Water sustainability requires proper monitoring via sensors and a controller. Moreover, a buzzer is used in DCOTech to give a warning signal to the people around
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29

Padang, Elohansen, Baina Afkril, Richard Lewerissa, Jacson Viktor Morin, and Mujasam Mujasam. "PERANCANGAN ALAT UKUR KETINGGIAN PERMUKAN AIR BERBASIS SENSOR ULTRASONIK MAXSONAR MB7389 DAN MIKROKONTROLER ATMega328P." Jurnal Natural 18, no. 1 (2022): 1–7. http://dx.doi.org/10.30862/jn.v18i1.164.

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In this study, a low-cost water level measurement device based on an ultrasonic sensor was developed. The ultrasonic sensor used is Maxsonar MB7389, and the data acquisition system uses the ATMega328P Microcontroller. Meanwhile, water level measurement data is displayed in real-time on a computer and also stored in a microSD card where data can be retrieved at any time for analysis. The choice of the Maxsonar MB7389 sensor for sensing water levels is based on its superiority in water resistance so that it can be applied in the field, and the measurement resolution is up to millimeters. Meanwhi
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Wahyuadnyana, Kadek Dwi, and I. Made Satriya Wibawa. "“MAX” Robot Pintar Berpendingin Mesin Dengan Sensor Suhu LM35 Berbasis Arduino UNO328P." JELIKU (Jurnal Elektronik Ilmu Komputer Udayana) 7, no. 4 (2019): 317. http://dx.doi.org/10.24843/jlk.2019.v07.i04.p13.

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It has been successfully created a robot named "MAX". MAX Robot uses 2 (two) main sensors, those are ultrasonic sensors as sensors that detect an objects and LM35 temperature sensors as sensors to detect and monitor the temperature of the robotic machines. Both sensors are connected and controlled by ATMega328P microcontroller based Arduino Uno. The results of the readings from the temperature sensor on the robot's body will be displayed to the Light Crystal Display (LCD). The MAX robot is able to detect objects effectively at a distance of ±25 cm, then the robot stops and then turns in a cert
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Wibowo, Agung, Poningsih Poningsih, Iin Parlina, Suhada Suhada, and Anjar Wanto. "RANCANG BANGUN MESIN SORTIR BUAH KELAPA SAWIT BERDASARKAN TINGKAT KEMATANGAN MENGGUNAKAN SENSOR WARNA TCS3200 BERBASIS ARDUINO UNO." STORAGE: Jurnal Ilmiah Teknik dan Ilmu Komputer 1, no. 2 (2022): 9–15. http://dx.doi.org/10.55123/storage.v1i2.305.

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Tujuan dari penelitian ini adalah mengaplikasikan sensor warna TCS3200 sebagai detektor untuk mendeteksi tingkat kematangan biji buah kelapa sawit berdasarkan warnanya. Proses penyotiran yang ada saat ini di pabrik kelapa sawit masih dilakukan manual sehingga keakuratan sortasi yang dilakukan masih rendah, untuk mengatasi permasalahan yang perlu dilakukan peneliti dengan melakukan perancanaan dan pembuatan alat. Dalam perancangan ini menggunakan mikrokontroller ATMega328p sebagai pengendali sistem mesin sortasi kelapa sawit, adapun metode penelitian yang digunakan yaitu sensor warna TCS3200 un
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Pratama, Danang. "IMPLEMENTASI PULSE WIDTH MODULATION (PWM) PADA SISTEM BLENDING KACANG MENGGUNAKAN SENSORLOADCELL BERBASIS MIKROKONTROLER." JURNAL TEKNISI 1, no. 1 (2021): 1. http://dx.doi.org/10.54314/teknisi.v1i1.462.

