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1. Adaptive Ensemble Control for Stochastic Systems with Mixed Asymmetric Laplace Noises

Author

Yu, Yajie, Ma, Xuehui, Zhang, Shiliang, Wang, Zhuzhu, Shi, Xubing, Li, Yushuai, and Huang, Tingwen

Subjects
Mathematics - Optimization and Control
Abstract

This paper presents an adaptive ensemble control for stochastic systems subject to asymmetric noises and outliers. Asymmetric noises skew system observations, and outliers with large amplitude deteriorate the observations even further. Such disturbances induce poor system estimation and degraded stochastic system control. In this work, we model the asymmetric noises and outliers by mixed asymmetric Laplace distributions (ALDs), and propose an optimal control for stochastic systems with mixed ALD noises. Particularly, we segregate the system disturbed by mixed ALD noises into subsystems, each of which is subject to a specific ALD noise. For each subsystem, we design an iterative quantile filter (IQF) to estimate the system parameters using system observations. With the estimated parameters by IQF, we derive the certainty equivalence (CE) control law for each subsystem. Then we use the Bayesian approach to ensemble the subsystem CE controllers, with each of the controllers weighted by their posterior probability. We finalize our control law as the weighted sum of the control signals by the sub-system CE controllers. To demonstrate our approach, we conduct numerical simulations and Monte Carlo analyses. The results show improved tracking performance by our approach for skew noises and its robustness to outliers, compared with single ALD based and RLS-based control policy.

Published
2024

3. Tracking Tensor Ring Decompositions of Streaming Tensors

Author

Yu, Yajie and Li, Hanyu

Subjects
Mathematics - Numerical Analysis
Abstract

Tensor ring (TR) decomposition is an efficient approach to discover the hidden low-rank patterns for higher-order tensors, and streaming tensors are becoming highly prevalent in real-world applications. In this paper, we investigate how to track TR decompositions of streaming tensors. An efficient algorithm is first proposed. Then, based on this algorithm and randomized techniques, we present a randomized streaming TR decomposition. The proposed algorithms make full use of the structure of TR decomposition, and the randomized version can allow any sketching type. Theoretical results on sketch size are provided. In addition, the complexity analyses for the obtained algorithms are also given. We compare our proposals with the existing batch methods using both real and synthetic data. Numerical results show that they have better performance in computing time with maintaining similar accuracy.

Published
2023

4. Block-Randomized Stochastic Methods for Tensor Ring Decomposition

Author

Yu, Yajie, Li, Hanyu, and Zhou, Jingchun

Subjects
Mathematics - Numerical Analysis
Abstract

Tensor ring (TR) decomposition is a simple but effective tensor network for analyzing and interpreting latent patterns of tensors. In this work, we propose a doubly randomized optimization framework for computing TR decomposition. It can be regarded as a sensible mix of randomized block coordinate descent and stochastic gradient descent, and hence functions in a double-random manner and can achieve lightweight updates and a small memory footprint. Further, to improve the convergence, especially for ill-conditioned problems, we propose a scaled version of the framework that can be viewed as an adaptive preconditioned or diagonally-scaled variant. Four different probability distributions for selecting the mini-batch and the adaptive strategy for determining the step size are also provided. Finally, we present the theoretical properties and numerical performance for our proposals.

Published
2023

5. Practical Alternating Least Squares for Tensor Ring Decomposition

Author

Yu, Yajie and Li, Hanyu

Subjects
Mathematics - Numerical Analysis
Abstract

Tensor ring (TR) decomposition has been widely applied as an effective approach in a variety of applications to discover the hidden low-rank patterns in multidimensional data. A well-known method for TR decomposition is the alternating least squares (ALS). However, it often suffers from the notorious intermediate data explosion issue, especially for large-scale tensors. In this paper, we provide two strategies to tackle this issue and design three ALS-based algorithms. Specifically, the first strategy is used to simplify the calculation of the coefficient matrices of the normal equations for the ALS subproblems, which takes full advantage of the structure of the coefficient matrices of the subproblems and hence makes the corresponding algorithm perform much better than the regular ALS method in terms of computing time. The second strategy is to stabilize the ALS subproblems by QR factorizations on TR-cores, and hence the corresponding algorithms are more numerically stable compared with our first algorithm. Extensive numerical experiments on synthetic and real data are given to illustrate and confirm the above results. In addition, we also present the complexity analyses of the proposed algorithms.

