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Journal articles on the topic 'ARDUINO UNO controller'

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Author: Grafiati
Published: 30 May 2022
Last updated: 31 May 2022

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1

Badr Yass, Khalid, and Ahmed Rashid. "Flyback Converter Controller by Arduino Uno." International Journal of Electrical and Power Engineering 13, no. 6 (April 13, 2020): 88–92. http://dx.doi.org/10.36478/ijepe.2019.88.92.

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2

A, Ardilessi. "Tank Volume Control Using LabVIEW and Arduino UNO." Telekontran : Jurnal Ilmiah Telekomunikasi, Kendali dan Elektronika Terapan 3, no. 2 (July 22, 2019): 28–35. http://dx.doi.org/10.34010/telekontran.v3i2.1880.

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Abstract - Rapid technological developments in contemporary times also affected the development of the toolsin an industry.Equipment in an industry that was once driven manually by humans are now beginning to be controlled automatically. One of the automatic controller system that is widely used in an industrial controller system is proportional integral derivative (PID). PID controller consists of three kinds of methods that the controller proportional controller, the integral controller, and derivative controller. Controlling the height levels of the system is done through LabView 2013. Arduino UNO board is used to process the data on the flow sensor and height sensor.Data obtained from the height sensor and flow sensor is used to set the input and output water tank so that the water level in accordance with the desired height. From the test results, using Ti as an input parameter in the integral action zigler – Nichols method. Condition stable and constant oscillation at the output level elevation will be obtained, when the conditions given parameter value Ti is getting bigger and parameter values Kp given increasingly smaller. By using the parameters obtained from the calculation using the method zigler – Nichols, obtained results faster output stable when using a PI controller. Keyword : Controller, Proportional Integral Derivative, Ziegler-Nichols, LabView
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3

Afiqah Zainal, Nurul, Sasikala A. P. Ganaisan, and Ajisman. "Optimum Solar Panel Implementation Using DC-DC Boost Converter Controlled by Fuzzy Logic Controller." Applied Mechanics and Materials 793 (September 2015): 378–82. http://dx.doi.org/10.4028/www.scientific.net/amm.793.378.

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This paper proposes the implementation of a simple fuzzy logic controller (FLC) for a DC-DC boost converter based on a microcontroller to obtain maximum power from the solar system with the maximum power point tracking (MPPT) method. The system includes a solar panel, DC-DC boost converter, the fuzzy logic controller implemented on Arduino Uno for controlling on/off time of MOSFET of the boost converter, voltage divider and optocoupler circuit. This paper presents a fuzzy logic real time code in the Arduino language for ATmega328 microcontroller on the Arduino UNO board. The designed system increases the efficiency of the solar panel based on experimental results.
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Pandey, Anikka, Gargi Andhale, Anirudha Sonawane, Akshara Amrutkar, and Tejaswini Andhare. "Automatic Water Level Indicator and Controller." International Journal for Research in Applied Science and Engineering Technology 10, no. 2 (February 28, 2022): 1043–47. http://dx.doi.org/10.22214/ijraset.2022.40435.

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Abstract: This Project mainly aims at optimizing the use of water. Since water wastage has become a major and global issue now, hence water conservation has now become more important. One of the common sources of wastage we encounter is the overflow of water. This project aims to help judge the water level inside the water tank and display it accordingly on the screen while also preventing any overflow of water which is achieved through the Arduino Uno. The ultrasonic sensors used helps determine the water level in tank which is then send to the Arduino Uno, the LCD then attached to it displays the level to us. According to the level of water inside the tank, the Arduino helps turn ON or OFF the servo motor hence closing the source of water. In this way, through the automation of water control, we intent to save the energy and our natural resource. Keywords: Arduino-UNO, DC motor, LCD display, Servo, Ultrasonic sensor
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5

Yass, Khalid Badr. "Flyback converter controlled by Arduino Uno." Journal of Techniques 1, no. 1 (January 2, 2020): 18–29. http://dx.doi.org/10.51173/jt.v1i1.72.

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This paper presented the design, simulation, and implantation a DC-DC step-up Flyback converter that regulates the output voltage to give the desired value 200 V 100 W and can be used in many application such as power supply. To give a regulated output voltage from the flyback converter, a feedback loop with Proportional-integral (PI) controller is used. A simulation of the flyback converter employed by MATLAB/Simulink under variation in the input voltage and load. Also, the practical implementation used Arduino Uno microcontroller to control the duty cycle through IR2110 driver at the change in the input voltage or resistive load. It gives better flexibility and a good response to the control system. The duty controller to create regulate output voltage by using voltage control mode.
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6

Rachmatullah, Robby, Dessyana Kardha, and Dani Triwiyanto. "Solar Tracking System Untuk Lampu Taman STMIK AUB Surakarta Berbasis Arduino Uno." Go Infotech: Jurnal Ilmiah STMIK AUB 24, no. 2 (December 5, 2018): 134. http://dx.doi.org/10.36309/goi.v24i2.97.

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The transfer of electrical energy sources from non-renewable fossil fuels to alternative renewable fuels can be made by utilizing solar energy. The working system of arduino uno solar tracking system for STMIK AUB garden lights is by capturing solar energy through solar panels which are then stored inside the battery where the charging process is controlled by solar charge controller. LDR functions to receive and identify the radiated light quantities which are then forwarded into the arduino uno and processed to drive the DC motor that has become one with the solar panel. If the day begins to darken the LDR will inform the arduino uno and then it will be processed by arduino uno to turn on the DC light.
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7

Sharma, Bharti. "Cherry Tomato Harvesting Robot Utilizing Arduino UNO Controller." International Journal for Research in Applied Science and Engineering Technology 8, no. 7 (July 31, 2020): 727–29. http://dx.doi.org/10.22214/ijraset.2020.30333.

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8

Putra, Anggi Septiawan, Nusyirwan Nusyirwan, and Maimuzar Maimuzar. "Pengaplikasian Mikrokontroler Arduino Uno Pada Simulasi Sistem Pengapian Mesin Bensin 4 Langkah (4 Silinder)." Jurnal Teknik Mesin 10, no. 2 (July 11, 2019): 1–5. http://dx.doi.org/10.30630/jtm.10.2.178.

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The 4 stroke (4 cylinder) gasoline engine ignition system simulation based on the Arduino Uno microcontroller was designed as one of the modeling of conventional ignition system modification into an electronic ignition system based on the Arduino Uno microcontroller. Conventional ignition systems are modified by removing distributor components and replaced with microcontrollers as ignition system controllers. Spark plug and coil cables are replaced with Igniton coil that uses Igniter. Arduino Uno microcontroller is used as a controller that receives signals from the optocoupler sensor and activates the module relay so that the electric current enters the Ignition Trigger, the voltage needed by Igniton Trigger is 2 V by using a step down transformer to reduce the voltage. So that the Ignition Coil is active and produces a high voltage so that it can produce sparks on each spark plug. This Arduino Uno microcontroller processes data received from an optocoupler sensor
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9

Hidayati, Qory, Fathur Zaini Rachman, Nur Yanti, Nurwahidah Jamal, and Suhaedi Suhaedi. "Desain Model dan Simulasi PLC-Mikrokontroler sebagai Modul Pembelajaran Berbasis PLC." Jurnal Teknologi Rekayasa 2, no. 2 (December 20, 2017): 73. http://dx.doi.org/10.31544/jtera.v2.i2.2017.73-82.

