Relevant bibliographies by topics / Arduino Uno Rev 3

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  1. Journal articles
  2. Dissertations / Theses
  3. Book chapters
  4. Conference papers

Academic literature on the topic 'Arduino Uno Rev 3'

Author: Grafiati
Published: 4 June 2021
Last updated: 10 February 2022

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Journal articles on the topic "Arduino Uno Rev 3"

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Ishak, Nurul Huda, Muhammad Naim Zainodin, Nur Ashida Salim, Faizal Muhamad Twon Tawi, and Aini Hafiza Mohd Saod. "A Design of an Automatic Single Phase Power Factor Controller by Using Arduino Uno Rev-3." Applied Mechanics and Materials 785 (August 2015): 419–23. http://dx.doi.org/10.4028/www.scientific.net/amm.785.419.

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This paper presents a computationally accurate technique to design an automatic single phase power factor controller by using microcontroller. The hardware implementation was developed by using Arduino Uno Rev-3 main board which uses the ATmega328 as the microcontroller. The power factor value from the load was measured by using voltage and current transformers, zero crossing detectors, and ATmega328 microcontroller. Zero crossing detectors produced current and voltage signals which will be measured and calculated for the time difference between both signals by ATmega328 microcontroller using appropriate algorithms in order to obtain value of power factor. The ATmega328 is programmed to automatically switch on and off capacitor function in order to control the signal pulse send to relay to connect and disconnect capacitor parallel with the load when energized and de energized if the calculated power factor value is either below 0.9 or above 0.9, respectively. Simulation of the power factor controller model was performed by using Proteus software. Arduino IDE software was used as the compiler for the Arduino Uno. The main objective is to study and develop the technology of automatic single phase power factor controller using Arduino Uno Rev-3 by controlling the power factor of the inductive load near to unity power factor. The results of the power factor value were displayed on the LCD and the power factor is corrected if it falls below 0.9 in order to prevent penalty by the power supplier. The effectiveness of the proposed technique could assist the monitoring unit in order to maintain the power factor at the value set by the utility.
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Deddy Prayama, Deni Satria, Amelia Yolanda, and Roni Putra. "Web Monitoring Temperature Ruangan berbasis Arduino Uno R3 dengan Fuzzy Logic." Jurnal Ilmiah Poli Rekayasa 12, no. 2 (2017): 24. http://dx.doi.org/10.30630/jipr.12.2.44.

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This study aims to develop a prototype system of control and monitoring of temperature, humidity and light automatic room with fuzzy logic-based Arduino Uno Rev. 3. The prototype built will be able to perform the function of monitoring the temperature of the room, light and moisture. This function can be accessed through the web pages and the internet, simultaneously displayed on the outdoor walls of the data center with 20x2 LCD size.
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Rismawan, Rismawan, and Moh Toifur. "Signal processing of C-RTD Sensor output as the input to the instrument of low temperature monitoring using Arduino Uno Rev.3." Indonesian Review of Physics 1, no. 2 (2019): 48. http://dx.doi.org/10.12928/irip.v1i2.809.

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The C-RTD (Coil-Resistance Temperature Detector) output signal is an analog signal in the form of a direct voltage. This value changes with changes in RTD temperature. This analog signal can be read by users using a multimeter or similar device but does not directly indicate the RTD temperature. In order to obtain RTD temperature values, an additional device is required. In order to have a useful value and practicality, a device that can convert analog signals into values can be read directly by the user. The microcontroller was chosen as a used device. The selected microcontroller system is Arduino Uno because has been coupled with input and output ports so users only need to enter programs related to the system being created. In the other hand Arduino Uno by considering the low cost and practical. For the measurement system, the RTD output signal must be conditioned into a digital signal using the ADC so that it can be processed by the microcontroller. From testing instrument obtained that the system has been able to convert analog RTD signals into digital signals. The range of measurement is -176°C to 0°C with an accuracy of ± 0.20 / mV.
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Karim, Jihadul Akbar, and Edidas Edidas. "Perancangan Dan Pembuatan Mesin Tetas Telur Burung Puyuh Berbasis Mikrokontroler." Voteteknika (Vocational Teknik Elektronika dan Informatika) 8, no. 1 (2020): 18. http://dx.doi.org/10.24036/voteteknika.v8i1.107658.

