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All issues Volume 268 (2021) E3S Web Conf., 268 (2021) 01007 References
Open Access
Issue
E3S Web Conf.
Volume 268, 2021
2020 6th International Symposium on Vehicle Emission Supervision and Environment Protection (VESEP2020)
Article Number 01007
Number of page(s) 14
DOI https://doi.org/10.1051/e3sconf/202126801007
Published online 11 June 2021
  1. Ding Jinquan, Liu Yingji. Remote vehicle performance monitoring system based on OBD, GPS and 3G Technology [J]. Transportation Energy Saving and Environmental Protection, 2011(03): 55–58. [Google Scholar]
  2. Qiu Yuan. Study on Vehicle Auto Real-Time Monitoring Terminal and Management System[D]. 2015. Guangxi University [Google Scholar]
  3. Wang Yu, Hu Jiwen. Design of vehicle’s long-distance management system based on OBD, GPS and 3G [J]. Journal of Huanggang Normal University, 2011, 31(6): 67–68. [Google Scholar]
  4. Liao Yanhui. Vehicle Remote Monitoring System Based on OBD2 [J]. AUTO TIME, 2018, No. 295 (04): 29–30. [Google Scholar]
  5. Yan Xupu. Design of Remote Monitoring System for Vehicle Tail Gas Emission Based on OBD Detection Data [D]. Beijing University of Technology. 2016 [Google Scholar]
  6. Liu Shiguang. Analysis of The Status Quo of Vehicle Emissions Pollution Based on OBD Online Monitoring [J]. Environment and development, 2019 (5): 181–181. [Google Scholar]
  7. Dong Xiaoling. Remote Diagnosis and Monitor of Vehicle Based On OBD Device. [D]. Beijing Institute of Technology. 2016 [Google Scholar]
  8. Fujitsu Ten Limited. Fault diagnostic apparatus. US11363183, 2008 [Google Scholar]
  9. CUMMINS ENGINE COMPANY INC. A system and method for detecting a fault condition in aninternal combustion engine, GB0306469. 20030423. [Google Scholar]
  10. Jim Nebergall, Eric Hagen and Justin Owen. Selective Catalytic Reduction OnBoard Diagnostics: Past and Future Challenges. SAE Paper: 2005-01-3603 [Google Scholar]
  11. Yu Sun, Yue-Yun Wang, Chenfang Chang and Stephen. Detection of Urea Injection System Faults for SCR Systems. SAE Paper:2012-01-0431 [Google Scholar]
  12. Yue-Yun Wang, Yu Sun, Chen-Fang Chang, et al. Model-Based Fault Detection and Fault Tolerant Control of SCR Urea Injection System [J]. 2016, 65(6): 4645–4654. [Google Scholar]
  13. Sun Yilong, Guo Yong, Wang Changyuan. Research on Data Consistency of Remote Emission Management Vehicle Terminals for Heavy-duty Vehicles [J]. Small Internal Combustion Engine and Vehicle Technology. 2019, 48(02): 7–12. [Google Scholar]
  14. Liu Shiguang. Analysis of The Status Quo of Vehicle Emissions Pollution Based on OBD Online Monitoring [J]. Environment and development, 2019(5): 181–181. [Google Scholar]
  15. Ministry of Ecological Environment of the People’s Republic of China. China Mobile Source Environmental Management Annual Report [M]; 2019 [Google Scholar]
  16. Li Mengliang, Li Jingyuan, Xu Yueyun. Study on in-use vehicle emission and its influencing factors [C]. Thesis Collection of the 14th Annual Meeting of Fuel and Lubrication Subcommittee of China Automotive Engineering Society. 2010 [Google Scholar]
  17. Department of Ecological Environment. GB-17691-2018 Limits and measurement methods for emissions from diesel fueled heavy-duty vehicles(CHINA VI)[S]; 2018-06-22 [Google Scholar]
  18. Wang Y. Y., Sun Y., Chang C. F., et al. Model-based fault detection and fault-tolerant control of SCR urea in-jection systems[J]. IEEE Transactions on VehicularTechnology, 2016, 65(6): 4645–4654. [Google Scholar]

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