Thematische Bibliographien / Module ESP32

Inhaltsverzeichnis

  1. Zeitschriftenartikel
  2. Dissertationen
  3. Buchteile
  4. Konferenzberichte

Auswahl der wissenschaftlichen Literatur zum Thema „Module ESP32“

Autor: Grafiati
Veröffentlicht am 28. Juni 2021
Zuletzt aktualisiert am 18. Februar 2022

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Zeitschriftenartikel zum Thema "Module ESP32"

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JATMIKO, DIDIT ANDRI, und Salita Ulitia Prini. „Implementation and Performance Testing of Background Subtraction Algorithm on ESP32“. Komputika : Jurnal Sistem Komputer 6, Nr. 2 (23.05.2019): 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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Bayu, Rizky Bayu Santoso, Rini Puji Astutik und Deni Irawan. „RANCANG BANGUN SMARTHOME BERBASIS QR CODE DENGAN MIKROKONTROLLER MODULE ESP32“. JASEE Journal of Application and Science on Electrical Engineering 2, Nr. 01 (02.04.2021): 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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Y., Smolianik, und Puzyrov S. „INTEGRATION OF ESP32-CAM OV2604 CAMERA WITH MOBILE MESSENGERS“. Computer systems and network 2, Nr. 1 (23.03.2017): 88–93. http://dx.doi.org/10.23939/csn2020.01.088.

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The issue of creating an IP camera based on the ESP-32 CAM module, and integration and transfer of images to the messenger is considered. Provision is made to ensure and increase security during data transmission and interaction with the bot. It is also proposed to create a special telegram bot, using the telegram API, to obtain images from the camera, at any time, when connected to the Internet. The efficiency of the microcontroller at a given task is analyzed. The use of MQTT transmission protocol is proposed, and its advantages for this system are considered. Examples of improvement of this project, layout of this module are given. Discussion of the place and scope of work for the use of this module. The advantages of the ESP-32 CAM module for this task are considered, and why it is the best in its segment for beginners and improvement of knowledge in this work. Examples of using the module with other mobile applications are given. Keywords: - ESP-32 CAM module, messenger, MQTT, advantages, microcontroller, telegram.
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Nur-A-Alam, Mominul Ahsan, Md Abdul Based, Julfikar Haider und Eduardo M. G. Rodrigues. „Smart Monitoring and Controlling of Appliances Using LoRa Based IoT System“. Designs 5, Nr. 1 (09.03.2021): 17. http://dx.doi.org/10.3390/designs5010017.

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In the era of Industry 4.0, remote monitoring and controlling appliance/equipment at home, institute, or industry from a long distance with low power consumption remains challenging. At present, some smart phones are being actively used to control appliances at home or institute using Internet of Things (IoT) systems. This paper presents a novel smart automation system using long range (LoRa) technology. The proposed LoRa based system consists of wireless communication system and different types of sensors, operated by a smart phone application and powered by a low-power battery, with an operating range of 3–12 km distance. The system established a connection between an android phone and a microprocessor (ESP32) through Wi-Fi at the sender end. The ESP32 module was connected to a LoRa module. At the receiver end, an ESP32 module and LoRa module without Wi-Fi was employed. Wide Area Network (WAN) communication protocol was used on the LoRa module to provide switching functionality of the targeted area. The performance of the system was evaluated by three real-life case studies through measuring environmental temperature and humidity, detecting fire, and controlling the switching functionality of appliances. Obtaining correct environmental data, fire detection with 90% accuracy, and switching functionality with 92.33% accuracy at a distance up to 12 km demonstrated the high performance of the system. The proposed smart system with modular design proved to be highly effective in controlling and monitoring home appliances from a longer distance with relatively lower power consumption.
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Prafanto, Anton, Edy Budiman, Putut Pamilih Widagdo, Gubtha Mahendra Putra und Reza Wardhana. „Pendeteksi Kehadiran menggunakan ESP32 untuk Sistem Pengunci Pintu Otomatis“. JTT (Jurnal Teknologi Terapan) 7, Nr. 1 (18.05.2021): 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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Rusimamto, P. W., Endryansyah Endryansyah, L. Anifah, R. Harimurti und 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, Nr. 3 (01.09.2021): 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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Abdrazakov, Fyarid Kinzhaevich, Olga Valentinovna Mikheyeva, Fedor Vasilievich Serebrennikov und Ivan Alexandrovich Mikheev. „To the question about the automation of the irrigation and watering system in an open ground“. Agrarian Scientific Journal, Nr. 5 (28.05.2019): 70–73. http://dx.doi.org/10.28983/asj.y2019i5pp70-73.

