Analisis Qos Protokol Mqtt pada Prototipe Sistem Pendeteksi Kelebihan Muatan Kendaraan

Antyka, Syahrial (2021) Analisis Qos Protokol Mqtt pada Prototipe Sistem Pendeteksi Kelebihan Muatan Kendaraan. Undergraduate Thesis thesis, Institut Teknologi Telkom Purwokerto.

	Text Cover.pdf Download (925kB)
	Text Abstract.pdf Download (200kB)
	Text Abstrak.pdf Download (319kB)
	Text BAB I.pdf Download (329kB)
	Text BAB II.pdf Download (742kB)
	Text BAB III.pdf Download (1MB)
	Text BAB IV.pdf Restricted to Registered users only Download (507kB) | Request a copy
	Text BAB V.pdf Download (321kB)
	Text DAFTAR PUSTAKA.pdf Download (214kB)
	Text LAMPIRAN.pdf Restricted to Registered users only Download (429kB) | Request a copy

Abstract

Analysis of QoS (Quality of Service) on the vehicle overload detection system is one of solution to deal with fraud especially in the weighing bridge system. In the process of sending data, this system uses the Message Queing Telemetry Transport (MQTT) protocol with a publish / subscribe model. The system is equipped with a 20kg straight bar load cell sensor to determine the vehicle load. The sensor will send data to the NodeMCU which functions as a microcontroller. The data will be sent to the MQTT broker and if there is an indication of overloading it will display a notification on the website which functions as monitoring. QoS testing aims to determine the performance of the MQTT protocol used between the device to NodeMCU and NodeMCU to the client website. The test scenario will be done with 30 times and each test 30 seconds and will be given the variations of distance. The parameters used in this test are throughput, delay, packet loss and jitter. After testing, the results show that the system can detect if there is an ovelrloaded vehicle and the load cell sensor accuracy rate reaches 82.65%. The best distance between the system to the MQTT broker is 5 meters with a throughput of 2816 bps with 88% in the very good category, 0% packet loss in the very good category, 198 ms delay value in the good category and 341 ms jitter value in the bad category. The best distance between the MQTT broker to the client is 5 meters with a throughput value of 2228 bps with 80% in the very good category 0% packet loss value in the very good category, 239 ms delay value in the good category and 399 ms jitter value in the bad category. Keywords: MQTT, QoS, NodeMCU

Actions (login required)

View Item