@inproceedings{li_learning_2019,
	title = {Learning the {Wireless} {V2I} {Channels} {Using} {Deep} {Neural} {Networks}},
	doi = {10.1109/VTCFall.2019.8891562},
	abstract = {For high data rate wireless communication systems, developing an efficient channel estimation approach is extremely vital for channel detection and signal recovery. With the trend of high-mobility wireless communications between vehicles and vehicles-to-infrastructure (V2I), V2I communications pose additional challenges to obtaining real-time channel measurements. Deep learning (DL) techniques, in this context, offer learning ability and optimization capability that can approximate many kinds of functions. In this paper, we develop a DL-based channel prediction method to estimate channel responses for V2I communications. We have demonstrated how fast neural networks can learn V2I channel properties and the changing trend. The network is trained with a series of channel responses and known pilots, which then speculates the next channel response based on the acquired knowledge. The predicted channel is then used to evaluate the system performance.},
	booktitle = {2019 {IEEE} 90th {Vehicular} {Technology} {Conference} ({VTC2019}-{Fall})},
	author = {Li, Tian-Hao and Khandaker, Muhammad R. A. and Tariq, Faisal and Wong, Kai-Kit and Khan, Risala T.},
	month = sep,
	year = {2019},
	note = {ISSN: 2577-2465},
	keywords = {Biological neural networks, Channel estimation, Machine learning, OFDM, Wireless communication},
	pages = {1--5},
}

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