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Journal articles on the topic 'Smartphone; Arduino'

Author: Grafiati
Published: 2 June 2025
Last updated: 31 July 2025

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1

Panulisan, Bambang Setyo, Rizki Fajar Akmal, Wiwien Suzanti, et al. "Pengendali Robot dengan Mikrokontroler Arduino Berbasis Smartphone Android." JURNAL KRIDATAMA SAINS DAN TEKNOLOGI 5, no. 02 (2023): 421–32. http://dx.doi.org/10.53863/kst.v5i02.937.

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The rapid development of technology has given rise to automatic robots controlled by wireless technology. Many electronic devices are used as automatic controllers. This robot, produced in the electronics field, has had a rapid impact in the industrial sector. In this research, Arduino Uno is used as a microcontroller to control robots with Android smartphones. Control is carried out using a Bluetooth connection. The use of Android smartphones makes it easier for the general public if the results of this research are applied because many people have Android smartphones. Apart from being easy t
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2

Saefullah, Asep, Mochamad Ibnu Safari, and Handri Samanta. "PROTOTIPE PERANGKAT NOTIFIKASI UNTUK SMARTPHONE BERBASIS ARDUINO PRO MICRO." CCIT Journal 8, no. 3 (2015): 223–32. http://dx.doi.org/10.33050/ccit.v8i3.349.

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The widespread use of smartphones in all societies make increasing demands of smartphone accessories tools for ease of its use in everyday life. As if the user is in public, attending a meeting, or are driving a motor vehicle. Apart from the rapid use of smartphone technology on society, there is also the technology in the field of microcontroller that can be said to be rapid development in people's daily life, namely that a module arduino microcontroller. Therefore, we need a microcontroller-based devices that can help the user to display the condition of smartphones such as the presence of i
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Karakotsou, Christina, and Ilias Zafiriadis. "Teaching uniform linear motion using an Arduino sensor and a smartphone device." Physics Education 58, no. 2 (2023): 025013. http://dx.doi.org/10.1088/1361-6552/acace2.

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Abstract In this work, we designed and implemented an Arduino-based experiment to study one-dimensional uniform linear motion. The position of a small vehicle running at a constant velocity in one dimension, is measured using an ultrasonic sensor. A Bluetooth module connected to an Arduino board is paired with a smartphone, where data are acquired and position vs time curves of the vehicle are plotted on the smartphone’s screen. Students can share the experimental data via their smartphones and study uniform linear motion through guided experiments. The educational experience of the classroom
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R.B., Bharathi, VijayaLaxmi VijayaLaxmi, and Shashank Bhat. "Designing a Prototype for Smartphone Footage Stabilization." International journal of electrical and computer engineering systems 15, no. 9 (2024): 795–801. http://dx.doi.org/10.32985/ijeces.15.9.7.

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Hardware stabilizers are on high demand due to the increasing use of media capture devices such as smartphones and portable cameras in market. Hence an effort is made to develop a stabilizer prototype with Inertial measurement Unit (MPU 6050 sensor), arduino Uno microcontroller and servo motor. Using existing libraries of arduino, a code is developed to read the position of the smartphone by the sensor and is fed to arduino microcontroller. The microcontroller generates an appropriate PWM signal based on the output of sensor and sends it to two servo motors to nullify the effect of jitter prod
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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 (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 us
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Sanjaya, Handika, Nelly Khairani Daulay, and Refdi Andri. "Lampu Otomatis Berbasic Arduino Uno Menggunakan SmartPhone Android." JURIKOM (Jurnal Riset Komputer) 8, no. 6 (2021): 226. http://dx.doi.org/10.30865/jurikom.v8i6.3709.

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The rapid development of technology today encourages human mindset to be more innovative and creative. Many people are competing to create the latest inventions that can help and facilitate human work in everyday activities. Automatic light control system as a lighting tool is important to be discussed. ARDUINO UNO based automatic lamp system is made using an Android smartphone in its control system. This tool aims to make it easier for humans in the use of automatic lights, using voice commands through smartphones and more effective and efficient without having to turn on and turn off the lig
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Bouquet, F., G. Creutzer, D. Dorsel, J. Vince, and J. Bobroff. "Enhance your smartphone with a Bluetooth arduino nano board." Physics Education 57, no. 1 (2021): 015015. http://dx.doi.org/10.1088/1361-6552/ac35af.

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Abstract Using smartphones in experimental physics teaching offers many advantages in terms of engagement, pedagogy and flexibility. But it presents drawbacks such as possibly endangering the device and also facing the heterogeneity of available sensors on different smartphones. We present a low-cost alternative that preserves the advantages of smartphones: using a microcontroller equipped with a large variety of sensors that transmits data to a smartphone using a Bluetooth low-energy protocol. This device can be lent to students with little risk and used to perform a wide range of experiments
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Afandi, Achmad Haris, Putri Anbar Ghalia, Kistiani Kistiani, Indri Rahma Sari, and Sri Aswaidar Miza. "Rancang Bangun alat pembuka pintu portal berbasis arduino menggunakan smartphone." Navigation Physics : Journal of Physics Education 1, no. 1 (2020): 27–31. http://dx.doi.org/10.30998/npjpe.v1i1.194.