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Tujuan dari perancangan dan pembuatan alat ini adalah untuk menghasilkan software dan alat tetas telur burung puyuh otomatis dengan menggunakan arduino uno sebagai mikrokontroler. Arduino uno akan mengatur seluruh kerja sistem alat tetas telur sesuai dengan program yang diberikan. Pembuatan alat ini menggunakan metode rak geser untuk memutar telur secara otomatis. Dengan metode rak geser ini motor akan bergerak setiap 3 jam sekali selama 3 detik menggeser rak sehingga telur akan berputar. Hasil pembuatan alat ini adalah terciptanya sebuat alat tetas telur burung puyuh otomatis berbasis mikrokontroler. Setelah melakukan percobaan menetaskan telur burung puyuh alat ini memperoleh keberhasilan penetasan sebesar 85 %. Berdasarkan hasil percobaan dapat dinyatakan bahwa sistem penetasan telur burung puyuh menggunakan alat ini bekerja dengan baik dan bisa diimplementasikan sebagaimana tujuan pembuatan alat ini.Kata kunci : Arduino Uno, DHT 11, Passive Infra Red (PIR), dimmer. The purpose of the design and manufacture of this tool is to produce automatic quail egg software and hatching tools using Arduino Uno as a microcontroller. Arduino Uno will manage the entire work of the hatchery system in accordance with the given program. Making this tool uses a sliding rack method to rotate eggs automatically. With this sliding rack method the motor will move every 3 hours for 3 seconds to move the rack so the eggs will spin. The result of making this tool is the creation of a microcontroller-based automatic quail egg hatching tool. After conducting experiments, hatching quail eggs, this tool gained 85% hatch success. Based on the results of experiments it can be stated that the quail egg hatching system using this tool works well and can be implemented as the purpose of making this tool. Keywords: Arduino Uno, DHT 11, Passive Infra Red (PIR), dimmer.
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Sepulveda Mora, Sergio Basilio, Jhon Alejandro Castro Correa, Byron Medina Delgado, Dinael Guevara Ibarra, and Oriana Alexandra Lopez Bustamente. "Sistema de Geolocalización de Vehículos a través de la red GSM/GPRS y tecnología Arduino." Revista EIA 16, no. 31 (2019): 145–57. http://dx.doi.org/10.24050/reia.v16i31.1269.

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Para localizar y guardar datos del posicionamiento geográfico de vehículos en tiempo real, se diseñó un sistema de geolocalización compuesto de dos elementos: un prototipo para el envío de coordenadas usando tecnología GPRS y un servidor web para la recepción y almacenamiento de la información recibida desde un GPS. Se utilizó el sistema embebido Raspberry Pi 3, configurado como servidor web HTTP bajo Apache 2.4, integrando PHP y MySQL. Se definió una IP estática local por medio de DHCP para establecer la comunicación del servidor con Internet. El hardware utilizado para enviar los datos corresponde a una tarjeta Arduino UNO; un módulo GPRS, programado mediante comandos AT y un GPS, cuya trama de datos $GPRMC corresponde al estándar NMEA. Los resultados obtenidos muestran una diferencia promedio de 6.50 m entre los datos de ubicación geográfica del dispositivo frente a los valores obtenidos mediante la geolocalización por HTML5; asimismo, se confirmó que el consumo diario del sistema es de 367.97 kB. Finalmente, a través de la puesta en marcha del prototipo se comprobó la precisión del dispositivo en comparación a otras alternativas de geolocalización, así como la viabilidad del uso de datos por medio de SIM card a través del protocolo GPRS.
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Yankotinu Al Qod'r Jonnata, Fahrudin Mukti Wibowo, and Iqsyahiro Kresna A. "Prototype Pendeteksi Daerah Rawan Kecelakaan Berbasis Internet of Things." Jurnal RESTI (Rekayasa Sistem dan Teknologi Informasi) 4, no. 6 (2020): 1017–27. http://dx.doi.org/10.29207/resti.v4i6.2530.

