Thesis etd-08312012-121710 |
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Thesis type
Tesi di laurea specialistica
Author
PELLERANO, GIOVANNI
URN
etd-08312012-121710
Thesis title
6LoWPAN conform ITS-Station for non safety-critical services and applications
Department
INGEGNERIA
Course of study
INGEGNERIA INFORMATICA
Supervisors
relatore Prof. Ancilotti, Paolo
relatore Dott. Pagano, Paolo
relatore Dott. Petracca, Matteo
relatore Dott. Pagano, Paolo
relatore Dott. Petracca, Matteo
Keywords
- Intelligent Transportation Systems
- Contiki
- 6LoWPAN
- IoT
Graduation session start date
04/10/2012
Availability
Withheld
Release date
04/10/2052
Summary
The term Intelligent Transportation Systems (ITS) refers to efforts to collect, store and provide real-time traffic information to maximize the utilisation efficiency, provide convenient safe transport, and reduce energy by applying advanced electronics, information and telecommunication technologies into roads, automobiles and goods. ITS can significantly contribute to a cleaner,
safer and more efficient transport system. Consequently, ITS have become the focus of a number of policy and legislative initiatives.
Responding to the increasing interest to connect wireless sensor networks to the Internet, the IETF has proposed standards that enable IPv6-based
sensor networks.
This Master Thesis analyzes the capabilities offered by the 6LoWPAN networking stack and valuates it’s application as base for a large scale low-cost roadside ITS-Station, for non safety-critical services and applications, based on Internet of Things (IoT) concepts and technologies.
Following a practical approach, a working prototype of the proposed architecture is presented and main results discussed; the prototype has been build porting the Contiki OS over the SeedEye Board, a board specifically
designed for ITS applications.
safer and more efficient transport system. Consequently, ITS have become the focus of a number of policy and legislative initiatives.
Responding to the increasing interest to connect wireless sensor networks to the Internet, the IETF has proposed standards that enable IPv6-based
sensor networks.
This Master Thesis analyzes the capabilities offered by the 6LoWPAN networking stack and valuates it’s application as base for a large scale low-cost roadside ITS-Station, for non safety-critical services and applications, based on Internet of Things (IoT) concepts and technologies.
Following a practical approach, a working prototype of the proposed architecture is presented and main results discussed; the prototype has been build porting the Contiki OS over the SeedEye Board, a board specifically
designed for ITS applications.
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