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This study aims to design a prototype Arduino-based portal door controller system device using a smartphone. The making of the tool is done as one of the efforts in advancing technology to provide convenience and comfort through the development of an automated system in the home in the form of automatic portal doors using smartphones. The components used for system design are Arduino REV3 microcontroller module, USB 2.0 type A / B cable (Arduino USB cable), SG90 9g servo motor, red and green LEDs, 220Ω resistor, mini protoboard, connecting cable, jumper cable, and bluetooth module HC06, Powerb
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Suparmin, Yuliarman Saragih, Patia Welly Sirait, Puji Waluyo, and Suroyo. "PERANCANGAN SISTEM KENDALI OTOMATIS SMART HOME BERBASIS ANDROID MENGGUNAKAN TEKNOLOGI WIFI (ESP32) DAN ARDUINO UNO." Jurnal Teknovasi 9, no. 02 (2020): 45–54. http://dx.doi.org/10.55445/jt.v9i02.43.

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The rapid development of technology and the high level of human innovation have led to the emergence of sophisticated technology products, one of which is Arduino, a microcontroller system that has been integrated with various electronic modules and using C ++ programming language, automatic smarthome control system, is one of the technological advancements in the field mechanics and electronics both digital and analog, by integrating smartphones as a remote to turn on and turn off certain electrical equipment by using Arduino as main control, and Esp 32 as a link between smartphone and Arduin
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10

Rahmadayanti, Fitria. "Aplikasi Android Lampu Led Berbasis Arduino." Jurnal Ilmiah Betrik 7, no. 03 (2016): 114–27. http://dx.doi.org/10.36050/betrik.v7i03.82.

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Technology development and application of tools, machines, materials and processes that help humans solve the problem. With the development of this technology to encourage people to bring new ideas to simplify all activities of daily living. Controlling the house lights for example. To control house lights manually can take a lot of time in operation. With advances in technology can be built a lighting control system using android smartphone. Type mobile phone (cell phone) smartphone category are much in demand by the public for kecanggihanya. Most smartphones have operating systems based on A
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Kusumo, Bayu. "Rancang Bangun Pengendali Jarak Jauh Panel Listrik Rumah Berbasis Mikrokontroler Arduino Uno R3 Menggunakan Smartphone Android dengan Komunikasi Bluetooth 3.0." JURNAL KRIDATAMA SAINS DAN TEKNOLOGI 5, no. 02 (2023): 448–72. http://dx.doi.org/10.53863/kst.v5i02.957.

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The home electrical panel is a device that functions to divide electricity from the power source to the loads installed in the house. The operation of the Electrical Panel which is usually done directly by raising and lowering the Mini Circuit Breaker (MCB), then in making this Home Electrical Panel can be operated and controlled remotely without wires (remote). The principle of making this remote controller is the flow of electricity before the MCB is added, switching uses a relay that can be turned on or off by a controller based on the Arduino Uno R3 microcontroller and using an Android sma
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Widiyanto, Andi, and Nuryanto Nuryanto. "Rancang Bangun Mobil Remote Control Android dengan Arduino." Creative Information Technology Journal 3, no. 1 (2016): 50. http://dx.doi.org/10.24076/citec.2015v3i1.65.

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Peralatan elektronik hampir tidak dapat lepas dari kehidupan manusia untuk meningkatkan kemudahan dan kenyamanan dalam pemenuhan kebutuhannya. Aktifitas sehari-hari banyak dilakukan melalui smartphone sebagai alat yang hampir selalu dalam genggaman. Saat ini banyak alat elektronik yang dikendalikan hanya dengan menekan tombol remote. Perkembangan teknologi microcontroller seperti Arduino dapat diintegrasikan dengan alat yang lain, bukan hanya dengan robot saja. Penelitian ini membuat smartphone terhubung dengan mikrokontroler arduino yang digunakan sebagai pengendali alat elektronik. Obyek yan
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13

Nuqsyahbandi, Nuqsyahbandi, Faisal Irsan Pasaribu, Budhi Santri Kusuma, et al. "Desain Sistem Kontrol Jarak Jauh Pintu Pagar Melalui Internet of Things." sudo Jurnal Teknik Informatika 3, no. 2 (2024): 70–75. http://dx.doi.org/10.56211/sudo.v3i2.507.

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Peran majunya teknologi semakin pesat pada era digital saat ini. Internet of things adalah alat yang memungkinkan segala hal di segala kegiatan menjadi lebih mudah dan menghubungkan orang dari jarak jauh ke dekat. untuk mengetahui tentang perancangan sistem rumah pintar yang berfokus pada kontrol untuk membuka dan menutup pintu menggunakan Internet of Things (IoT) ini dalam bentuk prototipe. Konstruksi ini menggunakan arduino uno sebagai pusat kontrol untuk mengontrol proses membuka dan menutup pagar, serta untuk menghubungkan arduino uno ke internet melalui nodemcu esp8266. Thingspeak berfung
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14

Bharambe, Priyansh Keshav, and Garima Goswami. "4WD Smartphone Controlled Arduino ROBO CAR." INROADS- An International Journal of Jaipur National University 7, no. 1and2 (2018): 39. http://dx.doi.org/10.5958/2277-4912.2018.00030.9.

