Relevant bibliographies by topics / Arduino Uno

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  1. Journal articles
  2. Dissertations / Theses
  3. Books
  4. Book chapters
  5. Conference papers
  6. Reports

Academic literature on the topic 'Arduino Uno'

Author: Grafiati
Published: 4 June 2021
Last updated: 31 May 2022

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Journal articles on the topic "Arduino Uno"

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Purwaningsih, Sri, Jesi Pebralia, and Rustan Rustan. "PENGEMBANGAN TEMPAT SAMPAH PINTAR MENGGUNAKAN SENSOR ULTRASONIK BERBASIS ARDUINO UNO UNTUK LIMBAH MASKER." Jurnal Kumparan Fisika 5, no. 1 (April 30, 2022): 1–6. http://dx.doi.org/10.33369/jkf.5.1.1-6.

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ABSTRAK Penggunaan masker telah menjadi kewajiban dan gaya hidup baru bagi masyarakat menyebabkan peningkatan limbah masker. Tempat sampah masker didominasi oleh tempat sampah konvensional yakni pengguna harus membuka dan menutup penutup tempat sampah tersebut dengan menggunakan tangan atau pijakan kaki dan dapat menjadi ancaman sumber penularan baru COVID-19. Pada penelitian ini dikembangkan tempat sampah pintar untuk limbah masker menggunakan sensor dan motor servo berbasis Arduini Uno. Sensor yang digunakan adalah sensor ultrasonik HC-SR04 sebagai pendeteksi jarak dan pengukur volume sampah limbah masker medis. Motor servo befungsi membuka dan menutup tempat sampah dan dikontrol oleh Arduino Uno secara otomatis. Hasil kalibrasi sensot ultasonik HC-SR04 yang telah dilakukan menghasilkan persaman linier dan nilai R2= 0.9986. Hal ini menunjukkan sensor ultrasonik HC-SR04 dapat diaplikasikan dalam pengembangan tempat sampah pintar. Kata kunci: Arduino Uno, Motor Servo, Sensor Ultrasonik, Tempat Sampah Pintar ABSTRACT The use of masks has become a requirement and a new lifestyle for the community has led to an increase in mask waste. The trash bin for masks waste are dominated by conventional trash bin, where users have to open and close the lid of the trash bin by using hands or footrests and this can pose a threat to a new source of COVID-19 transmission. In this study, a smart trash bin for mask waste was developed using an Arduino Uno-based sensor and servo motor. The sensor used is the ultrasonic sensor HC-SR04 as a distance sensor and measuring the volume of medical mask waste. The servo motor used to open and close the trash bin and is controlled by Arduino Uno automatically. The results of the ultrasonic sensor HC-SR04 calibration that have been carried out produce a linear equation and the value of R2 = 0.9986. This shows that the ultrasonic sensor HC-SR04 can be applied in the development of smart trash bins. Keywords: Ardunino Uno, Servo Motor, Ultrasonic Sensor, Smart Trash
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Rukmana, Susi Tarwianti Endra, Afrizal Mayub, and Rosane Medriati. "PROTOTYPE ALAT PENDETEKSI DAN PENGUSIR TIKUS PADA PEMBIBITAN KELAPA SAWIT BERBASIS ARDUINO UNO." Jurnal Kumparan Fisika 2, no. 1 (April 30, 2019): 9–16. http://dx.doi.org/10.33369/jkf.2.1.9-16.

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Penelitian ini bertujuan untuk menghasilkan rancangan pengembangan prototype alat pendeteksi dan pengusir tikus pada pembibitan kelapa sawit berbasis Arduino Uno. Penelitian ini menggunakan metode penelitian Research and Development. Tahapan dalam penelitian ini meliputi: perencanaan, produksi dan evaluasi. Alat pendeteksi dan pengusir tikus pada pembibitan kelapa sawit ini tersusun oleh komponen-komponen elektronik, seperti sensor PIR sebagai pendeteksi pergerakan tikus, Arduino uno sebagai pengendali utama sistem dan penghubung modul GSM SIM900A. GSM SIM 900A berfungsi untuk alat komunikasi antara alat dengan user dalam satu arah. Alat pendeteksi dan pengusir tikus ini akan mengusir tikus dengan menggunakan suara yang dikeluarkan oleh speaker dari audio generator dengan frekuensi ultrasonik. Berdasarkan pengujian yang telah dilakukan pada alat yang dibuat, didapat bahwa prototype alat pendeteksi dan pengusir tikus pada pembiitan kelapa sawit berbasis Arduino Uno layak untuk digunakan untuk mendeteksi dan mengusir tikus. Kata kunci: sensor PIR, Arduio Uno, GSM SIM900A, Audio Generator, Research and Development (R&D)
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Abdulhamid, Mohanad, and Kimani Njoroge. "Irrigation system based on Arduino uno microcontroller." Poljoprivredna tehnika 45, no. 2 (2020): 67–78. http://dx.doi.org/10.5937/poljteh2002067a.

