Your search keyword '"Hung, Yi-Ping"' showing total 7 results

1. Absolute Camera Pose Regression Using an RGB-D Dual-Stream Network and Handcrafted Base Poses.

Author

Kao, Peng-Yuan, Zhang, Rong-Rong, Chen, Timothy, and Hung, Yi-Ping

Subjects

POSE estimation (Computer vision), COLOR image processing, CAMERAS

Abstract

Absolute pose regression (APR) for camera localization is a single-shot approach that encodes the information of a 3D scene in an end-to-end neural network. The camera pose result of APR methods can be observed as the linear combination of the base poses. Previous APR methods' base poses are learned from training data. However, the training data can limit the performance of the methods, which cannot be generalized to cover the entire scene. To solve this issue, we use handcrafted base poses instead of learning-based base poses, which prevents overfitting the camera poses of the training data. Moreover, we use a dual-stream network architecture to process color and depth images separately to get more accurate localization. On the 7 Scenes dataset, the proposed method is among the best in median rotation error, and in median translation error, it outperforms previous APR methods. On a more difficult dataset—Oxford RobotCar dataset, the proposed method achieves notable improvements in median translation and rotation errors compared to the state-of-the-art APR methods. [ABSTRACT FROM AUTHOR]

Published

2022

2. An Ensemble of Invariant Features for Person Reidentification.

Author

Lee, Young-Gun, Chen, Shen-Chi, Hwang, Jenq-Neng, and Hung, Yi-Ping

Subjects

IDENTIFICATION, PERSONS, GAUSSIAN distribution, PEDESTRIANS, VIDEOS

Abstract

This paper proposes an ensemble of invariant features (EIFs), which can properly handle the variations of color difference and human poses/viewpoints for matching pedestrian images observed in different cameras with nonoverlapping field of views. Our proposed method is a direct reidentification (re-id) method, which requires no prior domain learning based on prelabeled corresponding training data. The novel features consist of the holistic and region-based features. The holistic features are extracted by using a publicly available pretrained deep convolutional neural network used in generic object classification. In contrast, the region-based features are extracted based on our proposed two-way Gaussian mixture model fitting, which overcomes the self-occlusion and pose variations. To make a better generalization during recognizing identities without additional learning, the ensemble scheme aggregates all the feature distances using the similarity normalization. The proposed framework achieves robustness against partial occlusion, pose, and viewpoint changes. Moreover, the evaluation results show that our method outperforms the state-of-the-art direct re-id methods on the challenging benchmark viewpoint invariant pedestrian recognition and 3D people surveillance data sets. [ABSTRACT FROM PUBLISHER]

Published

2017

3. Hybrid Method for 3-D Gaze Tracking Using Glint and Contour Features.

Author

Lai, Chih-Chuan, Shih, Sheng-Wen, and Hung, Yi-Ping

Subjects

CURVATURE measurements, EYE tracking, VECTORS (Calculus), REFRACTION (Optics), LIGHT sources, CORNEA

Abstract

Glint features have important roles in gaze-tracking systems. However, when the operation range of a gaze-tracking system is enlarged, the performance of glint-feature-based (GFB) approaches will be degraded mainly due to the curvature variation problem at around the edge of the cornea. Although the pupil contour feature may provide complementary information to help estimating the eye gaze, existing methods do not properly handle the cornea refraction problem, leading to inaccurate results. This paper describes a contour-feature-based (CFB) 3-D gaze-tracking method that is compatible to cornea refraction. We also show that both the GFB and CFB approaches can be formulated in a unified framework and, thus, they can be easily integrated. Furthermore, it is shown that the proposed CFB method and the GFB method should be integrated because the two methods provide complementary information that helps to leverage the strength of both features, providing robustness and flexibility to the system. Computer simulations and real experiments show the effectiveness of the proposed approach for gaze tracking. [ABSTRACT FROM AUTHOR]

Published

2015

4. 2D and 3D visualization with dual-resolution for surveillance.