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15

Nugroho, Herry Setyo, and Tole Sutikno. "Fire Extinguisher Wheel Robot Based on Arduino Mega 2560 R3 with Android Smartphone Control." Buletin Ilmiah Sarjana Teknik Elektro 3, no. 1 (2021): 31. http://dx.doi.org/10.12928/biste.v3i1.1760.

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The development of technology in the smartphone sector is currently developing very rapidly which results in smartphones becoming one of the primary needs. Judging from the ability of a smartphone that is able to run various applications, one of which is to use it as a control tool. Through this research, a fire extinguisher wheeled robot prototype will be built with the control of an Android smartphone based on the Arduino Mega 2560 via Bluetooth wireless communication. The results showed that the robot can function properly controlled via an Android smartphone with a maximum distance of 10 m
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Jayanti, Ratna Dwi, Sigit Setyowibowo, and Dinny Wahyu Widarti. "Kunci Otomatis Berbasis Internet of Things dengan Mikrokontroler NodeMCU." Jurnal Teknologi Informasi 11, no. 1 (2023): 28–32. http://dx.doi.org/10.36382/jti-tki.v11i1.487.

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Penguncian rumah pada umumnya menggunakan gembok konvensional atau gembok besi yang harus mempunyai kunci fisik untuk dapat membuka atau menutup gemboknya. Kunci konvensional mempunyai kelemahan antara lain mudah rusak dan jika kunci fisik hilang maka gembok tidak dapat dibuka dan jika lupa mengunci akan memberikan akses kejahatan. Penerapan teknologi elektronik sebagai salah satu solusi dinilai paling relevan untuk diterapkan. Salah satu kunci elektronik yang dapat diaplikasikan adalah kunci solenoid yang merupakan gabungan antara kunci dan solenoid yang biasa digunakan dalam elektronisasi su
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Febriani, Anita. "Prototype Robot Mobil Pemotong Rumput Menggunakan Mikrokontroler Arduino Uno Dengan Android." INTECOMS: Journal of Information Technology and Computer Science 7, no. 5 (2024): 1744–49. http://dx.doi.org/10.31539/intecoms.v7i5.12531.

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Memotong rumput di pekarangan rumah menggunakan mesin pemotong rumput manual dimana mesin pemotong rumput manual memerlukan banyak waktu dan tenaga dalam kegiatan memotong rumput. Untuk mempermudah dalam kegiatan memotong rumput maka dibuatlah suatu sistem prototype robot mobil pemotong rumput menggunakan mikrokontroler arduino uno dengan android. Keseluruhan alat ini dibagi menjadi beberapa bagian yaitu terdiri atas smartphone android, mikrokontroler arduino uno, modul bluetooth, driver motor, dan motor dc. Alat ini bekerja saat aplikasi di smartphone menyambungkan koneksi ke modul bluetooth,
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Alfarazy, Muhammad Rizky, and Peristi Peristi. "Rancang Bangun Smart Car Bluetooth Berbasis Arduino." Jurnal Gemilang Informatika (GIT) 1, no. 1 (2024): 21–24. http://dx.doi.org/10.58369/git.v1i1.89.

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Peralatan elektronik hampir tidak dapat lepas dari kehidupan manusia untuk meningkatkan kemudahan dan kenyamanan dalam pemenuhan kebutuhannya. Aktifitas seharihari banyak dilakukan melalui smartphone sebagai alat yang hampir selalu dalam genggaman. Saat ini banyak alat elektronik yang dikendalikan hanya dengan menekan tombol remote. Perkembangan teknologi microcontroller seperti Arduino dapat diintegrasikan dengan alat yang lain, bukan hanya dengan robot saja. Penelitian ini membuat smartphone terhubung dengan arduino yang digunakan sebagai control smart car. Obyek yang digunakan adalah mobil
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Isnandar, Muhammad Fawwaz Dynoeputra, Barlian Henryranu Prasetio, and Mochammad Hannats Hanafi Ichsan. "Sistem Monitoring Gelombang Osilometrik Menggunakan Arduino dan Smartphone." Jurnal Teknologi Informasi dan Ilmu Komputer 9, no. 7 (2022): 1333. http://dx.doi.org/10.25126/jtiik.2022976728.

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<p>Tekanan darah terjadi ketika arteri pembuluh darah dipompa oleh jantung ke seluruh tubuh. Ada dua elemen penting yang dipertimbangkan untuk mengukur tekanan darah, yaitu sistolik dan diastolik. Sistolik adalah nilai tekanan darah ketika otot-otot di jantung mendorong darah dari jantung itu sendiri ke dinding arteri. Sedangkan diastolik adalah nilai tekanan darah pada saat otot-otot ventrikel jantung dalam keadaan istirahat. Di era modern, pengukuran tekanan darah menggunakan sinyal listrik dari sensor dan dianalisis untuk mengetahui kesehatan organ tubuh. Namun dalam praktiknya, siste
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Meshram, Kashish, Kshitij Meshram, Ratnesh Mekhe, Yashashri Meshram, Aashay Meshram, and Yogita Narule. "Home Automation Using Arduino." International Journal for Research in Applied Science and Engineering Technology 10, no. 12 (2022): 948–51. http://dx.doi.org/10.22214/ijraset.2022.47912.

