@article{ART003353589},
author={Hyun-Ju Kim and Byeon-hoon Lee and Kim dong hyun},
title={Design of a Sensor-Based Accident Response Scenario Framework for Developing an Accident Response System for Small Coastal Vessels},
journal={Journal of Internet of Things and Convergence},
issn={2466-0078},
year={2026},
volume={12},
number={3},
pages={18}
TY - JOUR
AU - Hyun-Ju Kim
AU - Byeon-hoon Lee
AU - Kim dong hyun
TI - Design of a Sensor-Based Accident Response Scenario Framework for Developing an Accident Response System for Small Coastal Vessels
JO - Journal of Internet of Things and Convergence
PY - 2026
VL - 12
IS - 3
PB - The Korea Internet of Things Society
SP - 18
EP -
SN - 2466-0078
AB - Coastal small vessels have limited safety equipment and crew resources, making rapid response difficult during maritime accidents. This study analyzed domestic maritime accident statistics and representative accident cases from 2021 to 2025 and designed a sensor-based accident response scenario framework for the development of accident response systems for coastal small vessels. Based on the analysis results, major accident types were classified into fire accidents, flooding accidents, and complex accidents. The proposed framework consists of four stages: Detection, Judgment, Warning, and Response. Accident severity was classified into three levels (Level 1–Level 3) using information from fire detection sensors, flooding sensors, and inclinometers, and accident-specific response scenarios were developed. For complex accidents, an integrated response procedure was established by prioritizing fire response while simultaneously performing flooding response actions. The proposed framework can be utilized as a design guideline for accident response systems for coastal small vessels and is expected to contribute to the development of sensor-based real-time maritime safety technologies.
KW - Coastal Small Vessel;Accident Response System;Accident Response Scenario;Fire Accident;Flooding Accident;Maritime Safety
DO -
UR -
ER -
Hyun-Ju Kim, Byeon-hoon Lee and Kim dong hyun. (2026). Design of a Sensor-Based Accident Response Scenario Framework for Developing an Accident Response System for Small Coastal Vessels. Journal of Internet of Things and Convergence, 12(3), 18.
Hyun-Ju Kim, Byeon-hoon Lee and Kim dong hyun. 2026, "Design of a Sensor-Based Accident Response Scenario Framework for Developing an Accident Response System for Small Coastal Vessels", Journal of Internet of Things and Convergence, vol.12, no.3 18.
Hyun-Ju Kim, Byeon-hoon Lee, Kim dong hyun "Design of a Sensor-Based Accident Response Scenario Framework for Developing an Accident Response System for Small Coastal Vessels" Journal of Internet of Things and Convergence 12.3 18 (2026) : 18.
Hyun-Ju Kim, Byeon-hoon Lee, Kim dong hyun. Design of a Sensor-Based Accident Response Scenario Framework for Developing an Accident Response System for Small Coastal Vessels. 2026; 12(3), 18.
Hyun-Ju Kim, Byeon-hoon Lee and Kim dong hyun. "Design of a Sensor-Based Accident Response Scenario Framework for Developing an Accident Response System for Small Coastal Vessels" Journal of Internet of Things and Convergence 12, no.3 (2026) : 18.
Hyun-Ju Kim; Byeon-hoon Lee; Kim dong hyun. Design of a Sensor-Based Accident Response Scenario Framework for Developing an Accident Response System for Small Coastal Vessels. Journal of Internet of Things and Convergence, 12(3), 18.
Hyun-Ju Kim; Byeon-hoon Lee; Kim dong hyun. Design of a Sensor-Based Accident Response Scenario Framework for Developing an Accident Response System for Small Coastal Vessels. Journal of Internet of Things and Convergence. 2026; 12(3) 18.
Hyun-Ju Kim, Byeon-hoon Lee, Kim dong hyun. Design of a Sensor-Based Accident Response Scenario Framework for Developing an Accident Response System for Small Coastal Vessels. 2026; 12(3), 18.
Hyun-Ju Kim, Byeon-hoon Lee and Kim dong hyun. "Design of a Sensor-Based Accident Response Scenario Framework for Developing an Accident Response System for Small Coastal Vessels" Journal of Internet of Things and Convergence 12, no.3 (2026) : 18.