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

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ABSTRAK Penelitian bertujuan untuk (1) menghasilkan rancangan sistem kontrol kipas angin dan lampu otomatis berbasis saklar suara menggunakan Arduino Uno (2) dan menghasilkan alat sistem kontrol kipas angin dan lampu otomatis berbasis saklar suara menggunakan Arduino Uno. Metode penelitian yang digunakan adalah Research and Development. Tahap pengembangan dalam penelitian ini meliputi perancangan, produksi dan evaluasi. Sistem kontrol kipas angin dan lampu otomatis berbasis saklar suara menggunakan Arduino Uno terdiri dari komponen-komponen elektronika seperti Bluetooth HC-05 sebagai koneksi antara smartphone android dengan Arduino Uno, relay sebagai pemutus arus listrik dan Arduino Uno sebagai sistem kontrol dari semua rangkaian. Jarak maksimum jangkauan Bluetooth HC-05 adalah 17 meter tanpa penghalang dan 7 meter dengan penghalang. Adapun hasil validasi isi dan teknis dalam penelitian ini menunjukan bahwa sistem kontrol kipas angin dan lampu otomatis berbasis saklar suara menggunakan Arduino Uno memperoleh persentase sebesar 82,5% sehingga dikategorikan baik. Berdasarkan data yang diperoleh dapat disimpulkan bahwa sistem kontrol kipas angin dan lampu otomatis berbasis saklar suara menggunakan Arduino Uno layak untuk digunakan sebagai pengontrol lampu berbasis suara. kata kunci: Bluetooth HC-05, relay empat channel, saklar suara, arduino uno. ABSTRACT This study aims to (1) produce a draft control system fan and lamp-based automatic voice switch using the Arduino Uno (2) and generate tool control system fan and lamp-based automatic voice switch using the Arduino Uno. The method was used the Research and Development. The development stage in this research included the design, production and evaluation. The control system and automatic headlights fan-based voice switch using the Arduino Uno consists of electronic components such as HC-05 Bluetooth as the connection between android smartphone with the Arduino Uno, relay as the electric circuit breaker and Arduino Uno as the control systems of all the series. The maximum distance of HC-05 Bluetooth range of 17 meters without obstructions and 7 meters to the barrier. As for the contents and technical validation results from the studied show that the control system fan and automatic light switch-based voice using Arduino Uno obtained a percentage of 82.5% and good category. Based on the data obtained can be concluded that the control system and automatic headlights fan-based voice switch using the Arduino Uno was eligible to be used as a voice-based lighting controller. Keywords: Bluetooth HC-05, four-channel relay, voice switch, Arduino Uno
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Pandiangan, Dosman Tonggotua. "Perancangan Sistem Alat Kontrol Lampu menggunakan Perintah SMS dengan Modul GSM SIM 800l berbasis Metode Arduino." JUKI : Jurnal Komputer dan Informatika 3, no. 2 (November 20, 2021): 52–58. http://dx.doi.org/10.53842/juki.v3i2.61.

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Pemanfaatan teknologi untuk menjalankan fungsi peralatan dalam rumah tangga saat ini sudah banyak digunkaan dengan berbagai inovasinya. Salah satunya mikrokontroler seperti Arduino, ARMcortex-M0 yaitu board berbasis mikrokontroler pada ATMega 328. Pada penelitian ini akan dibahas pemanfaatan mikrokontroler dengan perintah short message untuk mengoperasikan saklar lampu. Ide penelitian ini dengan mengobservasi kebiasaan masyarakat dalam mengoperasikan saklar lampu pada waktu-waktu yang tidak tepat seperti lupa atau sedang bepergian. Mengkolaborasikan Arduino Uno dan GSM Sim800l sebagai penghubung antara perangkat dan handphone melalui sms akan bekerja berdasarkan perintah yang diberikan melalui perintah sms, module GSM Sim800l digunakan sebagai alat perintah sms yang diterima dari android dalam kendali alat mematikan dan menghidupkan lampu. Agar Module GSM Sim800l dalam Arduino uno dapat memberikan suatu instruksi untuk mengontrol lampu dari jarak jauh, Module GSM Sim800l atau pun Arduino uno tersebut memerlukan sebuah program yang di input kedalam Arduino uno R3 dalam aplikasi arduino uno, biasanya program dibuat dengan menggunakan bahasa Bahasa C. Dengan menggunakan program arduino dengan command “void”, maka pemograman mendapatkan banyak kemudahan dalam mengatur sistem kerja dari Arduino uno R3 atau arduino uno.
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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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Alur, Anita. "Smart Helmet using Arduino UNO." International Journal for Research in Applied Science and Engineering Technology 7, no. 9 (September 30, 2019): 1040–43. http://dx.doi.org/10.22214/ijraset.2019.9149.

