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Journal articles on the topic 'SDP and Arduino interface'

Author: Grafiati
Published: 4 June 2021
Last updated: 13 February 2022

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1

Ng, David. "Wearable smart device incorporating real-time clock module and alcohol sensor." KnE Engineering 2, no. 2 (February 9, 2017): 328. http://dx.doi.org/10.18502/keg.v2i2.633.

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<p>In this work, we designed and built a wearable device with battery-saving and alcohol-sensing functions. The motivation for this device was to deliver a proof-of-concept wearable and functional device which alerts the user of possible alcohol breath level above a threshold limit and can be worn for an extended time due to battery saving features. It was built using a combination of Arduino electronics and sensors, and encased in 3D-printed ABS bracelet. A 4-digit 7-segment LED display on board is used to display time which is tracked using a real-time clock module. A 3-axis accelerometer determines the orientation of the device and activates the display only when it is held in a specific orientation by the user. An example is when two axes are normal to the gravitational pull while a single axis is in line with gravity to simulate users raising their arm parallel to the ground. A slight tolerance in the setting ensures that the threshold for activation is not overly strict. This will ensure that the LED display is activated over a narrow range of orientations. The alcohol sensor is sensitive to alcohol content in the air. The threshold for detection can be changed and calibrated to the user specific needs. The alcohol sensor is slightly sensitive to humidity and very sensitive to alcohol. It has been tested with ethanol, wine and beer with 95%, 12.5% and 4.55% alcohol content, respectively. Because the alcohol sensor works by using a resistor that continuously pulls current and detects changes in resistivity due to adsorption of alcohol molecules, it consumes a lot of power when turned on continuously. In order to conserve power, the sensor can be activated only when the device is oriented in a specific position or when the user pushes a button. An Arduino Nano board is used to reduce the overall size of the device. It is powered using an external 5V battery via a mini-USB connector. In order to reduce the number of IO pins used, the RTC, LED and accelerometer were configured to use I2C interface connections. A default SCL clock speed of 100 kHz is used and the component IOs are connected to a common SDA line which terminates at one analog pin. In normal operation, the RTC is configured to read time continuously at one second interval. It is preprogramed with the correct date and time prior to operation of the device.</p>
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2

Deowanshi, Ashutosh. "Arduino Based 3D Touchless Interface." IJARCCE 8, no. 3 (March 30, 2019): 29–35. http://dx.doi.org/10.17148/ijarcce.2019.8306.

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3

Baskoro, Farid, Miftahur Rohman, and Aristyawan Putra Nurdiansyah. "SERIAL PERIPHERAL INTERFACE (SPI) COMMUNICATION APPLICATION AS OUTPUT PIN EXPANSION IN ARDUINO UNO." INAJEEE Indonesian Journal of Electrical and Eletronics Engineering 3, no. 2 (August 28, 2020): 63. http://dx.doi.org/10.26740/inajeee.v3n2.p63-69.

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Serial Peripheral Interface (SPI) is a synchronous serial communication whose data or signal transmission involves Chip Select (CS) or Slave Select (SS) pins, Serial Clock (SCK), Master Out Slave In (MOSI), and Master In Slave Out (MISO). In the Arduino Uno, there are four pins that allow Arduino Uno to perform SPI communication. In this research, SPI communication is implemented to expand the output of the Arduino Uno by using the features of the MCP23S17 IC so that the Arduino Uno, which initially has 20 output pins, can expand to 36 output pins.The results of the research show that the Arduino Uno manages to control 36 output pins. 16 output pins from the MCP23S17, 16 output pins from the Arduino Uno, and 4 pins are used for the SPI communication line. The results of this study also show the form of the SPI communication signal from Arduino Uno in declaring 21 registers on MCP23S17, declaring the MCP23S17 pin register as output, and implementing the output using LEDs.
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Gautam, Abhinav, Kumar Kinjalk, Amitesh Kumar, and Vishnu Priye. "FBG-Based Respiration Rate Sensing With Arduino Interface." IEEE Sensors Journal 20, no. 16 (August 15, 2020): 9209–17. http://dx.doi.org/10.1109/jsen.2020.2989004.

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Abdullah, Ade Gafar, and Agung Pramudiantoro Putra. "Water Level Measurement Altitude Trainer Integrated With Human Machine Interface." Indonesian Journal of Science and Technology 2, no. 2 (September 1, 2017): 197. http://dx.doi.org/10.17509/ijost.v2i2.8019.

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This research aims to design a trainer simulator wake height of the water level measurement using microcontroller arduino mega integrated with Human Machine Interface (HMI). This tool is designed to describe a working system of water level elevation measurements as a learning medium HMI. By using a microcontroller arduino mega, all processes in both input and output can be integrated to the HMI using a 7-inch LCD screen.
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6

Rusimamto, P. W., Endryansyah Endryansyah, L. Anifah, R. Harimurti, and Y. Anistyasari. "Implementation of arduino pro mini and ESP32 cam for temperature monitoring on automatic thermogun IoT-based." Indonesian Journal of Electrical Engineering and Computer Science 23, no. 3 (September 1, 2021): 1366. http://dx.doi.org/10.11591/ijeecs.v23.i3.pp1366-1375.

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The purpose of this research is to monitor the temperature by applying arduino pro mini and ESP32 cam using IoT technology which is connected to a web interface. Arduino is used as the main brain of the system where arduino will read data from the MLX90614-ACF temperature sensor. Sensor data will continue to be sent to the server by arduino via the ESP32 cam module. This tool can also take pictures and send images automatically at the same time when measuring temperature. The captured image will automatically be sent to the PC/laptop monitor screen via the website. The website is used to display and monitor the results of temperature measurement data and display the image results from the ESP32 cam. The process of taking photos and measuring body temperature is done automatically. Users can also view data from sensors and photo data sent by arduino and ESP32 cam via the provided web interface. From the test results, this system has been running well where all sensor data is sent and can be displayed on the website. Images and measurement data results are sent to the monitor screen via the website interface with a measurement accuracy of 99.6%.
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7

Zulkifli, Shamsul Aizam, Mohd Razali Tomari, Mohd Najib Hussin, Abdul Salam Saad, Mohd Khairul Akli Ab Ghani, Farih Deraman, Nawi Berahim, and Abdul Hadi Abdullah. "Application of Robust Control on Arduino Microcontroller Testing in Power Electronics Converters." Applied Mechanics and Materials 785 (August 2015): 172–76. http://dx.doi.org/10.4028/www.scientific.net/amm.785.172.