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The article discusses the possibility of automating irrigation modes using ESP32 microcontrollers with an integrated radio module. The proposed model provides almost the full possibility of automation in setting the norms and timing of irrigation, taking into account the characteristics of the cultivated crop.
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Yahya, Omar Hashim, Haider Alrikabi und Ibtisam A. Aljazaery. „Reducing the Data Rate in Internet of Things Applications by Using Wireless Sensor Network“. International Journal of Online and Biomedical Engineering (iJOE) 16, Nr. 03 (19.03.2020): 107. http://dx.doi.org/10.3991/ijoe.v16i03.13021.

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<p>Du to the raising number of using Internet of Things (I O T) for personal and commercial devices and applications, as well as the continues needs for improving the quality of the performance for the internet – connected devices enhance the researchers to investigate solutions for managing the data through the network Because of the fact that the internet-connected devices needs addresses for each sensor node uses the IP-network and a large number of electronic modules is fabricated to be compatible with IPv4 only like NodeMcu, ESP8266, Arduino WIFI, and ESP32 with knowing that the IPv4 has a limited addresses number that will not be enough for the needs of IOT developments, Many researchers turned to IPv6. In the proposed system, another solution is suggested instead of the IPV6. The proposed idea is based on Non-IP Wireless Sensor Network (WSN) by connecting many sensing nodes to the sink-node that has an IP to forward the data to the server to be visualized in a web-portal. By this method, it is able to connect more than one node to the internet over only one IP, there for the data rate that are needed will be decreased. In addition, by using the non-IP network, the data rate and the power consuming by the sensor nodes have been reduced, the practical results are discussed for connecting four nodes over one IP4 and how it will reduce the data rate and the power consuming. In this work, the esp33 has been used as a Sink-node, and the wireless transceiver module( NRF24) has been utilized to transmit the data from nodes to esp32.</p>
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Saputra, Bayu, Slamet Winardi und Aryo Nugroho. „RANCANG BANGUN ALAT METERAN AIR PINTAR BERBASIS IoT SEBAGAI PENUNJANG LAYANAN DISTRIBUSI PDAM“. Jurnal RESISTOR (Rekayasa Sistem Komputer) 4, Nr. 1 (21.04.2021): 1–10. http://dx.doi.org/10.31598/jurnalresistor.v4i1.588.

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Various public service institutions have increasingly improved their service quality. The existing constraints are corrected for the sake of consumer satisfaction. One of the public services is the clean water distribution system at Surabaya water enterprise. The water will be distributed as per the postpaid-metered or prepaid-metered recording user's clean water consumption. Exisitng postpaid-metered or prepaid-metered device in every househould must be checked by field officers regularly. This manual checking often causing problems of human errors. This study applied the Internet of Things (IoT) concept in automatic checking of postpaid-metered and prepaid-metered device in households. The customized and automatic clean water consumption recording device is built using the ESP32 module. The ESP32 will send the rest of the water consumption data to the server (cloud). This method is expected to automate solution and to create better services to the customers. The accuracy of the test results holds error tolerance value of 10.6%, in the test results with units of mL. The device is believed to be able to provide and alternative in water usage recording purpose.
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Priambodo, A. S., und A. P. Nugroho. „Design & Implementation of Solar Powered Automatic Weather Station based on ESP32 and GPRS Module“. Journal of Physics: Conference Series 1737, Nr. 1 (01.01.2021): 012009. http://dx.doi.org/10.1088/1742-6596/1737/1/012009.