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Programmable Logic Controller (PLC) merupakan suatu piranti yang dibuat sebagai pengganti kumpulan relai-relai mekanik yang digunakan dalam sistem kontrol. PLC berkerja dengan cara membaca instruksi-instruksi dari masukannya. Karena PLC pada umumnya memiliki harga yang cukup mahal dan hanya beberapa orang yang dapat mempelajarinya, maka dibuatlah PLC trainer. PLC trainer dirancang menggunakan mikrokontroler Arduino Uno, modul input (berupa: toggle switch, push button, dan limit switch), dan modul output (berupa: LED, seven segment, motor DC, dan buzzer). PLC trainer juga dilengkapi prototype lampu lalu lintas sebagai modul output simulasi lampu lalu lintas empat arah. PLC trainer memanfaatkan LDmicro untuk membuat pemrograman ladder diagram dengan instruksi-instruksi sesuai dengan keinginan programmer dan menggunakan software Xloader untuk upload program ke Arduino Uno. Dari hasil pengujian diperoleh bahwa mikrokontroler Arduino Uno dapat dimanfaatkan sebagai PLC trainer untuk modul pembelajaran.Kata kunci: Programmable Logic Controller, Arduino Uno, modul input-output, lampu lalu lintas
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10

Ningati, Asri. "PROTOTIPE SISTEM KENDALI OTOMATIS PADA SMART HOME DENGAN ARDUINO UNO BERTENAGA SURYA." Jurnal Teknik Elektro Uniba (JTE Uniba) 4, no. 2 (February 24, 2020): 41–46. http://dx.doi.org/10.36277/jteuniba.v4i2.57.

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Abstract— Research on effectiveness and energy efficiency is now an interesting topic. One of them is designing a Smart Home System concept with a source of electricity from the Solar Cell System in a home that facilitates human activities while in the house such as turning on and turning off lights or fans automatically. Smart Home System is a technology that allows homeowners not to control the entire contents of the house. In improving safety and comfort, this system is controlled by a microcontroller, Arduino. Arduino is connected to a computer via USB. Arduino microcontroller can be used as a home light controller, fan control and other electronic device controller features. Related to the many electronic features used in the Smart Home System, solar power is used as a source of electrical energy Keywords: Smart Home, Solar Panel, Arduino, Technology. Abstrak— Penelitian mengenai efektifitas dan efisiensi energi saat ini menjadi topik yang menarik. Salah satunya yaitu merancang suatu konsep Smart Home System dengan sumber listrik berasal dari Solar Cell System di suatu rumah yang mempermudah aktifitas manusia ketika berada dalam rumah seperti menyalakan dan mematikan lampu atau kipas secara otomatis. Smart Home System adalah teknologi yang memungkinkan pemilik rumah tidak perlu mengontrol seluruh isi rumah. Dalam meningkatkan keamanan serta kenyamanan, sistem ini dikontrol dengan mikrokontroller yaitu Arduino. Arduino dikoneksikan ke komputer melalui USB. Mikrokontroller Arduino dapat dimanfaatkan sebagai pengontrol lampu rumah, pengontrolan kipas dan pengontrol fitur alat elektronik yang lainnya. Terkait dengan banyaknya fitur elektronik yang digunakan pada Smart Home System, tenaga surya dimanfaatkan sebagai sumber energi listrik.
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11

Hardianto, Roki, and Chandra Kusuma. "Rancang Bangun Smart Lamp Menggunakan Micro Controller Arduino UNO." ZONAsi: Jurnal Sistem Informasi 1, no. 1 (March 31, 2019): 28–37. http://dx.doi.org/10.31849/zn.v1i1.2353.

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Pada jurnal ini kami membuat sebuah system pengendali lampu rumah dengan Mikrokontroler arduino uno R3 menggunakan Android dengan memanfaatkan Fitur speech recognition yang ada pada smartphone android yang dapat dimanfaatkan untuk mengendalikan lampu rumah menggunakan perintah suara., Sehingga untuk menghidupkan atau mematikan lampu rumah tidak lagi dilakukan secara manual, melainkan dengan cara yg lebih mudah yaitu cukup dengan memberikan perintah suara kepada smartphone android yang dihubungkan dengan Arduino melalui Bluetooth. Pengendalian lampu tidak akan bekerja jika smartphone android diluar jarak jangkauan pancaran bluetooth dari bluetooth module karena sambungan bluetooth akan terputus secara otomatis.
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12

B. Susa, Julie Ann. "Automatic Room Humidifier and Dehumidifier Controller using Arduino Uno." International Journal of Advanced Trends in Computer Science and Engineering 9, no. 2 (April 25, 2020): 2208–12. http://dx.doi.org/10.30534/ijatcse/2020/198922020.

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13

Khair, Ummul, Yuyun Dwi Lestari, Adidtya Perdana, and Arief Budiman. "CCTV Camera Controller Simulation Using Arduino Uno and Joystick." Journal of Physics: Conference Series 1361 (November 2019): 012086. http://dx.doi.org/10.1088/1742-6596/1361/1/012086.

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14

Jogdand, Abhay. "Automatic Room Lights Controller Using Arduino and PIR Sensor." International Journal for Research in Applied Science and Engineering Technology 9, no. 8 (August 31, 2021): 1947–51. http://dx.doi.org/10.22214/ijraset.2021.37698.

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Abstract: Automatic room lights controller can be installed in which the room lights will turn on automatically upon detection of human motion and will stay tuned until the motion stops or the person has left the room. Such type of system can be implemented where we don’t require continuous light supply but only when a person is present. The common places where we can install the system are washrooms, bathrooms, office rooms, classrooms in schools and colleges, garages, etc. Also, using this controller system, we don’t need to worry about electricity as the room lights will switch off on their own when no person is present. A huge amount of energy and economy will also be saved . The main components of the Automatic Room Lights project are Arduino Uno, PIR Sensor and the Relay Module. Keywords: Arduino Uno, Lights, PIR sensor, Relay Module
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15

Asmaleni, Pensi, Dedy Hamdani, and Indra Sakti. "PENGEMBANGAN SISTEM KONTROL KIPAS ANGIN DAN LAMPU OTOMATIS BERBASIS SAKLAR SUARA MENGGUNAKAN ARDUINO UNO." Jurnal Kumparan Fisika 3, no. 1 (April 30, 2020): 59–66. http://dx.doi.org/10.33369/jkf.3.1.59-66.

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ABSTRAK Penelitian bertujuan untuk (1) menghasilkan rancangan sistem kontrol kipas angin dan lampu otomatis berbasis saklar suara menggunakan Arduino Uno (2) dan menghasilkan alat sistem kontrol kipas angin dan lampu otomatis berbasis saklar suara menggunakan Arduino Uno. Metode penelitian yang digunakan adalah Research and Development. Tahap pengembangan dalam penelitian ini meliputi perancangan, produksi dan evaluasi. Sistem kontrol kipas angin dan lampu otomatis berbasis saklar suara menggunakan Arduino Uno terdiri dari komponen-komponen elektronika seperti Bluetooth HC-05 sebagai koneksi antara smartphone android dengan Arduino Uno, relay sebagai pemutus arus listrik dan Arduino Uno sebagai sistem kontrol dari semua rangkaian. Jarak maksimum jangkauan Bluetooth HC-05 adalah 17 meter tanpa penghalang dan 7 meter dengan penghalang. Adapun hasil validasi isi dan teknis dalam penelitian ini menunjukan bahwa sistem kontrol kipas angin dan lampu otomatis berbasis saklar suara menggunakan Arduino Uno memperoleh persentase sebesar 82,5% sehingga dikategorikan baik. Berdasarkan data yang diperoleh dapat disimpulkan bahwa sistem kontrol kipas angin dan lampu otomatis berbasis saklar suara menggunakan Arduino Uno layak untuk digunakan sebagai pengontrol lampu berbasis suara. kata kunci: Bluetooth HC-05, relay empat channel, saklar suara, arduino uno. ABSTRACT This study aims to (1) produce a draft control system fan and lamp-based automatic voice switch using the Arduino Uno (2) and generate tool control system fan and lamp-based automatic voice switch using the Arduino Uno. The method was used the Research and Development. The development stage in this research included the design, production and evaluation. The control system and automatic headlights fan-based voice switch using the Arduino Uno consists of electronic components such as HC-05 Bluetooth as the connection between android smartphone with the Arduino Uno, relay as the electric circuit breaker and Arduino Uno as the control systems of all the series. The maximum distance of HC-05 Bluetooth range of 17 meters without obstructions and 7 meters to the barrier. As for the contents and technical validation results from the studied show that the control system fan and automatic light switch-based voice using Arduino Uno obtained a percentage of 82.5% and good category. Based on the data obtained can be concluded that the control system and automatic headlights fan-based voice switch using the Arduino Uno was eligible to be used as a voice-based lighting controller. Keywords: Bluetooth HC-05, four-channel relay, voice switch, Arduino Uno
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Sitompul, Budi Paul, Solikhun Solikhun, Widodo Saputra, Indra Gunawan, and Sumarno Sumarno. "Design and Build of Automatic Hand Sanitizer Using Arduino." Eduvest - Journal Of Universal Studies 1, no. 3 (March 15, 2021): 119–27. http://dx.doi.org/10.36418/edv.v1i3.27.