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This paper presents the capability of Arduino for responding to the robust controller which has been applied to the 3 phase rectifier and 3 phase inverter. The interface between the converters and the Arduino has been established by using MATLAB-Simulink environment. This is the fastest interface due the Arduino library that is available in the MATLAB which can be used before downloading the program to the board. Two types of controllers have been tested which are, P-Resonant and Fuzzy-PI controller. The voltage or current feedback mechanism also has been applied between the converters with the Arduino input port in order for responding to the design controller for signal generating pattern. At the end, it shows that, the Arduino is capable to receive the signals from the converters, process the signals in the board and generating the signal out for controlling the converters.
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Setyawibawa, Ika, and Arief Goeritno. "Communication Interface Adapter Berbasis Mikrokontroler Arduino Terkendali Sinyal Dual Tone Multi Frequency." ELKHA 11, no. 1 (April 4, 2019): 19. http://dx.doi.org/10.26418/elkha.v11i1.30374.

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Telah dipabrikasi sebuah communication interface adapter berbasis mikrokontroler Arduino UNO R3 dan MEGA2560 R3 terkendali sinyal dual tone multi frequency dalam wujud dua modul elektronika sebagai gateway. Pabrikasi dilakukan melalui tahapan integrasi terhadap perangkat keras dan subsistem pendukung, pemrograman, dan uji verifikasi berupa simulasi. Arduino UNO R3 digunakan pada modul gateway ke-1, sedangkan Arduino MEGA2560 R3 digunakan pada modul gateway ke-2. Pemrograman terhadap sistem mikrokontroler dilakukan melalui 5 (lima) tahapan algoritma, yaitu konfigurasi pin, deklarasi variable dan konstanta, ambil dan kirim data, dan keluaran. Bahasa pemrograman didasarkan kepada Arduino Integrated Developtment Enviroenment (IDE). Uji verifikasi dilakukan dalam bentuk simulasi. Diperoleh hasil simulasi terhadap 6 (enam) kondisi, yaitu a) simulasi terhadap rangkaian deteksi dering, b) simulasi terhadap rangkaian Voice Operated Transmit (VOX), c) simulasi rangkaian off hook modul pesawat telepon, d) simulasi imulasi terhadap rangkaian tone decoder, e) simulasi dial up nomor telepon melalui tombol DTMF dan rangkaian IC switching, dan f) simulasi terhadap rangkaian perekam dan penyimpan suara, berupa (i) perekaman suara dan (ii) pemutaran kembali suara.
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9

Journal, Baghdad Science. "Human Computer Interface for Wheelchair Movement." Baghdad Science Journal 14, no. 2 (June 4, 2017): 437–47. http://dx.doi.org/10.21123/bsj.14.2.437-447.

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This paper aims to develop a technique for helping disabled people elderly with physical disability, such as those who are unable to move hands and cannot speak howover, by using a computer vision; real time video and interaction between human and computer where these combinations provide a promising solution to assist the disabled people. The main objective of the work is to design a project as a wheelchair which contains two wheel drives. This project is based on real time video for detecting and tracking human face. The proposed design is multi speed based on pulse width modulation(PWM), technique. This project is a fast response to detect and track face direction with four operations movement (left, right, forward and stop). These operations are based on a code written in MATLAB environment and Arduino IDE environment. The proposed system uses an ATmega328microcontroller (Arduino UNO board).
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10

Serkovic-Loli, Laura Natalia, Axel Ricardo Rodríguez-Gómez, Jesús Abimael López Castillo, and Rodrigo Alejandro Gutiérrez-Arenas. "Low-cost Arduino-based interface for controlling gas flow in chemical vapor deposition graphene synthesis." Revista Mexicana de Física 65, no. 1 (December 31, 2018): 89. http://dx.doi.org/10.31349/revmexfis.65.89.

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In this work, we present a low-cost computer controlled, Arduino-based automation of the mass flow controllers for a chemical vapor deposition system. The major goal of the system is to provide the possibility to produce flow ramps of several gases for material synthesis. We used an Arduino Due board that only has the possibility to control two signals and increased this with a multiplexor so we could control 4 signals. The control board is based on the Arduino open source electronics prototyping platform, Labview software and Matlab's Simulink software. We quantify the quality of our automation system by comparing the Raman spectra of our graphene samples obtained after using our Arduino system, the manual method and using a National Instrument board. The results are very good as our 50 dollars system show similar results with the National Instrument system and the manual method.
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Morallo, Narcisa T. "Vehicle tracker system design based on GSM and GPS interface using arduino as platform." Indonesian Journal of Electrical Engineering and Computer Science 23, no. 1 (July 1, 2021): 258. http://dx.doi.org/10.11591/ijeecs.v23.i1.pp258-264.

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<p>Global positioning system (GPS) tracker is an innovative technology that is able to track the position of vehicle using global satellite system. In this paper, vehicle tracker system design that is derived from global positioning system and global system for mobile communication (GSM) interface with the use of Arduino Uno board as platform is proposed and presented. Technology in Arduino, GSM, and GPS is studied.GPS module receives the coordinates from the satellite. The GPS coordinates are sent to users in the form of SMS through SIM900A GSM module. By using Google Maps, the exact location of the vehicle can be located. Arduino microcontroller is the gateway to all GPS and GSM hardware and software communication in the system. The design represents that GSM and GPS interface with the use of Arduino Uno board as platform can really make vehicle tracking more efficient and convenient since it can work in any weather conditions and provide real-time location of objects. Automatic display of the coordinate’s geographical location in a map should be integrated in future design.</p>
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12

Cavalcante, Marisa Almeida, Cristiane Rodrigues Caetano Tavolaro, and Elio Molisani. "Física com Arduino para iniciantes." Revista Brasileira de Ensino de Física 33, no. 4 (December 2011): 4503. http://dx.doi.org/10.1590/s1806-11172011000400018.

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Apresentamos neste trabalho diferentes modos de operar o Arduino para funcionar como uma interface alternativa na aquisição e automação de dados em atividades experimentais de física via porta USB do computador. Selecionamos como exemplo de aplicação o estudo de carga e descarga de um capacitor. As etapas de interação com o Arduino passam pelo processo de construção do circuito, coleta e armazenagem de dados em formato txt e visualização gráfica em tempo real através da linguagem Processing. Para cada etapa apresentamos propostas didáticas de utilização, todos os códigos fontes necessários para a interação com o Arduino, além de links para acesso a tutoriais que possibilitam a reprodução deste e outros experimentos.
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13

Zulkifli, Shamsul Aizam, Mohd Khairul Akli Ab Ghani, Farih Deraman, Nawi Berahim, Abdul Hadi Abdullah, and Mohd Razali Md Tomari. "Investigation on Various Voltage Controllers for 3 Phase Rectifier Using Arduino as a Low Cost Microcontroller." Applied Mechanics and Materials 793 (September 2015): 257–61. http://dx.doi.org/10.4028/www.scientific.net/amm.793.257.