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Dissertationen zum Thema "Module 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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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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Ondráček, Petr. „Zařízení pro automatické měření voltampérových charakteristik“. Master's thesis, Vysoké učení technické v Brně. Fakulta elektrotechniky a komunikačních technologií, 2020. http://www.nusl.cz/ntk/nusl-413092.

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The Master's thesis discusses the design and realization of electronic meter of volt-ampere characteristics using Wifi module ESP32. The device is designed to be able to measure the characteristic in the voltage range of +/- 20 V and current range of +/- 200 mA. The device is controlled by web interface. The user is able to connect to it with for example his or her smartphone. This interface enables the user to configure various parameters, including the range of measurement and the power restriction. Furthermore, it is possible to graphically display the measured characteristic and export the data. To be independent on the outer network, the ESP32 is operated as an access point, which is creating a new simple network without the internet connection. In the Master's thesis, the principle of voltage and current measurement is explained theoretically, the circuit connection of device and the printed circuit board are designed and the cover of the device is modeled. Also the process of creating the device according to the design is described and the cover of the device is printed on 3D printer. After that, the control program is designed, described and uploaded into the resulting device. Finally, the functionality of the device is tested by measuring the volt-ampere characteristics of a few components.
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Buchteile zum Thema "Module ESP32"

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Dave, Shuchi, Aman Jain, Deepak Sajnani und Saksham Soni. „Women’s Shield“. In SCRS CONFERENCE PROCEEDINGS ON INTELLIGENT SYSTEMS. Soft Computing Research Society, 2021. http://dx.doi.org/10.52458/978-93-91842-08-6-4.

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The women’s majesty is always respectable but presently the cruelty of humans and the jeopardy on women are not leading us towards hell only but also degrading our sublimity. A lot of women were sexually and mentally harassed while some are beaten to death and many of the cases are even not registered in the papers. Generally, when the wrong behavior happening to the woman, at that time she alone fought with them, no one comes to save her life because no one saw her and if she went to the police, she has no proof. So, for the safety of the women, we think to design such a device so that the woman could get help from the police department and her family too. The device contains e-components like GSM, GPS, ESP32 camera module, battery, etc. The whole design will be coded in the IC ATmega328p. Later on, the design will be printed on the PCB. The device will be in a very small design in the form of “Borla” a Rajasthani traditional wear. Because of the device, we will make a direct touch with the lady and along with the live tracking of that woman. It will also help us in tracking delinquents to put them behind the bars with adequate proofs. With the help of GSM, GPS the nearest police department and her family members will get the location of the woman via mobile message and the police will lead the rest. It will give a complete shield to the woman just with a single touch. In this paper, we tried to reduce the cost of women’s shields with help of value analysis &optimization.
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Babiuch, Marek, und Jiri Postulka. „Smart Home Monitoring System Using ESP32 Microcontrollers“. In Internet of Things [Working Title]. IntechOpen, 2020. http://dx.doi.org/10.5772/intechopen.94589.

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This chapter deals with the implementation of our own monitoring system with home security. The system is designed using IoT modules and uses ESP32 microcontrollers. The chapter describes the design of the system, its hardware components, software implementation, security solutions, communication, the collecting and monitoring of processed data, as well as the quantification of costs for the production and deployment of this system. The proposed system secures a house by detecting an intruder in the building, triggering an alarm and capturing it all with camera images, and then sending data to the owner’s smart mobile phone. The secondary task of the system is to collect data from sensors for monitoring the temperature of an object and presenting it via a web server.
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Konferenzberichte zum Thema "Module ESP32"

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Maier, Alexander, Andrew Sharp und Yuriy Vagapov. „Comparative analysis and practical implementation of the ESP32 microcontroller module for the internet of things“. In 2017 Internet Technologies and Applications (ITA). IEEE, 2017. http://dx.doi.org/10.1109/itecha.2017.8101926.

