Jian-Han Hsu scite author profile

Jian-Han Hsu

5Publications

10Citation Statements Received

38Citation Statements Given

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Affiliations

National Pingtung University, National Cheng Kung University

Publications

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Tendon-motion tracking in an ultrasound image sequence using optical-flow-based block matching

Chuang¹,

Hsu²,

Kuo

et al. 2017

BioMed Eng OnLine

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BackgroundTendon motion, which is commonly observed using ultrasound imaging, is one of the most important features used in tendinopathy diagnosis. However, speckle noise and out-of-plane issues make the tracking process difficult. Manual tracking is usually time consuming and often yields inconsistent results between users.MethodsTo automatically track tendon motion in ultrasound images, we developed a new method that combines the advantages of optical flow and multi-kernel block matching. For every pair of adjacent image frames, the optical flow is computed and used to estimate the accumulated displacement. The proposed method selects the frame interval adaptively based on this displacement. Multi-kernel block matching is then computed on the two selected frames, and, to reduce tracking errors, the detailed displacements of the frames in between are interpolated based on the optical flow results.ResultsIn the experiments, cadaver data were used to evaluate the tracking results. The mean absolute error was less than 0.05 mm. The proposed method also tracked the motion of tendons in vivo, which provides useful information for clinical diagnosis.ConclusionThe proposed method provides a new index for adaptively determining the frame interval. Compared with other methods, the proposed method yields tracking results that are significantly more accurate.Electronic supplementary materialThe online version of this article (doi:10.1186/s12938-017-0335-x) contains supplementary material, which is available to authorized users.

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Deep Learning Applied to Defect Detection in Powder Spreading Process of Magnetic Material Additive Manufacturing

et al. 2022

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Due to its advantages of high customization and rapid production, metal laser melting manufacturing (MAM) has been widely applied in the medical industry, manufacturing, aerospace and boutique industries in recent years. However, defects during the selective laser melting (SLM) manufacturing process can result from thermal stress or hardware failure during the selective laser melting (SLM) manufacturing process. To improve the product’s quality, the use of defect detection during manufacturing is necessary. This study uses the process images recorded by powder bed fusion equipment to develop a detection method, which is based on the convolutional neural network. This uses three powder-spreading defect types: powder uneven, powder uncovered and recoater scratches. This study uses a two-stage convolutional neural network (CNN) model to finish the detection and segmentation of defects. The first stage uses the EfficientNet B7 to classify the images with/without defects, and then to locate the defects by evaluating three different instance segmentation networks in second stage. Experimental results show that the accuracy and Dice measurement of Mask-R-CNN network with ResNet 152 backbone can reach 0.9272 and 0.9438. The computational time of an image only takes approximately 0.2197 sec. The used CNN model meets the requirements of the early detected defects, regarding the SLM manufacturing process.

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The Steelmaking Process Parameter Optimization with a Surrogate Model Based on Convolutional Neural Networks and the Firefly Algorithm

Horng¹,

Liu²,

Sun³

et al. 2021

Preprint

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High-strength low-alloy steels (HSLAs) are widely used in the structural body components of many domestic motor vehicles owing to their better mechanical properties and greater resistance. The real production process of HSLA steelmaking can be regarded as a model that builds on the relationship between process parameters and product quality attributes. A surrogate modeling method is used, and the resulting production process model can be applied to predict the optimal manufacturing process parameters. We used different methods in this paper to build such a surrogate model, including linear regression, random forests, support vector regression, multilayer perception, and a simplified VGG model. We then applied three bio-inspired search algorithms, namely particle swarm optimization, the artificial bee colony algorithm, and the firefly algorithm, to search for the optimal controllable manufacturing process parameters. Through experiments on 9,000 test samples used for building the surrogate model, and 299 test samples for making the optimal process parameter selection, we found that the combination of a simplified VGG model and the firefly algorithm was the most successful at reaching a success rate of 100%—in other words, when the product quality attributes of all test samples satisfy the mechanical requirements of the end products.

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Optical Flow Based Block Matching Method for Tendon Tracking in Ultrasound

Chuang

Hsu

Kuo

et al. 2016

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Tendon motion is one of the important features used in tendinopathy diagnosis. Ultrasound image is commonly used to observe the tendon motion. However, the speckle noise and out-of-plane issues cause the tracking process difficult. Manual tracking requires lots of time and will obtain different results between users. In order to track the tendon motion automatically, we develop a tracking method combining the advantages of optical flow method and multi-kernel block matching for tracking motion of finger tendon in ultrasound images. The proposed method selects the frame interval for block matching adaptively and reduces the accumulated tracking error in block matching. For every adjacency frame, optical flow is computed and also used to estimate the accumulated displacement. Multi-kernel block matching is then applied to the two selected frames when the accumulated displacement between these two frames is large enough. In the experiments, the cadaver data are used to evaluate the tracking results. The average absolute error in cadaver data is less than 0.05 mm. It also shows that the proposed method can track the motion of tendon in vivo which can provide the useful information for clinical diagnosis.

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Adaptive segmentation of nuclei in H&S stained tendon microscopy

Chuang

Hsu

et al. 2015

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Jian-Han Hsu

Tendon-motion tracking in an ultrasound image sequence using optical-flow-based block matching

Deep Learning Applied to Defect Detection in Powder Spreading Process of Magnetic Material Additive Manufacturing

The Steelmaking Process Parameter Optimization with a Surrogate Model Based on Convolutional Neural Networks and the Firefly Algorithm

Optical Flow Based Block Matching Method for Tendon Tracking in Ultrasound

Adaptive segmentation of nuclei in H&S stained tendon microscopy

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