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The high number of deaths due to traffic accidents is still a problem for every country where Indonesia ranks third in Asia with 38,279 deaths according to the 2015 Global Status Report on Road Safety. Blackspots scattered in Indonesia has a role in contributing to the death rate, however not all blackspots are equipped with warning signs. Based on these problems then developed a prototype in the form of a device for detecting and website as the central information system of blackspots based Internet of Things. The prototype is designed using an Arduino Uno Rev 3 microcontroller equipped with a GPS module to measure vehicle speed and distance from the setpoint before arriving on blackspots, a GSM module to download blackspots data and upload speed and distance data to the database, and LED components, speakers/buzzer, OLED display to provide notification every time crossing the setpoint of blackspots. The usability testing performance measurement method is used to measure the performance of the device prototype and the black box testing method is used to validate each function of the website system. The results of this research obtained the success rate of the prototype device was 60% with the highest error rate of 19.09% at the 1500m setpoint for speed and 57.98% at 10m setpoint for the distance.
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Sofyan, Wahyudi, Muhammad Niswar, and Andani Achmad. "Design of Water Quality Monitoring System for Crab Larvae using IOT." EPI International Journal of Engineering 3, no. 1 (2020): 46–49. http://dx.doi.org/10.25042/epi-ije.022020.07.

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Abstract Water quality is one of the determining factors in maintaining survival and growth of crab larvae, therefore we need a tool that can monitor water quality which includes temperature parameters, pH and salinity in real time and online in crab larva culture. This system consists of several sensor nodes with the main component being Arduino Uno which is connected by several sensor nodes as a publisher and Raspberry Pi 3 (RPi3) board as a broker. Data from each sensor node will be sent to brokers with different topics - and stored to a database using a wireless network. The application system used with the MQTT (Message Queue Telemetry Transport) protocol uses a red node. Red node will display data of each sensor node in the form of gauge and graph. In this study a water quality monitoring system was designed and developed. This tool uses the MQTT (Message Queue Telemetry Transport) protocol to display sensor node data in real time.
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Costrada, Aldo Novaznursyah, and Harmadi Harmadi. "Rancang Bangun Sistem Peringatan Dini Pada Perlintasan Kereta Api Berbasis Sensor Serat Optik dan Transceiver nRF24L01+." Jurnal Fisika Unand 8, no. 3 (2019): 234–39. http://dx.doi.org/10.25077/jfu.8.3.234-239.2019.

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Telah dirancang sistem peringatan dini pada perlintasan kereta api menggunakan sensor serat optik dengan metode ekstrinsik. Sensor serat optik digunakan untuk mengukur frekuensi dan amplitudo getaran rel kereta api dengan memanfaatkan perubahan tegangan keluaran dari fotodetektor OPT101. Data getaran dikirim dari sensor serat optik ke sistem peringatan dini menggunakan Transceiver nRF24L01+. Rancang bangun sistem peringatan dini ini terdiri dari sumber cahaya berupa dioda laser, serat optik FD-620-10, fotodioda OPT 101, Arduino Uno sebagai unit pemrosesan sinyal, buzzer sebagai alarm untuk menghasilkan bunyi peringatan,dan LCD sebagai penampil teks peringatan. Hasil pengujian dan analisis data yang telah dilakukan terhadap jarak optimal antara ujung serat optik dengan rel kereta api yaitu 3 mm. Jarak maksimum dari pengiriman data Transceiver nRF24L01+ adalah 604 m tanpa penghalang dan 232 m dengan penghalang. Dalam skala laboratorium, hasil pengukuran frekuensi getaran dengan alat yang dikembangkan dibandingkan dengan function generator, diperoleh kesalahan rata-rata sebesar 0,55 %.Kata kunci: frekuensi, getaran, dioda laser, serat optik
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Junaldi, Junaldi, Zulharbi Zulharbi, and Wiwin Lovita. "Alat Pendeteksi Kesegaran Daging Berdasarkan Sensor Bau dan Warna." Elektron : Jurnal Ilmiah 11, no. 1 (2019): 1–7. http://dx.doi.org/10.30630/eji.11.1.93.

