Most of today's electronic devices are becoming smart and traditional house doors are lagging behind this technology. With the development of technology, the need for remote and rapid control of devices has increased. With the internet of objects, it was possible to make the devices remotely available over a Wi-Fi network. In this study, remote control of the devices has been done by using ESP32 development board which includes Wi-Fi module. Here, an intelligent system consisting of ESP32, android based remote control application, solenoid door lock, fingerprint sensor, RFID card reader and keypad is provided. With the ESP32 module, doors that can be controlled remotely and intelligently can be controlled and transmit data instantly. So; a device that is controllable, safe, economic, easy to control.
Recently, digital transformation studies in technology have been started in the world. When the literature on this subject is examined, it is seen that the subject of the Internet of Things is not used in the field of education, but mostly in industrial fields. If students receive education on electronics and software at an early age, they will be able to develop different projects in many fields such as automation, which is the technology of the future, as well as defense industry, space and aviation technologies. In this study, digital conversion, which is one of the works of robotic coding training, another top-level "Internet of objects" topic, incorporating all that is required for the sensor and circuit components, unlike the literature were identified and according to the needs of the market, modular, easy interface, children with a card that can contribute to the development of the motor sensor is designed and manufacture with all the sensors have been made to the chassis. In this way, it is aimed to learn automation and communication issues mainly with the manufactured card. The designed device is an electronic sensor board that has the necessary sensors with a dual-core microprocessor and built-in wireless connections. It is able to run the algorithm written on it, connecting to any device that can be connected both on its own and on the Internet. In the study, first, electronic card manufacturing, then outer shell manufacturing and finally the production of the card system by making test software was completed.
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