Relevant bibliographies by topics / Esp32

Contents

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

Academic literature on the topic 'Esp32'

Author: Grafiati
Published: 4 June 2021
Last updated: 11 June 2025

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Journal articles on the topic "Esp32"

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Sufiyan, Md Abu. "Vehicle Surveillance System using ESP32." International Journal for Research in Applied Science and Engineering Technology 9, no. VI (2021): 3722–25. http://dx.doi.org/10.22214/ijraset.2021.35763.

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The current project is the integration of design and realization of vehicle surveillance system using GSM, GPS and ESP32 modules. The project deals with the integration of these three modules and an arduino uno. This amalgamation gives rises to the vehicle surveillance system. A vehicle surveillance system is coordinated by GPS and it is controlled by the operator by giving the commands through GSM which acts as receiver and transmitter of the data. The project is divided into two modules of implementation i.e software and hardware. The software part consists of developing a code for the arduino which unites all the modules of the system. The hardware part consists of interfacing all the modules that are used in the system with the arduino.
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Prafanto, Anton, Edy Budiman, Putut Pamilih Widagdo, Gubtha Mahendra Putra, and Reza Wardhana. "Pendeteksi Kehadiran menggunakan ESP32 untuk Sistem Pengunci Pintu Otomatis." JTT (Jurnal Teknologi Terapan) 7, no. 1 (2021): 37. http://dx.doi.org/10.31884/jtt.v7i1.318.

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The design of the detection system in this study using ESP32 module that includes Wi-Fi: 802.11 b / g / n and Bluetooth: v4.2 BR / EDR and Bluetooth Low Energy (BLE). In general, the automatic door lock system using a fingerprint or RFID card in its implementation, but this study using BLE which is a component of iBeacon which has a function as a result of the fingerprint and RFID card. ESP32 have a duty to control the door lock in order to open and lock the door using relays and solenoid system, in addition to the BLE on ESP32 serves to detect the presence of individuals where Bluetooth Device Address (BD_ADDR) smartwatch or individual gadget is already registered on ESP32. Based on the experimental results, the system can detect a user's presence smartwatch on the Received Signal Strength Indicator (RSSI), which is determined on the program was uploaded to ESP32. This system can also be developed in the future and applied to a variety of special purposes such as absenteeism, indoor mapping, and smart home.
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GHIFARI, HUMMAM GHASSAN, DENNY DARLIS, and ARIS HARTAMAN. "Pendeteksi Golongan Darah Manusia Berbasis Tensorflow menggunakan ESP32-CAM." ELKOMIKA: Jurnal Teknik Energi Elektrik, Teknik Telekomunikasi, & Teknik Elektronika 9, no. 2 (2021): 359. http://dx.doi.org/10.26760/elkomika.v9i2.359.

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ABSTRAKPendeteksian golongan darah dilakukan untuk mengetahui golongan darah yang dimiliki. Hingga saat ini pendeteksian golongan darah masih dilakukan oleh petugas analis kesehatan menggunakan kemampuan mata manusia. Pada penelitian ini dilakukan perancangan alat pendeteksi golongan darah menggunakan ESP32-CAM. Alat ini menggunakan kamera OV2640 untuk menangkap citra, yang diproses menggunakan Tensorflow Object Detection API sebagai framework untuk melatih serta mengolah citra darah. Model latih akan digunakan pada kondisi pendeteksian langsung dan ditampilkan dalam bentuk jendela program golongan darah beserta tingkat akurasinya. Dalam penelitian ini pengujian dilakukan menggunakan 20 dataset dengan jarak pengukuran antara ESP32-CAM dengan citra golongan darah yaitu sejauh 20 cm. Hasil yang didapat selama pengujian mayoritas golongan darah yang dapat terdeteksi adalah golongan darah AB.Kata kunci: ESP32-CAM, Tensorflow, Python, Golongan Darah, Pengolahan Citra ABSTRACTBlood group detection is performed to determine the blood group. Currently, in detecting blood type, it still relies on the ability of the human eyeThis paper presents a human blood group detection device using ESP32-CAM. This tool uses ESP32-CAM to capture images, and the Tensorflow Object Detection API as a framework used to train and process an image. The way this tool works is that the ESP32-CAM will capture an image of the blood sample and then send it via the IP address. Through the IP Address, the python program will access the image, then the image will be processed based on a model that has been previously trained. The results of this processing will be displayed in the form of a window program along with the blood type and level of accuracy. In this study, testing was carried out based on the number of image samples, the number of datasets, and the measurement distance. The ideal measurement distance between the ESP32-CAM and the blood group image is 20 cm long. The results obtained during the testing of the majority of blood groups that can be detected are AB blood group.Keywords: ESP32-CAM, Tensorflow, Python, Blood Type, Image Processing
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López and Pérez. "Integration of Asterisk IP-PBX with ESP32 Embedded System for Remote Code Execution." Proceedings 21, no. 1 (2019): 38. http://dx.doi.org/10.3390/proceedings2019021038.