Author

Chen, Shen-Chi, Lee, Chung-Yi, Lin, Chih-Wei, Chan, Iok-Long, Chen, Yong-Sheng, Shih, Sheng-Wen, and Hung, Yi-Ping

Abstract

The scale of the camera networks in surveillance systems has been largely expanded. However, conventional visualization methods display each camera video on an individual screen. In this way, it is difficult to effectively monitor the regions covered by all of the cameras, especially when tracking a moving target crossing different camera views. In this paper, we propose a novel visualization framework for surveillance systems with two distinct features: (1) integration of multiple camera views and a Google Earth satellite image with 3D building models; and (2) a wall-size display with dual resolutions, called e-Fovea, created by combining a fixed projector and a steerable projector whose projection direction can be controlled. Within the large-scale display area projected by the fixed projector, there is a fovea area with high resolution image of a selected camera projected by the steerable projector. To increase the computational efficiency, we adopt CUDA programming for the integration of multiple camera views. Our experimental results demonstrate a practical implementation of the proposed visualization framework for monitoring vehicles moving across multiple camera views surrounding a building. Through the proposed system, the security guard can simultaneously perceive the low-resolution image of large-scale monitored area and focus on the region of interest with high resolution. [ABSTRACT FROM PUBLISHER]

Published

2012

5. The construction of a high-resolution visual monitoring for hazard analysis.

Author

Lin, Chi-Wei, Hung, Yi-Ping, Hsu, Wen-Ko, Chiang, Wei-Ling, and Chen, Cheng-Wu

Subjects

HAZARDS, URBANIZATION, ENVIRONMENTAL monitoring, CAMERAS, DISASTERS

Abstract

High rates of urbanization, environmental degradation, and industrial development in disaster-prone areas have all served to increase the extent of damage following catastrophes. In this paper, we present a novel framework for exploiting multi-resolution dual cameras, including a wide-angle camera and a speed dome camera, to construct a wide-angle, multi-layered, high-resolution visual monitoring system for hazard assessment. Our two-part camera system requires calibration of the correspondence between the detailed and overview image captured by the speed dome camera and wide-angle fixed camera, respectively. In-factory calibration is carried out using white-black patterns for speed dome turning and multi-layered calibration. The results are displayed as wide-angle, multi-layered, high-resolution images which are built up by the speed dome camera. [ABSTRACT FROM AUTHOR]

Published

2013

6. Multi-Resolution Design for Large-Scale and High-Resolution Monitoring.

Author

Chen, Kuan-Wen, Lin, Chih-Wei, Chiu, Tzu-Hsuan, Chen, Mike Yen-Yang, and Hung, Yi-Ping

Abstract

Large-scale and high-resolution monitoring systems are ideal for many visual surveillance applications. However, existing approaches have insufficient resolution and low frame rate per second, or have high complexity and cost. We take inspiration from the human visual system and propose a multi-resolution design, e-Fovea, which provides peripheral vision with a steerable fovea that is in higher resolution. In this paper, we firstly present two user studies, with a total of 36 participants, to compare e-Fovea to two existing multi-resolution visual monitoring designs. The user study results show that for visual monitoring tasks, our e-Fovea design with steerable focus is significantly faster than existing approaches and preferred by users. We then present our design and implementation of e-Fovea, which combines both multi-resolution camera input and multi-resolution steerable projector output. Finally, we present our deployment of e-Fovea in three installations to demonstrate its feasibility. [ABSTRACT FROM PUBLISHER]

Published

2011

7. Adaptive Learning for Target Tracking and True Linking Discovering Across Multiple Non-Overlapping Cameras.

Author

Chen, Kuan-Wen, Lai, Chih-Chuan, Lee, Pei-Jyun, Chen, Chu-Song, and Hung, Yi-Ping

Abstract

To track targets across networked cameras with disjoint views, one of the major problems is to learn the spatio-temporal relationship and the appearance relationship, where the appearance relationship is usually modeled as a brightness transfer function. Traditional methods learning the relationships by using either hand-labeled correspondence or batch-learning procedure are applicable when the environment remains unchanged. However, in many situations such as lighting changes, the environment varies seriously and hence traditional methods fail to work. In this paper, we propose an unsupervised method which learns adaptively and can be applied to long-term monitoring. Furthermore, we propose a method that can avoid weak links and discover the true valid links among the entry/exit zones of cameras from the correspondence. Experimental results demonstrate that our method outperforms existing methods in learning both the spatio-temporal and the appearance relationship, and can achieve high tracking accuracy in both indoor and outdoor environment. [ABSTRACT FROM PUBLISHER]

Published

2011