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This paper focuses on investigation of various voltage controllers which are the Proportional Integration Derivative (PID) control and P-Resonant control in order to observe the efficiency of the low cost microcontroller such as Arduino for the gating signals generation. Both of the controllers have been selected due to the availabality of the block diagrams that can be build in the MATLAB. The MATLAB-Simulink block will be used as the interface between the design controller to the Arduino board before downloaded into Arduino. The results show, the Arduino is able to operate from various controllers but it gives better result when the P-Resonant controller has been used.
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14

Wu, Ligang, Zibao Lu, and Ge Guo. "Analysis, Synthesis and Experiments of Networked Platoons with Communication Constraints." PROMET - Traffic&Transportation 29, no. 1 (February 13, 2017): 35–44. http://dx.doi.org/10.7307/ptt.v29i1.1969.

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This paper investigates the analysis and synthesis of networked vehicle platoons with communication delays, packet dropouts and disorders. In order to deal with the effects of the communication constraints, we introduce a novel Smart Data Processor (SDP) for each vehicle, by which the latest data packets from logic Data Packet Processor and the matched data packet from its Buffer can be obtained. Based on this mechanism, a leader-predecessor-follower control strategy is proposed. In order to guarantee the asymptotic and string stability, the platoon control problem is transformed into a multi-objective H∞-type synthesis problem with the multiple time-varying delays. A sufficient condition for designing the controller gain is derived by solving a set of linear matrix inequalities. Numerous simulations and experiments with laboratory scale Arduino cars show the efficiency of the proposed methods.
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조성배 and 이동민. "A Study on the Interface Prototyping implementation - Focused on Arduino -." Journal of Digital Design 9, no. 4 (October 2009): 225–34. http://dx.doi.org/10.17280/jdd.2009.9.4.023.

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16

Tong-on, Anusorn, Parinya Saphet, and Meechai Thepnurat. "Simple Harmonics Motion experiment based on LabVIEW interface for Arduino." Journal of Physics: Conference Series 901 (September 2017): 012114. http://dx.doi.org/10.1088/1742-6596/901/1/012114.

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Rizescu, Ciprian Ion, Dana Rizescu, and Georgeta Ionascu. "Electronic Interface for Pneumatic Grippers Using USB Port." Advanced Materials Research 463-464 (February 2012): 1593–96. http://dx.doi.org/10.4028/www.scientific.net/amr.463-464.1593.

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The paper deals with an electronic interface built on Arduino electronics. The interface allows controlling several pneumatic grippers using a PC. The grippers are connected to the PC using the mentioned interface which is connected to PC through USB port. The authors are continuing a work developed since 2005 when a LPT electronic interface was developed.
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18

Fauzan Alaudin Hadi, Muhammad Rif’an, and Mochammad Djaohar. "MONITORING CUACA BERBASIS ARDUINO UNO." Journal of Electrical Vocational Education and Technology 1, no. 1 (March 18, 2020): 6–10. http://dx.doi.org/10.21009/jevet.0011.02.

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Abstract This research aims to create a monitoring tool based weather arduino uno in order to produce data of wind, precipitation, temperature, and light intensity to be used as a reference whether or not an area to be built hybrid power plant. This research was conducted in the building innovation center LIPI, Cibinong, Bogor, West Java in March 2016 - July 2016. The method used is an experimental method that connects the sensor with arduino uno, then connected again to the server computer by using radio frequency signals using the XBee. Steps to be done is to make the program a tool, and then create a hardware appliance, create an interface with visual basic. Tests performed on hardware and software. From the test results, testing both hardware and software managed to work well and is able to generate data in the form are the wind speed reached a daily average of 6.2 m / s, the average rainfall reached 59.95 mm / day, the average temperature reached 26.71 ℃ per day, and the intensity of light that is able to produce the rated voltage -rata up 18,5v. The data shows that weather conditions in the study has good potential to build hybrid power plant. Abstrak Penelitian ini bertujuan untuk membuat alat monitoring cuaca berbasis arduino uno dalam rangka menghasilkan data angin, curah hujan, suhu, dan intensitas cahaya yang akan digunakan sebagai acuan layak atau tidaknya suatu daerah untuk dibangun pembangkit listrik hybrid. Penelitian ini dilaksanakan di gedung pusat inovasi LIPI, Cibinong, Bogor, Jawa Barat pada bulan maret 2016 – Juli 2016. Metode yang digunakan adalah metode eksperimen yaitu menghubungkan sensor dengan arduino uno, lalu dihubungkan lagi ke komputer server dengan menggunakan sinyal radio frekuensi menggunakan XBee. Langkah yang dilakukan adalah membuat program alat, lalu membuat hardware alat, membuat interface dengan visual basic. Pengujian dilakukan pada hardware dan software. Dari hasil pengujian, baik hardware maupun software berhasil bekerja dengan baik dan mampu menghasilkan data berupa kecepatan angin rata-rata perhari mencapai 6,2 m/s, curah hujan rata-rata mencapai 59,95 mm/hari, suhu rata-rata mencapai 26,71 perhari, dan intensitas cahaya yang mampu menghasilkan tegangan rata-rata hingga 18,5v.
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Cupiał, Michał, Bogdan Kulig, and Vladimír Pačuta. "URwaga software as interface for measuring devices." E3S Web of Conferences 132 (2019): 02001. http://dx.doi.org/10.1051/e3sconf/201913202001.

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The paper presents computer program URwaga which operates measuring devices at the test stand. The program runs devices that communicate via RS232 interface and devices that are connected to a computer via USB. The obtained data are collected in a cumulative table and then exported to a spreadsheet. The program is applied in the studies on agriculture and mechanical engineering. The application cooperates with factory installations and an original measuring system on Arduino platform.
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Normann, Randy A. "US Geothermal Funding Outlook (Reducing Cost Barriers for HT SOI Reservoir Monitoring Systems)." Additional Conferences (Device Packaging, HiTEC, HiTEN, and CICMT) 2018, HiTEC (May 1, 2018): 000122–28. http://dx.doi.org/10.4071/2380-4491-2018-hiten-000122.

