IMPLEMENTASI JARINGAN CAN BUS UNTUK SISTEM MONITORING LOGISTIK PENGIRIMAN VAKSIN BERBASIS IOT DENGAN ESP32 DAN ESP32-CAM

Anggi Ginastian, - and Agus Heri Setya Budi, - (2025) IMPLEMENTASI JARINGAN CAN BUS UNTUK SISTEM MONITORING LOGISTIK PENGIRIMAN VAKSIN BERBASIS IOT DENGAN ESP32 DAN ESP32-CAM. S1 thesis, Universitas Pendidikan Indonesia.

Abstract

Penelitian ini bertujuan untuk memenuhi kebutuhan pengawasan ketat terhadap kondisi vaksin selama proses pengiriman, termasuk pengukuran suhu, kelembapan, dan lokasi, agar kualitas serta keamanan vaksin tetap terjaga. Tujuan utama penelitian ini adalah pengembangan sistem pemantauan berbasis Internet of Things (IoT) dengan menggunakan mikrokontroler ESP32 dan ESP32-CAM yang saling terhubung melalui jaringan CAN Bus. Metode yang diterapkan adalah metode Research and Development (R&D) dengan pendekatan eksperimental. Sistem ini dirancang menggunakan sensor DHT11, modul GPS Neo-6M, serta ESP32-CAM, di mana data yang dihasilkan dapat ditampilkan secara real-time melalui platform Blynk IoT. Hasil penelitian menunjukkan bahwa jaringan CAN Bus mampu mengirimkan data hingga sebesar 811 byte dengan komunikasi yang efektif, akurasi GPS memiliki rata-rata deviasi sebesar 8,5 meter, serta sensor berfungsi sesuai dengan spesifikasi yang ditetapkan. Sistem ini berhasil menghasilkan prototipe pemantauan logistik vaksin yang berjalan fungsional, real-time, dan andal, serta berfungsi sebagai solusi inovatif dalam distribusi vaksin yang aman. This study aims to meet the need for strict monitoring of vaccine conditions during the delivery process, including temperature, humidity, and location measurements, to ensure the quality and safety of vaccines. The main objective is to develop a monitoring system based on the Internet of Things (IoT) using ESP32 and ESP32-CAM microcontrollers connected via a CAN Bus network. The research employs a Research and Development (R&D) method with an experimental approach. The system is designed using a DHT11 sensor, Neo-6M GPS module, and ESP32-CAM, with the generated data displayed in real time through the Blynk IoT platform. The results show that the CAN Bus network is capable of transmitting data up to 811 bytes with effective communication, GPS accuracy has an average deviation of 8.5 meters, and the sensors function according to their specified performance. This system successfully delivers a functional, real-time, and reliable prototype for vaccine logistics monitoring, offering an innovative solution for safe vaccine distribution.

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Official URL: https://repository.upi.edu/

Item Type:	Thesis (S1)
Additional Information:	https://scholar.google.com/citations?view_op=new_profile&hl=en ID SINTA Dosen Pembimbing: Agus Heri Setya Budi : 0026087207
Uncontrolled Keywords:	Internet of Things, CAN Bus, ESP32, Monitoring Logistik, Vaksin. Internet of Things, CAN Bus, ESP32, Logistics Monitoring, Vaccine.
Subjects:	L Education > L Education (General) T Technology > T Technology (General) T Technology > TK Electrical engineering. Electronics Nuclear engineering
Divisions:	Fakultas Pendidikan Teknik dan Industri > Jurusan Pendidikan Teknik Elektro
Depositing User:	Anggi Ginastian
Date Deposited:	31 Oct 2025 14:36
Last Modified:	31 Oct 2025 14:36
URI:	http://repository.upi.edu/id/eprint/144802

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