Computational Eye Movement Model based on Adaptive Saliency Map

I. Chakraborty; X. Zheng; S. Lin; R. Rauschenberger

doi:10.1167/7.15.56

Saliency-Based Gaze Visualization for Eye Movement Analysis

Sensors ◽

10.3390/s21155178 ◽

2021 ◽

Vol 21 (15) ◽

pp. 5178

Author(s):

Sangbong Yoo ◽

Seongmin Jeong ◽

Seokyeon Kim ◽

Yun Jang

Keyword(s):

Eye Movements ◽

Visual Attention ◽

Eye Movement ◽

Visual Stimuli ◽

Saliency Map ◽

Gaze Behavior ◽

The Gaze ◽

Movement Data ◽

Visual Clues ◽

Human Visual Attention

Gaze movement and visual stimuli have been utilized to analyze human visual attention intuitively. Gaze behavior studies mainly show statistical analyses of eye movements and human visual attention. During these analyses, eye movement data and the saliency map are presented to the analysts as separate views or merged views. However, the analysts become frustrated when they need to memorize all of the separate views or when the eye movements obscure the saliency map in the merged views. Therefore, it is not easy to analyze how visual stimuli affect gaze movements since existing techniques focus excessively on the eye movement data. In this paper, we propose a novel visualization technique for analyzing gaze behavior using saliency features as visual clues to express the visual attention of an observer. The visual clues that represent visual attention are analyzed to reveal which saliency features are prominent for the visual stimulus analysis. We visualize the gaze data with the saliency features to interpret the visual attention. We analyze the gaze behavior with the proposed visualization to evaluate that our approach to embedding saliency features within the visualization supports us to understand the visual attention of an observer.

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An interactive model-based environment for eye-movement protocol analysis and visualization

Proceedings of the symposium on Eye tracking research & applications - ETRA '00 ◽

10.1145/355017.355026 ◽

2000 ◽

Cited By ~ 8

Author(s):

Dario D. Salvucci

Keyword(s):

Eye Movement ◽

Protocol Analysis ◽

Interactive Model ◽

Model Based

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Muscular Movement Model Based Automatic 3D Facial Expression Recognition

MultiMedia Modeling - Lecture Notes in Computer Science ◽

10.1007/978-3-319-14445-0_45 ◽

2015 ◽

pp. 522-533 ◽

Cited By ~ 14

Author(s):

Qingkai Zhen ◽

Di Huang ◽

Yunhong Wang ◽

Liming Chen

Keyword(s):

Facial Expression ◽

Facial Expression Recognition ◽

Expression Recognition ◽

Movement Model ◽

Model Based ◽

Muscular Movement ◽

3D Facial Expression Recognition

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Evaluating the Influence of Distractions to Drivers Based on Reflex Eye Movement Model

IFAC Proceedings Volumes ◽

10.3182/20100831-4-fr-2021.00045 ◽

2010 ◽

Vol 43 (13) ◽

pp. 251-256 ◽

Cited By ~ 3

Author(s):

Goro Obinata ◽

Katsuyuki Fukuda ◽

Akira Moriyama ◽

Satoru Tokuda ◽

YoungWoo Kim

Keyword(s):

Eye Movement ◽

Movement Model

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Eye movement computation model based on short-term memory optical flow image

Proceedings of IEEE International Conference on Multisensor Fusion and Integration for Intelligent Systems, MFI2003. ◽

10.1109/mfi-2003.2003.1232569 ◽

2003 ◽

Author(s):

S. Morita

Keyword(s):

Optical Flow ◽

Eye Movement ◽

Short Term Memory ◽

Computation Model ◽

Short Term ◽

Term Memory ◽

Model Based ◽

Flow Image

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Collision Detection Analysis of 2D Layout Based on Convex Hull Plus Rubber Band Simulation

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.488-489.1480 ◽

2014 ◽

Vol 488-489 ◽

pp. 1480-1484

Author(s):

Juan Lu ◽

Jia Xun Wei ◽

Wei Xia ◽

Jun Yan Ma ◽

Li Ying ◽

...

Keyword(s):

Convex Hull ◽

Collision Detection ◽

Design Method ◽

Rubber Band ◽

Digital Design ◽

Detection Methods ◽

Movement Model ◽

Model Based ◽

Collision Response ◽

Optimized Model

It is an innovative design method in physics that product layout design is abstracted into convex hull plus rubber band simulation layout mode by setting up the optimized model. Based on the physics model of Newtons Second Law, this paper analyzed collision detection methods during the process of realizing reasonable layout, and it is founded that real-time collision detection and collision response during movement, produced components within the given beat, appeared to be the key content of resolving digital model design. In this paper, Area Difference method was adopted to detect when the collision occurred during component movement and what kind of state the component tended to be in collision. At the same time, it also determined the interference degree, solved critical point pose for collision response as well as its generation time and related torque and force, which can confirm the components continued movement model of rotation and sliding. Meanwhile, it employed the Judgment Matrix method to analyze collision response so as to confirm the collision interference relationship and collision action state, movement possessing mode (rotation, sliding and retraction, etc.) within the remaining time after collision with given beat during the layout process. All these provided with a practical solution for digital design of optimized model based on convex hull plus rubber band simulation compact layout.

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