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ABSTRACT The presentation of this paper will discuss the expected funding levels from the US Dept. of Energy available for geothermal research. However, at the time this paper submitted for publication at HiTEC, those funding levels have not been publically released. This paper examines the use of Arduino systems for developing geothermal well monitoring systems and logging tools. The Arduino is a low cost, public domain micro processing system commonly used for teaching machine programming at the high school level. These systems enjoy open domain support and many levels of self-help books. The Arduino enjoys worldwide acceptance for teaching high school students how to build and program robotic machines. The Arduino system is so popular, Ebay.com lists 2,244 “Arduino Kits”. Kits for learning robotics, operating 3D printers, monitoring sensors and other general applications in electronics. This paper examines using the Arduino system for scientific measurement purposes. Two application examples are given: 275°C well monitoring tool interface and a simple, very low cost temperature logging tool. This paper highlights two new Arduino Shield for scientific measurements: a 22Bit ADC and a 12Bit DAC programmable power supply for powering high temperature downhole tools.
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Ilyas, Moch, Yuyun Suprapto, Totok Warsito, and Romma Diana P. "Rancangan Interface Komunikasi Data Aeronautical Fixed Telecomunication Network Menggunakan GSM Gateway Berbasis Arduino." Jurnal Penelitian 3, no. 1 (March 1, 2018): 71–80. http://dx.doi.org/10.46491/jp.v3e1.36.71-80.

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The design of data transmission is made with the intention of later as media data delivery AFTN at low cost, utilizing the network provider using the GSM GATEWAY will get a solution to the problem of how to transmit data AFTN when an aerodrome does not have the means of VSAT and the airport does not have a network AFTN. The working principle of this circuit is to change the output signal DB9 serial port on the teleprinter news format ITA2 (5n1) is converted to the module MAX3232 to be transformed into TTL voltage level, which is a TTL input data that can be processed by a microcontroller Arduino Mega 2560. Output of Arduino Mega was converted back to the module MAX3232 from TTL to Serial, then the data is then converted digital signal into an analog signal by using Wavecom M1306B Modem Serial Q2406B. This analog signal is then sent to the destination. Once the information from the transmitter wavecom analog signal received by the receiver with wavecom modem, the signal is converted back by module MAX3232 Serial to TTL which will be connected to the Arduino Uno microcontroller and connected with a PC software in which there are accepted as news ticker
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Saefullah, Asep, Endang Sunandar, and Muhammad Nur Rifai. "PROTOTIPE ROBOT PENGANTAR MAKANAN BERBASIS ARDUINO MEGA DENGAN INTERFACE WEB BROWSER." CCIT Journal 10, no. 2 (August 8, 2017): 269–79. http://dx.doi.org/10.33050/ccit.v10i2.547.

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In general, the process of delivering food is still done traditionally, for example food vendors in the cafeteria by way of delivering food orders and bringing food using the hands of food vendors to the buyer's table. Food delivery is traditionally considered ineffective as food vendors have to walk back and forth to deliver food and leave other jobs. For that we need to designed a system of food delivery robot useful for the seller to help deliver food, The prototype design of food delivery robot using Arduino Mega microcontroller, the robot has a place to put food, and able to walk with the DC motor on the wheel. For movement of the robot body direction using a single servo motor and ethernet shield and TP-Link as a communication bridge between Web Browser with Arduino Mega. Web Browser has a function as a user interface that can be used by food vendors to control the robot. The existence of prototype food delivery robot is expected to help the activities of delivering food made by food vendors well so that food vendors can do other more mainstream jobs
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Yono, Sudaryono, Muhamad Gunawan, and Hilmi Nugraha. "SISTEM PESAN MAKANAN VIA BLUETOOTH DENGAN INTERFACE ANDROID BERBASIS ARDUINO UNO." ICIT Journal 2, no. 1 (February 23, 2016): 59–67. http://dx.doi.org/10.33050/icit.v2i1.20.

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Perkembangan teknologi khususnya pada perangkat mobile sangat mendukung dalam menjalankan aktivitas bisnis dan tidak terkecuali pada bisnis restoran. Dalam menghadapi persaingan bisnis pihak perusahaan harus mencari strategi agar dapat menarik minat konsumen. Adapun teknologi informasi yang saat ini sedang berkembang adalah android. Android merupakan sistem operasi mobile menggunakan versi modifikasi dari kernel linux. Tidak hanya dipakai seperti mobile pada umumnya, android kini banyak digunakan untuk keperluan lainnya seperti pemesanan makanan di restoran atau tempat makan lainnya. Penggunaan mobile android untuk pemesanan makanan dapat membantu proses bisnis dalam sebuah tempat makan, Tujuan dari penelitian ini adalah membuat alat untuk mempermudah pemesanan makanan dengan menggunakan modul sistem minimum Arduino Uno. serta Bahasa Pemrograman C. Hasil implementasi dalam Proyek Akhir ini adalah berupa alat pesan makanan via bluetooth dengan interface android. Kemudian makanan yang dipesan akan menghampiri pembeli secara otomatis dengan menggunakan motor servo dan sensor LDR. Kata Kunci: Pesan Makanan, Arduino Uno, Android, Motor Servo, Sensor LDR
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Papoutsidakis, M., A. Chatzopoulos, C. Drosos, and K. Kalovrextis. "An Arduino Family Controller and its Interactions via an Intelligent Interface." International Journal of Computer Applications 179, no. 30 (March 24, 2018): 5–8. http://dx.doi.org/10.5120/ijca2018916684.

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Thepnurat, Meechai, Parinya Saphet, and Anusorn Tong-on. "Low-Cost DIY Vane Anemometer based on LabVIEW interface for Arduino." Journal of Physics: Conference Series 1144 (December 2018): 012028. http://dx.doi.org/10.1088/1742-6596/1144/1/012028.

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Firanda, Rijeng, and Muldi Yuhendri. "Monitoring State Of Charge Accumulator Berbasis Graphical User Interface Menggunakan Arduino." JTEIN: Jurnal Teknik Elektro Indonesia 2, no. 1 (January 26, 2021): 11–16. http://dx.doi.org/10.24036/jtein.v2i1.95.