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Abstract: Technology is a never-ending process. In this project we have developed a low cost but flexible and secure smartphonebased Home Automation System This project aim is to develop and design a home automation system using Arduino with Bluetoothmodule. The communication between the smartphone and the Arduino board is wireless. Password protectionis also used nowadays to allow authorized users from accessing the appliances at home. Home Automation system using the latest and new technology provides more convenience, security and safety. Nowadays, people have less time to handle any work s
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Cardozo, Leandro Farias, and Alex Franco Ferreira. "AUTOMAÇÃO RESIDENCIAL COM ARDUINO." Revista Ibero-Americana de Humanidades, Ciências e Educação 9, no. 2 (2023): 622–34. http://dx.doi.org/10.51891/rease.v9i2.8522.

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A automação residencial busca aplicar tecnologias existentes para apresentar meios mais eficientes de facilitar tarefas que antes eram efetuadas de forma estritamente manual. Este artigo apresenta conceitos para a automação residencial utilizando o Arduino, a interação Wireless e o próprio Android, para simular uma forma de deixar uma casa automatizada, sem que seu proprietário precise fazer esforços para algumas atividades, e tudo poderá ser controlado pelo seu próprio dispositivo móvel, como por exemplo seu smartphone, tudo ao toque de sua mão. Mostrando que a tecnologia do Arduino pode ser
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Nasution, Nurdiana Syari, Jhonson Efendi, and Sudarmin Sudarmin. "Pemanfaatan Smartphone Sebagai Sistem Kendali Pada Kendaraan Bermotor Berbasis Mikrokontroler Arduino Uno." JUTSI (Jurnal Teknologi dan Sistem Informasi) 1, no. 1 (2021): 9–18. http://dx.doi.org/10.33330/jutsi.v1i1.1008.

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Abstrak : Pada perancangan ini akan dibuat sebuah sistem kendali jarak jauh berupa Smartphone Android dengan menggunakan media transmisi Bluetooth dan mikrokontroler Arduino Uno. Tujuan dari alat komunikasi yang dirancang untuk melihat bagaimana pengontrolan mobil listrik yang menggunakan Smartphone melalui media Bluetooth dapat bekerja. Teknik data menggunakan observasi (observasi) dan studi pustaka (Riset Perpustakaan). Sedangkan teknik pengolahan data menggunakan penyusunan alat dan bahan serta perancangan sistem perangkat keras dan perangkat lunak.Hasil penelitian menunjukkan bahwa sesuai
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Agus Salim, Alfi Tranggono, Fredy Susanto, Agil Ferdiano Wennas, et al. "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 (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
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Chen, Huai-Yi, Hwa-Ming Nieh, and Shih-Wei Ko. "Acceleration Measurement Using Arduino and a Smartphone for the Motion of Objects on an Inclined Plane." Physics Teacher 60, no. 5 (2022): 351–54. http://dx.doi.org/10.1119/5.0038831.

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In conventional physics teaching, acceleration measurement is demonstrated using motion sensors and carts on inclined tracks, and relevant data are collected using specific professional software. This approach entails the connection of computers and interface boxes, and requires high cost and large space. Air-track carts can be used to perform these experiments to reduce the errors caused by track friction; however, this approach has various disadvantages, including a large-size track and an air blower connecting to the track. In recent years, Arduino microcontrollers have gradually served as
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Sukendar, Toni, Ahmad Ishaq, and Mohammad Ikhsan Saputro. "Penggunaan Bluetooth Android Berbasis Arduino Uno Dalam Mengendalikan Lampu Rumah." Jurnal Teknologi Informatika dan Komputer 7, no. 1 (2021): 134–45. http://dx.doi.org/10.37012/jtik.v7i1.490.

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Dalam era globalisasi sekarang ini, perkembangan teknologi saat ini sangat bermanfaat bagi kehidupan banyak orang. Semua aspek kehidupan dapat memanfaatkan teknologi sesuai dengan bidang yang dibutuhkan, termasuk kendali rumah. Pada kehidupan manusia sehari-hari tidak pernah lepas dari penerangan lampu listrik. Untuk menyalakan dan mematikan lampu listrik biasanya manusia menggunakan saklar manual. Penggunaan saklar manual dianggap kurang efektif karena memerlukan tenaga manusia untuk mengatur dan memantau lampu pada setiap ruangan. Melihat kurang efektifitas pada saklar manual ini maka diranc
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Subianto, Mochamad, Oesman Hendra Kelana, and Hendra Setia Ligawan. "Rancang Bangung Sistem Cerdas Suara Untuk Pengendalian Keamanan Kendaraan Bermotor Roda Dua." SMATIKA JURNAL 8, no. 01 (2018): 23–30. http://dx.doi.org/10.32664/smatika.v8i01.196.