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Pada penelitian ini dirancang sebuah sistem yang dapat mengidentifikasi tingkat kesegaran daging secara cepat dan presisi. Sistem ini diimplementasikan ke dalam Arduino uno, ditampilkan melalui LCD dari hasil identifikasi serta menimbulkan bunyi dari buzzer sebagai penanda sensor teridentifikasi dengan menggunakan sensor bau dan sensor warna sebagai alat pendeteksi kesegaran yang menggantikan indera penciuman dan penglihatan pada manusia dalam menentukan tingkat kesegaran daging. Input yang digunakan adalah berupa nilai tegangan dari sensor bau yaitu sensor TGS2602 beserta nilai Red, Green dan Blue yang didapatkan dari sensor warna TCS3200. Terdapat 3 buah kondisi kesegaran daging yang diuji yaitu daging segar, daging setengah segar dan daging busuk. Penggunaan sensor bau dan sensor warna pada sistem telah berhasil mendapatkan error dan rata-rata yang khusus untuk setiap tingkat kesegaran daging yang diuji. Dari hasil pengujian terhadap tiga buah sampel yang mewakili tingkat kesegaran daging. Tingkat kesegaran daging ditentukan melalui waktu penyimpanan daging diluar ruang pada suhu kamar. hasil rata-rata tegangan pada daging segar adalah < 1.586volt, daging setengah segar adalah > 1.586volt < 1.86volt dan daging busuk < 2.50volt. Error terjadi pada identifikasi daging segar dan setengah segar yang mempunyai pola yang tidak terlalu berbeda,. Bagaimanapun daging ini tidaklah layak untuk dikomsumsi.
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Suryadi, Usep Tatang. "IMPLEMENTASI METODE K-MEANS UNTUK KLASTERISASI LAHAN PERTANIAN STRAWBERRY DI DAERAH SUBANG BERBASIS IoT(INTERNET OF THINGS)." Jurnal Teknologi dan Komunikasi STMIK Subang 13, no. 2 (2020): 49–60. http://dx.doi.org/10.47561/a.v13i2.192.

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Tingkat keasaman, kelembaban dan suhu udara pada tanah berpengaruh besar dalam pertumbuhan tanaman strawberry maka dari itu sangat dibutuhkan sebuah alat untuk mengetahui tingkat keasaman, kelembaban tanah ditambah suhu udara dan sistem klasterisasi tanah pertanian yang cocok untuk tanaman strawberry agar bisa dijadikan rujukan dalam merekomendasikan daerah mana saja yang cocok ditanami strawberry di lahan pertanian para petani di Daerah Subang. Data-data yang diproses oleh sistem didapatkan dari penelitan langsung ke lapangan dan pengambilan sampel tanah ke setiap titik daerah yang sudah ditentukan oleh penulis dengan berbagai pertimbangan mulai dari jenis dataran, suhu dan tingkat kekeringan tanahnya, data yang didapatkan adalah hasil dari sensor yang ditanamkan kedalam mikrokontroler dan disambungkan melalui sebuah jaringan hotspot dari smartphone lalu diproses menggunakan algoritma k-means clustering sehingga bisa diinputkan kedalam database menggunakan platform node-red. Data yang sudah masuk kedalam database bisa langsung diproses/dihitung dengan metode k-means yang sudah penulis tanamkan di dalam sistemnya, dan hasil akhir dari sistem ini kita bisa melihat hasil klasterisasi dari data yang sudah diproses oleh sistem menjadi 3 klaster dan penulis menggunakan 2 buah board mikrokontroler dan 3 sensor, untuk board mikrokontroler penulis memakai Arduino uno dan Node mcu ESP8266, untuk sensor penulis memakai sensor kelembaban tanah (soil moisture) dari China, sensor pH probe/ pH tanah , dan sensor suhu (DHT11) produk lokal dari Indonesia. Sistem yang dibangun menghasilkan klaster area pertanian yang cocok untuk budidaya tanaman strawberry.
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Dissertations / Theses on the topic "Arduino Uno Rev 3"

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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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Book chapters on the topic "Arduino Uno Rev 3"

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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. 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. Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-63846-7_66.

