Integration of visual focus into marine operation simulator for behavior observation and analysis

Li, Guoyuan; Homlong, Eirik; Zhang, Houxiang; Dimmen, Bjorn Aase

doi:10.1109/oceanse.2017.8084601

Cited by 3 publications

(3 citation statements)

References 8 publications

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“…The AOIs in different stages, in conjunction with the corresponding critical operation, are depicted in Table I. Data was collected by our developed software [31] and the gaze points were mapped to the image shown in Fig. 7 with a pixel size of 1210×1047.…”

Section: A Heavy Lifting Operation Testmentioning

confidence: 99%

Visual Attention Assessment for Expert-in-the-Loop Training in a Maritime Operation Simulator

Mao

Hildre

et al. 2020

IEEE Trans. Ind. Inf.

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Improving the training programs for maritime operations is beneficial to enhance maritime safety in practice. In this paper, we propose a novel approach to the assessment of visual attention in a maritime operation so as to support an expertin-the-loop training program. Experts' knowledge of maritime operation and experiences in the simulator are incorporated into the training program in three ways. First, through a questionnaire, information about task division, identification of critical operation, and definitions of areas of interest (AOIs) is incorporated as prior knowledge for modeling visual attention. Second, a weight scale factor that emphasizes the high importance of visual focus in critical operations is utilized to generate an operations-dependent attention map. Third, based on an expert's attention map and visual switch between AOIs, a similarity metric is designed as a comprehensive evaluation between saliency and visual transition. A case study of heavy lifting operation is performed by two groups of trainees who have received different briefings about "critical operation". The assessment result shows the group with more detailed briefing obtains a 6% similarity score higher than the other group, which is consistent with the debriefing result of a superior performance of that group. The proposed approach is thus verified effective in assessing visual attention for the expert-in-the-loop training program.

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Section: A Heavy Lifting Operation Testmentioning

confidence: 99%

Visual Attention Assessment for Expert-in-the-Loop Training in a Maritime Operation Simulator

Mao

Hildre

et al. 2020

IEEE Trans. Ind. Inf.

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“…In addition, visual focus is considered a valid clue for fatigue detection. Here we utilized the professional wearable eye tracking device -Tobii pro glasses 2 with gyro and accelerometer integrated for head movement analysis [22] and our developed eye-tracking software to collect the data [23].…”

Section: A Sensor Setupmentioning

confidence: 99%

A Decentralized Sensor Fusion Approach to Human Fatigue Monitoring in Maritime Operations

Ana

Zhang

2019

2019 IEEE 15th International Conference on Control and Automation (ICCA)

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Human fatigue is one of the main causes of accidents in maritime domain. How to use physiological data to estimate degree of human fatigue without medical domain knowledge is significant to the safety of tasks in maritime operations. In this paper, a decentralized sensor fusion approach is proposed. Various sensor data used to monitor brain wave, heart rate, muscle tension, body temperature, visual focus and head movement, together with subjective measurement of Karolinska Sleepiness Scale (KSS) values are selected as the data source for this study. Convolutional neural networks are adopted in the approach to extract local features of each individual data channel. The local features are further fused into a 5-layer fuzzy neural network for classification of the KSS values. A case study of fatigue monitoring test of ship maneuvering in simulator has been carried out. Through a comparative study with a centralized fusion approach, the proposed method is verified to be able to provide high accuracy up to 96.08% for fatigue level classification, and in particular, robust enough to maintain the accuracy to 88.42% in case of sensor failure.

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“…Eye tracking is implemented in many research areas with respect to training. For example, Kasarskis et al [ 3 ], Sadasivan et al [ 4 ], Sarter et al [ 5 ], Yang et al [ 6 ], Kang & Landry [ 7 ], Dehais et al [ 8 ] and Wickens et al [ 9 ] implemented eye tracking techniques to study flight training with a focus on fixation number, mean fixation duration, mean dwell duration and scanpath; Balk et al [ 10 ], Fisher et al [ 11 ], Palinko et al [ 12 ], Paeglis et al [ 13 ], and Xu et al [ 14 ] studied driving training by analyzing mean fixation duration and its standard deviation, saccade size, pupil diameter and scanpath; Miall & Tchalenko [ 15 ], and Tchalenko [ 16 ] researched drawing issues introducing dwell time; Law et al [ 17 ], and Chetwood et al [ 18 ] carried out surgery training; Kovácsová et al [ 19 ] researched cyclists’ eye movements by introducing fixation duration; Although many successes of eye tracking applications validate the feasibility in human training, it is seldom to see applying eye tracking technology to marine operation training [ 20 ], much less researches on analyzing and evaluating eye behavior during the training.…”

Section: Introductionmentioning

confidence: 99%

Analysis and evaluation of eye behavior for marine operation training - A pilot study

Mao

Hildre

et al. 2019

JEMR

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This paper presents a new analysis approach for evaluating situation awareness in marine operation training. Taking advantage of eye tracking technology, the situation awareness reflected by visual attention can be visualized and analyzed. A scanpath similarity comparison method that allows group-wise comparisons is proposed. The term ‘Expert zone’ is introduced to evaluate the performance of novice operator based on expert operators’ eye movement. It is used to evaluate performance of novice operators in groups in certain segment of marine operation. A pilot study of crane lifting experiment was carried out. Two target stages of operation for the load descending until total immersion to the seabed were selected and analyzed for both novice and expert operators. The group-wise evaluation method is proven to be able to access the performance of the operator. Besides that, from data analysis of fixation-related source and scanpath, the similarities and dissimilarities of eye behavior between novice and expert is concluded with the scanpath mode in target segment.

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Integration of visual focus into marine operation simulator for behavior observation and analysis

Cited by 3 publications

References 8 publications

Visual Attention Assessment for Expert-in-the-Loop Training in a Maritime Operation Simulator

Visual Attention Assessment for Expert-in-the-Loop Training in a Maritime Operation Simulator

A Decentralized Sensor Fusion Approach to Human Fatigue Monitoring in Maritime Operations

Analysis and evaluation of eye behavior for marine operation training - A pilot study

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