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Perkembangan jumlah kendaraan bermotor roda dua di Indonesia berkembang sangat cepat. Kendaraan bermotor roda dua mengalami peningkatan 5-8 juta unit setiap tahunnya. Selain kendaraan bermotor, jumlah pengguna smartphone Android juga mengalami perkembangan yang sangat tinggi. Di Indonesia sendiri, sebesar 21,11% pengguna smartphone menggunakan Android. Meningkatnya jumlah kendaraan bermotor roda dua juga diikuti dengan tingkat kriminalitas yang tinggi, sehingga perlu dirancang sistem cerdas suara untuk pengendalian keamanan kendaraan bermotor roda dua dengan menggunakan Android dan Arduino.Sis
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Hardianto, Roki, and Chandra Kusuma. "Rancang Bangun Smart Lamp Menggunakan Micro Controller Arduino UNO." ZONAsi: Jurnal Sistem Informasi 1, no. 1 (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 di
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Afiq, Muhammad, and Ariman Ariman. "PERANCANGAN SISTEM START & PENGAMAN SEPEDA MOTOR VIA SMARTPHONE (ANDROID) BERBASIS ARDUINO NANO." SINUSOIDA 20, no. 3 (2018): 1–13. http://dx.doi.org/10.37277/s.v20i3.783.

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Sepeda motor dan smartphone merupakan 2 barang yang penggunaannya semakin banyak dan mencakup banyak kalangan, namun penggabungan 2 teknologi ini jarang dilakukan oleh produsen sepeda motor dan smartphone. Semakin banyaknya penggunaan sepeda motor berbanding lurus dengan angka pencurian sepeda motor yang juga semakin tinggi, pencurian tidak hanya terjadi ketika kendaraan dalam keadaan parkir juga pada saat kendaraan sedang digunakan (perampasan kendaraan dengan kekerasan/begal). Guna menghindari pencurian dan perampasan sepeda motor maka perlu dibuat sistem pengaman yang sekaligus dapat mengon
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Lee, Seungjun, Hyunwook Jun, and Beongku An. "Locker Management System using Smartphone and Arduino." Journal of the Institute of Internet Broadcasting and Communication 16, no. 1 (2016): 89–95. http://dx.doi.org/10.7236/jiibc.2016.16.1.89.

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Arifin, Tri Nur, Ganjar Febriyani Pratiwi, and Syaeful Ilman. "ANALISIS JARAK MAKSIMAL JY-MCU BLUETOOTH." Jurnal Ilmiah Multidisiplin 2, no. 04 (2023): 189–91. http://dx.doi.org/10.56127/jukim.v2i04.884.

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Bluetooth dapat kita terapkan sebagai pengirim data atau informasi dan juga bisa digunakan untuk media transmisi sistem kontrol/kendali untuk jarak yang tidak begitu jauh hanya kisaran beberapa meter saja. Banyak modul Bluetooth yang tersebar di masyarakat saat ini, yaitu salah satunya modul Bluetooth JY-MCU. Modul ini dapat dikombinasikan dengan modul Mikrokontroller Arduino. Penelitian ini memiliki tujuan untuk mengetahui maksimal jarak yang efektif dalam melakukan komunikasi antara modul Bluetooth JY-MCU dengan Smartphone Android. Komunikasi yang dilakukan, yaitu komunikasi mengirim dan men
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VELUMANI, R. G., YOGASRINIVASAN YOGASRINIVASAN, M. VIJAYSEKAR, et al. "Development of an AI-Powered Virtual Personal Assistant for Smart Homes." INTERANTIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 09, no. 03 (2025): 1–9. https://doi.org/10.55041/ijsrem43142.

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This Arduino-based home-automated system uses Bluetooth and an Android app with voice commands. The system strives to develop user-friendly and convenient automated appliance control. We used an Arduino ATMEGA328 microcontroller board, a Bluetooth module (HC-06), and an Android app. We wrote the Arduino in C using the IDE to control any connected component. Switching uses relays and trunks. A Google voice assistant incorporated into the Android smartphone may be used to operate the home-automated system's electrical appliances when the system is linked. The Android software, Bluetooth module,
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32

Tanto, Tanto, and Darmuji Darmuji. "Penerapan Internet of Things (IoT) Pada Alat Monitoring Energi Listrik." Jurnal Elektronika Listrik dan Teknologi Informasi Terapan 1, no. 1 (2020): 45. http://dx.doi.org/10.37338/e.v1i1.99.

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Tujuan penelitian ini adalah untuk memonitoring konsumsi energi listrik rumah tangga yang berbasis arduino, esp dan android, yang bisa di monitoring melalui smartphone sehingga tidak terjadinya biaya yang melonjak ketika pembayaran listrik setiap bulan. Sampel pengujian ini adalah pemakaian lampu 5 watt, untuk melihat jumlah watt yang dipakai dan pengeluaran biaya pada saat pemakaian dengan sistem monitoring pada telepon pintar (smartphone) yang sudah dilengkapi dengan aplikasi yang terkoneksi melalui sistem arduino menggunakan modul ESP8266 sebagai pengirim data sehingga kita bisa memonitor m
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Putri, Rahmi Riya, and Wildian Wildian. "Rancang Bangun Detektor Sinyal Radio Frequency Smartphone dengan Frekuensi Operator GSM1800." Jurnal Fisika Unand 9, no. 4 (2021): 538–44. http://dx.doi.org/10.25077/jfu.9.4.538-544.2020.

