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REFERENCES

1 
Pathak P. H., Feng X., Hu P., Mohapatra P., 2015, Visible Light Communication, Networking, and Sensing: A Survey, Potential and Challenges, IEEE Communication Survey Tutorials, Vol. 17, No. 4, pp. 2047-2077DOI
2 
Salian P. P., Prabhu S., Amin P., Naik S. K., Parashuram M. K., 2013, Visible light communication, Proc. - 2013 Texas Instruments India Educ. Conf. TIIEC 2013, pp. 379-383DOI
3 
Cevik T., Yilmaz S., 2015, An Overview of Visible Light Communication Systems, International Journal of Computer Networks and Communications, Vol. 7, No. 6, pp. 139-150DOI
4 
Saeed N., Guo S., Park K. H., Al-Naffouri T. Y., Alouini M. S., 2019, Optical camera communications: Survey, use cases, challenges, and future trends, Physical Communication, Vol. 37, pp. 1-17DOI
5 
Lain J., Yang Z., Xu T., Dec. 2019, Experimental DCO-OFDM Optical camera communication systems with a commercial smartphone camera, IEEE Photonics Journal, Vol. 11, No. 6, pp. 1-13DOI
6 
Hossain E., Mamun N., Faisal M. F., 2017, Vehicle to Vehicle Communication Using RF and IR Technology, 2nd International Conference on Electrical Electronics Engineering (ICEEE), Rajshahi, pp. 1-5DOI
7 
Kosmanos D., Argyriou A., Maglaras L., Nov. 2019, Estimating the Relative Speed of RF Jammers in VANETs, Security and Communication Networks, Vol. 2019, pp. 1-18DOI
8 
Ur Rehman S., Khan M. A., Zia T. A., Zheng L., 2013, Vehicular Ad-Hoc Networks (VANETs) - An Overview and Challenges, EURASIP Journal on Wireless Communications and Networking, Vol. 2013, No. 3, pp. 29-38URL
9 
Masini B. M., Bazzi A., Zanella A., 2018, Vehicular visible light networks for urban mobile crowd sensing, Sensors, Vol. 18, No. 4, pp. 1177DOI
10 
Kumar N., Lourenço N., Terra D., Alves L. N., Aguiar R. L., 2012, Visible light communications in intelligent transportation systems, 2012 IEEE Intelligent Vehicle Symposium, pp. 748-753DOI
11 
Hasirlioglu S., Riener A., 2017, Introduction to rain and fog attenuation on automotive surround sensors, 2017 IEEE 20th International Conference on Intelligent Transportation Systems (ITSC), Yokohama, pp. 1-7DOI
12 
Zaki R. W., Fayed H. A., El Aziz A. A., Aly M. H., 2019, Outdoor visible light communication in intelligent transportation systems: Impact of snow and rain, Applied Sciences, Vol. 9, No. 24, pp. 5453DOI
13 
Kim Y. H., Cahyadi W. A., Chung Y. H., 2015, Experimental Demonstration of VLC-Based Vehicle-to-Vehicle Communications Under Fog Conditions, IEEE Photonics Journal, Vol. 7, No. 6, pp. 1-9DOI
14 
Joshi K., Roy N., Singh G., Bohara V. A., Srivastava A., 2019, Experimental Observations on the Feasibility of VLC-Based V2X Communications under various Environmental Deterrents, 2019 IEEE International Conference on Advanced Networks and Telecommunications Systems (ANTS), GOA, India, pp. 1-4DOI
15 
Shen W., Tsai H., 2017, Testing vehicle-to-vehicle visible light communications in real-world driving scenarios, 2017 IEEE Vehicular Networking Conference (VNC), Torino, pp. 187-194DOI
16 
Siddiqi K., Raza A. D., Muhammad S. S., 2016, Visible light communication for V2V intelligent transport system, 2016 International Conference on Broadband Communications for Next Generation Networks and Multimedia Applications (CoBCom), Graz, pp. 1-4DOI
17 
Ashraf K., Islam S. M. T., Hosseini A. S., Ashok A., 2019, Motion Characterization for Vehicular Visible Light Communications, 2019 11th International Conference on Communication Systems & Networks (COMSNETS), Bengaluru, India, pp. 759-764DOI
18 
Jin S. Y., Choi D., Kim B. W., 2018, Optical Vehicle to Vehicle Communications for Autonomous Mirrorless Cars, Journal of Multimedia Information System, Vol. 5, No. 2, pp. 105-110DOI
19 