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An automatic handwashing deviceis a handwashing devicethat works automatically by utilizing an infrared sensor as a hand detector and using the Arduino Uno as the main controller. In this study, the authors discussed the design of an Automatic Handwashing Devicethat is placed on the hand-sanitizer faucet using the InfraRed sensor (detecting hand movements) based on Arduino Uno. This system includes the design of hardware (Hardware) and software (Software). Researchers use descriptive analysis techniques that are presented in table form. In this study, the authors conducted an analysis and design of the devices used to build the input and output processes including System Algorithms, Research Design, and Research Flowcharts. The results showed that the Hands Sanitizer deviceautomatically runs well and can be assembled using Arduino Uno microcontroller components and IR (Infrared) sensors. In making this program, the Arduino Uno application software is needed.
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17

Ompusunggu, Andry, Joseph Dedy Irawan, and Suryo Adi Wibowo. "IMPLEMENTASI SENSOR PIEZOELECTRIC SEBAGAI MIDI DRUM CONTROLLER BERBASIS ARDUINO UNO." JATI (Jurnal Mahasiswa Teknik Informatika) 4, no. 1 (May 19, 2020): 56–62. http://dx.doi.org/10.36040/jati.v4i1.2372.

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Penelitian ini bertujuan untuk .membuat alat MIDI Drum Controller menggunakan Sensor Piezoelectric dan menguji kelayakan untuk bermain Drum itu sendiri. Alat yang dikembangkan ini sebagai alternatif bagi pemula yang ingin bermain Drum dan penggunaan membuat musik terutama pada aspek digital. Piezoelectric adalah sebuah sensor yang dapat mendeteksi adanya getaran sehingga dapat membuat Dinamika pada saat memainkan Drum. Arduino digunakan sebagai penghubung antara sensor dengan aplikasi Drum yang mengerjakan bagaimana memproses sebuah bunyi ketika salah satu sensor ditekan. Hasil dari penelitian ini berupa alat Drum Pad untuk pemain Drum ataupun orang yang ingin belajar Drum berbasis Arduino menggunakan Midi sebagai format output yang digunakan. Alat ini dapat bekerja dengan baik, dilihat dari real time antara alat yang dimainkan dengan bunyi yang dihasilkan, serta Velocity sebagai keras-pelannya sebuah pukulan drum.
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18

Munadi, Munadi, R. Andhika Pandu, Rizky Wiradinata, Hari Peni Julianti, and Rudy Setiawan. "Model and prototype of mobile incubator using PID controller based on Arduino Uno." Jurnal Teknologi dan Sistem Komputer 8, no. 1 (January 24, 2020): 69–77. http://dx.doi.org/10.14710/jtsiskom.8.1.2020.69-77.

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One of the causes of the high infant mortality rate in Indonesia is the lack of health support facilities in remote areas, including incubators, to keep the baby's body warm at a specific temperature. This research develops a model and prototype of a mobile incubator to carry and maintain the baby's temperature during emergencies to get further treatment to hospitals that have better facilities than incomplete health clinic facilities. The mobile incubator prototype uses a PID controller system with the optimum gain value Kp 1.501, Ki 0.016, and Kd -1,319 from the results of modeling and tuning in Matlab. The results of the bode plot analysis show that system stability was achieved with a gain margin of 109 dB. The incubator's operational mobility can last up to 59.6 minutes with two 12 V, 5 Ah batteries.
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19

Ningtias, D. R., M. P. Sudarman, and I. T. Harsoyo. "RANCANG BANGUN BANTAL TERAPI BERBASIS ARDUINO." Elektrika 11, no. 2 (October 8, 2019): 26. http://dx.doi.org/10.26623/elektrika.v11i2.1706.

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<p><em>One form of physiotherapy is utilizing heat for recovery. Heat therapy can open blood vessels wider, thereby increasing blood flow and supply of oxygen and nutrients to reduce pain in joints, muscles, ligaments and injured tanks. To help health services in the field of physiotherapy the author modifies the therapeutic pillow with Arduino Uno and DS18B20 based as a temperature sensor, LCD as a temperature viewer and a timer and button that functions to choose how long it takes to do therapy. The design of therapeutic pillows is divided into two, namely hardware and software design, hardware design including power supply, a series of drivers and system scenarios. While the software design of this tool uses the Arduino and proteus applications as software. The result of the percentage error at the TP2 measurement is 0.02%. The measurement results on TP3 when the tool is off or off, then the circuit does not get a voltage while when the device is turned on or on the driver circuit gets a voltage of 1.4 Volt. After making the process of making, testing, testing tools and data collection, the author has succeeded in designing a heat therapy pillow using a temperature sensor and ARDUINO UNO based timer controller that can provide convenience when going to heat therapy because it is equipped with an automatically controlled temperature sensor and controller timer. by DS1820 temperature sensor. A therapeutic pillow based on Arduino with 10 minutes of therapy results in a </em><em>temperature of 41</em><em>°C.</em></p>
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Fahmi, Mohammad Irfan. "Sistem Keamanan Pintu Rumah Berbasis Android." Prosiding Seminar Nasional Riset Information Science (SENARIS) 1 (September 30, 2019): 1050. http://dx.doi.org/10.30645/senaris.v1i0.116.

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As an example of using the Arduino Uno microcontroller which is used as a door security system controller using a smartphone. Many types of security are offered and used, such as alarms that use sound as an indicator which is standard security from an alarm, this alarm sounds through a speaker (speaker) that is installed on a door that serves to provide information to homeowners and the surrounding environment that the alarm is active. In this study, using an Android smartphone as a tool to operate the door and activate the alarm automatically at the door. For the research that the authors make this will be different from the previous research. Where the tool designed using micro controller (Arduino Uno) is used to turn on the buzzer as a door alarm automatically and can open and close the door, which will be done on an Android smartphone using bluetooth media. Bluetooth is wireless communication that is used as a communication link between an Android smartphone and Arduino Uno.
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Erham, Eddy, Markus, Ary Surjanto, and Jaka Rukmana. "Design of a new PID controller based on Arduino Uno R3 with application to household refrigerator." MATEC Web of Conferences 154 (2018): 01044. http://dx.doi.org/10.1051/matecconf/201815401044.