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Penelitian ini bertujuan untuk mempermudah pedagang membuat saus kacang menggunakan teknologi komputer, maka diperlukan sistem yang digunakan sebagai penentu waktu penghalusan dan pencampuran kacangdengan air. Dalam hal ini akan diterapkan suatu teknik Pulse Width Modulation (PWM). PWMitu sendiri adalah suatu teknik modulasi dengan mengubah lebar pulsa (duty cylce) dengan nilai amplitudo dan frekuensi yang tetap [2]. Teknik iniyang akan menentukan kecepatanputarblenderuntuk penghalusan dan pencampuran kacangdengan air. System inibekerjadengan mendeteksi volume atau banyaknya kacang pada wadah
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Kumar, Ajeet. "Design and Implementation of an Arduino-Based Over/Under Voltage Protection System for Domestic Applications." International Journal for Research in Applied Science and Engineering Technology 13, no. 5 (2025): 5741–45. https://doi.org/10.22214/ijraset.2025.71173.

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Abstract: Voltage instability in residential power systems poses significant risks to electrical appliances, leading to inefficiencies, safety hazards, and irreversible damage. This paper presents a low-cost, Arduino Uno-based protection system designed to monitor and mitigate overvoltage (&gt;250V) and undervoltage (&lt;200V) conditions in real time. The system integrates a ZMPT101B voltage sensor for precise AC voltage measurement, a 16x2 LCD for user-friendly status display, and a relay module for automated load disconnection during anomalies. Calibrated to operate within ±3% accuracy, the
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Mustafa, Ragmi M., Kujtim R. Mustafa, and Refik Ramadani. "Creating a smart bedroom for children by connecting PIR and LDR sensors to a microcontroller Arduino UNO ATmega328P." International Journal of Informatics and Communication Technology (IJ-ICT) 14, no. 2 (2025): 540. https://doi.org/10.11591/ijict.v14i2.pp540-554.

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&lt;p&gt;Intelligent electronic systems are increasingly prevalent in modern society. The development of smart bedrooms for young children, especially those with developmental disabilities, it is based on the responses of passive infrared (PIR) and light dependent resistor (LDR) sensors. The PIR sensor detects children’s movement during the night, triggering the microcontroller to send a bit of 1 to the microcontroller pin connected to an electromagnetic relay, which then switches on a 220 VAC light to illuminate the bedroom. This only occurs if the LDR sensor has high resistance, indicating t
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Кривонос, Олександр Миколайович, та Мирослава Петрівна Кривонос. "FRITZING – ПРОГРАМА ДЛЯ СТВОРЕННЯ НАОЧНИХ ЕЛЕКТРОННИХ СХЕМ". Науковий часопис НПУ імені М.П. Драгоманова. Серія 2. Комп’ютерно-орієнтовані системи навчання, № 22(29) (20 лютого 2020): 107–15. http://dx.doi.org/10.31392/npu-nc.series2.2020.22(29).15.

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В статті проаналізовано сучасний стан проблеми впровадження STEM-освіти в закладах загальної середньої освіти України, розглянуто перспективи запровадження елементів схемотехніки в межах шкільного курсу інформатики, як одного з елементів STEM-освіти і як одного з компонентів фахової підготовки вчителя інформатики. Здійснено аналіз досліджень та публікацій з проблеми використання електронних пристроїв в навчальному процесі. Авторами статті обґрунтовано вибір відкритого програмного комплексу Arduino, як допоміжного дидактичного засобу вивчення елементів комп’ютерної схемотехніки. Описані найбіль
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Holovatyy, Andriy, Vasyl Teslyuk, Natalia Kryvinska, and Artem Kazarian. "Development of Microcontroller-Based System for Background Radiation Monitoring." Sensors 20, no. 24 (2020): 7322. http://dx.doi.org/10.3390/s20247322.

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An appearance of radiometers and dosimeters on free sale made it possible to provide better radiation safety for citizens. The effects of radiation may not appear all at once. They can manifest themselves in decades to come in future generations, in the form of cancer, genetic mutations, etc. For this reason, we have developed in this paper a microcontroller-based radiation monitoring system. The system determines an accumulated radiation dose for a certain period, as well as gives alarm signals when the rate of the equivalent dose exceeds. The high reliability of this system is ensured by a r
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Rama, Mr V. Seetha. "Precision Agriculture using IOT." International Journal for Research in Applied Science and Engineering Technology 9, no. VII (2021): 122–27. http://dx.doi.org/10.22214/ijraset.2021.36255.