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Iqbal, Amjad, und Tariq Iqbal. „Low-cost and Secure Communication System for Remote Micro-grids using AES Cryptography on ESP32 with LoRa Module“. In 2018 IEEE Electrical Power and Energy Conference (EPEC). IEEE, 2018. http://dx.doi.org/10.1109/epec.2018.8598380.

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Rios, Artur de Almeida, Darizon Alves de Andrade, Luciano Coutinho Gomes, Henrique José Avelar und Frederico Duarte Fagundes. „COMPARATIVO ENTRE PLATAFORMAS DE DESENVOLVIMENTO DE SISTEMAS MICROCONTROLADOS PARA APLICAÇÕES EM INTERNET DAS COISAS“. In XVIII CEEL – Conferência de Estudos em Engenharia Elétrica. Universidade Federal de Uberlândia, 2020. http://dx.doi.org/10.14295/2596-2221.xviiiceel.2020.567.

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Seguindo as tendências da indústria 4.0, que está inserindo a Internet das Coisas (IoT - Internet of Things) em ambientes industriais, este trabalho se concentra em analisar três plataformas de desenvolvimento de sistemas microcontrolados para aplicações em IoT, são elas: ESP32, ESP8266 e MKR1000. Essas plataformas foram escolhidas por serem plataformas comerciais e possuírem um modulo WiFi integrado, pois um dos pontos do trabalho é salvar os dados coletados em nuvem. Foram realizadas comparações teóricas, entre as principais especificações das plataformas, e práticas como a velocidade de processamento, por meio de uma rotina de monitoramento e transmissão de um sinal analógico de temperatura, intensidade do sinal, consumo de energia e a verificação do uso de sensor hall interno do ESP32. As tabelas e figuras ao longo desse trabalho apresentam resultados que auxiliam na escolha da plataforma mais indicada para a aplicação em questão.
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„Title Page“. In 2016 Second International Workshop on Extreme Scale Programming Models and Middleware (ESPM2). IEEE, 2016. http://dx.doi.org/10.1109/espm2.2016.001.

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„Copyright Page“. In 2016 Second International Workshop on Extreme Scale Programming Models and Middleware (ESPM2). IEEE, 2016. http://dx.doi.org/10.1109/espm2.2016.002.

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„Table of Contents“. In 2016 Second International Workshop on Extreme Scale Programming Models and Middleware (ESPM2). IEEE, 2016. http://dx.doi.org/10.1109/espm2.2016.003.

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„Message from the Program Chairs“. In 2016 Second International Workshop on Extreme Scale Programming Models and Middleware (ESPM2). IEEE, 2016. http://dx.doi.org/10.1109/espm2.2016.004.

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Sterling, Thomas. „Keynote“. In 2016 Second International Workshop on Extreme Scale Programming Models and Middleware (ESPM2). IEEE, 2016. http://dx.doi.org/10.1109/espm2.2016.005.

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Sun, Qian, Melissa Romanus, Tong Jin, Hongfeng Yu, Peer-Timo Bremer, Steve Petruzza, Scott Klasky und Manish Parashar. „In-Staging Data Placement for Asynchronous Coupling of Task-Based Scientific Workflows“. In 2016 Second International Workshop on Extreme Scale Programming Models and Middleware (ESPM2). IEEE, 2016. http://dx.doi.org/10.1109/espm2.2016.006.

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Matsumiya, Ryo, und Toshio Endo. „PGAS Communication Runtime for Extreme Large Data Computation“. In 2016 Second International Workshop on Extreme Scale Programming Models and Middleware (ESPM2). IEEE, 2016. http://dx.doi.org/10.1109/espm2.2016.007.

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