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Energy listrik merupakan sumber energi yang banyak digunakan dalam kehidupan sehari hari salah satunya aki. aki merupakan tempat penyimpanan sumber listirik yang praktis yang mudah dibawa dan digunakan sesuai kebutuhan sehari hari. Sedangkan jika aki dipakai terus menerus maka tegangan aki akan menjadi kosong , oleh sebab itu diperlukan pengisian ulang terhadap aki, agar aki dapat terisi dengan baik diperlukan pemantauan pada saat pengisian agar didapatkan hasil yang maksimal. Pada pemantataun pengisian aki ini meliputi, tegangan aki, suhu aki , tegangan panel surya sekaligus sebagai penyuplai tegangan untuk pengisian aki , dan mengunakan relai sebagai pemutus tegangan ketika Tegangan aki sudah terisi penuh supaya tidak terjadi kerusakan terhadap aki akibat kelebihan Tegangan yang masuk pada saat pengisian aki. Komponen yang dibutuhkan adalah sensor tegangan, sensor db18b20, relai . Semua komponen pada alat ini dikendalikan oleh Arduino yang dikoneksikan melalui Simulink untuk selanjutnya dikirim ke Gui Matlab sebagai tempat hasil pengujian berupa angka dan grafik.
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Amine, Bouzid Mohamed, Chaib Fatima Zohra, Hamani Ilyes, Aid Lahcen, and Allaoui Tayeb. "Smart Home Automation System based on Arduino." IAES International Journal of Robotics and Automation (IJRA) 7, no. 4 (December 1, 2018): 215. http://dx.doi.org/10.11591/ijra.v7i4.pp215-220.

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<p>Intelligent home environments are environments that attempt to ease the user's life in different ways and make it more comfortable using the technology. This paper present the principle of realizing a home control interface based on an. Arduino UNO R3 board equipped with a programmable ATmega328 microcontroller. The sketch to be uploaded to the Arduino is written in C language. A desktop application was created in C # language to communicate with the Arduino via the serial port, thus facilitating repetitive tasks such as lighting control, opening / closing doors. A temperature / humidity sensor, an alarm (motion sensor + buzzer), garden lighting and automatic control of the TV via an IR receiver + IR transmitter have been added without forgetting manual control</p>
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Tsyrulnyk, Serhii. "SOFTWARE AND HARDWARE SYSTEM «ARDUINO LEARNER KIT»." OPEN EDUCATIONAL E-ENVIRONMENT OF MODERN UNIVERSITY, no. 10 (2021): 231–40. http://dx.doi.org/10.28925/2414-0325.2021.1019.

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The difference between programming embedded systems from the classical one is that in addition to knowledge of the theory of algorithms, programming languages, it is necessary to know the hardware of the object, its physical or electrical properties. Programming for embedded systems is considered a separate area. Embedded-developer is engaged in the development, maintenance, testing of software and hardware. The article considers issues related to the peculiarities of practical training and the formation of professional skills in programming embedded-systems by students studying in the field of knowledge 12 Information Technology, 17 Electronics and Telecommunications software and hardware complex "Arduino Learner Kit" based on the platform Arduino Nano. The software-hardware system "Arduino Learner Kit" is intended for experiments on the control of LEDs, generation of color and adjustment of the brightness of RGB LED, creation of a tone signal, processing of events of clock buttons, reading of data from the potentiometer, DHT11 sensor, LM35 sensor, seven-segment display, LED dot matrix indicator, LCD-indicator, Arduino port sealing by shift register 74HC595, data exchange via SPI interface (MAX7219), and I2C (DS1307). The approach of the application of the physical and virtual stand "Arduino Learner Kit" for training on the mixed and distance form is offered. Arduino Learner Kit software and technology teaches that students study demonstration programs on each topic and get acquainted with their work on the virtual stand "Arduino Learner Kit" and explore the work on the real stand by the peculiarities of the educational process in the educational institution. Features of modeling, testing, and debugging of projects with Arduino in the Proteus 8.X environment are revealed. The list of topics for the formation of Arduino programming skills, drawing diagrams from ready-made modules and parts using the software and hardware system "Arduino Learner Kit", which are implemented in the educational process.
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Mariani, Eni Mariani, and Hastuti Hastuti. "Kendali Motor Induksi 3 Fasa Menggunakan Arduino Mega Berbasis HMI (Human Machine Interface)." JTEIN: Jurnal Teknik Elektro Indonesia 1, no. 2 (November 10, 2020): 179–86. http://dx.doi.org/10.24036/jtein.v1i2.70.

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Motor induksi 3 Fasa merupakan jenis motor yang paling banyak digunakan untuk menggerakan berbagai beban/mesin. Dalam instalasinya, motor induksi 3 fasa dengan daya besar memerlukan rangkaian starting dan kendalinya seperti untuk membalik arah putaran, pengaturan kecepatan dan sebagainya Kecepatan motor induksi dapat dikontrol dengan memvariabelkan input frekuensi ke motor AC 3 phasa yang digunakan. Pengaturan nilai masukan frekuensi pada motor induksi bisa dilakukan dengan menggunakan Inverter. Inverter akan mengubah DC ke AC yang kemudian diatur dengan suatu teknik penyaklaran ‘switching‘ mengubah DC menjadi tegangan dan frekuensi keluaran AC yang bervariasi. Inverter yang digunakan ialah jenis PWM menggunakan MOSFET tipe IRP460N. Frekuensi dapat diatur dan diubah melalui tampilan layar LCD HMI yang support terhadap mikrokontroller Arduino UNO dan Arduino MEGA . HMI (human machine interface) adalah suatu teknologi komunikasi antara manusia atau operator sebuah mesin yang dapat mempermudah pengontrolan sistem yang bekerja. Pada tugas akhir ini digunakan modul 3.5 ILI9486 TFT LCD touch screen sebagai perangkat pendukung komunikasi operator ke mesin.
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Ramakuri, Sravanth K., Premkumar Chithaluru, and Sunil Kumar. "Eyeblink Robot Control Using Brain-Computer Interface for Healthcare Applications." International Journal of Mobile Devices, Wearable Technology, and Flexible Electronics 10, no. 2 (July 2019): 38–50. http://dx.doi.org/10.4018/ijmdwtfe.2019070103.

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The human brain is the central organ of the human system. Many people in the world cannot move on their own and can't control things on their own. A person whose brain is active can control things using the neuro-controlled robot car. It is interesting to all types of people to measure their concentration and piece level of mind with the neuro sky mind wave device. One can easily control the robot's movements by simply blinking eyes; the robot's speed will be according to the subject's attention levels. The neuro sky mind wave device digitizes brain wave signals to power the user-interface of the computers, game, and health application. The neuro sky mind wave device will measure brain waves from the forehead. The paper aims to control a robot using the brain-computer interface concept without any muscular activity controlling healthcare applications directions. The brain activity is recorded with the neuro sky mind wave device's help, and the attention values are sent to the Arduino with the help of the HC-05 Bluetooth module. Arduino is programmed so that if the attention values between 0-29 and the person are relaxed, the green light will glow for the feedback.
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Alhaqeem, Mohammed Abdul Aziz, and Aswardi Aswardi. "Human Machine Interface Visual Basic Arduino untuk DC – DC converter Type Buck." JTEIN: Jurnal Teknik Elektro Indonesia 2, no. 2 (July 17, 2021): 148–54. http://dx.doi.org/10.24036/jtein.v2i2.126.