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A refrigeration system to maintain a desired compartment temperature usually uses a thermostat as an on-off controller. In fact, the thermostat has some disadvantages. The main problem of system which is related to the thermostat is the biggest energy consumption in household appliances. In this paper, to solve the problem was designed a new PID controller based on an Arduino Uno R3 with application to a household refrigerator. In this case, the Arduino Uno was uploaded with PID controller algorithm. Then, in implementation to determine controller parameter values was defined new criteria. After that, to obtain the best refrigeration system performance was also proposed new performance criteria based on experimental data. The experimental results showed that the proposed control system was able to maintain the desired temperature with steady-state error of about 0.044°C. In addition, in steady state the control system for the refrigerator was able to the energy saving of about 30% and it almost did not depend on cooling load quantity.
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Meyliana, Henni. "Perancangan Dan Pembuatan Alat Pengontrol Lampu Menggunakan Internet Of Things (IOT) Berbasis Arduino Uno." Teknologi Rekayasa Jaringan Telekomunikasi (TRekRiTel) 1, no. 1 (April 23, 2021): 21–31. http://dx.doi.org/10.51510/trekritel.v1i1.397.

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The internet has also been attached to smartphones. Smartphone is a device capable of developing the Internet of Things (IoT). Smartphones function to connect to an internet network that is equipped with features in the form of sensors. In using IoT as a network infrastructure tool, it will be able to control and monitor a predetermined device in the form of an Arduino Uno. Arduino does not function as a microcontroller development that is connected to the internet, so that it can make it easier to use lights in everyday life. The open source operating system on an Android smartphone can be used as a material for designing a lamp controller using the internet of thins (IoT) based on Arduino Uno (Atmega328 microcontroller) and a relay as a switch. Therefore, in testing the tool using Arduino which has a time lag of 1 minute. For the use of the Arduino Uno program, a time delay of 5 seconds is also provided, while waiting for the serial command to move from one relay to another.
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23

Wirama, I. Made Adiswara, I. Made Aris Dharma Putra, I. Made Weda Maharta Putra, Anak Agung Ngurah Made Narottama, and Anak Agung Ngurah Gde Sapteka. "Kendali Kecepatan Motor Listrik Satu Phasa Berdasarkan Suhu Ruangan." TELKA - Telekomunikasi Elektronika Komputasi dan Kontrol 7, no. 1 (May 24, 2021): 21–28. http://dx.doi.org/10.15575/telka.v7n1.21-28.

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Sistem pengendalian suhu ruangan secara otomatis diyakini mampu memberikan penghematan tanpa mengurangi performansinya. Pengendalian suhu ruangan dilakukan dengan mengatur kecepatan putaran motor exhaust fan dengan SCR speed controller. Hal ini sangat diperlukan untuk menghemat pengeluaran listrik. Dalam mengkoneksikan antara sensor suhu dengan SCR speed controller diperlukan mikrokontroler Arduino Uno sebagai pengolah data keluaran dari sensor sehingga dapat mengendalikan speed controller 1 dengan keluaran tegangan 180 volt dan speed controller 2 dengan keluaran tegangan 200 volt. Alat ini cocok digunakan untuk mengatur suhu di ruangan tertutup agar selalu stabil. An automated room temperature control is a way to do savings without reducing its performance. The temperature control is done by adjusting the rotation speed of the exhaust fan motor using an SCR speed controller. This mechanism will give a great advantage on power usage reduction. To connect the temperature sensor with the SCR speed controller, an Arduino Uno microcontroller is used as a processor of the outputs from the sensor so it can control the 1st speed controller with 180 Volt and the 2nd speed controller with 200 Volt. This tool is suitable for maintaining the temperature of a closed room temperature.
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Ishak, Nurul Huda, Muhammad Naim Zainodin, Nur Ashida Salim, Faizal Muhamad Twon Tawi, and Aini Hafiza Mohd Saod. "A Design of an Automatic Single Phase Power Factor Controller by Using Arduino Uno Rev-3." Applied Mechanics and Materials 785 (August 2015): 419–23. http://dx.doi.org/10.4028/www.scientific.net/amm.785.419.

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This paper presents a computationally accurate technique to design an automatic single phase power factor controller by using microcontroller. The hardware implementation was developed by using Arduino Uno Rev-3 main board which uses the ATmega328 as the microcontroller. The power factor value from the load was measured by using voltage and current transformers, zero crossing detectors, and ATmega328 microcontroller. Zero crossing detectors produced current and voltage signals which will be measured and calculated for the time difference between both signals by ATmega328 microcontroller using appropriate algorithms in order to obtain value of power factor. The ATmega328 is programmed to automatically switch on and off capacitor function in order to control the signal pulse send to relay to connect and disconnect capacitor parallel with the load when energized and de energized if the calculated power factor value is either below 0.9 or above 0.9, respectively. Simulation of the power factor controller model was performed by using Proteus software. Arduino IDE software was used as the compiler for the Arduino Uno. The main objective is to study and develop the technology of automatic single phase power factor controller using Arduino Uno Rev-3 by controlling the power factor of the inductive load near to unity power factor. The results of the power factor value were displayed on the LCD and the power factor is corrected if it falls below 0.9 in order to prevent penalty by the power supplier. The effectiveness of the proposed technique could assist the monitoring unit in order to maintain the power factor at the value set by the utility.
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Suandi, Risal. "Penjemur Kerupuk Otomatis Menggunakan Sistem Kecerdasan Buatan Arduino Uno Dengan Menerapkan Metode Fuzzy Logic Controller (FLC)." JURIKOM (Jurnal Riset Komputer) 7, no. 2 (April 26, 2020): 235. http://dx.doi.org/10.30865/jurikom.v7i2.2099.

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Denang jangek cracker factory is a company located on the road denai Kota medan, this factory everyday produces jangek crackers, at the stage of production there is a stage of drying jangek crackers used manually, where crackers are placed outside the room exposed to the sun's heat at the drying stage . When the rainy season arrives this makes a lot of time taken up during the drying process because often it rains suddenly, then the crackers must be immediately put in or placed in a dry place not exposed to rain water. The FLC method is a method that is often used in making artificial intelligence systems that are applied to an Arduino uno microcontroller where the method only recognizes on or Off, 0 or 1, nothing is vague. From the description of the problem above, the writer makes an artificial intelligence system that is applied to a device, namely Arduino Uno, where the system thinks like humans, who can think like when it rains so that the tool will move or close crackers that are being dried in the sun so that it is not exposed to rain with using an FLC method applied to Arduino Uno
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Agus Salim, Alfi Tranggono, Fredy Susanto, Agil Ferdiano Wennas, Hageng Firdausi, Rudy Prasetya, Muhammad Aji Pangestu, Sebastian Yudith Prastiawan, and PUTRI NOVIA. "OTOMATISASI SAKLAR KENDARAAN BERMOTOR RODA 2 BERBASIS SISTEM SENSOR PENDETEKSI SUARA NIRKABEL SEBAGAI PENGGANTI SAKLAR KONVENSIONAL." Jurnal Energi dan Teknologi Manufaktur (JETM) 3, no. 01 (June 30, 2020): 1–4. http://dx.doi.org/10.33795/jetm.v3i01.44.

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This project aims to change the conventional ignition mechanism to beautomatic by utilizing the microcontroller-based technology. The driver startsthe engine using a smartphone microphone and bluetooth smartphone thentransmitted to the HC-06 bluetooth module that connected to the Arduino uno tomove the 5v relay module wirelessly The driver can start the engine by openingthe Arduino bluetooth voice controller application on the smartphone and thencommands the sound then sends a signal to the Arduino Uno to start the enginewithout using a conventional ignition key. Wireless communication between thesmartphone and the actuator on a motorized vehicle can function properly if usedwith a range of distances from 1 meter - 50 meters with the condition that thesensor has been applied to the vehicle
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Apen, Ajisman, Ker Shao Jiun, and Siti Nursyuhada Mahsahirun. "Fuzzy Logic Controller Implementation on Separately Excited DC-Motor." ICONIET PROCEEDING 2, no. 3 (February 13, 2019): 134–43. http://dx.doi.org/10.33555/iconiet.v2i3.25.

