The QoS Indicators Analysis of Integrated EUHT Wireless Communication System Based on Urban Rail Transit in High‐Speed Scenario
X Wang, H Jiang, T Tang, H Zhao - … and Mobile Computing, 2018 - Wiley Online Library
X Wang, H Jiang, T Tang, H Zhao
Wireless Communications and Mobile Computing, 2018•Wiley Online LibraryNowadays, in urban rail transit systems, train wayside communication system uses Wireless
Local Area Network (WLAN) as wireless technologies to achieve safety‐related information
exchange between trains and wayside equipment. However, according to the high speed
mobility of trains and the limitations of frequency band, WLAN is unable to meet the
demands of future intracity and intercity rail transit. And although the Time Division‐Long
Term Evolution (TD‐LTE) technology has high performance compared with WLAN, only 20 …
Local Area Network (WLAN) as wireless technologies to achieve safety‐related information
exchange between trains and wayside equipment. However, according to the high speed
mobility of trains and the limitations of frequency band, WLAN is unable to meet the
demands of future intracity and intercity rail transit. And although the Time Division‐Long
Term Evolution (TD‐LTE) technology has high performance compared with WLAN, only 20 …
Nowadays, in urban rail transit systems, train wayside communication system uses Wireless Local Area Network (WLAN) as wireless technologies to achieve safety‐related information exchange between trains and wayside equipment. However, according to the high speed mobility of trains and the limitations of frequency band, WLAN is unable to meet the demands of future intracity and intercity rail transit. And although the Time Division‐Long Term Evolution (TD‐LTE) technology has high performance compared with WLAN, only 20 MHz bandwidth can be used at most. Moreover, in high‐speed scenario over 300 km/h, TD‐LTE can hardly meet the future requirement as well. The equipment based on Enhanced Ultra High Throughput (EUHT) technology can achieve a better performance in high‐speed scenario compared with WLAN and TD‐LTE. Furthermore, it allows using the frequency resource flexibly based on 5.8 GHz, such as 20 MHz, 40 MHz, and 80 MHz. In this paper, we set up an EUHT wireless communication system for urban rail transit in high‐speed scenario integrated all the traffics of it. An outdoor testing environment in Beijing‐Tianjin High‐speed Railway is set up to measure the performance of integrated EUHT wireless communication system based on urban rail transit. The communication delay, handoff latency, and throughput of this system are analyzed. Extensive testing results show that the Quality of Service (QoS) of the designed integrated EUHT wireless communication system satisfies the requirements of urban rail transit system in high‐speed scenario. Moreover, compared with testing results of TD‐LTE which we got before, the maximum handoff latency of safety‐critical traffics can be decreased from 225 ms to 150 ms. The performance of throughput‐critical traffics can achieve 2‐way 2 Mbps CCTV and 1‐way 8 Mbps PIS which are much better than 2‐way 1 Mbps CCTV and 1‐way 2 Mbps PIS in TD‐LTE.
Wiley Online Library
Showing the best result for this search. See all results