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Automation of farm activities can transform agricultural domain from being manual and static to intelligent and dynamic leading to higher production with lesser human supervision. This paper proposes an automated irrigation system which monitors and maintains the desired soil moisture content via automatic watering. Microcontroller ATMEGA328P on Arduino Uno platform is used to implement the control unit. The setup uses soil moisture sensors which measure the exact moisture level in soil. This value enables the system to use appropriate quantity of water which avoids over/under irrigation. IOT
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Kumar, K. Ramash, T. S. Anandhi, B. Vijayakrishna, and S. Balakumar. "Modelling, Simulation, and Implementation of Effective Controller for KY Stepping Up Converter." Modelling and Simulation in Engineering 2022 (January 11, 2022): 1–12. http://dx.doi.org/10.1155/2022/8495432.

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This paper studies on a new Hybrid Posicast Control (HPC) for Fundamental KY Boost Converter (FKYBC) worked in Continuous Current Mode (CCM). Posicast is a feed-forward compensator. It reduces the overshoot in the step result of the flippantly damped plant. But the conventional controller approach is sensitive owing to the changes in the natural frequency. So, as to reduce this undesirable sensitivity and load potential control of FKYBC, a HPC is designed in this article. Structure of HPC is posicast with feedback loop. The independent computational time delay is the main design function of th
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Isra, Harmen, Diki Arisandi, and Zul Indra. "Prototype Lampu Rumah Otomatis Menggunakan Sensor LDR Berbasis Mikrokontroller." JEKIN - Jurnal Teknik Informatika 1, no. 1 (2021): 50–67. http://dx.doi.org/10.58794/jekin.v1i1.24.

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Kebutuhan akan waktu yang semakin bertambah, membuat hal yang sederhana pun menjadi sulit untuk dikerjakan. Seperti lampu yang ada di dalam rumah maupun di luar rumah, hal sederhana untuk menghidupkan atau mematikan lampu terkadang menjadi permasalahan bagi sebagian orang. Penelitian ini bertujuan membuat prototype lampu rumah otomatis menggunakan sensor LDR berbasis mikrokontroller. Lampu rumah otomatis memanfaatkan system kendali mikro-kontroller untuk mangatur hidup matinya lampu berdasarkan hasil pembacaan nilai analog pada sensor LDR yang telah di tetapkan. Untuk mewujudkan prototype lamp
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Rahman, Taufik, Ade Nurman Saputra, and Ervian Dwi Anggara. "ATTENDANCE MONITORING SYSTEM BASED ON IOT." MULTITEK INDONESIA 15, no. 2 (2022): 33–43. http://dx.doi.org/10.24269/mtkind.v15i2.3758.

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Most organizations have problems manually logging one's attendance with complex methods. The process of manually signing on paper is time-consuming and unsafe. In such places it is necessary to implement an efficient attendance monitoring system. The development of technology integrating technology in the fields of telecommunications, informatics, electronics and computers is known as Embedded System. One of the benefits that can be taken from the Embedded System is the Arduino IOT-based attendance monitoring system that is integrated with the MySql database. The tool is designed by combining
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Zaky, Muhammad, Nita Carolina, and Unggul Unggul. "Development of Practicum Tools for Measuring Temperature and Air Humidity Based on Microcontroller by Telemetric." Media Eksakta 19, no. 1 (2023): 28–37. http://dx.doi.org/10.22487/me.v19i1.3485.

