An Artificial Intelligence-based Error Correction for Optical Camera Communication

被引:0
|
作者
Tung Lam Pham [1 ]
Trang Nguyen [1 ]
Minh Duc Thieu [1 ]
Huy Nguyen [1 ]
Hoan Nguyen [1 ]
Yeong Mm Jang [1 ]
机构
[1] Kookmin Univ, Dept Elect Engn, Seoul, South Korea
来源
2019 ELEVENTH INTERNATIONAL CONFERENCE ON UBIQUITOUS AND FUTURE NETWORKS (ICUFN 2019) | 2019年
关键词
artificial intelligence (AI); error correction; hybrid-spatial-phase-shift-keying (HS-PSK); dimmable-spatial-8-phaseshift-keying (DS8-PSK); optical camera communication (OCC); vehicular wireless communication; IEEE; 802.15.7;
D O I
10.1109/icufn.2019.8806169
中图分类号
TP18 [人工智能理论];
学科分类号
081104 ; 0812 ; 0835 ; 1405 ;
摘要
Optical Camera Communication (OCC) is promising to be the candidate for vehicular wireless communication due to its low cost, unlicensed spectrum and safe for human. Our most recent approach is to add region-of-interest (RoI) signaling functionality for cars via either headlight or taillight using hybrid of a low-rate waveform and high-rate waveform, which is already standardized in IEEE 802.15.7 standard. However, commercialize OCC for vehicular communication still be challenging work. In this paper, we proposed a novel error correction method based on the most trending technology artificial intelligence (AI) to deal with the various existing issues in the communication channel. The simulation for analyzing the performance of a new method in enhancing the performance of the communication system also be provided
引用
收藏
页码:137 / 140
页数:4
相关论文
共 50 条
  • [31] REUSE SYSTEM - AN ARTIFICIAL INTELLIGENCE-BASED APPROACH
    PRASAD, A
    PARK, EK
    JOURNAL OF SYSTEMS AND SOFTWARE, 1994, 27 (03) : 207 - 221
  • [32] Artificial Intelligence-Based New Material Design
    Babanli, M. B.
    10TH INTERNATIONAL CONFERENCE ON THEORY AND APPLICATION OF SOFT COMPUTING, COMPUTING WITH WORDS AND PERCEPTIONS - ICSCCW-2019, 2020, 1095 : 24 - 32
  • [33] Artificial Intelligence-Based Detection of Smoke Plume
    Jeong, Yemin
    Youn, Youjeong
    Kim, Seoyeon
    Kang, Jonggu
    Choi, Soyeon
    Im, Yungyo
    Seo, Youngmin
    Yu, Jeong-Ah
    Sung, Kyoung-Hee
    Kim, Sang-Min
    Lee, Yangwon
    KOREAN JOURNAL OF REMOTE SENSING, 2023, 39 (02) : 859 - 873
  • [34] Artificial intelligence-based nodal metastasis prediction
    Ahmed, F. S.
    Irfan, F. B.
    ANNALS OF ONCOLOGY, 2021, 32 : S1250 - S1251
  • [35] An Artificial Intelligence-based language modeling framework
    Ouazzane, Karim
    Li, Jun
    Kazemian, Hassan B.
    Jing, Yanguo
    Boyd, Richard
    EXPERT SYSTEMS WITH APPLICATIONS, 2012, 39 (05) : 5960 - 5970
  • [36] Artificial intelligence-based evaluation of prognosis in cirrhosis
    Yinping Zhai
    Darong Hai
    Li Zeng
    Chenyan Lin
    Xinru Tan
    Zefei Mo
    Qijia Tao
    Wenhui Li
    Xiaowei Xu
    Qi Zhao
    Jianwei Shuai
    Jingye Pan
    Journal of Translational Medicine, 22 (1)
  • [37] Artificial intelligence-based classification of echocardiographic views
    Naser, Jwan A.
    Lee, Eunjung
    Pislaru, Sorin, V
    Tsaban, Gal
    Malins, Jeffrey G.
    Jackson, John, I
    Anisuzzaman, D. M.
    Rostami, Behrouz
    Lopez-Jimenez, Francisco
    Friedman, Paul A.
    Kane, Garvan C.
    Pellikka, Patricia A.
    Attia, Zachi, I
    EUROPEAN HEART JOURNAL - DIGITAL HEALTH, 2024, 5 (03): : 260 - 269
  • [38] Artificial Intelligence-Based Protection for Smart Grids
    Bakkar, Mostafa
    Bogarra, Santiago
    Corcoles, Felipe
    Aboelhassan, Ahmed
    Wang, Shuo
    Iglesias, Javier
    ENERGIES, 2022, 15 (13)
  • [39] Towards artificial intelligence-based assessment systems
    Luckin, Rose
    NATURE HUMAN BEHAVIOUR, 2017, 1 (03):
  • [40] Artificial Intelligence-Based Digital Image Steganalysis
    Iskanderani, Ahmed I.
    Mehedi, Ibrahim M.
    Aljohani, Abdulah Jeza
    Shorfuzzaman, Mohammad
    Akther, Farzana
    Palaniswamy, Thangam
    Latif, Shaikh Abdul
    Latif, Abdul
    SECURITY AND COMMUNICATION NETWORKS, 2021, 2021
12345