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kumar, Adamya. "Home Automation Using Arduino Uno." International Journal of Scientific and Research Publications (IJSRP) 9, no. 12 (December 6, 2019): p9614. http://dx.doi.org/10.29322/ijsrp.9.12.2019.p9614.

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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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Pratmanto, Dany, Rousyati Rousyati, Ratna Kurnia Sari, Husni Mubarok, Fitria Tisa’ Tiffani, and Fathurrohman Al Ubaidillah. "RANCANG ALAT PENDETEKSI GOLONGAN DARAH BERBASIS ARDUINO UNO." Indonesian Journal on Software Engineering (IJSE) 6, no. 1 (June 26, 2020): 145–51. http://dx.doi.org/10.31294/ijse.v6i1.8555.

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Sekarang ini banyak diciptakan alat-alat kesehatan seperti stetoskop, thermometer, alat suntik dan tensimeter yang semakin canggih guna memudahkan pemberian pelayanan kesehatan. alat-alat tersebut juga dibuat dengan tujuan untuk membantu pekerjaan manusia, salah satunya alat kesehatan yaitu alat pendeteksi golongan darah. Dimulai dari proses sensor LED sebagai transmitter dan sensor photodioda serta serum Anti A, Anti B, Anti D, rangkaian komparator dan pengolahan data menggunakan Arduino Uno kemudian sensor akan diolah dan hasil pembacaan golongan darah akan ditampilkan pada LCD display. Dirancang untuk mengetahui golongan darah manusia secara otomatis dan cepat menggunakan metode ABO. cara kerja alat ini adalah sampel darah yang telah ditetesi antisera dan ditempatkan pada preparat, dan dideteksi oleh optoisolator kemudian data dari optoisolator dikirimkan ke Ardunio Uno yang telah diprogramkan untuk menentukan golongan darah. Kemudian hasil dari instruksi-instruksi yang ada pada mikrokontroler Arduino Uno tersebut sehingga output nya langsung dapat ditampilkan pada LCD dan dicetak hasil pengujian golongan darah yang nanti nya tampilannya meliputi: golongan darah, yang telah diuji. gunanya untuk menjadi bukti untuk pasien yang telah melakukan pemeriksaan golongan darah di tempat klinik tersebut. pada perancangan alat ini digunakan bahasa pemograman bahasa CKata kunci: Pembuatan Alat Pendeteksi Golongan Darah Berbasis Arduino Uno, Metode ABO, Sensor photodioda dan LED
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Dissertations / Theses on the topic "Arduino Uno"

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Гавриленко, С. В., Андрій Володимирович Павлов, Андрей Владимирович Павлов, and Andrii Volodymyrovych Pavlov. "Двохкоординатний стіл з ЧПУ на основі Arduino UNO." Thesis, Сумський державний університет, 2017. http://essuir.sumdu.edu.ua/handle/123456789/65222.

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Об’єктом дослідження було обрано двухкоординатний стіл з двома біполярними кроковими двигунами. Аналізуючи багато варіантів для управління кроковими двигунами було обрано плату Arduino Uno на основі десятирозрядної мікросхеми Atmega328.
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Kumar, Ayush. "Home automation via Bluetooth using the Arduino Uno microcontroller." Thesis, California State University, Long Beach, 2016. http://pqdtopen.proquest.com/#viewpdf?dispub=10195769.

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Home automation systems have gained popularity in recent years, paralleling the advances in the concept of the Internet of Things. The current project presents the implementation of an inexpensive home automation system, within the framework of assistive technology. The system implementation is based on the Arduino microcontroller, with Bluetooth communications capability, and it is designed for use by the elderly and people with disabilities. The system is user-friendly, with an intuitive interface implemented on an Android-based smart phone. Demonstrations show that the system facilitates control of home appliances, lights, heating, cooling systems and security devices by the intended users, i.e. the elderly and the disabled.

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HERNANDEZ, GONZALEZ LEONEL 712346, and GONZALEZ LEONEL HERNANDEZ. "Desarrollo de un framework en C# para control de arduino uno." Tesis de maestría, Universidad Autónoma del Estado de México, 2018. http://hdl.handle.net/20.500.11799/98607.