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The purpose of this research is to make a temperature measuring instrument for air temperature and humidity on the device using the DHT11 sensor as a temperature and humidity sensor for the object under study, the ATMega328P CH340G microcontroller as data processing and the Bluetooth HC-05 module as an intermediary communication between the device and a smartphone. , utilizing App Inventor technology as a means of information quickly and accurately. The research method used in this study is the research and development method or known as research and development (R&amp;D). This measuring tool
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Aziz, Muflih, Nuryani Nuryani, and Darmanto Darmanto. "Alat Ukur Tekanan Darah menggunakan Proses Komputer." Jurnal Fokus Elektroda : Energi Listrik, Telekomunikasi, Komputer, Elektronika dan Kendali) 6, no. 2 (2021): 79. http://dx.doi.org/10.33772/jfe.v6i2.17601.

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Alat ukur tekanan darah yang dirancang menggunakan Arduino UNO R3 dengan mikrokontroler ATmega328p dan sensor tekanan udara MPX5050DP. Sensor MPX5050DP memiliki jangkauan daerah pengukuran dari (0 – 50) kPa atau (0 – 350) mmHg yang dapat digunakan untuk pengukuran tekanan darah. Alat ukur dirancang kemudian diujicobakan kepada tiga orang pasien laki-laki. Data yang diperoleh merupakan nilai tekanan manset yang kemudian disajikan dalam bentuk grafik. Data tersebut dianalisis untuk menentukan nilai sistol dan diastol. Hasil pengujian memiliki persentase kesalahan dari nilai perbandingan antara h
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Nurfaijah, Budi Indra Setiawan, Chusnul Arif, and Slamet Widodo. "Sistem Kontrol Tinggi Muka Air Untuk Budidaya Padi." Jurnal Irigasi 10, no. 2 (2015): 97. http://dx.doi.org/10.31028/ji.v10.i2.97-110.

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Penelitian ini bertujuan merancang sistem kontrol untuk menjaga tinggi muka air dan kelembaban tanah pada level yang dibutuhkan tanaman dan mengkaji tinggi muka air dan kelembaban tanah optimum pada setiap fase pertumbuhan budidaya padi. Sistem kontrol tinggi muka air dibentuk berdasarkan sistem kendali on-off dengan menggunakan mikrokontroler Arduino Uno ATMega328P. Ketika sensor memberikan input bahwa tinggi muka air berada di bawah set point maka dengan perintah mikrokontroler valve irigasi akan terbuka dan valve drainase tertutup. Jumlah dan waktu pemberian dan pengeluaran air irigasi terg
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Suparta, Wayan, and Trie Handayani. "Development of Quadcopter for Atmospheric Data Collection." JURNAL INFOTEL 14, no. 1 (2022): 57–64. http://dx.doi.org/10.20895/infotel.v14i1.727.

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This research aims to develop a quadrotor system as unmanned aircraft vehicles (UAVs, or drones) for monitoring atmospheric conditions in a targeted area. The system consists of an APM 2.8 arducopter flight controller, Ublox NEO M8N GPS module with compass, Racerstar 920kV 2-4S Brushless Motor, Flysky Receiver FS-iA6B with FS-i6 Remote Control Transmitter, DJI F450 quadcopter frame kits with tall landing gear skid, and a LiPo Battery 3300 mAh 35C. The system is set up and run through a Mission Planner. As for monitoring atmospheric conditions, the system consists of an Arduino Uno ATmega328P,
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Ogbuka, Ifeanyi Chinaeke, Nnabuike Ezukwoke, Mmasom Ndefo, Edward Anoliefo, Dumtoochukwu Oyeka, and Cosmas Ogbuka. "Development Of A User-Friendly Automated Poultry Feeding System." IOSR Journal of Electronics and Communication Engineering 19, no. 6 (2024): 01–05. http://dx.doi.org/10.9790/2834-1906010105.

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The huge cost and high labor demand associated with the current deep litter system of poultry farming poses a great challenge to poultry farming. These drawbacks which currently threatens this system of farming, have been attributed to the over-involvement of humans in almost all aspects of operation of this farming system. The consequences are increased disease outbreak, weakness and poor bird feeding. To ameliorated some of these challenges, an automated poultry feeding system is developed and presented in this paper. The proposed system mimics the roles of real-life poultry attendants in de
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Aliyu Surajo and Ziya’ulhaq Sagir. "Assembling and Testing of a Microcontroller Based Smart System Suitable for Controlling Brushless Fan." UMYU Scientifica 1, no. 1 (2022): 286–91. http://dx.doi.org/10.56919/usci.1122.037.