Published
2022

6. Practical Sketching-Based Randomized Tensor Ring Decomposition

Author

Yu, Yajie and Li, Hanyu

Subjects
Mathematics - Numerical Analysis
Abstract

Based on sketching techniques, we propose two randomized algorithms for tensor ring (TR) decomposition. Specifically, by defining new tensor products and investigating their properties, we apply the Kronecker sub-sampled randomized Fourier transform and TensorSketch to the alternating least squares problems derived from the minimization problem of TR decomposition to devise the randomized algorithms. From the former, we find an algorithmic framework based on random projection for randomized TR decomposition. Theoretical results on sketch size and complexity analyses for the two algorithms are provided. We compare our proposals with the state-of-the-art method using both synthetic and real data. Numerical results show that they have quite decent performance in accuracy and computing time

Published
2022

9. Contextualize differential privacy in image database: a lightweight image differential privacy approach based on principle component analysis inverse

Author

Zhang, Shiliang, Ma, Xuehui, Cao, Hui, Zhao, Tengyuan, Yu, Yajie, and Wang, Zhuzhu

Subjects
Computer Science - Cryptography and Security, Computer Science - Computer Vision and Pattern Recognition, Electrical Engineering and Systems Science - Image and Video Processing
Abstract

Differential privacy (DP) has been the de-facto standard to preserve privacy-sensitive information in database. Nevertheless, there lacks a clear and convincing contextualization of DP in image database, where individual images' indistinguishable contribution to a certain analysis can be achieved and observed when DP is exerted. As a result, the privacy-accuracy trade-off due to integrating DP is insufficiently demonstrated in the context of differentially-private image database. This work aims at contextualizing DP in image database by an explicit and intuitive demonstration of integrating conceptional differential privacy with images. To this end, we design a lightweight approach dedicating to privatizing image database as a whole and preserving the statistical semantics of the image database to an adjustable level, while making individual images' contribution to such statistics indistinguishable. The designed approach leverages principle component analysis (PCA) to reduce the raw image with large amount of attributes to a lower dimensional space whereby DP is performed, so as to decrease the DP load of calculating sensitivity attribute-by-attribute. The DP-exerted image data, which is not visible in its privatized format, is visualized through PCA inverse such that both a human and machine inspector can evaluate the privatization and quantify the privacy-accuracy trade-off in an analysis on the privatized image database. Using the devised approach, we demonstrate the contextualization of DP in images by two use cases based on deep learning models, where we show the indistinguishability of individual images induced by DP and the privatized images' retention of statistical semantics in deep learning tasks, which is elaborated by quantitative analyses on the privacy-accuracy trade-off under different privatization settings.

Published
2022

10. Sketch-and-project methods for tensor linear systems

Author

Tang, Ling, Yu, Yajie, Zhang, Yanjun, and Li, Hanyu

Subjects
Mathematics - Numerical Analysis
Abstract

For tensor linear systems with respect to the popular t-product, we first present the sketch-and-project method and its adaptive variants. Their Fourier domain versions are also investigated. Then, considering that the existing sketching tensor or way for sampling has some limitations, we propose two improved strategies. Convergence analyses for the methods mentioned above are provided. We compare our methods with the existing ones using synthetic and real data. Numerical results show that they have quite decent performance in terms of the number of iterations and running time.

Published
2022

13. A Block-Randomized Stochastic Method with Importance Sampling for CP Tensor Decomposition

Author

Yu, Yajie and Li, Hanyu

Subjects
Mathematics - Numerical Analysis
Abstract

One popular way to compute the CANDECOMP/PARAFAC (CP) decomposition of a tensor is to transform the problem into a sequence of overdetermined least squares subproblems with Khatri-Rao product (KRP) structure involving factor matrices. In this work, based on choosing the factor matrix randomly, we propose a mini-batch stochastic gradient descent method with importance sampling for those special least squares subproblems. Two different sampling strategies are provided. They can avoid forming the full KRP explicitly and computing the corresponding probabilities directly. The adaptive step size version of the method is also given. For the proposed method, we present its detailed theoretical properties and comprehensive numerical performance. The results on synthetic and real data show that our method performs better than the corresponding one in the literature.

