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Smart Wristband System for Improving Quality of Life for Users in Traffic Environment


Peraković, Dragan; Periša, Marko; Sente, Rosana Elizabeta; Zorić, Petra; Bucak, Boris; Ignjatić, Andrej; Mišić, Vlatka; Vuletić, Matea; Bijelica, Nada; Brletić, Luka; Papac, Ana
Smart Wristband System for Improving Quality of Life for Users in Traffic Environment // Smart Technology Trends in Industrial and Business Management / Cagáňová, Dagmar ; Balog, Michal ; Knapčíková, Lucia ; Soviar, Jakub ; Mezarcıöz, Serkan (ur.).
Cham: Springer, 2019. str. 429-450 doi:10.1007/978-3-319-76998-1_32


Naslov
Smart Wristband System for Improving Quality of Life for Users in Traffic Environment

Autori
Peraković, Dragan ; Periša, Marko ; Sente, Rosana Elizabeta ; Zorić, Petra ; Bucak, Boris ; Ignjatić, Andrej ; Mišić, Vlatka ; Vuletić, Matea ; Bijelica, Nada ; Brletić, Luka ; Papac, Ana

Vrsta, podvrsta i kategorija rada
Poglavlja u knjigama, znanstveni

Knjiga
Smart Technology Trends in Industrial and Business Management

Urednik/ci
Cagáňová, Dagmar ; Balog, Michal ; Knapčíková, Lucia ; Soviar, Jakub ; Mezarcıöz, Serkan

Izdavač
Springer

Grad
Cham

Godina
2019

Raspon stranica
429-450

ISBN
978-3-319-76997-4

Ključne riječi
Smart assistance ; Assistive technology ; Mobility ; Cloud computing

Sažetak
The aim of this research is to develop a smart wristband system architecture that provides real-time information to users in traffic environment. Users in traffic environment are persons with visual impairment, hearing impairment, and locomotor impairment, elderly, children, and persons without disabilities. The purpose of service is to provide users with accurate and real-time information and raising the level of quality of life. Previous research and solutions have provided information about user needs and demands. Conducted survey defined functionalities of system based on Cloud Computing for the Blind concept which provides 24/7 support for the delivery of services and safety of users. Architecture of the service is designed according to universal design and Ambient Assisted Living concept. With simulation testing and experimental methods based on the Arduino and Raspberry Pi platforms, the work of proposed system is tested in laboratory and real-world environment which proved real- time information delivery to users. Having the ability to notify users in real time will increase the level of autonomy and safety while moving through traffic network.

Izvorni jezik
Engleski

Znanstvena područja
Tehnologija prometa i transport



POVEZANOST RADA


Ustanove
Fakultet prometnih znanosti, Zagreb

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