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El internet de las cosas se define de forma general, como la interacción de objetos de la vida cotidiana con los seres humanos y es uno de los temas de investigación más importantes de nuestros tiempos, sin embargo, en México no se tiene el avance que se espera de un país con su nivel de desarrollo. Las razones de esto son la baja divulgación de este tema en las universidades y en general en las escuelas; el nivel de complejidad, ya que se requiere conocer temas de programación, electrónica, sistemas digitales y comunicaciones y el tiempo de desarrollo, debido a que es necesario escribir código en dos lenguajes diferentes, el de la placa de desarrollo y otro de alto nivel. Este trabajo se centra en mostrar a los profesionales de la computación y a los interesados en el uso de IoT la forma de desarrollar aplicaciones con el uso de la placa Arduino y C#, además, como resultado del trabajo de investigación, se genera un marco de trabajo para la elaboración rápida de aplicaciones de este tipo.
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Lingaria, Dhruvin M. "Assistive voice recognition device for GSM calling using Arduino UNO." Thesis, California State University, Long Beach, 2015. http://pqdtopen.proquest.com/#viewpdf?dispub=1600584.

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Developing a smart home environment for the assistive living requires great efforts. The key element of the smart environment is the ubiquitous voice user interface with several additional capabilities such as the recognition of several gestures, which can be a new feature of voice controlled devices. There are many identification technologies used in current intelligent guard systems. Relative to other techniques, the voice recognition technology is generally regarded as one of the convenient and safe recognition techniques. The assistive device project has incorporated the technology of voice recognition to perform the GSM calling. Arduino UNO is the microprocessor used to create an interface between the voice module and the GSM module SIM900. Platform was developed using inexpensive hardware and software elements available on the market People with disabilities showed high robustness for assistive device. Sample voice commands were stored in the temporary memory for the ATMEGA 328P when field tests with several sets of voice commands was done. The GSM module SIM900 could easily connect to the local cellular network carriers. Hence voice recognized emergency calling can be the future of biomedical field.

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Brighi, Matteo. "Interfacciamento di un sistema embedded Arduino UNO e ESP8666 alla piattaforma semantica SEPA." Bachelor's thesis, Alma Mater Studiorum - Università di Bologna, 2021. http://amslaurea.unibo.it/22788/.

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All'interno dell'elaborato si descrive l'interfacciamento di due microcontrollori, Arduino UNO ed ESP8266, con la piattaforma semantica Publish/Subscribe SEPA. Nel primo capitolo vengono illustrate le caratteristiche dell'architettura SEPA, quali il modello dati RDF (Resource Description Framework) e SPARQL 1.1 SE Protocol, linguaggio che permette le operazioni di manipolazione dei dati attraverso tre primitive (Update, Query e Subscribe). Viene inoltre esposto il concetto di REST Service, utilizzato per incrementare l'autonomia del sistema. Nel secondo capitolo viene presentato l'ambiente di sviluppo Arduino ed i microcontrollori utilizzati, descrivendone le caratteristiche hardware e software. Vengono inoltre analizzate le motivazioni principali per le quali si è deciso di spostarsi da Arduino UNO al modulo ESP-01, che utilizza il chip ESP8266. Infine, il terzo capitolo, contiene un esempio di funzionamento, nel quale sono state utilizzate le tecnologie esposte per la realizzazione di un sistema IoT: vengono mostrate le soluzioni hardware e software realizzate per l'implementazione di una rete composta da due nodi sensori (ESP-01 ed Arduino Yun Rev 2), che, interfacciandosi con il server SEPA in una rete locale LAN/WLAN, si scambiano informazioni su temperatura ed umidità. All'interno della rete è presente anche un server REST, implementato su Arduino UNO, che fornisce la configurazione al modulo ESP-01. L'applicazione sviluppata ha dimostrato come i microcontrollori di questa famiglia possano essere utilizzati in applicazioni reali ed ha consentito di presentare il progetto SEPINO. Questo progetto è in fase di sviluppo e mira alla diffusione della tecnologia SEPA sfruttando l'interfacciamento con i vari microcontrollori della famiglia Arduino e rendendo questa tecnologia fruibile da tutti attraverso la diffusione di una specifica libreria.
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Ivor, Martin. "Goniofotometr." Master's thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2020. http://www.nusl.cz/ntk/nusl-413274.

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The thesis deals with the design of a goniophotometer and the GUI (Graphical User Interface), capable of evaluating the photometric parameters of light sources and luminaires. The introduction contains theoretical information about photometry, photometric parameters, light sources, lamps, as well as the theory of measuring these parameters, and basic globally used data formats, designed to store the parameters of light sources. The core of this thesis, then describes the hardware, that makes up the proposed device, and the software needed to control the measurement process, visualization and storing the results. The conclusion is an evaluation of the functionality of the described device, and the measurements that were mediated by it, and an overall summary of the results achieved.
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Abraham, Sherin. "Development of a Cost Effective Wireless Sensor System for Indoor Air Quality Monitoring Applications." Thesis, University of North Texas, 2014. https://digital.library.unt.edu/ark:/67531/metadc499988/.

