RANCANG BANGUN PROTOTIPE PENGUNCI BRANKAS MENGUNAKAN MODIFIKASI KARTU TANDA PENDUDUK DENGAN RFID BERBASIS NODEMCU ESP 8266

Long Rêgo Da Silva, Adelino (2023) RANCANG BANGUN PROTOTIPE PENGUNCI BRANKAS MENGUNAKAN MODIFIKASI KARTU TANDA PENDUDUK DENGAN RFID BERBASIS NODEMCU ESP 8266. Thesis thesis, Institut Teknologi Dirgantara Adisutjipto.

	Text (ABSTRAK) 17210015_ABSTRAK.pdf Download (117kB)
	Text (BAB I) 17210015_BAB I.pdf Download (123kB)
	Text (DAFTAR PUSTAKA) 17210015_DAFTAR PUSTAKA.pdf Download (11kB)
	Text (FULL SKRIPSI) 17210015.pdf Restricted to Repository staff only Download (3MB)

Abstract

KTP is a personal identity card owned by Timor-Leste citizens aged 17 years and over, KTP is expected to be used for public purposes such as health services, passports, access IDs and others. The access ID itself is an object/proof to access a system in other words is an electronic subkey. In addition, KTP also serves to prevent dual identity with a unique barcode on each KTP. To increase the use of ID cards and improve data security, the idea of developing basic materials for resident cards using a kind of chip embedded in it was sparked. So it became a title "Design a Safe Locking Prototype Using Identity Card Recognition with RFID Based on NodeMcu Esp 8266''. The author developed IoT (Internet of Things) technology with the Blynk application, namely by using RFID sensors, NodeMCU ESP8266 devices as microcontrollers and ID cards used as a substitute for safe keys, for locking brnagkas using selenoid components so as to reduce crime in the form of break-ins by criminals while educating the public that KTP is not only used as a personal identity but also as a security device where in In the ID card, there is a chip that has its own unique code for the owner. The result of the Safe Lock Prototype Design Using Identity Card Modification with Rfid Based on Nodemcu Esp 8266 is a safe prototype with an RFID sensor reader as a reader and a modification of Identity Card which is also made from RFID card. This prototype works optimally at a distance of less than 0.85 cm with an average reading time of 0.27 seconds.

Actions (login required)

View Item

Downloads