Different wireless communication technologies, such as wireless fidelity (Wi-Fi), 4G cellular technologies and worldwide interoperability for microwave access (WiMAX) have been used as alternatives or supplement to wired communication in intelligent transportation systems (ITS). Widespread deployment of wireless technologies in ITS require a comprehensive understanding of their performance, limitations and advantages in different field conditions. The authors evaluated performance of Wi-Fi wireless communication between adjacent roadside ITS devices (i.e., nodes) in different field conditions with varying characteristics of Wi-Fi technology. Field tests revealed that modulation rates, transmission power, line of sight, distance between nodes play critical roles in the performance of Wi-Fi communication in different roadway conditions. To achieve a desired level of performance requirements between adjacent nodes, minimum network performance thresholds must be realized in the field. Transportation agencies can identify the achievable performance, such as saturated throughput, delivery ratio and received signal strength at a particular location, by following the field test procedure developed in this research. The evaluation strategies and results presented in this study will contribute to the future planning and design of Wi-Fi communication for a roadway wireless sensor or device network considering corresponding communication performance requirements for specific ITS applications.
Process for evaluating the data transfer performance of wireless traffic sensors for real-time intelligent transportation systems applications
IET Intelligent Transport Systems ; 11 , 1 ; 18-27
2017-02-01
10 pages
Aufsatz (Zeitschrift)
Elektronische Ressource
Englisch
worldwide interoperability , roadway conditions , Wi-Fi wireless communication network , adjacent nodes , open systems , wireless LAN , transportation agencies , communication link , minimum network performance , field tests , ITS applications , wireless traffic sensors , received signal strength , microwave access , wireless technologies , wireless traffic sensor network , Wi-Fi connections , wireless fidelity , real-time intelligent transportation systems applications , saturated throughput , intelligent transportation systems , roadside ITS devices , roadway network , delivery ratio , data transfer performance , wired communication , modulation rates , Wi-Fi technology
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