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Various industrial and domestic applications such as automotive, aerospace,appliances and many others are electrically driven. Conventional methods of motor control had failed to produce desired performance of DC-motor due the system parameters variation and load changes. The Fuzzy-Logic-controller is one of the controllers that can handle non-linear system. This project is aimed to control the speed of a separately-excited DC-motor using fuzzy logic control. The system is simulated on MATLAB-Simulink and implemented on ARDUINO Uno development board.
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K, Bhavani. "Automatic Room Light Controller Using PIR Sensor and Arduino." International Journal for Research in Applied Science and Engineering Technology 9, no. 8 (August 31, 2021): 2017–19. http://dx.doi.org/10.22214/ijraset.2021.37618.

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Abstract: The mainstay of the project “Automatic room light controller using PIR Sensor and Ardiuno” is the importance of seismological research around the globe is very clear. Where the lights in the room will automatically turn on upon detecting a human motion and stay turned on until the person has left or there is no motion. Initially, when there is no human movement, the PIR Sensor doesn’t detect any person and its OUT pin stays LOW. As the person enters the room, the change in infrared radiation in the room is detected by the PIR Sensor. It can be used to turn ON and OFF the lighting system of the home automatically by detecting the presence of humans. This in turn will make the Arduino to turn OFF the relay (make the relay pin HIGH) and the room light will be turned off quickly as per the time delays sets in the program. Keywords: Aurdino UNO, PIR sensor, Relay unit, room light
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Leksono, Eguh Budi, Amar Hanif, and Frida Agung Rakhmadi. "Manufacture and Characterization of Sensors for Optimizing the Detection of Water Contaminated by Sugar Mill Effluents in Waterways Around Sugar Mill." Proceeding International Conference on Science and Engineering 3 (April 30, 2020): 13–15. http://dx.doi.org/10.14421/icse.v3.459.

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Waste produced by sugar factories will affect the quality of water in the surrounding environment. The manufacture and characterization of sensors to optimize the detection of water contaminated by sugar mill effluents in waterways around sugar mills has been carried out. This study aims to create and characterize resistance sensors as an alternative tool to distinguish water polluted from sugar factory wastewater and clean water from sugar mill waste. The method used in this study is the Arduino UNO-based water resistance sensor method which is carried out in three stages, the first is the preparation of tools and materials, the second is data retrieval, and the third is data processing. This study uses a water resistance sensor, Arduino UNO as a controller, and also equipped with LED indicators. The results showed that the Arduino UNO-based water resistance sensor can be used as a tool to distinguish water contaminated by sugar mill waste and clean water from sugar mill waste.
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Hardianto, Roki. "MERAKIT SMART LAMP MENGGUNAKAN SMART CONTROL ARDUINO UNO." Dinamisia : Jurnal Pengabdian Kepada Masyarakat 3, no. 2 (January 21, 2020): 330–39. http://dx.doi.org/10.31849/dinamisia.v3i2.2846.

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Pengabdian dilaksanakan dengan metode ceramah dan tatap muka kepada siswa-siswi SMA PGRI Pekanbaru. Tema pengabdian adalah “Merakit Smart Lamp Menggunakan Smart Control Arduino Uno“. Tema ini di angkat karena sebagai membantu siswa mampu merakit lampu pintar menggunakan controller Arduino Uno selama belajar di sekolah maupun setelah lulus dari SMA dan melanjutkan keperguruan tinggi atau memulai usaha. Karena pelatihan ini bisa diterapkan dirumah, dunia usaha dan kegiatan lainnya. Konsep yang ingin diterapkan dari pelatihan ini adalah bagaimana dalam menghemat pemakaina listrik. Hal ini juga modal dalam menyonsong Revolusi Industri 4.0. Pelatihan dilakukan dengan metode tanya jawab dan evaluasi penguasaan materi. Kemudian setelah pelatihan ini diharapkan para siswa mempunyai kepahaman materi dalam bidang robotika meskipun bukan dari lulusan sekolah kejuruan. Karena pada masa sekarang di era Revolusi Industri 4.0 para lulusan sekolah menegah atas harus mampu bersaing dalam segala bidang. Karena semua bidang kehidupan sangat di pengaruh oleh teknologi salah satunya teknologi robotika. Setelah pelatihan SMA PGRI Pekanbaru mampu menerapkan teknologi robotika ini pada kegatan di sekolah. Karena ini wujud nyata bahwa SMA PGRI Pekanbaru siap menyonsong Revolusi Industri 4.0. Arduino digunakan sebagai otak dari system nyala lampu pijar otomatis dengan menggunakan perintah berdasarkan waktu. Lampu akan otomtis mati dan hidup dengan jeda waktu yang telah ditentukan berdasarkan waktu yang diinput pada program dalam arduino uno. Alat sangat membantu dalam proses penghematan pemakaian daya listrik. Adapun alat dan bahan yang dibutuhkan dalam project mematikan lampu menggunakan perintah suara, sebagai berikut : Arduino UNO, Relay 2 / 4 Channel, Lampu Pijar, Piting (Rumah Lampu), Kabel Jumper, White Board
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EdwinLawrance, M., C. Gobiya, V. Gowsalya, R. Masi, and R. M. Priyanka. "FLOOD GATE CONTROL USING ARDUINO UNO WITH GSM TECHNOLOGY (FLOOD GATE CONTROLLER)." Special Issue 5, Special Issue 1 (2019): 555–64. http://dx.doi.org/10.23883/ijrter.conf.20190322.071.3qcgf.

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Aifiayu, Aifiayu, and Ta'ali Ta'ali. "Sistem Monitoring dan Kontrol Motor AC dengan Fuzzy Logic Controller Berbasis Arduino Uno." JTEIN: Jurnal Teknik Elektro Indonesia 2, no. 1 (January 7, 2021): 1–5. http://dx.doi.org/10.24036/jtein.v2i1.102.

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Motor AC merupakan motor yang paling banyak digunakan pada industry saat sekarang ini, dikarenakan Motor AC mempunyai sifat yang fleksibel. Selain itu terdapat kekurangan pada Motor AC salah satunya yaitu pada saat Motor AC diberikan beban maka torsi pada Motor AC menjadi besar, hal tersebut dapat mengakibatkan kecepatan Motor AC menurun. Maka dari itu penelitian ini bertujuan untuk mengontrolan dan monitoring yang dapat mesntabilkan kecepatan saat Motor berbeban dengan method Fuzzy Logic Controller. Pada perancangan alat ini menggunakan softwere dan hardwere. Komponen hardwere yang digunakan ialah rangakaian power supply, Arduino Uno, sensor kecepatan, Gate Drive, Motor AC 1 Phasa dan softwere diantaranya softwere Arduino IDE yang berisi pemrograman bahasa C dalam mengatur kecepatan Motor AC 1 Phasa dan juga softwere Visual Basic untuk memeonitoring kecepatan Motor AC. penelitian ini telah berhasil dalam menstabilkan kecepatan putaran motor saat ditambahkan beban bervariasi.
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Sonawane, Mr Sunil S., Bhagyashree Kenchannvar, Kajal Kumbhar, and Pranjali Salunkhe. "Smart Traffic Light Control Using Image Processing." International Journal for Research in Applied Science and Engineering Technology 10, no. 3 (March 31, 2022): 1002–6. http://dx.doi.org/10.22214/ijraset.2022.40773.

