Study on the Drill of Maritime Rescue Oriented Modeling Method of Climate Background Environment
Authors: 
Sha Chang, Xuyun Zhao, Bin Song, Yu WangAuthors Info & Claims
Sha Chang, Xuyun Zhao, Bin Song, Yu WangAuthors Info & ClaimsPages 109 - 113
Abstract
In order to provide an about real-world rescue environment for marine rescue simulation training, meteorological marine environment modeling becomes more and more important. In the modeling of meteorological ocean environment, the modeling method of complex environment is becoming more and more mature and the models are becoming more sophisticated, while the climate background models are often overlooked. How to provide real and accurate data-based climate background modeling for marine rescue simulation training has become an urgent problem to be solved. Based on the seasonal-trend decomposition procedure based on Loess (STL) and statistical feature modeling method, a modeling method for constructing dynamic climate background modeling using climate time series is proposed. For different climate model simulation application and the specific characteristics of climate change, our method builds the dynamic climate background model for different sea areas and different months accordingly, while considering the changing of climatic factors at different time scales. The dynamic climate background model is composed of four climate trend models with different time periods, namely, the annual variation trend of climate elements, the daily mean anomaly variation trend, the daily variation trend and the random perturbation. This modeling method of climate background model is not just a way to reflect the trends of climate change, but also to provide a dynamic and numerical climate background information for simulation training. As a result, providing this information to the commander or the rescue equipment can further improve the effectiveness of maritime rescue drill.
References
[1]
Global Integrated Shipping Information System (GISIS): Marine casualties and incidents {OL}. https://gisis.imo.org/Public/Default.aspx, 2017-02-01.
[2]
Xiuwen, L. X. L., Fangbing, X. F. X., & Yicheng, J. Y. J. 2009. A Prototype of Marine Search and Rescue Simulator. International Conference on Information Technology & Computer Science. IEEE.
[3]
Jing, L., Zhang, S., & Han, J. 2012. Research and application on simulation technology of natural environment. Communications in Computer & Information Science, 262--267.
[4]
Shen, H., Yin, Y., & Li, Y. 2009. Rendering of 3D Cloud for Marine Search and Rescue Simulator in Real-time. Sixth International Conference on Computer Graphics. IEEE Computer Society.
[5]
Xu, L. R., Xu, Y. P., Li, K., Cheng, W., Cheng, R., & Deng, Z. W. 2006. Research on modeling methods of atmospheric environment simulation. Journal of System Simulation.
[6]
Cai J, Zhao L M, Li-Ren X U, et al. 2011. Modeling and simulation technology about atmospheric environment. Computer Engineering & Design, 32(5):1815--1819.
[7]
Lianlei, L., & Wei, D. (2015). Construction of virtual atmospheric environment based on mm5 and sedris. Journal of System Simulation.
[8]
Cleveland R B, Cleveland W S, Mcrae J E, et al. 1990. STL: A seasonal-trend decomposition procedure based on loess {1}. Journal of Official Statistics, 6(I):3--73.
[9]
Jieping, H., Xiaolong, Y., & Qian, W. 2011. The Research of Atmospheric Environment Sustainable Development's Dynamic Simulation. International Conference on Information Security & Intelligence Control. IEEE Computer Society.
[10]
Pielke, R. A., Cotton, W. R., Walko, R. L., Tremback, C. J., Lyons, W. A., & Grasso, L. D., et al. 1992. A comprehensive meteorological modeling system-rams. Meteorology and Atmospheric Physics, 49(1--4), 69--91.
[11]
Spiga, A., Guerlet, S., Millour, E., Indurain, M., Meurdesoif, Y., & Cabanes, S., et al. 2018. Global climate modeling of saturn's atmosphere. part ii: multi-annual high-resolution dynamical simulations.
[12]
Xie, Z., & Castro, I. P. (2006). Large-eddy simulation for urban micro-meteorology. Journal of Hydrodynamics Ser B, 18(3), 259--264.
Index Terms
- Study on the Drill of Maritime Rescue Oriented Modeling Method of Climate Background Environment
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Published In
February 2019
170 pages
ISBN:9781450362047
DOI:10.1145/3316551
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Association for Computing Machinery
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Published: 24 February 2019
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ICDSP 2019
ICDSP 2019: 2019 3rd International Conference on Digital Signal Processing
February 24 - 26, 2019
Jeju Island, Republic of Korea
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