Takai I., Harada T., Andoh M., Yasutomi K., Kagawa K., Kawahito S., 2014, Optical vehicle-to-vehicle communication system using LED transmitter and camera receiver, IEEE Photonics Journal, Vol. 6, No. 5, pp. 1-14DOI
20 
Kim B. W., Jeon H. J., Yun S. K., Jung S. Y., 2016, Test Results for V2V and V2I Optical Camera Communications, The Fifth International Conference on Advances in Vehicular Systems, Technologies and Applications, pp. 20-21URL
21 
Premachandra H. C. N., et al. , 2011, Road-to-vehicle Visible Light Communication Using High-speed Camera in Driving Situation, Vol. 459, pp. 459-464URL
22 
Iwasaki S., Premachandra C., Endo T., Fujii T., Tanimoto M., Kimura Y., 2008, Visible light road-to-vehicle communication using high-speed camera, IEEE Intelligent Vehicles Symposium, pp. 13-18DOI
23 
Vieira M. A., Vieira M., Louro P., Torre Q., Caparica M., Vieira P., 2018, Vehicular Visible Light Communication I2V2V2I connected cars, The Ninth International Conference on Sensor Device Technologies and Applications, pp. 175-180URL
24 
Yamazato T., et al. , 2016, Range estimation scheme for integrated I2V-VLC using a high-speed image sensor, 2016 IEEE International Conference on Communications Workshops (ICC), Kuala Lumpur, pp. 326-330DOI
25 
Yamazato T., et al. , 2014, Image-sensor-based visible light communication for automotive applications, IEEE Communication Magazine, Vol. 52, No. 7, pp. 88-97DOI
26 
Takai I., Ito S., Yasutomi K., Kagawa K., Andoh M., Kawahito S., Oct. 2013, LED and CMOS Image Sensor Based Optical Wireless Communication System for Automotive Applications, IEEE Photonics Journal, Vol. 5, No. 5, pp. 6801418-6801418DOI
27 
Goto Y., et al. , 2016, A New Automotive VLC System Using Optical Communication Image Sensor, IEEE Photonics Journal, Vol. 8, No. 3, pp. 1-17DOI
28 
Yang Y., Chen M., Guo C., Feng C., Saad W., 2019, Power Efficient Visible Light Communication With Unmanned Aerial Vehicles, IEEE Communication Letters, Vol. 23, No. 7, pp. 1272-1275DOI
29 
Yamazato T., Dec 2017, V2X Communications with an Image Sensor, Journal of Communications and Information Networks, Vol. 2, No. 4, pp. 65-74DOI
30 
Kim J. E., Kim J. W., Park Y., Kim K. D., 2016, Color-Space-Based Visual-Mimo for V2X Communication, Sensors, Vol. 16, No. 4, pp. 591DOI
31 
Amantayeva A., Yerzhanova M., Kizilirmak R. C., UAV Location Optimization for UAV-to-Vehicle Multiple Access Channel with Visible Light Communication, 2019 Wireless Days (WD), Manchester, United Kingdom, Vol. 2019, No. April, pp. 1-4DOI
32 
Pham T. L., Shahjalal M., Bui V., Jang Y. M., 2020, Deep Learning for Optical Vehicular Communication, in IEEE Access, Vol. 8, pp. 102691-102708DOI
33 
A.Islam , Hossan M.T., Jang Y.M., Apr. 2018, Convolutional Neural Network Scheme-Based Optical Camera Communication System for Intelligent Internet of Vehicles, International Journal of Distributed Sensor Networks, Vol. 14, No. 4, pp. 1-19DOI
34 
Kwon T. H., Kim J. E., Kim K. D., 2017, Synchronization Method for Color-Independent Visual-MIMO Communication, 2017 IEEE International Conference on Consumer Electronics ICCE 2017, pp. 458-459DOI
35 
Cailean A., Cagneau B., Chassagne L., Topsu S., Alayli Y., Dimian M., 2013, Visible light communications cooperative architecture for the intelligent transportation system, 2013 IEEE 20th Symposium on Communications and Vehicular Technology in the Benelux (SCVT), Namur, pp. 1-5DOI
36 
Matsumoto S., Ohhigashi N., Hasuike T., 2016, Developing a Transportation Support System for Vulnerable Road Users in Local Community, Proc. - 2016 5th IIAI International Congress on Advanced Applied Informatics, pp. 797-800DOI
37 
Gheorghiu R. A., Cormos A. C., Stan V. A., Iordache V., 2017, Overview of Network Topologies for V2X Communications, 2017 9th International Conference on Electronics, Computers and Artificial Intelligence (ECAI), Targoviste, pp. 1-6DOI