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Pada era teknologi yang semakin berkembang pesat, penggunaan elektronika daya semakin banyak digunakan seperti untuk penggontrolan motor dan lain – lain. Untuk mendukung semua itu tentu juga di iringi dengan metode – metode interfacing yang memudahkan user dalam penggunaaan alat – alat elektronika daya seperti contohnya buck conveter. Interfacing yang di maksud disini adalah dengan melakukan pengaturan keluaran buck converter dengan menggunakan interfacing pada personal computer sekaligus memonitoringnya. Buck converter adalah jenis dc-dc converter yang berfungsi untuk mengubah keluaran tegangan output lebh kecil dibandingkan dengan tegangan keluaran input. Perancangan monitoring menggunakan visual basic dalam pembuatan interfacing, hal ini dilakukan karena kemudahan komunikasi antara visual basic dengan arduino. Metode pengontrolan menggunakan pengaturan duty cycle yang diberikan dari visual basic ke arduino. Dengan mengatur duty cycle, maka tegangan yang dkeluarkan pun akan berubah-ubah. Berdasarkan hasil pengujiaan, maka dengan memperbesar duty cycle maka keluaran tegangan dari buck converter akan semakin kecil, Dengan hasil pengukuran buck converter pada input tegangan 24 volt dan duty 15.97 menghasilkan tegangan keluaran sebesar 19,5 sedangkan pada duty cycle 34.57 menghasilkan tegangan sebesar 13.9.
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Sunandar, Endang, Khanna Tiara, and Mohamad Daud. "SYSTEM LOCK AND CONTROLLING CLASS ROOM DENGAN INTERFACE ANDROID BERBASIS ARDUINO UNO." CCIT Journal 9, no. 2 (January 14, 2016): 157–67. http://dx.doi.org/10.33050/ccit.v9i2.495.

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In day-to-day environment, buildings that have a lot of room doors sometimes appears constraints when should lock and unlock all the room one by one, because the security guards had to lock and unlock the doors on each floor of the building space manually. There are several systems that can be tailored to these problems, one of which is a lock and controlling system with Bluetooth facility. In this system using the Bluetooth facility to give commands to the microcontroller used, the namely ATmega328-based ArduinoUno. Users simply open the Bluetooth Controller application and connect to the bluetooth Android smartphone which is mounted on the door, then enter the password "1234" and press "A" to open, "b" to close, "c" to unlock, "d" key to lock the door, then the officer can control the door electrically
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Suharijanto, Suharijanto Suharijanto. "TRAINER PENGENDALI MOTOR DC BERBASIS MIKROKONTROLER ARDUINO DALAM PEMBELAJARAN INTERFACE DAN PERIPHERAL." Jurnal Teknika 9, no. 1 (March 1, 2017): 6. http://dx.doi.org/10.30736/teknika.v9i1.4.

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Penelitian ini bertujuan untuk membuat trainer atau alat peraga pengendali motor DC berbasis mikronkontroler Arduino Atmega328. Trainer atau alat peraga merupakan alat pembelajaran yang dapat diamati melalui panca indra dan sebagai pembantu dalam proses belajar mengajar agar lebih efektif. Dan ini dilakukan untuk membantu mahasiswa dalam mendalami mata kuliah interface dan peripheral yang diajarkan di Prodi Teknik Elektro UNISLA. Ada tiga tahapan dalam merancang bangun pengendali motor DC ini, yaitu tahapan perencanaan, tahapan pembuatan dan tahapan uji coba. Pada tahapan perencanaan ini, kita merencanakan apa yang akan kita buat, sederhananya, kita mau membuat pengendali motor DC yang seperti apa? berguna untuk apa? Hal yang perlu ditentukan dalam tahap ini: jenis motor DC yang digunakan, arah putar motor dan metode pengontrolan yaitu bagaimana putaran motor dikontrol dan digerakkan, mikroprosesor yanga digunakan, dan blok diagram sistem. Tahapan pembuatan, dimana ada dua perkerjaan yang harus dilakukan dalam tahap ini, yaitu pembuatan mekanik, elektronik, dan programming. Tahapan terakhir adalah uji coba, yaitu setelah kita mendownload program ke mikrokontroler berarti kita siap melakukan tahapan terakhir dalam membuat pengontrol motor DC, yaitu uji coba. Dalam tahapan ini mulai di uji arah putaran motor dengan berbagai versi sesuai program. Hasil yang diperoleh dari penelitian ini berupa alat peraga pengendali motor DC karena dalam suatu sistem periferal antarmuka terdapat alat berupa perangkat keras dengan perangkat lunak sebagai media interaktifnya.
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Gkiolmas, Aristotelis, Constantine Dimakos, Anthimos Chalkidis, and Artemisia Stoumpa. "An environmental education project that measures particulate matter via an Arduino interface." Sustainable Futures 2 (2020): 100027. http://dx.doi.org/10.1016/j.sftr.2020.100027.

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Uyanik, Ismail, and Bahadir Catalbas. "A low-cost feedback control systems laboratory setup via Arduino-Simulink interface." Computer Applications in Engineering Education 26, no. 3 (February 21, 2018): 718–26. http://dx.doi.org/10.1002/cae.21917.

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Lee, Young Jae. "Mobile IoT Interface using Emotion Information and Arduino on the Android Application." International Journal of Control and Automation 10, no. 12 (December 31, 2017): 189–98. http://dx.doi.org/10.14257/ijca.2017.10.12.17.

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Saphet, Parinya, Anusorn Tong-on, and Meechai Thepnurat. "One dimensional two-body collisions experiment based on LabVIEW interface with Arduino." Journal of Physics: Conference Series 901 (September 2017): 012115. http://dx.doi.org/10.1088/1742-6596/901/1/012115.

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Escobar, Rogelio, and Carlos A. Pérez-Herrera. "Low-cost USB interface for operant research using Arduino and Visual Basic." Journal of the Experimental Analysis of Behavior 103, no. 2 (February 4, 2015): 427–35. http://dx.doi.org/10.1002/jeab.135.

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Kanoi, Yusuf H., Syahrir Abdussamad, and Sri Wahyuni Dali. "Perancangan Jam Digital Waktu Sholat Menggunakan Arduino Uno." Jambura Journal of Electrical and Electronics Engineering 1, no. 2 (October 30, 2019): 32–39. http://dx.doi.org/10.37905/jjeee.v1i2.2880.