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Abstract: Nowadays, holdup has become one in every of the foremost critical problem thanks to increasing population and automobiles in cities. Hold up causes delay and stress for drivers and increases pollution and carbonic acid gas emissions. The traffic controller is one in all the critical factors affecting the traffic flow. This paper proposes a control system supported image processing including video processing within which traffic signals change accordingly the density of traffic and it will make use of Arduino UNO board for Traffic Lights, Emergency Vehicles and Barrier. A video camera and traffic lights are interfaced with Arduino UNO. The video is processed and Arduino enables the traffic lights to vary when required. Along with this, barrier at zebra crossing and emergency vehicle passing are the best concept for today’s smart city. Keywords: Image Processing, Time, Signals, Emergency Vehicles, Barrier
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KRISTYADI, TARSISIUS, REZA ADITYA, and PRAMUDA NUGRAHA. "Pengembangan Governor Elektrik Berbasis Arduino sebagai Sistem Kontrol Turbin Air Screw." ELKOMIKA: Jurnal Teknik Energi Elektrik, Teknik Telekomunikasi, & Teknik Elektronika 8, no. 3 (August 27, 2020): 533. http://dx.doi.org/10.26760/elkomika.v8i3.533.

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ABSTRAKSuatu sistem PLTMH bertipe turbin screw telah direalisasikan di desa Ciherang, Banjaran Jawa Barat. Tetapi putaran turbin dan generator tidak dapat stabil, karena pembebanan pada generator selalu berubah-ubah. Oleh karena itu diperlukan sebuah sistem kontrol yang dapat menjaga putaran turbin pada kisaran 30 rpm dan putaran generator pada kisaran 1500 rpm. Pada paper ini dikaji pengembangan sistem kontrol turbin air tipe screw, menggunakan governor elektrik. Perangkat governor elektrik ini berbasis Arduino, yaitu Arduino Mega 2560 dan Arduino Uno yang dilengkapi sensor putaran, dan motor listrik sebagai aktuator yang menggerakkan sebuah pintu air untuk mengatur bukaan bucket. Arduino Mega 2560 berfungsi sebagai microcontroller sedangkan Arduino Uno berfungsi sebagai pengatur pembukaan pintu. Hasil pengujian system menunjukkan bahwa system dengan Arduino ini dapat mengatur putaran turbin dan generator sehingga mencapai 1500 rpm dengan toleransi 5%. Dengan demikian dapat disimpulkan bahwa governor elektrik berbasis Arduino dapat diterapkan pada pengaturan putaran turbin screw.Kata kunci: turbin screw, sistem kontrol,governor elektrik, arduino ABSTRACTA microhydro based on screw turbine type has been realized in Ciherang village, Banjaran, West Java. But operation of the turbine and generator are unstable, due to load fluctuation. The system need a control system that can keep the turbine rotation in the range of 30 rpm and the rotation of the generator in the range of 1500 rpm. In this paper study of the development of screw turbinecontrol system based on electric governor is presented. This electric governor is based on Arduino namely Arduino Mega 2560 dan Arduino Uno and equipped with a generator speed sensor send and electric motor as an actuator to adjust the opening of the bucket. The system test results show that the controller based on Arduino can adjust the turbine and generator rotation so that it reaches 1500 rpm with a tolerance of 5%. Thus it can be concluded that Arduino-based electrical governors can be applied to control screw turbine speed.Keywords: screw turbine, control system, digital governor, arduino
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Naibaho, Eko, and Takdir Tamba. "Utilization of Produced Heat in Motorcycle Exhaust as a Mobile Battery Charger Using Thermoelectric Seebeck Generator." Journal of Technomaterial Physics 3, no. 2 (August 31, 2021): 101–8. http://dx.doi.org/10.32734/jotp.v3i2.5570.

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Produced heat from motorcycle exhaust has been used to recharge cellphone batteries using a thermoelectric seebeck generator and program settings from the Arduino microcontroller. This tool consists of an LM 35 sensor that functions as a temperature reader, TEG as a heat converter to voltage, DC to DC Booster as a voltage controller, Arduino Uno as a data processor, LCD as a display. The software in this tool uses the Arduino IDE program. This tool is used to convert heat into voltage. The working principle of this system in general is that when the exhaust heat is removed, the controller will read the data from the LM 35 temperature sensor. After that the data will be processed by the microcontroller. After obtaining the processed data, the result data is then displayed on the LCD and the relay circuit will activate the system when the required voltage is appropriate
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36

Mujadin, Anwar, and Dwi Astharini. "Ball On Plate Balancing System Pada KIT Praktek PID Mata Kuliah Dasar Sistem Kendali." JURNAL Al-AZHAR INDONESIA SERI SAINS DAN TEKNOLOGI 3, no. 3 (December 20, 2017): 134. http://dx.doi.org/10.36722/sst.v3i3.218.

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<p><em>Abstrak – </em><strong>Ball on plate adalah sistem pengendalian cerdas untuk mengarahkan bola yang ada diatas plate sesuai dengan pola gerakan yang diinginkan tanpa menjatuhkan bola. Ball on plate ini digerakan oleh dua buah motor servo sebagai aktuator (keluaran) untuk menentukan posisi bola. Sedangkan kamera ditempatkan diatas plate sebagai sensor (masukan). Image yang ditangkap oleh kamera kemudian diolah oleh labview menjadi pixel posisi X dan Y. Kerjasama antar mikrokontroler Arduino Uno dan Labview membentuk sebuah pengendalaian close loop system. Pada tulisan ini akan dibahas parameter penting dalam menganalisa rise time, overshoot, settling time dan steady state error pada pengendalian sistem ball on plate menggunakan PID.</strong></p><p><strong><br /></strong></p><p><strong><em>Kata kunci </em></strong><em>- Arduino Uno R3 Ball on plate Controller,</em></p><p><em> </em></p><p><em>Abstract –</em> <strong>Ball on the plate is an intelligent control system to steer the ball over the plate that is in accordance with the desired pattern of movement without dropping the ball. Ball on plate is controlled by two servo motors as actuators (output) to determine the position of the ball. While the camera is placed on the plate as a sensor (input). Image captured by the camera and processed by labview to pixel positions X and Y. The cooperation among the microcontroller Arduino Uno and Labview configurate a close loop system. In this paper will discuss important parameter in analyzing the rise time, overshoot, settling time and steady state error in the control system using PID ball on the plate.</strong></p><p><strong><br /></strong></p><strong><em>Keywords</em></strong><em> – Arduino Uno R3 Ball on plate Controller </em>
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37

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 Arduino web server for various network controllers ENC28J60, W5100, W5500 for the Arduino IDE programming environment and UIPEthernet, Ethernet, Ethernet2 libraries was analyzed. It is shown that with the lowest speed the data is transmitted by the web server with the ENC28J60 controller - 3.3Kb/s, with the largest controller W5500 - 23.4Kbytes/s. It is noted that these servers do not support multithreaded work. Therefore, they can not be used to create miniature universal web servers for processing multiple requests simultaneously. The server considered in the work can serve only one request from one remote client. The speed parameters of data transfer for the server on the ATmega328p microcontroller (Arduino UNO) with the network controller ENC28J60 are analyzed. The server program is implemented in C language in the AVR Studio programming environment. A high data transfer rate of 140Kb/s and a possibility of multithreading are noted. It is established that with simultaneous transmission of three files to different clients, the total transmission speed reaches 120-130Kb/s, and for each client 40-50Kb/s. It is shown that the use of such a server to solve the problem of graphical representation of data from sensors is difficult due to the complexity of transferring software to other microcontrollers and the limited library for working with a microSD card. The operation of the server developed here for three years has shown high reliability of its operation. The paper discusses the creation of a web server on the Arduino, which is a modernized HTTP basic authentication. The upgrade consists in the fact that for authorization a password is used from the list of passwords that is selected by the user on the basis of the key sent by the server. With each new login to the server, the previous password becomes invalid. Presents a practical example of a web server on Arduino Mega, Ethernet controllers: enc28j60 and w5500.
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Dewi, Andriana Kusuma, Mokhammad Sholihul Hadi, and Syaiful Anwar. "Sistem Atap Rumah Otomatis pada Smarthome dengan Menggunakan Arduino." Jurnal Teknologi dan Sistem Komputer 5, no. 1 (January 30, 2017): 43. http://dx.doi.org/10.14710/jtsiskom.5.1.2017.43-48.