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This paper explains the design and construction of a platform that implements the ESP32 embedded system and connects it to a telephone asterisk plant, to exchange data on both sides, commands sent from a telephone to the esp32 and make calls from an order of sending from a digital input of esp32. It is a low-cost device that can be implemented through the use of Wi-Fi, and as a use in the industry, it has a role in analogue communication in buildings, for example.
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JATMIKO, DIDIT ANDRI, and Salita Ulitia Prini. "Implementation and Performance Testing of Background Subtraction Algorithm on ESP32." Komputika : Jurnal Sistem Komputer 6, no. 2 (2019): 9–15. http://dx.doi.org/10.34010/komputika.v6i2.1689.

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This paper describes the background subtraction algorithm and its performance in low power processing units, this algorithm has low complexity and can be used to detect objects so that it has the potential to be applied to security cameras. This study has succeeded in applying basic image processing algorithms to detect and track objects, such as background subtraction in the ESP32 module. The ESP32 module equipped with Xtensa® 32-bit LX6 microprocessor running at 240MHz can process 10000 times background subtraction algorithms in ~ 2000ms using 80x60 pixel image input.
 Background Subtraction; Embedded; ESP32; Image Processing; Microcontroller; Object Detection;
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Gheorghe, A. C., E. Stan, and I. Udroiu. "Electricity Consumption Measurement System Using ESP32." Scientific Bulletin of Electrical Engineering Faculty 21, no. 2 (2021): 23–26. http://dx.doi.org/10.2478/sbeef-2021-0017.

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Abstract The paper proposes the development of an IoT measurement system that offers the user the possibility to monitor and record the electricity consumed by a consumer through the Blynk application. In monitoring electricity one of its most important aspects is the calibration of the sensors used. Accurate and reliable detection is the key factor in measuring and managing electrical equipment. Fundamental physical quantities such as voltage and current are useful for determining all other electrical quantities. The ESP32 development board used to develop the system has 18 channels ADC (analog to digital converter) and supports a Wi-Fi connection at the access point and implicitly to the internet. The developed system can measure the voltage (U), current (I), power consumption (W) and consumption / hour (kWh) of a consumer, in my case for the consumer I used a light bulb with a power given by the manufacturer of 10W. The measured values are displayed on the LCD display of the system or through the Blynk application which also allows the registration of these values for a period of 12 months.
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Bayu, Rizky Bayu Santoso, Rini Puji Astutik, and Deni Irawan. "RANCANG BANGUN SMARTHOME BERBASIS QR CODE DENGAN MIKROKONTROLLER MODULE ESP32." JASEE Journal of Application and Science on Electrical Engineering 2, no. 01 (2021): 47–60. http://dx.doi.org/10.31328/jasee.v2i01.60.

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Sistem keamanan pada perangkat elektronik khususnya rumah maupun perkantoran yang ada saat ini kebanyakan merupakan sistem keamanan manual. Penelitian bertujuan menciptakan prototype alternatif sistem keamanan pada ruangan pada kunci & perangkat elektronik rumah dengan memanfaatkan teknologi dan biaya yang rendah. Penelitian ini menggunakan ESP32 sebagai mikrokontroler penggerak Perangkat Elektronik, monitoring arus pada beban masing-masing dan Android sebagai pengendali Relay dan QR Code reader. Pemrograman ESP32 menggunkan IDE Arduino. QR Code reader di Android dibuat menggunakan Android Stuio. Relay akan dihubungkan dengan module ESP32. Pengujian penelitian ini dilakukan dengan versi android, yaitu android oreo versi 10. Pengujian menunjukan semua komponen hardware dan software dapat bekerja dengan baik. Penelitian ini menghasilkan Smart home yang lebih murah dibanding Smart home yang banyak dijual saat ini.
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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 (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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N, Divagar, Prakash M, Niranjan Balaji J, and Aathilingam R. "Remote Observing of Pulse and ECG Signal Using ESP32." ECS Transactions 107, no. 1 (2022): 1309–15. http://dx.doi.org/10.1149/10701.1309ecst.