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Penelitian ini bertujuan untuk membuat Jam Digital Waktu Shalat Menggunakan Arduino Uno dan LED Dot Matrix P10 sebagai display dengan ukuran 16x32 cm sehingga dapat dilihat dari jarak jauh.Adapun metode perhitunganwaktu shalat yang digunakan dalam penelitian ini yaitu metode hisab rukyat, dimana rumus waktu shalat diprogram dan diproses secara otomatis didalam mikrokontroler, sehingga tidak perlu lagi untuk menginput atau memasukan data waktu shalat setiap tahunnya.Jam digital waktu shalat yang dibuat, sudah terealisasi dalam bentuk alat yang nyata, dilengkapi dengan fitur interface IR remote sebagai pengaturan parameter tampilan dan memiliki battery backup sebagai sumber catu daya cadangan ketika sumber catu daya dari power suply padam serta alarm waktu shalat apabila telah tiba, sehingga diharapkan dapat membantu umat muslim dalam melaksanakan shalat.
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Henrique, Bruna Couto Molinar, Leonardo Couto Molinar Henrique, and Humberto Molinar Henrique. "Arduino based platform for process control learning." Journal of Engineering and Exact Sciences 6, no. 5 (December 12, 2020): 0585–93. http://dx.doi.org/10.18540/jcecvl6iss5pp0585-0593.

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This work deals with implementation of an experimental flowrate control unit using free and low-cost hardware and software. The open-source software Processing was used to develop the source codes and user graphical interface and the open-source electronic prototyping platform Arduino was used to acquire data from an experimental unit. Work presents descriptions of the experimental setup, the real-time PID controllers used and theoretical/conceptual issues of Arduino. PID controllers based on internal model control, minimization of the integral of time-weighted absolute error, Ziegler-Nichols, and others were tuned for setpoint and load changes and real-time runs were carried out in order to make real-time use of control theory learned in academy. Results showed the developed platform proved to be suitable for use in experimental setups allowing users compare their ideas and expectations with the experimental evidence in a real and low-cost fashion. In addition, the instrumentation is simple to configure with acceptable level noise and particularly useful for control/automation learning with educational purposes.
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István, Zsolt, Soujanya Ponnapalli, and Vijay Chidambaram. "Software-defined data protection." Proceedings of the VLDB Endowment 14, no. 7 (March 2021): 1167–74. http://dx.doi.org/10.14778/3450980.3450986.

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Most modern data processing pipelines run on top of a distributed storage layer, and securing the whole system, and the storage layer in particular, against accidental or malicious misuse is crucial to ensuring compliance to rules and regulations. Enforcing data protection and privacy rules, however, stands at odds with the requirement to achieve higher and higher access bandwidths and processing rates in large data processing pipelines. In this work we describe our proposal for the path forward that reconciles the two goals. We call our approach "Software-Defined Data Protection" (SDP). Its premise is simple, yet powerful: decoupling often changing policies from request-level enforcement allows distributed smart storage nodes to implement the latter at line-rate. Existing and future data protection frameworks can be translated to the same hardware interface which allows storage nodes to offload enforcement efficiently both for company-specific rules and regulations, such as GDPR or CCPA. While SDP is a promising approach, there are several remaining challenges to making this vision reality. As we explain in the paper, overcoming these will require collaboration across several domains, including security, databases and specialized hardware design.
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Khatua, K. K., K. C. Patra, P. K. Mohanty, and M. Sahu. "Selection of interface for discharge prediction in a compound channel flow." International Journal of Sustainable Development and Planning 8, no. 2 (May 22, 2013): 214–30. http://dx.doi.org/10.2495/sdp-v8-n2-214-230.

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Chou, Hsi-Chiang, and Kai-Yu Han. "Developing a smart walking cane with remote electrocardiogram and fall detection." Journal of Intelligent & Fuzzy Systems 40, no. 4 (April 12, 2021): 8073–86. http://dx.doi.org/10.3233/jifs-189630.

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This study developed a smart cane with remote electrocardiogram (ECG) and fall detection. The cane comprises a self-developed ECG detection circuit, fall detection module composed of a three-axis gyroscope and three-axis accelerator, and two wireless transmission modules. The data reception end features a human–machine interface with self-developed ECG analysis and fall detection programs, providing reference data for identifying an abnormal situation. The hardware of the proposed system is divided into two parts. First, ECG detection is achieved using a copper column-shaped detector in place of conventional ECG electrodes. The self-developed sensor circuit amplifies the collected signals and filters unwanted noise to generate complete ECG signals. An Arduino MEGA microcontroller board and the two wireless transmission modules then transmit the signals to the human–machine interface. Second, fall detection is achieved using the aforementioned fall detection module to collect numerical data, which are then transmitted to the human–machine interface through the Arduino MEGA and wireless transmission modules. The proposed system can be applied to real-time monitoring and provide reference data for health care professionals and nursing personnel.
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Hakim, Aulia El. "Rancang Bangun Kendali Perangkat Elektronika Menggunakan Komunikasi Bluetooth Berbasis Arduino Dengan Interface Android." JEECAE (Journal of Electrical, Electronics, Control, and Automotive Engineering) 2, no. 1 (May 2, 2017): 89–94. http://dx.doi.org/10.32486/jeecae.v2i1.61.

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Kendali perangkat elektronika secara jarak jauh pada umumnya menggunakan remote infra merah ataupun menggunakan kendali sms gateway. Permasalahan terjadi Jika menggunakan Ired Pada saat pengiriman data, maka antara infra merah sebagai transmiter dan receiver harus berhadapan satu sama lain tanpa ada penghalang. Hal ini dapat menyulitkan dalam proses pengendalian perangkat elektronika secara jarak jauh. Sedangkan bila menggunakan sms gateway maka dibutuhkan pulsa “sms” untuk komunikasi data, sehingga pengendalian tidak effisien dan tidak praktis. Penelitian ini Bertujuan sebagai alternatif lain dalam pengendalian perangkat elektronika secara nirkabel yang ekonomis dan praktis. Board mikrokontroller yang digunakan pada penelitian ini bersifat open-source yaitu menggunakan board arduino uno. Untuk pembuatan aplikasi Android AndroBlue pada smartphone, dengan memanfaatkan pemrograman berbasis online dari ai2.appinventor.mit.edu.Cara penggunaan alat ini adalah dengan mengaktifkan Bluetooth pada Smartphone Android dan memberikan daya pada prototipe kendali perangkat elektronika, kemudian dilakukan pairing antara bluetooth pada smartphone dengan bluetooth yang ada pada prototipe kendali. Setelah terhubung, maka perangkat elektronika tersebut dapat dikendalikan dengan menggunakan aplikasi AndroBlue yang sudah terinstall pada smartphone. Dari hasil pengujian terhadap kendali perangkat elektronika secara jarak jauh dapat diketahui dari 10 kali uji coba dengan perbedaan jarak yang sudah ditentukan, tingkat keberhasilan mencapai 80 %.
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Ali, Ishrat, and Ameen Uddin Ahmad. "Monitoring of BLDC Motor Load with Speed Feedback using Arduino and LABVIEW Interface." IARJSET 5, no. 8 (August 30, 2018): 91–94. http://dx.doi.org/10.17148/iarjset.2018.5810.