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Telah dilakukan rancang bangun detektor sederhana yang mengubah energi gelombang radio (radio frequency) dari sinyal smartphone menjadi energi listrik. Rancangan detektor sinyal radio frequency terdiri dari rangkaian LC, IC LM386 dan Arduino Uno. Smartphone yang dihidupkan akan memancarkan gelombang radio yang akan melewati antena. Gelombang radio akan menginduksi tegangan ke antena dan akan mengubahnya menjadi energi lisrik. Pengolahan data dilakukan dengan menggunakan mikrokontroler Arduino Uno yang mengontrol LED dan buzzer sebagai indikator peringatan terdeteksinya sinyal radio frequency.
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Effendy, Dava Saputra, Faizal Bisri, and Dedi Usman Effendy. "KENDALI MOTOR 3 FASA PUTAR KANAN KIRI BERBASIS SMARTPHONE ANDROID." Conference on Innovation and Application of Science and Technology (CIASTECH) 6, no. 1 (2023): 803. http://dx.doi.org/10.31328/ciastech.v6i1.5380.

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Tujuan dari pelaksanaan Penelitian ini adalah: Melakukan rancang bangun Kendali Motor 3 Fasa Putar Kanan-Kiri Menggunakan smartphone dengan bantuan komponen Arduino Uno dan Modul Bluetooth HC-06, Mengetahui cara kerja Kendali Motor 3 Fasa Putar Kanan-Kiri Menggunakan Arduino Uno dan Modul Bluetooth HC-06. Kendali Motor 3 Fasa Putar Kanan-Kiri Menggunakan Arduino Uno dan Modul Bluetooth HC-06 ini merupakan alat yang dapat mengatur arah putaran motor induksi 3 fasa yakni putar kanan ataupun kiri menggunakan smartphone Android. Proses pembuatan Kendali Motor 3 Fasa Putar Kanan-Kiri Menggunakan Ar
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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 mak
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Yaqdhan, Mahmood Hussain, O. Hanoosh H., Zakaria Z., et al. "Smartphone's off grid communication network by using Arduino microcontroller and microstrip antenna." TELKOMNIKA (Telecommunication, Computing, Electronics and Control) 19, no. 4 (2021): 1100–1106. https://doi.org/10.12928/telkomnika.v19i4.15949.

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After a major disaster, the present communication system fails in providing the services in the affected area. No means of communication proves to be more dangerous as the rescue and relief operations become more difficult. Our current research is about establishing a network in such a disaster-prone area, which would facilitate to communicate and carry out the rescue missions. This research project used Java to create a fire-chat application and used it with the smartphone android system. It used Bluetooth model HC-05 linked with Arduino UNO by the SPI interface to connect Arduino with the sm
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Nandkumar, Kotkar Shreya. "Voice Control Robotic Car." INTERNATIONAL JOURNAL OF SCIENTIFIC RESEARCH IN ENGINEERING AND MANAGEMENT 09, no. 05 (2025): 1–9. https://doi.org/10.55041/ijsrem47394.

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Abstract: This project aims to design and implement a voice-controlled robot car using an Arduino microcontroller. The robot car is controlled through voice commands via a smartphone app. providing a hands-free, intuitive driving experience. The system integrates an Arduino board with a Bluetooth module (HC-05) for communication, a motor driver (L298N) for controlling the motors, and a smartphone app with voice-to-text functionality. The user issues commands such as "forward," "backward," "left," "right," or "stop," which are processed by the smartphone app. These commands are sent to the Ardu
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Sembiring, Arnes, and M. Rizky Pahlepy Lubis. "Prototype Buka Tutup Pintu Berbasis Arduino Uno Dan Android." Jurnal Teknologi dan Ilmu Komputer Prima (JUTIKOMP) 1, no. 1 (2018): 77–84. http://dx.doi.org/10.34012/jutikomp.v1i1.329.

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Pada prinsipnya tujuan penciptaan robot adalah untuk mempermudah kegiatan manusia bahkan menggantikan peran manusia dalam suatu fungsi tertentu, salah satunya yaitu dalam hal membuka dan menutup pintu rumah. Salah satu usaha untuk memberikan kemudahan dan kenyamanan bagi manusia tersebut adalah melalui pengembangan sistem otomasi pada rumah yang dapat membuka dan menutup pintu secara otomatis. Robot ini dirancang dengan sebuah perangkat pengaman pada pintu bebasis Arduino Uno. Alat ini berisi rangkaian mikrokontroler seperti Arduino uno, motor servo, bluetooth dan satu buah smartphone. Alat pe
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Ibrahim, Usman Isah, Henry Ohize, Usman Aaze Umar, and Yusuf Aliyu. "Design and Construction of Voice Controlled Home Automation using Arduino." ABUAD Journal of Engineering Research and Development (AJERD) 7, no. 1 (2024): 144–52. http://dx.doi.org/10.53982/ajerd.2024.0701.14-j.

