Komunikacija med vozilom in infrastrukturo

KOVAČEVIĆ, DENIS

Komunikacija med vozilom in infrastrukturo
ID KOVAČEVIĆ, DENIS (Author), ID Tuma, Tadej (Mentor) More about this mentor... This link opens in a new window

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Abstract

V diplomskem delu je opisan postopek izbiranja komponent in razvoja programske kode za napravo Roadside Unit (RSU), ki je last družbe SES – Société Européenne des Satellites (evropska družba za satelite). RSU je elektronska naprava, ki z uporabo najsodobnejših tehnologij brezžično povezuje vozila in okolico. V uvodnem delu sta opisani ideja projekta in raziskava najsodobnejših tehnologij, ki so bile uporabljene v projektu. Opisan je tudi standard ITS-G5, ki se mora upoštevati pri izdelavi naprav za ITS. Nato sledita obrazložitev in opis vseh izbranih komponent naprave RSU in implementacije celotnega sistema. V nadaljevanju sta opisana namestitev vseh programskih komponent in razvoj programske kode za RSU. Sledi še prikaz delovanja naprave RSU in celotnega sistema. V zaključku je navedenih nekaj idej za možno nadgradnjo sistema.

Language:	Slovenian
Keywords:	Roadside Unit (RSU), MQTT, LoRaWAN, BLE, Python, Raspberry Pi 3, LoPy, DHT-22
Work type:	Bachelor thesis/paper
Organization:	FE - Faculty of Electrical Engineering
Year:	2018
PID:	20.500.12556/RUL-105434
Publication date in RUL:	29.11.2018
Views:	1393
Downloads:	382
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Abstract:
Language:	English
Title:	Vehicle to Infrastructure Communication
The thesis describes the process of selecting components and developing a code for the Roadside Unit (RSU) owned by SES – Société Européenne des Satellites. RSU is an electronic device that wirelessly connects vehicles and their surroundings using state-of-the-art technologies. The introductory part describes the idea of the project and the study of state-of-the-art technologies used in the project. The ITS-G5 standard is also described, which must be taken into account in the production of ITS devices. Then the explanation and description of all selected RSU components and the implementation of the entire system follows. We continue with the description of the installation of all programme components and the description of the RSU code development. This is followed by the demonstration of the RSU device and the entire system in action. In conclusion, there are some ideas for possible upgrades of the system.
Keywords:	Roadside Unit (RSU), MQTT, LoRaWAN, BLE, Python, Raspberry Pi 3, LoPy, DHT-22

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