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Ortega-Zamorano, Francisco, José L. Subirats, José M. Jerez, Ignacio Molina, and Leonardo Franco. "Implementation of the C-Mantec Neural Network Constructive Algorithm in an Arduino Uno Microcontroller." In Advances in Computational Intelligence. Springer Berlin Heidelberg, 2013. http://dx.doi.org/10.1007/978-3-642-38679-4_6.

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Mohiddin, Mohammad, Kedarnath Bodapally, Sravani Siramdas, Shainaz, and Sai Kumar Sriramula. "A Real Time Low Cost Water Quality Progress Recording System Using Arduino Uno Board." In Learning and Analytics in Intelligent Systems. Springer International Publishing, 2019. http://dx.doi.org/10.1007/978-3-030-24318-0_24.

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Morchid, Abdennabi, Mustapha El Alaoui, Rachid El Alami, Hassan Qjidaa, Karim El Khadiri, and Youness Mehdaoui. "Design and Realization of Fire Safety System for Controlling and Monitoring a Siren Using Arduino Uno." In Digital Technologies and Applications. Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-73882-2_40.

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Panigrahi, Pratap Kumar, and Sampa Sahoo. "Path Planning and Control of Autonomous Robotic Agent Using Mamdani Based Fuzzy Logic Controller and ARDUINO UNO Micro Controller." In Advances in Intelligent Systems and Computing. Springer International Publishing, 2015. http://dx.doi.org/10.1007/978-3-319-11933-5_20.

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Zubov, Dmytro. "Building IoT With Arduino." In Emerging Trends and Applications of the Internet of Things. IGI Global, 2017. http://dx.doi.org/10.4018/978-1-5225-2437-3.ch005.

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IoT tools and techniques can be split into three main categories – infrastructure (i.e. hardware like Arduino Uno), software apps (e.g. Arduino C/C++ sketch), and lightweight protocols (e.g. MQTT and CoAP) for the connection of the heterogeneous components. Nowadays, they allow to develop fully functional smart systems. In this chapter, Arduino open-source computer soft- and hardware are discussed for the remote LED control, the web-server development, the design of the dual axis solar tracker with energy saving algorithm, the smart city's natural environment component based on Arduino weather station, the aid systems (in the mobility) for the visually impaired and blind people. In addition, the connection of the heterogeneous soft- and hardware is presented based on MQTT protocol.
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Suryanarayanan, Sindhu, Sreekala Manmadhan, and N. Rakesh. "Design and Development of Real Time Patient Monitoring System with GSM Technology." In Virtual and Mobile Healthcare. IGI Global, 2020. http://dx.doi.org/10.4018/978-1-5225-9863-3.ch031.

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Technology keeps evolving every second. Humans receive all the essential information with just one touch. Be it the weather forecast or ordering any grocery or communicating with one's peers, everything happens so easily and efficiently. It is undoubtedly user friendly. When the same technology associates itself with the medical equipment it becomes easier to fetch and process the patient's data in real time. It also helps to make several life-saving, spontaneous decisions for the critical care. This paper talks about the patient monitoring system. The physiological parameters of the patient are continuously monitored in real time using sensors. The data that is obtained from the sensor is then sent to an Arduino Uno microcontroller where it is analyzed. If the patient's data differs from the required threshold values, an emergency message is sent to the assigned doctor's mobile. This is done using the GSM module which is interfaced with the microcontroller. Verifying the system in software is done using Proteus.
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Zubov, Dmytro. "A Case Study on the Spatial Cognition of Surrounding Objects by the B&VI People Using Sound Patterns and Ultrasonic Sensing." In Emerging Trends and Applications of the Internet of Things. IGI Global, 2017. http://dx.doi.org/10.4018/978-1-5225-2437-3.ch004.