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Development of Smarthome system has many important contributions to make a comfortable house. One of the problems is how to keep the house comfortable without becoming moist and getting enough sunlight. In this study, the roof opening that can automatically provide the supply of sunlight using automated roof opener. Manual control of the tool is using smartphone application that communicates through a Bluetooth HC-05 module. This tool also uses an automatic controller with a raindrop sensor that automatically activated when the rain drops on the sensor panel. In addition, this system also integrates the automatic light-intensity sensor using LDR (Light Dependent Resistor). The result of whole system testing is automatic rooftop opener using Arduino Uno works perfectly as the design that the motor is able to be controlled by smartphone application using serial communication based on Bluetooth so that the rooftop can be opened and closed. Pembuka atap otomatis dikembangkan dengan mengunakan mikrokontroler Arduino uno. Kontrol manual dari alat ini dilakukan dengan menggunakan aplikasi smartphone yang secara otomatis dan serial berkomunikasi dengan modul bluetooth HC-05. Alat ini juga menggunakan pengendali otomatis dengan sensor rintik hujan yang diaktifkan secara otomatis bila tetes hujan menyentuh panel sensor. Selain itu, sistem ini juga mengintegrasikan sensor cahaya intensitas otomatis menggunakan LDR (Light Dependent Resistor). Hasil pengujian sistem secara keseluruhan adalah pembuka atap otomatis menggunakan uno Arduino bekerja sempurna sebagai perencanaan bahwa motor ini mampu dikontrol oleh aplikasi smarthome dengan mengunakan komunikasi bluetooth, sehingga atap dapat terbuka dan tertutup pada titik tertentu.
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Hazarah, Atikah. "RANCANG BANGUN SMART DOOR LOCK MENGGUNAKAN QR CODE DAN SOLENOID." Jurnal Teknologi Informasi dan Terapan 4, no. 1 (March 13, 2019): 5–10. http://dx.doi.org/10.25047/jtit.v4i1.14.

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Smart Door Lock is a development of home door lock or padlock conventional manual. This study aims to create an alternative technology at home by utilizing key technologies readily available. This study uses an Arduino Uno microcontroller as the brains of the solenoid, and Android as controller QR Code reader. QR Code reader on Android run using a third party application that is Barcode Scanner. Arduino programming is done using the Arduino IDE. Bluetooth HC 05 is used to connect a barcode scanner app on Android with Arduino. Testing tool is run on Jelly Bean Android platform and the hardware and software components can be run properly. The results of the studies described in the form perncangan home door lock tool automatically uses the QR Code with Barcode Scanner app and Arduino as a control solenoid.
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Wicaksono, Mochamad Hanif Dwi, and Widi Aribowo. "Pengendalian Motor DC Menggunakan Arduino Uno Pada Rancang Bangun Electrostatic Precipitator." INAJEEE Indonesian Journal of Electrical and Eletronics Engineering 2, no. 2 (August 30, 2019): 63. http://dx.doi.org/10.26740/inajeee.v2n2.p29-33.

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Pada penelitian ini, penggerak hammer pada plat collecting elektrode menggunakan mikrocontroller ardiuino uno sebagai penggerak motor DC. Tujuan dari penelitian ini adalah untuk menghasilkan pengendalian motor DC menggunakan Arduino uno pada rancang bangun electrostatic precipitator untuk pengendapan debu limbah industri. Prinsip kerja dari alat ini ketika saklar rangkaian control di on kan EC Centrifugal Fan akan bekerja selama 40 detik, kecepatan EC Centrifugal Fan dapat diatur dengan cara memutar potensio meter yang ada pada ruang controller. setelah 40 detik EC Centrifugal Fan akan mati dan motor hammer akan bekerja selama 20 detik untuk merontokan debuh yang menempel pada plat CE.
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41

Edbert, Bill, and Faisal Wahab. "Analisis perbandingan nilai ukur sensor load cell antara PLC Delta dengan Arduino Uno." JITEL (Jurnal Ilmiah Telekomunikasi, Elektronika, dan Listrik Tenaga) 2, no. 1 (March 30, 2022): 75–84. http://dx.doi.org/10.35313/jitel.v2.i1.2022.75-84.

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Pembacaan nilai ukur dari sensor load cell dapat dilakukan secara digital menggunakan perangkat pengendali seperti Programmable Logic Controller (PLC), Arduino, Raspberry, dan lainnya. Hasil nilai ukur antara sensor load cell pada timbangan digital dan nilai ukur pada timbangan konvensional atau manual terkadang memiliki perbedaan yang sangat signifikan diantara keduanya. Oleh karena itu, pada penelitian ini akan dilakukan pengukuran sensor load cell menggunakan dua macam perangkat pengendali sebagai pembaca nilai sensor dan mengkonversinya menjadi satuan massa gram. Pengujian dilakukan dengan memberi masukan sebuah massa dengan kelipatan 200 gram yang memiliki jangkauan dari nol gram sampai dengan dua kilogram sesuai dengan karakteristik dari sensor load cell. Tujuan dilakukan pengujian ini adalah untuk menentukan perangkat yang memiliki akurasi dan presisi lebih baik dalam membaca sensor load cell dengan spesifikasi yang sama. Proses pengukuran sebuah massa menggunakan sensor load cell dilakukan menggunakan kontroler PLC Delta DVP202-LC dengan perangkat lunak LCSoft untuk proses kalibrasi dan kontroler Arduino Uno menggunakan bahasa pemrograman C. Berdasarkan hasil pengujian yang telah dilakukan menunjukkan bahwa hasil ukur sebuah massa pada menggunakan PLC memiliki rata-rata nilai galat -0,56% dan Arduino Uno memiliki galat -0,09%. Dari hasil pengujian ini, dapat disimpulkan kedua sistem bekerja dengan baik sesuai dengan karakteristik dan spesifikasi sensor serta Arduino Uno memiliki galat lebih kecil dibandingkan dengan PLC.
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Rosyady, Phisca Aditya, Dinan Yulianto, and Fathiyyah Warsino. "IoT-based Home Water Monitoring using Arduino." Mobile and Forensics 3, no. 2 (September 30, 2021): 75–84. http://dx.doi.org/10.12928/mf.v3i2.5517.

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There are many problems related to water in Indonesia, ranging from floods to water crises. One of the things we can do is manage water consumption so that we can use water effectively and wisely. The problem of excessive anggd unwise water use can be overcome by water consumption management.. In this study, a water consumption management system incc the household is created, which includes monitoring and control so that we can monitor and control it and also have a history of daily water use. The system will be made using Arduino Uno as controller and will be displayed on the LCD and the website. Based on research, the following conclusions were obtained: Successfully implemented IoT based home water monitoring using Arduino, Successfully designed a tool for water tank management based on Arduino Uno, the results obtained by the tool can detect when the water is full, and the water pump turns off automatically so that the water does not fill again and the tank will not be full. The average error of this system is 6.16 %. The bigger volume will make the error value decrease.
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Rosyady, Phisca Aditya, Dinan Yulianto, and Fathiyyah Warsino. "IoT-based Home Water Monitoring using Arduino." Mobile and Forensics 3, no. 2 (September 30, 2021): 75–84. http://dx.doi.org/10.12928/mf.v3i2.5517.

