PERANCANGAN DAN PENERAPAN END DEVICE SEBAGAI SISTEM TRACKING MENGGUNAKAN KOMUNIKASI LONG RANGE (LORA) DENGAN MEMBANDINGKAN PROTOKOL MQTT DAN MODBUS

MUHARAM, MUH FAJAR and Kurniasari, Puspa (2020) PERANCANGAN DAN PENERAPAN END DEVICE SEBAGAI SISTEM TRACKING MENGGUNAKAN KOMUNIKASI LONG RANGE (LORA) DENGAN MEMBANDINGKAN PROTOKOL MQTT DAN MODBUS. Undergraduate thesis, Sriwijaya University.

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Abstract

Internet of Things (IoT) technology has a new technology, one of which is Long Range (LoRa), which is the process of changing a certain periodic wave that makes a signal that can bring an information. This design use Long Range (LoRa) communication which uses 2 protocols namely MQTT and Modbus protocols for comparison in determining parameters in this design result. On technology Long Range (LoRa) devices and this network uses the standard Low-Power Wide-Area Network (LPWAN) with the parameters succesfull rate, latency, Spreading Factor & Power Transmit. The purpose of this design is to compare the quality of data delivery using the above 3 parameters for optimal data transmission, to minimize latency when sending data in the design system. The transmitter or END-device device is a device that has a sensor or data source required by the author for further investigation, in which case the data required is data on the position coordinates of the GPS (Global Positioning System) as well as the moisture level data and air temperature level taken from the sensor DHT22. For the receiver device itself is the device used as a Gateway for each data can be entered and processed in the Antares database. For the data transmission process itself uses the LoRa Communications Protocol (Long Range) with a frequency of 915MHz section of the transmitter and receiver. Meanwhile, for the process of sending data from the Gateway to the Antares Database used two testing methods i.e. the first MQTT communication protocol (Message Queuing Telemetry Transport) which is used to support data transmission in IoT technology (Internet of Things) and both Modbus communication protocols that use cable as their data transmission medium.

Item Type: Thesis (Undergraduate)
Uncontrolled Keywords: Teknologi Internet of Things (IoT) sudah terdapat teknologi yang baru salah satunya berupa Long Range (LoRa) yaitu proses perubahan suatu gelombang periodik tertentu sehingga menjadikan suatu sinyal yang bisa membawa suatu informasi. Perancangan ini meggunakan komunikasi Long Range (LoRa) dimana menggunakan 2 protokol yaitu protokol mqtt dan modbus untuk perbandingan dalam menentukan parameter pada hasil perancangan ini. Pada teknologi Long Range (LoRa) perangkat dan jaringan ini menggunakan standar Low-Power Wide-Area Network (LPWAN) dengan parameter succesfull rate, latency, Spreading Factor & Power Transmit. Tujuan untuk melakukan perancangan ini utntuk membandingkan kualitas pengiriman data dengan menggunakan 3 parameter diatas agar pengiriman data lebih optimal, untuk meminimalisir latency pada saat pengiriman data di sistem perancangan. Perangkat Pemancar atau End-Device merupakan perangkat yang memiliki sensor atau sumber data yang diperlukan oleh penulis untuk diteliti lebih lanjut, dalam hal ini data yang diperlukan yaitu data Koordinat Posisi dari GPS (Global Positioning System) serta data Tingkat Kelembapan Udara dan Tingkat Suhu Udara yang diambil dari sensor DHT22. Untuk Perangkat Penerimanya sendiri merupakan perangkat yang digunakan sebagai Gateway untuk tiap data bisa masuk dan diolah di database Antares. Untuk proses transmisi data sendiri menggunakan Protokol Komunikasi LoRa (Long Range) dengan frekuensi sebesar 915MHz dibagian Pemancar dan Penerima. Sedangkan, untuk proses pengiriman data dari Gateway ke Database Antares digunakan dua metode pengujian yaitu yang pertama Protokol Komunikasi MQTT (Message Queuing Telemetry Transport) yang mana protokol ini dipakai mendukung transmisi data dalam teknologi IoT (Internet of Things) dan kedua Protokol Komunikasi Modbus yang menggunakan kabel sebagai media transmisi datanya.
Subjects: T Technology > TK Electrical engineering. Electronics Nuclear engineering > TK5101-6720 Telecommunication Including telegraphy, telephone, radio, radar, television > TK5103.2.S83 Wireless communication systems Wireless LANs
Divisions: Faculty of Engineering > 20201-Electrical Engineering (S1)
Depositing User: Muh Fajar Muharam
Date Deposited: 27 Jul 2020 04:57
Last Modified: 27 Jul 2020 04:57
URI: http://repository.unsri.ac.id/id/eprint/31746

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