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Poor air quality can greatly affect the public health. Research studies indicate that indoor air can be more polluted than the outdoor air. An indoor air quality monitoring system will help to create an awareness of the quality of air inside which will eventually help in improving it. The objective of this research is to develop a low cost wireless sensor system for indoor air quality monitoring. The major cost reduction of the system is achieved by using low priced sensors. Interface circuits had to be designed to make these sensors more accurate. The system is capable of measuring carbon dioxide, carbon monoxide, ozone, temperature, humidity and volatile organic compounds. The prototype sensor node modules were developed. The sensor nodes were the connected together by Zigbee network. The nodes were developed in such a way that it is compact in size and wireless connection of sensor nodes enable to collect air quality data from multiple locations simultaneously. The collected data was stored in a computer. We employed linear least-square approach for the calibration of each sensor to derive a conversion formula for converting the sensor readings to engineering units. The system was tested with different pollutants and data collected was compared with a professional grade monitoring system for analyzing its performance. The results indicated that the data from our system matched quite well with the professional grade monitoring system.
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Вербицький, О. І. "Мікропроцесорна комп'ютерно-інтегрована система дозування рідкісніх продуктів." Thesis, Київський національний університет технологій та дизайну, 2019. https://er.knutd.edu.ua/handle/123456789/13756.

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Доценко, В. С. "Лазерні прилади і системи в електроніці: формування топології елементної бази та обробка матеріалів." Master's thesis, Сумський державний університет, 2021. https://essuir.sumdu.edu.ua/handle/123456789/85592.

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Мета даної роботи полягає у вивченні фізичних принципів роботи лазерних пристроїв та систем, що використовуються в електроніці для формування топологію та елементарної бази, а також при обробці матеріалів. Розробка лабораторного стенду базі Arduino Uno для лазерного гравірування. В якості основного елементу в приладах гравірування застосовуються лазер, потужністю від 250 мВт до 5,5 Вт. Від потужності лазера залежить як якість зображення так і глибина контуру гравірування і спроможність лазера гравірувати на різних матеріалах. Наприклад, лазери потужністю від 250 мВт до 1 Вт біль підходять для гравірування дереву, аніж металу або пластмаси.
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Kara, Dilen, and Zaid Jalil. "IoT-nätverk baserade på LoRaWAN : Informationskvalitet i LoRaWAN." Thesis, Tekniska Högskolan, Högskolan i Jönköping, JTH, Datateknik och informatik, 2018. http://urn.kb.se/resolve?urn=urn:nbn:se:hj:diva-41399.