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There are many problems related to water in Indonesia, ranging from floods to water crises. One of the things we can do is manage water consumption so that we can use water effectively and wisely. The problem of excessive anggd unwise water use can be overcome by water consumption management.. In this study, a water consumption management system incc the household is created, which includes monitoring and control so that we can monitor and control it and also have a history of daily water use. The system will be made using Arduino Uno as controller and will be displayed on the LCD and the website. Based on research, the following conclusions were obtained: Successfully implemented IoT based home water monitoring using Arduino, Successfully designed a tool for water tank management based on Arduino Uno, the results obtained by the tool can detect when the water is full, and the water pump turns off automatically so that the water does not fill again and the tank will not be full. The average error of this system is 6.16 %. The bigger volume will make the error value decrease.
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44

Rosyady, Phisca Aditya, Dinan Yulianto, and Fathiyyah Warsino. "IoT-based Home Water Monitoring using Arduino." Mobile and Forensics 3, no. 2 (September 30, 2021): 75–84. http://dx.doi.org/10.12928/mf.v3i2.5517.

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Abstract:
There are many problems related to water in Indonesia, ranging from floods to water crises. One of the things we can do is manage water consumption so that we can use water effectively and wisely. The problem of excessive anggd unwise water use can be overcome by water consumption management.. In this study, a water consumption management system incc the household is created, which includes monitoring and control so that we can monitor and control it and also have a history of daily water use. The system will be made using Arduino Uno as controller and will be displayed on the LCD and the website. Based on research, the following conclusions were obtained: Successfully implemented IoT based home water monitoring using Arduino, Successfully designed a tool for water tank management based on Arduino Uno, the results obtained by the tool can detect when the water is full, and the water pump turns off automatically so that the water does not fill again and the tank will not be full. The average error of this system is 6.16 %. The bigger volume will make the error value decrease.
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45

Ganggalia, Nurul Isna, Apri Junaidi, and Fahrudin Mukti Wibowo. "Prototype Alat Pengendali Lampu dengan Perintah Suara menggunakan Arduino Uno Berbasis Web." Jurnal RESTI (Rekayasa Sistem dan Teknologi Informasi) 3, no. 3 (December 9, 2019): 389–94. http://dx.doi.org/10.29207/resti.v3i3.1124.

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The use of electric power for lights often less considered, a lot of lights are on continuously even though it's not used. As a result, a lot of electricity is wasted. This motivated researchers to create innovations of creating a light control system. The light controller system is designed to simplify and benefit the user. For this reason, researchers make light controllers on the web use voice commands that can be done anywhere and anytime using the internet. Making a prototype of a light control system with voice commands utilizes speech to text on the Web Speech API that converts sound into text, then it will be processed into a command of light controllers by the Arduino Uno microcontroller. The researcher used the prototype development method, where through 3 stages starting from Listen to Customer, Design and Building, and Test Drive Evaluations. The testing results are Internet speed and noise level affect the success rate on the use of light control using sound. At 9.9 Mbps internet speed has a success rate of 86% with response time 2.01 second, while at internet speed 1.9 Mbps has a success rate of 65% with response time 2.50 second. At the noise level of 34.5 dB room has a success rate of 86% with response time 2.02 second, while the noise level of 62 dB has a success rate of 72% with response time 2.21 second.
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Nanda, Rehandra Igo, and Edidas Edidas. "PERANCANGAN PROTOTYPE SISTEM PENDETEKSI KONDISI TELUR DAN BERAT BERBASIS MIKROKONTROLER ARDUINO UNO." Voteteknika (Vocational Teknik Elektronika dan Informatika) 7, no. 3 (July 10, 2019): 67. http://dx.doi.org/10.24036/voteteknika.v7i3.105160.

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The purpose of this research can facilitate the sorting of chicken eggs by the breeder automatically so as not to cause negligence in sorting chicken eggs, this tool is made to facilitate human work in the livestock industry, namely in the process of sorting chicken eggs. The process of designing and manufacturing systems have several stages, namely system design, hardware design, software design, and physical design. The results of the design and manufacture of this egg condition detection system can work by using the Arduino Uno microcontroller as the controller. This tool uses the LDR sensor to function as a detector of the intensity of light from the egg, then the ultrasonic sensor will detect the eggs that pass, then the eggs will be calculated by using the Load Cell sensor. Eggs will be separated based on conditions that have been detected by the LDR sensor and Arduino gives commands to the servo motor to separate good eggs and bad eggs, then automatically Arduino will send data to the LCD to display. From the results of this research that this tool can separate which eggs are good and eggs are bad.Keywords: Arduino UNO, Sensor LDR, LED, Load Cell, Servo Motor, LCD
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Patil, Sahana. "Smart Toll Collection System based on Arduino UNO Controller & ESP8266 Node MCU." International Journal for Research in Applied Science and Engineering Technology 8, no. 7 (July 31, 2020): 718–21. http://dx.doi.org/10.22214/ijraset.2020.30330.

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48

Thedsakhulwong, A., and P. Hernmek. "Development of the low-cost hot plate temperature controller using Arduino Uno R3." Journal of Physics: Conference Series 1144 (December 2018): 012169. http://dx.doi.org/10.1088/1742-6596/1144/1/012169.

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49

Rumalutur, Sonny, and Alimuddin Mappa. "TEMPERATURE AND HUMIDITY MOISTURE MONITORING SYSTEM WITH ARDUINO R3 AND DHT 11." Electro Luceat 5, no. 2 (November 11, 2019): 40–47. http://dx.doi.org/10.32531/jelekn.v5i2.154.

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This study discusses how to design an AC (Air Conditioner) system that can work based on the temperature and humidity of the room that is regulated by a system that uses Arduino UNO as a controller. Meanwhile, to measure the temperature and humidity of the room temperature by using a DHT sensor 11. PWM (Pluse Widht Modulation) signal from the microcontroller is used to set the relay driver so that the AC (air conditioner) can be on in accordance with the programmed with Arduino uno. AC (air conditioner) will be on as long as the temperature is still above 220C and will be off if the temperature has passed 220C and the duration of AC (air conditioner) on and off is determined by the temperature and humidity in the room.
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Kahana, Lidor, Daniel Rozban, Moshe Gihasi, Amir Abramovich, Yitzhak Yitzhaky, and Natan Kopeika. "Inexpensive Millimeter-Wave Communication Channel Using Glow Discharge Detector and Satellite Dish Antenna." Electronics 9, no. 4 (April 21, 2020): 677. http://dx.doi.org/10.3390/electronics9040677.

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A full proof of concept for low-cost millimeter wave (MMW) communication link is demonstrated in this study. The suggested MMW channel is based on a very inexpensive commercially available off-axis dish antenna usually used for TV satellites, two Arduino Uno micro controller boards, and glow discharge detectors (GDD). The GDD is a robust and inexpensive room-temperature plasma device which was found to be a sensitive MMW radiation detector. The Arduino micro controllers are used to encode a text message into serial bits and also decode it. Those serial bits were used to modulate the MMW radiation in On-Off keying. The detection of MMW radiation was performed using a simple and inexpensive GDD. The suggested MMW channel can be used as point to point backhaul wireless communication for the 5th generation of cellular communication.
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