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Ts’zul, Pinedo Arriaga O., Pinedo Arraiga Carlos D., Herrera Alvarado Eduardo, and Tinoco Varela David. "Identification of wavelengths from the visible spectrum by means of Arduino for the generation of a knowledge base managed by PROLOG." MATEC Web of Conferences 210 (2018): 02048. http://dx.doi.org/10.1051/matecconf/201821002048.

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PROLOG is a programming language widely used in the generation of expert and intelligent systems, generally limited to data that is entered directly by a user in the form of software, having little or no interaction with data that is captured directly from a physical environment. This paper presents an implementation of an interface that detects the wavelengths of the visible spectrum, that is, identifies colors, colors that are stored in a knowledge base and then managed by PROLOG. This interface consists of two parts, software and hardware. The hardware is designed by means of the Arduino UNO development board, where a TCS3200 sensor is used. For the development of the software, two tools have been used, on the one hand, the standard programming of the Arduino IDE terminal has been used to manage the inputs and outputs of the Arduino board, and on the other hand, a data management system has been generated, in which PROLOG manages all the data obtained from hardware. This scheme seeks to generate color classifications in a dynamic and intelligent way in the future. The proposed system has the advantage that it is highly economical, easy to perform, uses the logical paradigm of programming, and opens the way to the design of intelligent systems managed by PROLOG from a monitoring of physical variables.
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Zeqiri, Nderim. "Managing a computer system and interface, performance and applications." Journal of Advanced Computer Science & Technology 5, no. 2 (June 7, 2016): 23. http://dx.doi.org/10.14419/jacst.v5i2.5951.

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Computer system has important command under various objects. To have a stable system, there is a need to create the model and functionality in terms of management and programming. The purpose of this paper is to present computer system as a central source, and other systems management interface for external management facilities. The logic of interaction of various objects is to create structures with universal purposes. In the paper presented the functioning of the computer system with microcontrollers and especially with Arduino Uno device. Also, is analyzed the performance of computer system, and are given the perspective and other question in the context of problem-solving. So, finally is given the comparisons with other systems.
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LORSCHEITER, Thiago Aguirre, João Paulo Silveira PAIM, Luis Alcides Brandini DE BONI, and Isaac Newton Lima SILVA. "USING MS-VISUAL STUDIO AND ARDUINO TO DO TEMPERATURE MEASUREMENTS." Periódico Tchê Química 08, no. 16 (August 20, 2011): 60–66. http://dx.doi.org/10.52571/ptq.v8.n16.2011.60_periodico16_pgs_60_66.pdf.

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This work was carried out as an exercise in developing open source software to interface with free hardware. In this work a software was developed to perform serial communication between a computer (PC) and the Arduino, aiming at the simultaneous recording of two temperatures measured by type K thermocouples as a function of time. The temperatures measured by the analog instruments, thermocouples type K, were converted into digital signals through the MAX6675 and sent to the PC via the Arduino serial port. At the computer these data were expressed graphically in real time through the application developed for this purpose and then stored in files compatible with spreadsheets for subsequent mathematical analysis.
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Dewani, Amirita, Pirah Memon, Veena Kumari, Anum Arain, Ayaz Jiskani, and Sania Bhatti. "Keyless Smart Home: An application of Home Security and Automation." Oriental journal of computer science and technology 11, no. 2 (May 7, 2018): 107–14. http://dx.doi.org/10.13005/ojcst11.02.06.

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The rapid and revolutionary advancement in technology has increased the demand for advanced ubiquitous mobile applications in our daily lives. Home automation system uses collective smart technology to elevate sphere of security and human living standards. Wireless Smart home systems have been prototyped by researchers to realize different applications in vast contexts. In this paper we propose a keyless smart home security system which uses Bluetooth as a communication protocol to automate door locks based on a security code and predefined user credentials. The system combines Android phone as a signal sender to dispatch the input signal from an end users side, Bluetooth communication module as signal receiver, ARDUINO microcontroller as CPU and servo motor and light emitting diodes as an output. The system integrates two modules: one of which is Arduino microcontroller which is responsible for authentication and verification of security code and allows servo motor to process the output according to the received input. The second is android Application which provides an interface to the user to set credentials and security code which is then transmitted to the Arduino microcontroller via Bluetooth technology. Since Arduino and Android are open source, hence implementation rate of the proposed system is inexpensive and feasible.
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Setyanto, Dajad, Widodo S Pranowo, and Luddy Andreas Delia. "Purwarupa Antar Muka Graphical User Interface CTD Profiler." Jurnal HIDROPILAR 5, no. 2 (July 19, 2020): 53–56. http://dx.doi.org/10.37875/hidropilar.v5i2.160.

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Tulisan ini menjelaskan tentang perakitan purwarupa CTD profiler, yang meliputi desain serta pembuatan casing, desain rangkaian elektronika, desain bahasa program untuk rangkaian elektronika, serta pembuatan program antarmuka untuk akuisisi data. Data tersebut dibutuhkan oleh echosounder untuk mengoreksi pembiasan dan penyerapan berkas suara sepanjang survei batimetri. Purwarupa ini dirancang untuk mengukur suhu, tekanan, dan konduktivitas pada interval yang dibutuhkan pada saat diturunkan sampai kedalaman tertentu pada area survei. Purwarupa ini juga dirancang dapat bekerja dengan ketersediaan pasokan listrik, maupun tanpa pasokan listrik yang stabil. Pada wahana apung yang tidak terdapat pasokan listrik, purwarupa ini menggunakan baterai. Program antarmuka di desain sedemikian rupa pada sistem operasi windows sehingga mudah dimengerti, mudah diinstall dan mudah dijalankan. Penulisan bahasa program untuk instrumen purwarupa menggunakan platform arduino IDE yang bersifat open source. Sedangkan pembuatan program antarmuka menggunakan platform Borland Delphi 7.
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