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The paper depicts the advancement of gathering the heart rate of the patient checking framework dependent on the ESP32 module and AD8232 module. The framework design is shown thinking about WiFi, Bluetooth, and Bluetooth minimum energy association. The development of the proper model observation application implementation is shown. Force utilization estimations were performed. A short examination somewhere in the range of ESP8266 and ESP32 modules is given.
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A, Rakshith. "Indoor Navigation System using BLE and ESP32." International Journal for Research in Applied Science and Engineering Technology 8, no. 11 (2020): 151–59. http://dx.doi.org/10.22214/ijraset.2020.32089.

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Dissertations / Theses on the topic "Esp32"

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Dresler, Jan. "Tester akumulátorů s modulem ESP32." Master's thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2019. http://www.nusl.cz/ntk/nusl-400923.

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This thesis focuses on design of printed circuit board and programming of ESP32 module. This module communicates with discharging circuit which allows testing of battery properties. With help of voltage and current sensors it is possible to test and print results of battery on display. The testing device also allows control over web user interface thanks to ESP32.
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Stehlík, Richard. "Útok na WiFi síť s využitím ESP32/8266." Master's thesis, Vysoké učení technické v Brně. Fakulta informačních technologií, 2021. http://www.nusl.cz/ntk/nusl-445502.

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The goal of this thesis is an exploration of the possibilities of Espressif's ESP32 chips in combination with Espressif IoT Development Framework with intention of implementing well-known Wi-Fi attacks on this platform. In this work, multiple implementation proposals were done for deauthentication attack in two variants followed by WPA/WPA2 handshake capture, attack on PMKID, creation of rogue MitM access point, or brute-force attack on WPS PIN, and more. A universal penetration tool ESP32 Wi-Fi Penetration Tool was proposed and implemented, including deauthentication attacks with WPA/WPA2 handshake capture. This tool provides an easy way to configure and run malicious Wi-Fi attacks without any domain knowledge required from the user. The outcome of this work opens new attack vectors for the attacker, thanks to cheap, ultra-low powered, and lightweight ESP32 chips.
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Скепа, В. С. "Програмно-апаратний комплекс sms шлюза з інтерфейсом в Тelegram". Thesis, Чернігів, 2020. http://ir.stu.cn.ua/123456789/23529.

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Скепа, В. С. Програмно-апаратний комплекс sms шлюза з інтерфейсом в Тelegram : випускна кваліфікаційна робота : 123 "Комп’ютерна інженерія" / В. С. Скепа ; керівник роботи Є. В. Нікітенко ; НУ "Чернігівська політехніка", кафедра інформаційних та комп’ютерних систем. – Чернігів, 2020. – 96 с.<br>Об’єктом розробки дипломної роботи програмно-апаратний комплекс sms шлюза з інтерфейсом в Telegram на базі мікроконтролера ESP32 який є сучасною заміною Arduino мікроконтролерів. Sms шлюз представляє собою програмно-апаратний комплекс реалізований за допомогою мікроконтролера «ESP32» програмна частина для якого написана на мові «Arduino» та GSM модуля SIM800L. Реалізований web-інтерфейсу для налаштування шлюзу. Багатоплатформовий інтерфейс реалізований за допомогою Telegram Bot API. Arduino - це електронний конструктор і зручна платформа швидкої розробки електронних пристроїв для початківців і професіоналів. API Bot - це інтерфейс на основі HTTP, створений для розробників, зацікавлених у створенні ботів для Telegram. Метою даної роботи є: – Ознайомлення з середовищем розробки «Arduino IDE» та «Telegram Bot API». – Розробка графічного web-інтерфейсу. – Розробка апаратної частини на базі мікроконтролера «ESP32» та GSM модуля SIM800L.
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Martinka, Václav. "Bezdrátové ovládání LED světel." Master's thesis, Vysoké učení technické v Brně. Fakulta informačních technologií, 2021. http://www.nusl.cz/ntk/nusl-445572.