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The Internet was initially built around networks based on physical cables, the next step to improve the accessibility of the Internet came with the introduction of wireless communication. the next step to improving accessibility to the Internet came with the introduction of wireless communication. Because the IoT products are wirelessly connected, they need an internal power source in the form of a battery. Many of the existing communication protocols are therefore not suitable for IoT solutions because they are power consuming. Alternatives to these communication protocols have therefore been developed, for example LTE-M, NB-IoT and LoRaWAN. The study was conducted in cooperation with Etteplan. Etteplan want to invest in LoRaWAN and thus want to gain deeper knowledge within LoRaWAN. Thus, it was chosen to investigate how different factors affect the signal strength transmission time in a LoRaWAN. The focus of the study has thus been on the communication between an IoT node and a receiver in a LoRaWAN, thus the purpose of the study: To show how different data rates, distances and environments affect the quality of information sent from an IoT node to a receiver in LoRaWAN. Design science research was used as a research method, in design science research an artefact is constructed and then studied. In this study, a LoRaWAN was constructed and the communication between an IoT node and receiver in this LoRaWAN was studied. To study the communication between the IoT node and the receiver, two experiments were performed. The experiments were performed simultaneously where the difference was in the data collected, one experiment collected the signal strength and the second the transmission time. The experiment was conducted in two different environments, one with a clear view and one with blockages. In the experiment, the IoT node was positioned at different distances with different data rates. The result of the study shows how different data rates, distances and environments affected the quality of information between an IoT node and receiver and how they relate to previous research. Data rate was the factor that affected the quality of the information most. Data rate had minimal impact on signal strength, but great impact on number of lost data packet and transmission times. The two different environments had no effect on the transmission time, but the signal strength was over 10 dbm lower in the urban environment than with clear view. The distance had no effect on transmission time and minimal impact on signal strength.
Internet var i begynnelsen uppbyggt kring nätverk baserade på fysiska kablar, nästa steg för att förbättra tillgängligheten till Internet kom med introduktionen av trådlös kommunikation. Ett nytt begrepp dök upp vid millennieskiftet, Internet of Things (IoT). Tanken bakom IoT är att olika typer av produkter, som exempelvis tandborstar och kylskåp trådlöst kopplas upp mot Internet. Eftersom IoT-produkterna är trådlöst uppkopplade behöver de en intern strömkälla i form av ett batteri. Många av de existerande kommunikationsprotokollen lämpar sig därför inte för IoT-lösningar eftersom dessa är strömkrävande. Alternativ till dessa kommunikationsprotokoll har därför tagits fram, till exempel LTE-M, NB-IoT och LoRaWAN. Studien utfördes i samarbete med Etteplan. Etteplan vill satsa på LoRaWAN och vill därmed få en djupare kunskap inom LoRaWAN. Därmed valdes det att undersöka hur olika faktorer påverkar signalstyrkan och sändningstiden i ett LoRaWAN. Studiens fokus har därmed varit på kommunikationen mellan en IoT-nod och en mottagare i ett LoRaWAN, därmed är studiens syfte: Att visa på hur olika datahastigheter, avstånd och miljöer påverkar kvaliteten på informationen som sänds från en IoT-nod till en mottagare i ett LoRaWAN. Design science research användes som forskningsmetod då i design science research konstrueras en artefakt som att sedan undersöks. I studiens fall konstruerades ett LoRaWAN där sedan kommunikationen mellan en IoT-nod och mottagare i detta LoRaWAN studerades. För att studera kommunikationen mellan en IoT-nod och en mottagare utfördes två experiment. Experimenten utfördes samtidigt där skillnaden låg i datat som samlades in, det ena experimentet samlade in signalstyrkan och den andra sändningstiden. Experimentet utfördes i två olika miljöer, en med fri sikt och en med blockeringar. I experimentet positionerades IoT-noden på olika avstånd med olika datahastigheter. Resultatet från studien visar hur olika datahastigheter, avstånd och miljöer påverkade kvaliteten på informationen mellan en IoT-nod och mottagare och hur de relateras till tidigare forskning. Datahastigheten var den faktorn som påverkade kvaliteten på informationen mest. Datahastigheten hade minimal påverkan på signalstyrkan, men stor påverkan på antal förlorade datapaket och sändningstider. De två olika miljöerna hade ingen påverkan på sändningstiden, men signalstyrkan var över 10 dbm lägre i stadsmiljön än med fri sikt. Avståndet hade ingen påverkan på sändningstiden och minimal påverkan på signalstyrkan.
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Books on the topic "Arduino Uno"

1

Vaccari, Ezio. Giovanni Arduino (1714-1795): Il contributo di uno scienziato veneto al dibattito settecentesco sulle scienze della terra. Firenze: L.S. Olschki, 1993.

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Odendahl, Manuel. Arduino - Physical Computing fu r Bastler, Designer und Geeks. 2nd ed. Ko ln: O'Reilly, 2010.

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Odendahl, Manuel. Arduino - physical computing für Bastler, Designer und Geeks: [Microcontroller-Programmierung für alle, Prototype your life, mit kompletter Programmiersprachenreferenz]. Beijing: O'Reilly, 2009.

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Brunhofer, Ursula. Arduin von Ivrea und seine Anhänger: Untersuchungen zum letzten italienischen Königtum des Mittelalters. Augsburg: Arethousa, 1999.

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Giachino, Monica, and Adriana Mancini. Donne in fuga. Venice: Edizioni Ca' Foscari, 2018. http://dx.doi.org/10.30687/978-88-6969-238-3.

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Sotto un titolo senza dubbio attraente e provocatorio, questo libro raccoglie alcuni saggi e articoli essenziali per capire la condizione femminile nel momento in cui questa è posta in discussione, chiamata in causa, mossa dall’impulso alla fuga, da quel difficile spostamento della volontà che rivela chiaramente un potere in movimento, un’energia nomade che le donne, nel corso della storia, hanno sempre saputo praticare.Bajo un título atractivo y provocador, este libro hace algo más que compilar enjundiosos ensayos y artículos en torno a la condición femenina cuando se halla interpelada, convocada, lanzada por la fuga, por ese arduo desplazamiento de la voluntad que deja ver a las claras un poder en movimiento, una energía nómade que las mujeres han sabido practicar a lo largo de la historia.
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La Pieve di Sasso e le sue sculture: Ricerche sull'arte di una chiesa romanica dell'Appennino parmense. Lupazzano di Neviano degli Arduini (Parma) [Italy]: Centro studi delle Valli del Termina, 2003.

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Smith, Warwick A. Arduino Uno Hardware Manual: A Reference and User Guide for the Arduino Uno Hardware and Firmware. CreateSpace Independent Publishing Platform, 2019.