38 
Arena F., Pau G., Jan, 2019, An Overview of Vehicular Communications, ~ Future Internet, Vol. 11, No. 2, pp. 27DOI
39 
Haines G., McGordon A., Jennings P., 2009, The Simulation of Vehicle-to-Home Systems-Using Electric Vehicle Battery Storage to Smooth Domestic Electricity Demand, Proceedings on Ecologic Vehicles/Renewable Energies, No. 2009, pp. 2-10URL
40 
Pillmann J., Sliwa B., Schmutzler J., Ide C., Wietfeld C., 2017, Car-to-Cloud Communication Traffic Analysis Based on the Common Vehicle Information Model, 2017 IEEE 85th Vehicular Technology Conference (VTC Spring), Sydney, NSW, pp. 1-5DOI
41 
Hu W., Gu H., Pu Q., 2013, Lightsync: Unsynchronized Visual Communication over Screen-Camera Links, MobiCom13: Proceedings of the 19th annual international conference on Mobile computing & networking, pp. 15-26DOI
42 
Thummaluri U., Kumar A., Natarajan L., 2018, Flicker Mitigating High Rate RLL Codes for VLC with Low Complexity Encoding and Decoding, 2018 IEEE International Symposium on Smart Electronic Systems (iSES) (Formerly iNiS), Hyderabad, India, pp. 209-214DOI
43 
Matus V., Eso E., Teli S. R., Perez-Jimenez R., Zvanovec S., 2020, Experimentally Derived Feasibility of Optical Camera Communications Under Turbulence and Fog Conditions, Sensors, Vol. 20, No. 3, pp. 757DOI
44 
Cailean A., Cagneau B., Chassagne L., Popa V., Dimian M., 2014, Evaluation of the noise effects on Visible Light Communications using Manchester and Miller coding, 2014 International Conference on Development and Application Systems (DAS), Suceava, pp. 85-89DOI
45 
Khan F. N., Fan Q., Lu J., Zhou G., Lu C., Tao Lau A. P., 2020, Applications of Machine Learning in Optical Communications and Networks, 2020 Optical Fiber Communications Conference and Exhibition (OFC), San Diego, CA, USA, pp. 1-91DOI
46 
Albawi S., Mohammed T. A., Al-Zawi S., 2017, Understanding of a convolutional neural network, 2017 International Conference on Engineering and Technology (ICET), Antalya, pp. 1-6DOI
47 
Yu C., Wang J., Peng C., Gao C., Yu G., Sang N., 2018, BiSeNet: Bilateral Segmentation Network for Real-Time Semantic Segmentation, In: Proceedings of the European Conference on Computer Vision (ECCV), Vol. 11217, pp. 325-341DOI
48 
Bhowick D., Gupta D. K., Maiti S., Shankar U., 2019, Stacked Autoencoders based Machine Learning for Noise Reduction and Signal Reconstruction in geophysical data, arXiv: Computational Engineering, Finance, and Science, pp. 1-21DOI
49 
Ulkar M. G., Baykas T., Pusane A. E., 1 Nov.1, 2020, VLCnet: Deep Learning Based End-to-End Visible Light Communication System, in Journal of Lightwave Technology, Vol. 38, No. 21, pp. 5937-5948DOI
50 
Amran N. A., Dehghani Soltani M., Yaghoobi M., Safari M., 2020, Deep Learning Based Signal Detection for OFDM VLC Systems, 2020 IEEE International Conference on Communications Workshops (ICC Workshops), Dublin, Ireland, pp. 1-6DOI
51 
Lee H., Lee I., Lee S.H., Mar. 2018, Deep Learning based Transceiver Design for Multi-colored VLC Systems, Optics Express, Vol. 26, No. 5, pp. 6222-6238DOI
52 
Lee H., Quek T. Q. S., Lee S. H., Feb 2020, A Deep Learning Approach to Universal Binary Visible Light Communication Transceiver, IEEE Transactions on Wireless Communications, Vol. 19, No. 2, pp. 956-969DOI
53 
Schaub F., Ma Z., Kargl F., 2009, Privacy Requirements in Vehicular Communication Systems, 12th IEEE International Conferrence on Computer Science Engineering CSE 2009, Vol. 3, No. march, pp. 139-145DOI
54 
Rohner C., Raza S., Puccinelli D., Voigt T., 2015, Security in Visible Light Communication: Novel Challenges and Opportunities, Sensors & Transducers, Vol. 192, No. 9, pp. 9-15URL