Study on the Analysis of Near-Miss Ship Collisions Using Logistic Regression

Kwang-Il Kim; Jung Sik Jeong; Byung-Gil Lee

doi:10.20965/jaciii.2017.p0467

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JACIII Vol.21 No.3 pp. 467-473

doi: 10.20965/jaciii.2017.p0467

(2017)

Paper:

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Study on the Analysis of Near-Miss Ship Collisions Using Logistic Regression

Kwang-Il Kim^, Jung Sik Jeong^, and Byung-Gil Lee^**

^*International Maritime Transportation Science, Mokpo National Maritime University
91 Haeyangdaehag-ro, Mokpo, Jeon-Nam 58628, Republic of Korea

^**Electronics and Telecommunications Research Institute
218 Gajeong-ro, Yuseong-gu, Daejeon 34129, Republic of Korea

Received:

March 20, 2016

Accepted:

January 4, 2017

Online released:

May 19, 2017

Published:

May 20, 2017

Keywords:

ship encounter variables, near-miss ship collision, logistic regression

Abstract

Generally, risk assessment for a ship collision can be performed by analyzing the trajectories of two ships as they get close to each other. A near-miss collision between ships is an undesired event that did not result in collision, but had a high risk of doing so. Due to the high frequency of these occurrences, many actual accident data samples can be obtained. In this paper, we extract various variables related to near-miss collisions from this data, such as Distance to Closest Point of Approach (DCPA), Time to Closest Point of Approach (TCPA) and Collision Avoidance Variance (CAV). To assess near-miss collision risk, logistic regression analysis is performed by categorizing encounter types based on ship trajectories collected over 4 months in coastal water areas.

Cite this article as:

K. Kim, J. Jeong, and B. Lee, “Study on the Analysis of Near-Miss Ship Collisions Using Logistic Regression,” J. Adv. Comput. Intell. Intell. Inform., Vol.21 No.3, pp. 467-473, 2017.

Data files:

References

[1] J. S. Jeong, G. K. Park, and K. I. Kim, “Risk Assessment Model of Maritime Traffic in Time-Variant CPA Environments in Waterway,” J. Adv. Comput. Intell. Intell. Inform. (JACIII), Vol.16, No.7, pp. 866-873, 2012.
[2] R. M. Darbra and J. Casal, “Historical analysis of accidents in seaports,” Safety Science, Vol.42, No.2, pp. 85-98, 2004.
[3] T. Hong, “Development of a System for Transmitting a Navigator’s Intention for Safe Navigation,” Int. J. of Fuzzy Logic and Intelligent Systems, Vol.14, No.2, pp. 130-135, 2014.
[4] J. M. Mou, C. van der Tak, and H. Ligteringen, “Study on collision avoidance in busy waterways by using AIS data,” Ocean Engineering, Vol.37, pp. 483-490, 2010.
[5] D. Roeleven, M. Kok, H. L. Stipdonk, and W. A. de Vries, “Inland Waterway Transport; Modeling the Probability of Accidents,” Safety Science, Vol.19, pp. 191-202, 1995.
[6] D. Jin, H. L. Kite-Powell, E. Thunberg, A. R. Solow, and W. K. Talley, “A Model of Fishing Vessel Accident Probability,” J. of Safety Research, Vol.33, No.4, pp. 497-510. 2002.
[7] A. K. Debnath, “Traffic Conflict based Modeling of Collision Risk in Port Waters,” Ph.D. dissertation, National University of Singapore, Singapore, pp. 29-30, 2009.
[8] K. Inoue and M. Kawase, “Innovative Probabilistic Prediction of Accident Occurrence,” Int. J. on Marine Navigation and Safety of Sea Transportation, Vol.1, No.1, 2007.
[9] Korea Maritime Safety Tribunal, Maritime Accidents Statistics 2011-2016, http://www.kmst.go.kr [accessed Mar. 1, 2016], 2017.
[10] C. Jean-Charles, “Close quarter situations reporting by VTS,” Rights and Safety of Marime and Ocean Activities Speciality, pp. 38-39, 2004.
[11] F. Goerlandt, et al., “Analysis of the Near-collisions using AIS data for the selected locations in the Baltic Sea,” EfficienSea Tech. Rep., 2012.
[12] K. I. Kim, J. S. Jeong, and G. K. Park, “A Study on Near-miss Incidents from Maritime Traffic Flow by Clustering Vessel Positions,” J. of Korean Institute of Intelligent Systems, Vol.24, No.6, pp. 603-608, 2014.
[13] A. K. Debnath and H. C. Chim, “National Traffic Conflict Technique : A Proactive Approach to Quantitative Measurement of Collision Risks in Port Waters,” The J. of Navigation, Vol.63, pp. 137-152, 2010.
[14] IMO, COLREG: Convention on the international regulations for preventing collisions at sea 1972, The International Maritime Organization, 2002.
[15] Y. Fujii and K. Tanaka, “Traffic Capacity,” The J. of Navigation, Vol.24, pp. 543-552, 1971.
[16] E. K. Kim, J. S. Jeong, G. K. Park, and N. K. Im, “Characteristics of Ship Movements in a Fairway,” Int. J. of Fuzzy Logic and Intelligent Systems, Vol.12, No.4, pp. 285-289, 2012.
[17] J. S. Kim, J. S. Jeong, and G. K. Park, “Utilization of Planned Routes and Dead Reckoning Positions to Improve Situation Awareness at Sea,” Int. J. of Fuzzy Logic and Intelligent Systems, Vol.14, No.4, pp. 288-294, 2014.
[18] K. I. Kim, J. S. Jeong, and G. K. Park, “A Study on the Analysis of Ship Encounter Data using Logistic Regression,” The 16th Int. Symp. on Advanced Intelligent Systems, pp. 235-242, 2015.
[19] D. R. Collet, “Modelling Binary Data,” Chapman and Hall, 1991.
[20] D. K. Cox and E. J. Snell, “The Analysis of Binary Data,” London, 1970.