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System automation has been widely researched in the twenty-first century due to its essential role in daily life. The fundamental advantage of an automated system is its ability to reduce human stress and minimize errors. Over the past few years, there has been a swift shift from traditional switches to switches equipped with remote controls. Currently, the presence of conventional wall switches distributed around the house poses challenges in terms of use, especially for individuals who are elderly or have physical disabilities. Due to technological advancements, mobile smartphones are now af
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Noor, Agustian, Oky Rahmanto, and Muhammad Yahya. "PERANCANGAN WIRELESS STARTER KENDARAAN BERMOTOR BERBASIS ARDUINO." Jurnal Informatika dan Rekayasa Elektronik 6, no. 2 (2023): 228–37. http://dx.doi.org/10.36595/jire.v6i2.959.

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Di era sekarang ini pertumbuhan kendaraan bermotor sangat pesat terutama sepeda motor yang penggunanya hampir mencapai 152 juta. Dari sisi kualitas dan teknologi kendaraan pun berkembang seperti fitur smart key yaitu suatu sistem di mana tidak diperlukan lagi kunci konvensional untuk menyalakan sepeda motor tetapi menggunakan Smartphone dan Remote dan bisa terhubung secara nirkabel. Hal tersebut dibuktikan dengan semakin bertambahnya penemuan-penemuan yang canggih dan modern seperti wireless charging, smart home, dan lain lain, Salah satu kelebihan yang luar biasa dari wireless adalah bisa dis
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Moh muthohir, Laksamana Rajendra Haidar, and Husamuddin Islami. "SISTEM PENGENDALIAN LAMPU BERBASIS ARDUINO MENGGUNAKAN BLUETOOTH PADA SMARTPHONE ANDROID DI RUMAH QUR’AN AL-FATAH." Elkom : Jurnal Elektronika dan Komputer 11, no. 2 (2018): 56–62. http://dx.doi.org/10.51903/elkom.v11i2.219.

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The purpose of this research is to produce tangible results in providing comfort or convenience in turning on or off the night life at home everyday, especially for people who forget to turn off the lights. The method used in making microcontroller-based home lighting control using an android smartphone is. This research method consists of several stages, analysis methods, design methods, implementation testing methods, and maintenance. The results achieved are improving the aspects of comfort and convenience for agencies, where this series of tools works after bluetooth devices are available
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Pambudi, Arif Setyo, Septi Andryana, and Aris Gunaryati. "Rancang Bangun Penyiraman Tanaman Pintar Menggunakan Smartphone dan Mikrokontroler Arduino Berbasis Internet of Thing." JURNAL MEDIA INFORMATIKA BUDIDARMA 4, no. 2 (2020): 250. http://dx.doi.org/10.30865/mib.v4i2.1913.

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Everyday busy making plant owners leave their plants, this causes their plants to wither or die, in this study aims to build a smart watering system for plants using the Blynk smartphone application that has been integrated with the Arduino Uno R3 mikrocontroller because it is connected through software Arduino IDE program input to run as desired an which is equipped with a Relay 5V tool deliver voltage, and Aquarium Pumps so that water can flow to plants. Then for Thingspeak it self, it useful to display the moisture value in the soil that will be displayed on the web that has been connected
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Sutikno, Tole, Moh Ainur Faqih Ubaidillah, Watra Arsadiando, and Hendril Satrian Purnama. "Fingerprint based smart door lock system using Arduino and smartphone application." Computer Science and Information Technologies 5, no. 1 (2024): 85–92. http://dx.doi.org/10.11591/csit.v5i1.pp85-92.

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In 2023, crime cases in Indonesia will reach 105,133. Cases of theft with aggravation dominate the majority of cases. Everyone is concerned about safety, but doors are typically opened and closed using physical keys. This is vulnerable to being tampered with with fake keys, which can lead to house break-ins and theft. In this research, we propose a fingerprint-based wireless door lock design using Arduino and a smartphone. We offer this solution as a preventive measure to reduce the high rate of theft in homes or other buildings. The devices used are Arduino UNO R3, fingerprint sensor, HC-05 B
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Sutikno, Tole, Moh Ainur Faqih Ubaidillah, Watra Arsadiando, and Hendril Satrian Purnama. "Fingerprint based smart door lock system using Arduino and smartphone application." Computer Science and Information Technologies 5, no. 1 (2024): 85–92. http://dx.doi.org/10.11591/csit.v5i1.p85-92.

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In 2023, crime cases in Indonesia reached 105,133. Cases of theft with aggravation dominate the majority of cases. Everyone is concerned about safety, but doors are typically opened and closed using physical keys. This is vulnerable to being tampered with with fake keys, which can lead to house break-ins and theft. In this research, we propose a fingerprint-based wireless door lock design using Arduino and a smartphone. We offer this solution as a preventive measure to reduce the high rate of theft in homes or other buildings. The devices used are Arduino UNO R3, fingerprint sensor, HC-05 Blue
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Sutikno, Tole, Moh Ainur Faqih Ubaidillah, Watra Arsadiando, and Hendril Satrian Purnama. "Fingerprint based smart door lock system using Arduino and smartphone application." Computer Science and Information Technologies 5, no. 1 (2024): 91–98. http://dx.doi.org/10.11591/csit.v5i1.p91-98.