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This work deals with the design and implementation of Wi-Fi LED lighting. It consists of various modules - switches, buttons, single or multicolored light sources - and a central unit that provides mutual communication and automation. The result of the work is the design of a prototype and several modules, which are built on the basis of the microcontroller ESP32. Their utility is implemented in C++. The user interacts through the website. The main result of this thesis is a demonstration of the possibility of using Wi-Fi to control light sources and creating complex lighting using a combination of simple modules and rules.
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Скепа, В. С. "Розробка автоматичної поворотної платформи для створення фото 360, відео та 3D сканування". Thesis, Чернігів, 2021. http://ir.stu.cn.ua/123456789/25013.

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Скепа, В. С. Розробка автоматичної поворотної платформи для створення фото 360, відео та 3D сканування : випускна кваліфікаційна робота : 123 "Комп’ютерна інженерія" / В. С. Скепа ; керівник роботи В. В. Казимир ; НУ "Чернігівська політехніка", кафедра інформаційних та комп’ютерних систем. – Чернігів, 2021. – 85 с.<br>Розробка автоматичної поворотної платформи для створення фото 360, відео та 3D сканування. Об’єктом розробки дипломної роботи є автоматична поворотна платформа для створення фото 360, відео та 3D сканування на базі мікроконтролера ESP32 який є сучасною заміною Arduino мікроконтролерів. Автоматична поворотної платформи для створення фото 360, відео та 3D сканування реалізований за допомогою мікроконтролера «ESP32», крокового двигуна, інфрачервоного приймача, драйвера крокового двигуна, релейного модуля, програмна частина для якого написана на мові «С++» в Arduino IDE. Реалізований web-інтерфейсу для налаштування та активації необхідних функцій. Arduino - це електронний конструктор і зручна платформа швидкої розробки електронних пристроїв для початківців і професіоналів. Метою даної роботи є: – ознайомлення з середовищем розробки «Arduino IDE»; – вибору необхідних компоненті; – розробка графічного web-інтерфейсу; – розробка апаратної частини на базі мікроконтролера «ESP32» та інших елементів.<br>Development of an automatic turntable for creating 360 photos, videos and 3D scanning. The object of the thesis is an automatic turntable for creating 360 photos, videos and 3D scans based on the ESP32 microcontroller, which is a modern replacement for Arduino microcontrollers. Automatic turntable for 360 photo, video and 3D scanning is implemented using a microcontroller "ESP32", stepper motor, infrared receiver, stepper motor driver, relay module, software for which is written in "C ++" in the Arduino IDE. Implemented web-interface to configure and activate the necessary functions. Arduino is an electronic designer and a convenient platform for rapid development of electronic devices for beginners and professionals. The purpose of this work is: - acquaintance with the development environment "Arduino IDE"; - selection of the necessary components; - development of graphical web-interface; - development of hardware based on the microcontroller "ESP32" and other elements.
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Комар, Я. О. "Дистанційна система клімат моніторингу". Thesis, Чернігів, 2021. http://ir.stu.cn.ua/123456789/23043.

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Комар, Я. О. Дистанційна система клімат моніторингу : випускна кваліфікаційна робота : 123 "Кoмп’ютepнa iнжeнepiя" / Я. О. Комар ; керівник роботи В. М. Базилевич ; НУ "Чернігівська політехніка", кафедра iнфopмaцiйниx тa кoмп’ютepниx cиcтeм. – Чернігів, 2021. – 60 с.<br>Об’єктом обстеження є платформа ESP32-WROOM та вивчення можливостей цієї платформи для моніторингу клімату. Метою цієї роботи є створення та розробка прототипу системи клімат моніторингу. Також завданням є зручний і швидкий доступ до панелі моніторингу клімату та можливістю зберігати і переглядати вхідні данні з пристроїв.<br>The object of the survey is the ESP32-WROOM platform and to study the capabilities of this platform for climate monitoring. The purpose of this work is to create and develop a prototype of a climate monitoring system. The task is also convenient and fast access to the climate monitoring panel and the ability to store and view input data from devices.
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Буйніч, Б. І. "Система «розумний будинок» на основі модуля ESP та месенджера Telegram". Thesis, Київський національний університет технологій та дизайну, 2018. https://er.knutd.edu.ua/handle/123456789/11483.

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Hanulík, René. "Řízení CNC pískovačky." Master's thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2020. http://www.nusl.cz/ntk/nusl-413120.