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Analog & digital communication lab : MATLAB/SIMULINK + arduino uno + circuits. CreateSpace Independent Publishing Platform, 2015.

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The AVR Microcontroller and Embedded Systems Using Assembly and C: Using Arduino Uno and Atmel Studio. MicroDigitalEd, 2017.

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Vásconez Barrera, Milton Fabián, Julio Mauricio Oleas López, and Byron Fernando Castillo Parra. Control y automatización en los procesos gerenciales con tecnología open hardware. CIDEPRO EDITORIAL, 2021. http://dx.doi.org/10.29018/978-9942-823-79-3.

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El desarrollo de la presente obra ha sido implementado en la Planta Académica Avícola de la Espoch, la cual ha permitido realizar el diseño del control automatizado de una planta avícola utilizando tecnología Open Hardware Arduino que permitió una solución económica. Se acopló una tarjeta microcontroladora a otra tarjeta que se diseñó específicamente para la conexión de los sensores y actuadores. Los sensores se seleccionaron de acuerdo a las características técnicas de un proceso de crianza de pollos de engorde, miden temperatura, humedad, intensidad de luz, amoníaco, monóxido de carbono y gases inflamables. Este módulo debe colocarse a una altura entre 0,80 y 1,5 m. y fuera de la influencia directa de calefactores o ventiladores.
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Book chapters on the topic "Arduino Uno"

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Yogesh. "Introduction to Arduino UNO Board." In Programming and Interfacing with Arduino, 1–13. Boca Raton: CRC Press, 2021. http://dx.doi.org/10.1201/9781003201700-1.

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Khan, Mohd Faizan, and Ankita Kumar. "White Cane Navigation Using Arduino Uno." In Advances in Intelligent Systems and Computing, 1719–27. Singapore: Springer Singapore, 2018. http://dx.doi.org/10.1007/978-981-10-5903-2_177.

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Malhotra, Meenakshi, Inderdeep Kaur Aulakh, Navpreet Kaur, and Navneet Singh Aulakh. "Air Pollution Monitoring Through Arduino Uno." In Advances in Intelligent Systems and Computing, 235–43. Singapore: Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-0936-0_24.

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Prajapati, Ashish B. "Person Fall Detection System Using Arduino UNO, SIM900A, and NEO6." In Rising Threats in Expert Applications and Solutions, 651–57. Singapore: Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-6014-9_78.

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Krishna, B. V. Santhosh, L. Sowmya, Neetha Nataraj, Nivedita Salimath, and ShivaniYadav. "Arduino UNO-Based Smart Hand Gloves for Physically Challenged People." In Micro-Electronics and Telecommunication Engineering, 251–56. Singapore: Springer Singapore, 2022. http://dx.doi.org/10.1007/978-981-16-8721-1_24.

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Bauer, Waldemar, and Aleksandra Kawala-Janik. "Implementation of Bi-fractional Filtering on the Arduino Uno Hardware Platform." In Lecture Notes in Electrical Engineering, 419–28. Cham: Springer International Publishing, 2016. http://dx.doi.org/10.1007/978-3-319-45474-0_37.

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Djehaiche, Rania, Salih Aidel, and Nihad Benziouche. "Design and Implementation of M2M-Smart Home Based on Arduino-UNO." In Artificial Intelligence and Renewables Towards an Energy Transition, 697–706. Cham: Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-63846-7_66.

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Kasiselvanathan, M., J. Prasad, and G. Sekar. "Arduino UNO Controller and RTC-Based Medication Reminder and Monitoring System." In Proceedings of International Conference on Communication and Artificial Intelligence, 199–204. Singapore: Springer Nature Singapore, 2022. http://dx.doi.org/10.1007/978-981-19-0976-4_17.

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Rusyn, Volodymyr, Aceng Sambas, and Christos H. Skiadas. "Security Access Using Simple RFID Reader and Arduino UNO: A Study Case." In Lecture Notes in Networks and Systems, 193–202. Cham: Springer International Publishing, 2022. http://dx.doi.org/10.1007/978-3-031-03877-8_17.

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Othman, Wan Zulkarnain, Mohamad Redhwan Abd Aziz, Nor Hana Mamat, and Ahmad Fikri Ramli. "Development of Cutting Force Measurement Instrument for Turning Tool Post Using Arduino UNO." In Proceedings of the 1st International Conference on Electronics, Biomedical Engineering, and Health Informatics, 239–49. Singapore: Springer Singapore, 2021. http://dx.doi.org/10.1007/978-981-33-6926-9_21.

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Conference papers on the topic "Arduino Uno"

1

Taneja, Kriti, and Sanmeet Bhatia. "Automatic irrigation system using Arduino UNO." In 2017 International Conference on Intelligent Computing and Control Systems (ICICCS). IEEE, 2017. http://dx.doi.org/10.1109/iccons.2017.8250693.