Published
2021

15. Backward Deep BSDE Methods and Applications to Nonlinear Problems

Author

Yu, Yajie, Hientzsch, Bernhard, and Ganesan, Narayan

Subjects
Quantitative Finance - Computational Finance, Quantitative Finance - Mathematical Finance, Quantitative Finance - Pricing of Securities
Abstract

In this paper, we present a backward deep BSDE method applied to Forward Backward Stochastic Differential Equations (FBSDE) with given terminal condition at maturity that time-steps the BSDE backwards. We present an application of this method to a nonlinear pricing problem - the differential rates problem. To time-step the BSDE backward, one needs to solve a nonlinear problem. For the differential rates problem, we derive an exact solution of this time-step problem and a Taylor-based approximation. Previously backward deep BSDE methods only treated zero or linear generators. While a Taylor approach for nonlinear generators was previously mentioned, it had not been implemented or applied, while we apply our method to nonlinear generators and derive details and present results. Likewise, previously backward deep BSDE methods were presented for fixed initial risk factor values $X_0$ only, while we present a version with random $X_0$ and a version that learns portfolio values at intermediate times as well. The method is able to solve nonlinear FBSDE problems in high dimensions., Comment: 25 pages

Published
2020

16. Pricing Barrier Options with DeepBSDEs

Author

Ganesan, Narayan, Yu, Yajie, and Hientzsch, Bernhard

Subjects
Quantitative Finance - Computational Finance, Quantitative Finance - Mathematical Finance, Quantitative Finance - Pricing of Securities
Abstract

This paper presents a novel and direct approach to price boundary and final-value problems, corresponding to barrier options, using forward deep learning to solve forward-backward stochastic differential equations (FBSDEs). Barrier instruments are instruments that expire or transform into another instrument if a barrier condition is satisfied before maturity; otherwise they perform like the instrument without the barrier condition. In the PDE formulation, this corresponds to adding boundary conditions to the final value problem. The deep BSDE methods developed so far have not addressed barrier/boundary conditions directly. We extend the forward deep BSDE to the barrier condition case by adding nodes to the computational graph to explicitly monitor the barrier conditions for each realization of the dynamics as well as nodes that preserve the time, state variables, and trading strategy value at barrier breach or at maturity otherwise. Given these additional nodes in the computational graph, the forward loss function quantifies the replication of the barrier or final payoff according to a chosen risk measure such as squared sum of differences. The proposed method can handle any barrier condition in the FBSDE set-up and any Dirichlet boundary conditions in the PDE set-up, both in low and high dimensions., Comment: 20 pages

Published
2020
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19. Metabolic Reprogramming by MYCN Confers Dependence on the Serine-Glycine-One-Carbon Biosynthetic Pathway

Author

Xia, Yingfeng, Ye, Bingwei, Ding, Jane, Yu, Yajie, Alptekin, Ahmet, Thangaraju, Muthusamy, Prasad, Puttur D, Ding, Zhi-Chun, Park, Eun Jeong, Choi, Jeong-Hyeon, Gao, Bei, Fiehn, Oliver, Yan, Chunhong, Dong, Zheng, Zha, Yunhong, and Ding, Han-Fei

Subjects
Neurosciences, Genetics, Neuroblastoma, Cancer, Rare Diseases, Clinical Research, Pediatric, 5.1 Pharmaceuticals, Development of treatments and therapeutic interventions, Biosynthetic Pathways, Carbon, Cell Line, Tumor, Child, Glycine, Humans, N-Myc Proto-Oncogene Protein, Serine, Oncology and Carcinogenesis, Oncology & Carcinogenesis
Abstract