This article is published under a Creative Commons Attribution-NoDerivatives 4.0 Internationa License.

[1] [1] J. S. Jeong, G. K. Park, and K. I. Kim, “Risk Assessment Model of Maritime Traffic in Time-Variant CPA Environments in Waterway,” J. Adv. Comput. Intell. Intell. Inform. (JACIII), Vol.16, No.7, pp. 866-873, 2012.

[2] [2] R. M. Darbra and J. Casal, “Historical analysis of accidents in seaports,” Safety Science, Vol.42, No.2, pp. 85-98, 2004.

[3] [3] T. Hong, “Development of a System for Transmitting a Navigator’s Intention for Safe Navigation,” Int. J. of Fuzzy Logic and Intelligent Systems, Vol.14, No.2, pp. 130-135, 2014.

[4] [4] J. M. Mou, C. van der Tak, and H. Ligteringen, “Study on collision avoidance in busy waterways by using AIS data,” Ocean Engineering, Vol.37, pp. 483-490, 2010.

[5] [5] D. Roeleven, M. Kok, H. L. Stipdonk, and W. A. de Vries, “Inland Waterway Transport; Modeling the Probability of Accidents,” Safety Science, Vol.19, pp. 191-202, 1995.

[6] [6] D. Jin, H. L. Kite-Powell, E. Thunberg, A. R. Solow, and W. K. Talley, “A Model of Fishing Vessel Accident Probability,” J. of Safety Research, Vol.33, No.4, pp. 497-510. 2002.

[7] [7] A. K. Debnath, “Traffic Conflict based Modeling of Collision Risk in Port Waters,” Ph.D. dissertation, National University of Singapore, Singapore, pp. 29-30, 2009.

[8] [8] K. Inoue and M. Kawase, “Innovative Probabilistic Prediction of Accident Occurrence,” Int. J. on Marine Navigation and Safety of Sea Transportation, Vol.1, No.1, 2007.

[9] [9] Korea Maritime Safety Tribunal, Maritime Accidents Statistics 2011-2016, http://www.kmst.go.kr [accessed Mar. 1, 2016], 2017.

[10] [10] C. Jean-Charles, “Close quarter situations reporting by VTS,” Rights and Safety of Marime and Ocean Activities Speciality, pp. 38-39, 2004.

[11] [11] F. Goerlandt, et al., “Analysis of the Near-collisions using AIS data for the selected locations in the Baltic Sea,” EfficienSea Tech. Rep., 2012.

[12] [12] K. I. Kim, J. S. Jeong, and G. K. Park, “A Study on Near-miss Incidents from Maritime Traffic Flow by Clustering Vessel Positions,” J. of Korean Institute of Intelligent Systems, Vol.24, No.6, pp. 603-608, 2014.

[13] [13] A. K. Debnath and H. C. Chim, “National Traffic Conflict Technique : A Proactive Approach to Quantitative Measurement of Collision Risks in Port Waters,” The J. of Navigation, Vol.63, pp. 137-152, 2010.

[14] [14] IMO, COLREG: Convention on the international regulations for preventing collisions at sea 1972, The International Maritime Organization, 2002.

[15] [15] Y. Fujii and K. Tanaka, “Traffic Capacity,” The J. of Navigation, Vol.24, pp. 543-552, 1971.

[16] [16] E. K. Kim, J. S. Jeong, G. K. Park, and N. K. Im, “Characteristics of Ship Movements in a Fairway,” Int. J. of Fuzzy Logic and Intelligent Systems, Vol.12, No.4, pp. 285-289, 2012.

[17] [17] J. S. Kim, J. S. Jeong, and G. K. Park, “Utilization of Planned Routes and Dead Reckoning Positions to Improve Situation Awareness at Sea,” Int. J. of Fuzzy Logic and Intelligent Systems, Vol.14, No.4, pp. 288-294, 2014.

[18] [18] K. I. Kim, J. S. Jeong, and G. K. Park, “A Study on the Analysis of Ship Encounter Data using Logistic Regression,” The 16th Int. Symp. on Advanced Intelligent Systems, pp. 235-242, 2015.

[19] [19] D. R. Collet, “Modelling Binary Data,” Chapman and Hall, 1991.

[20] [20] D. K. Cox and E. J. Snell, “The Analysis of Binary Data,” London, 1970.

Study on the Analysis of Near-Miss Ship Collisions Using Logistic Regression

Kwang-Il Kim*, Jung Sik Jeong*, and Byung-Gil Lee**

Kwang-Il Kim^, Jung Sik Jeong^, and Byung-Gil Lee^**