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The diploma thesis clarifies the issue of creating inscriptions on stone slabs. It describes some types of sensors, actuators, their physical principles and possibilities of their use. The work mentions the limitations and specifics of sandblasting, design solutions and implementation of equipment for patternless sandblasting.The functionality of the device is demonstrated and verified on illustrative examples.
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Drahovský, Peter. "Vzdálené monitorování vybraných subsystémů vozidla." Master's thesis, Vysoké učení technické v Brně. Fakulta informačních technologií, 2021. http://www.nusl.cz/ntk/nusl-445548.

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This thesis describes the concept and  realization  of embedded system and cloud application, which is designed  for remote monitoring of car subsystems over CAN bus.    There are written several ways of getting information from car subsystems  and process of decoding messages sent over internal car bus.   Data gathering is realised by device based on ESP32, which is sending them to cloud application using wireless networks. Application UI is adapted for mobile devices and serves views containg current and historical gathered data.
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GUDURU, TABU SRAVANI, and SURYA NARAYANA MURTHY THATAVARTHY. "IoT Based Home Monitoring System." Thesis, Blekinge Tekniska Högskola, Institutionen för matematik och naturvetenskap, 2019. http://urn.kb.se/resolve?urn=urn:nbn:se:bth-20900.

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Home surveillance is a major concern in this day and age as with the rapid increase in the technology around us. There is a need to get updated with new possibilities to make our lives better and easy. Some cases and situations exhibit the need for home monitoring. So, we set out to discover a solution to this problem of home monitoring. Generally, we have issues with pets and kids alike such as approaching dangerous places like electric switches, stairs, and hot things. Not only a problem with kids and pets but also a chance of burglary and stranger's unusual activities. To overcome this problem we are designing and prototyping a system to keep an eye on kids, pets, and older people. This system is used in other applications like theft monitoring. The device can monitor the field all the time. In this way, this system helps in-home monitoring. The system consists of Arduino, which is the brain of the system, the PIR sensor, ESP32-CAM, and buzzer. The PIR sensor detects motion then gives input to the Arduino. Arduino gives output to the ESP32-CAM and buzzer. The ESP32-CAM can be activated and sends information to the user through the web Interface and the application. The user can see the video streaming on the PC screen or any other display. The buzzer can emit a high volume signal indicating that "there is an alert at the home".
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Books on the topic "Esp32"

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Cameron, Neil. Electronics Projects with the ESP8266 and ESP32. Apress, 2021. http://dx.doi.org/10.1007/978-1-4842-6336-5.

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Hoddie, Peter, and Lizzie Prader. IoT Development for ESP32 and ESP8266 with JavaScript. Apress, 2020. http://dx.doi.org/10.1007/978-1-4842-5070-9.

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Hoddie, Peter, and Lizzie Prader. IoT Development for ESP32 and ESP8266 with JavaScript: A Practical Guide to XS and the Moddable SDK. Apress, 2020.

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Ron, Larson. Fap Ppr W/WP V1 13ed/Esp35&525fcc. Irwin, 1994.

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Larson, Ron. Fap W/WP V1 13e/Esp35&525/Glas350p. Irwin, 1994.

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Ron, Larson. Fap Ppr W/WP V2 13e/Esp35&525fcc P. Irwin, 1994.

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Book chapters on the topic "Esp32"

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Wang, Bin, Xiaozhuo Gu, and Yingshan Yang. "Saber on ESP32." In Applied Cryptography and Network Security. Springer International Publishing, 2020. http://dx.doi.org/10.1007/978-3-030-57808-4_21.

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Cameron, Neil. "ESP32 microcontroller features." In Electronics Projects with the ESP8266 and ESP32. Apress, 2020. http://dx.doi.org/10.1007/978-1-4842-6336-5_22.

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Chettouh, Jugurtha, and Samia Mezzah. "Advanced Sensorless Weather Station Implementation Using ESP32." In Advances in Computing Systems and Applications. Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-69418-0_15.

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Khalid, Alwaleed, and Irfan Memon. "Bluetooth-Based Traffic Tracking System Using ESP32 Microcontroller." In Algorithms for Intelligent Systems. Springer Singapore, 2020. http://dx.doi.org/10.1007/978-981-15-5243-4_70.

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Lamprecht, Patrick, Simon Haller-Seeber, and Justus Piater. "A Block–based IDE Extension for the ESP32." In Robotics in Education. Springer International Publishing, 2021. http://dx.doi.org/10.1007/978-3-030-67411-3_27.

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Cameron, Neil. "Internet radio." In Electronics Projects with the ESP8266 and ESP32. Apress, 2020. http://dx.doi.org/10.1007/978-1-4842-6336-5_1.