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This research focuses on testing and assembling of a microcontroller based smart system suitable for controlling brushless fan that will detect temperature in a room, maintain and adjusts a speed of a cooling fan. The automation system comprises of Arduino Uno board, Microcontroller, temperature sensor, DC brushless motor and other electronics components. The Atmega328P-PU Microcontroller was used in programming the system, the microcontroller coordinates the functions of the entire system and the Pulse Width Modulation (PWM) signals from the microcontroller served as regulatory tools to the f
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Myasischev, A., L. Komarova, R. Gritsky, and K. Kulik. "WEB SERVER ON ARDUINO WITH AUTHORIZATION AND GRAPHIC REPRESEN-TATION OF INFORMATION FROM SENSORS." Collection of scientific works of the Military Institute of Kyiv National Taras Shevchenko University, no. 64 (2019): 99–112. http://dx.doi.org/10.17721/2519-481x/2019/64-10.

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In the work on the basis of Arduino Mega and the W5100 controller, a web server is built for graphical display of remote client data obtained from temperature, pressure, humidity sensors. The server program is written in the Arduino IDE development environment. The Ethernet library for the W5100 has been updated, which for Arduino IDE ver. 1.0.3, 1.0.5-r2 caused the server to hang. The possibility of using the Dygraphs library for graphical visualization of data obtained with sensors is shown. Written scripts for drawing graphics for the projected web server. The data transfer rate from the Ar
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Ajith., S., S. Chandru., E. Boopalan., and P. Periyathambi. "Cloud Based Forest Fire Alert System using IoT." International Journal of Trend in Scientific Research and Development 4, no. 2 (2020): 650–52. https://doi.org/10.5281/zenodo.3842905.

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The most common hazard in forest fire Accident are themselves destroy the forest and great threat for wildlife and peoples. The number of trees has reduced drastically so the forest are creates an unhealthy environment for animals to survive in the forest. Forest covers 31 of the world and 21 of the India. It has found in a survey that 80 of losses are caused due to fire. This project of a system fire was detected early stages. It was tracking and alarming for protection of trees against forest fire. Now IOT Internet of things devices and cloud based to forest fire alerting system. If cloud ca
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Kyawt, Kay Thwe, and Myo Tun Zaw. "Automatic Floor Cleaning Robot using Encoder." International Journal of Trend in Scientific Research and Development 3, no. 5 (2019): 157–60. https://doi.org/10.5281/zenodo.3589661.

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This research work is based on design and construction of a floor cleaning robot with two modes - automatic and manual mode. It supports automatic mode in this paper. IR sensor is used to avoid the obstacles and change left direction after right direction and it is mounted at the front side of the robot. It is applied to meet the U turn movement for complete coverage navigation by using optocoupler based encoder feedback. In this system, two motors 555 dc gear motor are used with L298 for robot movement, and other 12V dc motor is used with MOSFET driver to control the speed of the cleaner. The
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Rosli, H. A., N. Abdul Malik, and Y. A. Ahmad. "IoT Based Monitoring System for Stingless Bees Colony in IIUM." Journal of Physics: Conference Series 2312, no. 1 (2022): 012088. http://dx.doi.org/10.1088/1742-6596/2312/1/012088.

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Abstract Currently, the beekeeping method in IIUM is based on manual monitoring by human inspection to see the condition of the stingless bees. However, frequent manual monitoring by opening the lid can stress the colonies causing colony collapsed disorder (CCD). Therefore, this project offers a smart apiary system prototype to add value in preserving the species and the environment because bees are good pollinators. It can benefit the users in tracking the health status of stingless bees by proposing an IoT-based monitoring system. One way is to develop a real-time autonomous beekeeping syste
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