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In 2023, crime cases in Indonesia reached 105,133. Cases of theft with aggravation dominate the majority of cases. Everyone is concerned about safety, but doors are typically opened and closed using physical keys. This is vulnerable to being tampered with with fake keys, which can lead to house break-ins and theft. In this research, we propose a fingerprint-based wireless door lock design using Arduino and a smartphone. We offer this solution as a preventive measure to reduce the high rate of theft in homes or other buildings. The devices used are Arduino UNO R3, fingerprint sensor, HC-05 Blue
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46

Sutikno, Tole, Moh Ainur Faqih Ubaidillah, Watra Arsadiando, and Hendril Satrian Purnama. "Fingerprint based smart door lock system using Arduino and smartphone application." Computer Science and Information Technologies 5, no. 1 (2024): 91–98. http://dx.doi.org/10.11591/csit.v5i1.pp91-98.

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In 2023, crime cases in Indonesia will reach 105,133. Cases of theft with aggravation dominate the majority of cases. Everyone is concerned about safety, but doors are typically opened and closed using physical keys. This is vulnerable to being tampered with with fake keys, which can lead to house break-ins and theft. In this research, we propose a fingerprint-based wireless door lock design using Arduino and a smartphone. We offer this solution as a preventive measure to reduce the high rate of theft in homes or other buildings. The devices used are Arduino UNO R3, fingerprint sensor, HC-05 B
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47

Sutikno, Tole, Ubaidillah Moh Ainur Faqih, Watra Arsadiando, and Purnama Hendril Satrian. "Fingerprint based smart door lock system using Arduino and smartphone application." Computer Science and Information Technologies 5, no. 1 (2024): 85–92. https://doi.org/10.11591/csit.v5i1.pp85-92.

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In 2023, crime cases in Indonesia will reach 105,133. Cases of theft with aggravation dominate the majority of cases. Everyone is concerned about safety, but doors are typically opened and closed using physical keys. This is vulnerable to being tampered with with fake keys, which can lead to house break-ins and theft. In this research, we propose a fingerprint-based wireless door lock design using Arduino and a smartphone. We offer this solution as a preventive measure to reduce the high rate of theft in homes or other buildings. The devices used are Arduino UNO R3, fingerprint sensor, HC-05 B
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48

Arifin, Jaenal. "Sistem Kendali Pintu Perangkat Telekomunikasi Menggunakan Smartphone." Journal of Telecommunication, Electronics, and Control Engineering (JTECE) 2, no. 1 (2020): 16–23. http://dx.doi.org/10.20895/jtece.v2i1.108.

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Saat ini smartphone menjadi salah satu kebutuhan yang tidak bisa dipisahkan dari berbagai aktivitas manusia. Terutama smartphone sekarang dengan fiturnya yang dapat berfungsi menggantikan fungsi kunci fisik atau secara manual. Hal tersebut dapat meningkatkan keamanan dalam mengunci ruangan maupun perangkat telekomunikasi. Perangkat MSAN merupakan perangkat telekomunikasi yang dapat mengoptimalkan media akses pada sistem transmisi serat optik. Dalam sistem kendali ini digunakan modul bluetooh HC-05 sebagai media komunikasi untuk melakukan pengendalian jarak jauh dalam membuka pintu melalui apli
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Utama, Hadian Satria, Jullio Setiawan, and Pono Budi Mardjoko. "Sistem Kontrol Pintu Pagar Rumah Berbasis Arduino dengan Koneksi Nirkabel Bluetooth pada Smartphone Android." TESLA: Jurnal Teknik Elektro 21, no. 2 (2020): 135. http://dx.doi.org/10.24912/tesla.v21i2.7184.

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The gate of the house has a very important role in everyday life, especially as a house with the road limits. The gate used in Indonesia on average has a work method pushed or pulled to close or open. To ease the burden of users, then built a remote gate control system. Control of the gate can be done using an Android smartphone as the interface. By using Bluetooth connections and programs on Android smartphones, users can simply control open or close the gate with just a touch. The designed gate can also be locked using an electric lock, so Android smartphone users can lock and unlock the fen
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Syelly, Rosda, Intan Hati, Indra Laksmana, and Syamsyida Rozi. "Model Konseptual Sistem Irigasi Padi Sawah Otomatis Menggunakan Arduino Berbasis Android." Progresif: Jurnal Ilmiah Komputer 17, no. 2 (2021): 51. http://dx.doi.org/10.35889/progresif.v17i2.647.

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<p><strong><em>ABSTRACT</em></strong></p><p><em>Availability of water is a major factor in determining cropping patterns in irrigated rice fields. This study aims to develop a microcontroller-based automation concept that can later be applied to ensure the availability of irrigation water needed for plants. Th</em><em>e application designed was</em><em> an automatic irrigation system of paddy rice using a water pump irrigation method. This system consists of an Arduino as a data processor, Bluetooth, a smartphone and a wat
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