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Cameron, Neil. "Build an app." In Electronics Projects with the ESP8266 and ESP32. Apress, 2020. http://dx.doi.org/10.1007/978-1-4842-6336-5_10.

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Cameron, Neil. "App database and Google Maps." In Electronics Projects with the ESP8266 and ESP32. Apress, 2020. http://dx.doi.org/10.1007/978-1-4842-6336-5_11.

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Cameron, Neil. "GPS tracking app with Google Maps." In Electronics Projects with the ESP8266 and ESP32. Apress, 2020. http://dx.doi.org/10.1007/978-1-4842-6336-5_12.

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Cameron, Neil. "USB OTG communication." In Electronics Projects with the ESP8266 and ESP32. Apress, 2020. http://dx.doi.org/10.1007/978-1-4842-6336-5_13.

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Conference papers on the topic "Esp32"

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Rai, Pertab, and Murk Rehman. "ESP32 Based Smart Surveillance System." In 2019 2nd International Conference on Computing, Mathematics and Engineering Technologies (iCoMET). IEEE, 2019. http://dx.doi.org/10.1109/icomet.2019.8673463.

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Borsig, Matthias, Sven Nitzsche, Max Eisele, Roland Groll, Jurgen Becker, and Ingmar Baumgart. "Fuzzing Framework for ESP32 Microcontrollers." In 2020 IEEE International Workshop on Information Forensics and Security (WIFS). IEEE, 2020. http://dx.doi.org/10.1109/wifs49906.2020.9360889.

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Kaur, Akwinder, Abhimanyu Jadli, Apratim Sadhu, Satvik Goyal, Abhishek Mehra, and Rahul. "Cloud Based Surveillance using ESP32 CAM." In 2021 International Conference on Intelligent Technology, System and Service for Internet of Everything (ITSS-IoE). IEEE, 2021. http://dx.doi.org/10.1109/itss-ioe53029.2021.9615334.

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Babiuch, Marek, Petr Foltynek, and Pavel Smutny. "Using the ESP32 Microcontroller for Data Processing." In 2019 20th International Carpathian Control Conference (ICCC). IEEE, 2019. http://dx.doi.org/10.1109/carpathiancc.2019.8765944.

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Wen, Jie, Jianghua Liu, Fu Xu, Xinyu Duan, and Jie Huang. "Face recognition system design based on ESP32." In 2022 International Seminar on Computer Science and Engineering Technology (SCSET). IEEE, 2022. http://dx.doi.org/10.1109/scset55041.2022.00034.

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Barybin, Oleksii, Elina Zaitseva, and Volodymyr Brazhnyi. "Testing the Security ESP32 Internet of Things Devices." In 2019 IEEE International Scientific-Practical Conference Problems of Infocommunications, Science and Technology (PIC S&T). IEEE, 2019. http://dx.doi.org/10.1109/picst47496.2019.9061269.

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Kljakic, Stefan, Vladimir Rajs, Milan Bodic, and Nemanja Cvetkovic. "Position Regulation System with Camera and Microcontroller ESP32." In IEEE EUROCON 2019 -18th International Conference on Smart Technologies. IEEE, 2019. http://dx.doi.org/10.1109/eurocon.2019.8861899.

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Skraba, Andrej, Andrej Kolozvari, Davorin Kofjac, Radovan Stojanovic, Eugene Semenkin, and Vladimir Stanovov. "Prototype of Group Heart Rate Monitoring with ESP32." In 2019 8th Mediterranean Conference on Embedded Computing (MECO). IEEE, 2019. http://dx.doi.org/10.1109/meco.2019.8760150.

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RIBAS, ANDERSON RIBEIRO, REINER FRANTHESCO PEROZZO, and ALESSANDRO ANDRé MAINARDI DE OLIVEIRA. "SISTEMA PARA MONITORAMENTO DE SINAIS VITAIS UTILIZANDO ESP32." In XXIV Simpósio de Ensino, Pesquisa e Extensão - SEPE. sepebr, 2020. http://dx.doi.org/10.48195/sepe2020-409.

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Mitrovic, Nikola, Milan Eordevic, Sandra Veljkovic, and Danijel Dankovic. "Implementation of WebSockets in ESP32 based IoT Systems." In 2021 15th International Conference on Advanced Technologies, Systems and Services in Telecommunications (TELSIKS). IEEE, 2021. http://dx.doi.org/10.1109/telsiks52058.2021.9606244.

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