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Kovacevic, H., and Z. Stojanovic. "Buck converter controlled by Arduino Uno." In 2016 39th International Convention on Information and Communication Technology, Electronics and Microelectronics (MIPRO). IEEE, 2016. http://dx.doi.org/10.1109/mipro.2016.7522401.

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Supriya, H. P., and R. Hanumantharaju. "Elegant Placing Scheme Using Arduino Uno." In 2018 International Conference on Communication and Signal Processing (ICCSP). IEEE, 2018. http://dx.doi.org/10.1109/iccsp.2018.8524374.

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Aziz, Tengku Azita Tengku, and Muhammad Syamir Subri. "Footstep power generation using Arduino Uno." In APPLIED PHYSICS OF CONDENSED MATTER (APCOM 2019). AIP Publishing, 2019. http://dx.doi.org/10.1063/1.5118105.

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Muntasir Rahman, A. M., Md Rakib Hossain, Md Quamar Mehdi, Eftakhar Alam Nirob, and Jia Uddin. "An Automated Zebra Crossing using Arduino-UNO." In 2018 International Conference on Computer, Communication, Chemical, Material and Electronic Engineering (IC4ME2). IEEE, 2018. http://dx.doi.org/10.1109/ic4me2.2018.8465496.

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YANIK, Huseyin, Erdem UYSAL, and Abdullah ELEWI. "Multitasking Driver Assistance System Using Arduino Uno." In 2018 International Conference on Artificial Intelligence and Data Processing (IDAP). IEEE, 2018. http://dx.doi.org/10.1109/idap.2018.8620939.

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Rahman, K. K. Mujeeb, M. Monica Subashini, Mohamed Nasor, and Ayman Tawfik. "Development of bio-shields for Arduino Uno." In 2018 Advances in Science and Engineering Technology International Conferences (ASET). IEEE, 2018. http://dx.doi.org/10.1109/icaset.2018.8376901.

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Najmie, M. S., and M. K. Fadzly. "Thermoelectric portable water cooler using Arduino Uno." In APPLIED PHYSICS OF CONDENSED MATTER (APCOM 2019). AIP Publishing, 2019. http://dx.doi.org/10.1063/1.5118155.

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Santiago Filho, Carlos, Cleymisom Trindade, Daniel Ferreira, Carlos Carvalho Júnior, Carlos Ramos, Ciro Montero, Júlio Militão, and Wilson Peternele. "BAFÔMETRO ELETRÔNICO CONTROLADO PELA PLATAFORMA ARDUINO UNO." In XIII International Conference on Engineering and Technology Education. Science and Education Research Council (COPEC), 2014. http://dx.doi.org/10.14684/intertech.13.2014.452-456.

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Trindade, Cleymisom, Daniel Ferreira, Carlos Carvalho Júnior, Samuel Souza, Júlio Militão, Wilson Peternele, and Ciro Monteiro. "BREATHALYZER ELECTRONIC CONTROLLED BY ARDUINO UNO PLATFORM." In XIV Safety, Health and Environment World Congress. Science and Education Research Council (COPEC), 2014. http://dx.doi.org/10.14684/shewc.14.2014.23-28.

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Reports on the topic "Arduino Uno"

1

Frost, Sandra L. Introduction to Arduino Uno. Office of Scientific and Technical Information (OSTI), December 2017. http://dx.doi.org/10.2172/1412918.

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Maroñas, Cecilia, Nicolás Rezzano, and Marcello Basani. El saneamiento urbano en Montevideo: 40 años de logros y lecciones aprendidas hacia un servicio adecuado y universal. Inter-American Development Bank, May 2021. http://dx.doi.org/10.18235/0003281.

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Un elemento clave para evitar repetir los errores y avanzar hacia un futuro mejor consiste en aprender de la propia experiencia. En ese sentido, todos lo acontecido durante los casi 40 años de arduo trabajo en el desarrollo del sistema de saneamiento y drenaje de Montevideo contiene conocimientos prácticos muy valiosos. Extraer lecciones de tales vivencias permite aprovechar el camino transitado y mejorar el desempeño de los futuros proyectos que se desarrollen en la región. Esto es así, en gran medida, porque la ejecución ininterrumpida de las distintas etapas del Plan de Saneamiento Urbano de Montevideo lo han convertido en un caso de éxito sin precedentes a nivel latinoamericano. En este trabajo se identifican cuatro grandes grupos de lecciones aprendidas, vinculados con: (i) aspectos de carácter institucional, (ii) aspectos relativos al sistema financiero-comercial, (iii) aspectos relacionados con la ejecución de los proyectos que formaron y forman parte del PSU, y (iv) aspectos de carácter social y comunicacional.
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