Fuzzy Inference System for Determining Collision Risk of Ship in Madura Strait Using Automatic Identification System
References:
[1] F. Zhu and L. Liu, "Research on a method for analysis of ship traffic density in harbor water area based on GIS," in IEEE Conference Anthology, 2013, pp. 1-4.
[2] M. P. Indonesia, "Rekapitulasi data kecelakaan kapal," Mahkamah Pelayaran Kementerian Perhubungan Indonesia, Jakarta2009.
[3] S. Chen, R. Ahmad, B.-G. Lee, and D. Kim, "Composition ship collision risk based on fuzzy theory," Journal of Central South University, vol. 21, pp. 4296-4302, 2014.
[4] I. Y. Gong, "The Development of a Supporting System for Safe Navigation on Basis of Risk," 3rd Research Report (Development of a Core Technology for a Risk Reduction), 2002.
[5] N. Akten, "Shipping accidents: a serious threat for marine environment," Journal of Black Sea/Mediterranean Environment, vol. 12, 2006.
[6] Q. Xu and N. Wang, "A Survey on Ship Collision Risk Evaluation," PROMET-Traffic&Transportation, vol. 26, pp. 475-486, 2014.
[7] P. P. I. III, "Data Jumlah Kapal Berlayar di Alur Pelayaran Barat Surabaya," PT Pelabuhan Indonesia III (Persero) Surabaya 2013.
[8] Y. Fujii and K. Tanaka, "Traffic capacity," Journal of Navigation, vol. 24, pp. 543-552, 1971.
[9] E. M. Goodwin, "A statistical study of ship domains," Journal of Navigation, vol. 28, pp. 328-344, 1975.
[10] T. Coldwell, "Marine traffic behaviour in restricted waters," Journal of Navigation, vol. 36, pp. 430-444, 1983.
[11] S. J. Chang, D. T. Hsiao, and W. C. Wang, "AIS-based delineation and interpretation of ship domain models," in OCEANS 2014 - TAIPEI, 2014, pp. 1-6.
[12] Z. Pietrzykowski, "Ship's Fuzzy Domain–a Criterion for Navigational Safety in Narrow Fairways," Journal of Navigation, vol. 61, pp. 499-514, 2008.
[13] A. C. Bukhari, I. Tusseyeva, B.-G. lee, and Y.-G. Kim, "An intelligent real-time multi-vessel collision risk assessment system from VTS view point based on fuzzy inference system," Expert Systems with Applications, vol. 40, pp. 1220-1230, 2013.
[14] K. B. Artana, D. DP, and T. P. Masroeri, "Combining AIS data and fuzzy clustering to measure danger score of ships," Journal of maritime researches, vol. 1, pp. 33-41, 2011.
[15] T. Pitana, E. Kobayashi, S. Koshimura, K. Onoda, and Rusmanto, "25 Evacuation Assessment of a Large Passenger Vessel due to Tsunami Attack," Journal of the Japan Society of Naval Architects and Ocean Engineers, pp. 205-217, 2008/12 2008.
[16] T. Pitana, A. Dinariyana, K. B. Artana, M. B. Zaman, and P. Hilman, "Development of hazard navigation map by using AIS data," Journal of maritime researches, vol. 1, pp. 43-52, 2011.
[17] C.-M. Su, K.-Y. Chang, and C.-Y. Cheng, "Fuzzy decision on optimal collision avoidance measures for ships in vessel traffic service," Journal of Marine Science and Technology, vol. 20, pp. 38-48, 2012.
[18] A. Paralikas and A. Lygeros, "A multi-criteria and fuzzy logic based methodology for the relative ranking of the fire hazard of chemical substances and installations," Process Safety and Environmental Protection, vol. 83, pp. 122-134, 2005.
[19] L. A. Zadeh, "Fuzzy sets," Information and control, vol. 8, pp. 338-353, 1965.