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In this paper, two assistive projects on the spatial cognition by blind and visually impaired (B&VI) people are presented using the sound patterns and ultrasonic sensing. The first device supports the sport activities of B&VI, the golf game specifically. Every golf flagstick has the sound marking device with the active buzzer and WiFi remote control by the person with good vision. The NodeMcu Lua ESP8266 ESP-12 WiFi boards in devices are controlled by the cross-platform HTML web-sites, and hence any WiFi smartphone and / or computer can be in use to start the HTML web-page. Mini portable WiFi router links all devices in the network. End-users are securely connected using the password to wireless router. Ten assistive devices were handed in Instituto para Ciegos y Débiles Visuales “Ezequiel Hernández Romo” together with WiFi router. The second device supports the orientation of B&VI by measuring the distance to the obstacle based on the ultrasonic sensor HC-SR04 and Arduino Uno. The distance is pronounced to the B&VI using headphone and MP3 player with SD card. Nowadays, Universidad Politécnica de San Luis Potosí is negotiating with several organizations to create a production line. All devices are of the budget price up to USD 10. All devices were tested successfully. This is joint work of Instituto para Ciegos y Débiles Visuales “Ezequiel Hernández Romo”, Universidad Politécnica de San Luis Potosí, and Tecnológico de Monterrey with ongoing project “Artificial Eyes” based on Raspberry Pi 3 Model B board with an ultrasonic sensor and camera for the image and/or video processing of the surrounding environment, as well as the friendly integration into the local networks using onboard WiFi and Bluetooth.
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Conference papers on the topic "Arduino Uno Rev 3"

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Budi, K., S. Muslim, A. Santosa, and D. Putra. "Effect of Arduino Uno Based Microcontroller Media TrainerAgainst Student Learning Outcomes Psychomotor in the Basic Competencies Controlling the Input and Output Ports in Surabaya KAL-1 Vocational School Judging from the Level of Creative Thinking." In Proceedings of the 1st International Conference on Management, Business, Applied Science, Engineering and Sustainability Development, ICMASES 2019, 9-10 February 2019, Malang, Indonesia. EAI, 2020. http://dx.doi.org/10.4108/eai.3-8-2019.2290742.

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Pothnis, Jayaram R., Dinesh Kalyanasundaram, and Suhasini Gururaja. "Numerical and Experimental Studies on the Development of Variable Density Nanocomposites for Structural Applications." In ASME 2018 International Mechanical Engineering Congress and Exposition. American Society of Mechanical Engineers, 2018. http://dx.doi.org/10.1115/imece2018-87252.

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Numerical and experimental studies performed to develop nanocomposites with varying carbon nanotube (CNT) alignment density within an epoxy matrix are presented. A 3-D numerical model has been developed that looks at the behavior of CNTs in epoxy resin subjected to non-uniform electric fields by explicitly accounting for electric field coupled with fluid flow and particle motion considering the transient resin viscosity. The transient nature of resin viscosity has been incorporated into the simulation study with data related to resin viscosity variation with time and temperature generated experimentally. The response of CNTs due to the induced dielectrophoretic force was studied using the numerical model. The model facilitated the design of an optimal electrode configuration for the processing of variable density composites. A computer controlled Arduino UNO based circuitry was developed to control supply of voltage to the electrodes during sample fabrication. The circuit was then integrated with AC voltage supply units and the electrode set-up for fabricating the variable density composite samples. Low weight fractions of CNTs (0.05 wt.% and 0.1 wt.%) in epoxy resin were used for the experimental work and preliminary experimental studies were conducted. Electrical characterization results of the variable density nanocomposites indicate over 100% and 30% increase in electrical resistance measured across sample widths in 0.05 wt.% and 0.1 wt.% CNT samples, respectively. The measured sample resistance values confirmed that variation in CNT alignment density was achieved across the samples.
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