MYCN amplification drives the development of neuronal cancers in children and adults. Given the challenge in therapeutically targeting MYCN directly, we searched for MYCN-activated metabolic pathways as potential drug targets. Here we report that neuroblastoma cells with MYCN amplification show increased transcriptional activation of the serine-glycine-one-carbon (SGOC) biosynthetic pathway and an increased dependence on this pathway for supplying glucose-derived carbon for serine and glycine synthesis. Small molecule inhibitors that block this metabolic pathway exhibit selective cytotoxicity to MYCN-amplified cell lines and xenografts by inducing metabolic stress and autophagy. Transcriptional activation of the SGOC pathway in MYCN-amplified cells requires both MYCN and ATF4, which form a positive feedback loop, with MYCN activation of ATF4 mRNA expression and ATF4 stabilization of MYCN protein by antagonizing FBXW7-mediated MYCN ubiquitination. Collectively, these findings suggest a coupled relationship between metabolic reprogramming and increased sensitivity to metabolic stress, which could be exploited as a strategy for selective cancer therapy. SIGNIFICANCE: This study identifies a MYCN-dependent metabolic vulnerability and suggests a coupled relationship between metabolic reprogramming and increased sensitivity to metabolic stress, which could be exploited for cancer therapy.See related commentary by Rodriguez Garcia and Arsenian-Henriksson, p. 3818.

Published
2019

21. Differences in Vaccination Consultation Preferred by Primary Health Care Workers and Residents in Community Settings

Author

Zhao, Tianshuo, primary, Cai, Xianming, additional, Zhang, Sihui, additional, Wang, Mingting, additional, Chen, Linyi, additional, Wang, Juan, additional, Yu, Yajie, additional, Tao, Liandi, additional, Xu, Xiaoxia, additional, Luo, Jing, additional, Wang, Chao, additional, Du, Juan, additional, Liu, Yaqiong, additional, Lu, Qingbin, additional, and Cui, Fuqiang, additional

Published
2024
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23. Hay Yield, Chemical Composition, and In Vitro Digestibility of Five Varieties of Common Vetch.

Author

Cheng, Xiao, Wang, Sunze, Zhang, Kefan, Jiang, Ting, Ye, Yang, Lu, Yuan, Yu, Yajie, Wei, Huiqing, Zhang, Zijun, and Huang, Yafeng

Subjects
GROWING season, PEARSON correlation (Statistics), PRINCIPAL components analysis, ALFALFA as feed, DAIRY cattle, PECTINS
Abstract

Diversifying feed with annual legumes could help to reduce reliance on imported sources of alfalfa hay, ensuring a consistent supply of forage throughout year, and potentially decreasing the cost of raising ruminants. This study evaluated the varietal variability in hay yield, chemical composition, carbohydrate and protein fractions, and in vitro digestibility of five common vetch varieties used in this experiment during the full-flowering period in Jianghuai region during the 2022 crop season. Results showed that improved varieties (Lanjian No. 1 and Lanjian No. 2, 6.30 and 6.11 t DM/ha) had significantly higher hay yields than the local variety (333A, Longjian No. 1), with Lanjian No. 3 showing intermediate yields. Variety Lanjian No. 1 had the highest non-protein nitrogen concentration and in vitro digestibility, while Lanjian No. 2 had the highest starch concentration, fraction of intermediately degradable pectin and starch, and fraction of neutral detergent-soluble protein and acid detergent-soluble protein. Pearson correlation showed that hay yield was not significantly correlated with quality parameters. Principal component analysis showed that Lanjian No. 1 and Lanjian No. 2 received higher nutritive value. In summary, Lanjian No. 1 and Lanjian No. 2 had better potential use as high-protein feedstuffs for dairy cattle and sheep in the Jianghuai region based on yield, protein fractions, and in vitro digestibility. [ABSTRACT FROM AUTHOR]

Published
2024
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29. Multifunctional tantalum disilicide ceramics sintered at high temperature and high pressure.

Author

Yu, Yajie, He, Shi, Zhang, Zhengang, Chen, Haihua, Jin, Peipeng, Zhong, Binnian, Zhang, Linhui, Wang, Liping, and Lu, Cheng

Subjects
*HIGH temperatures, *TANTALUM, *FRACTURE toughness, *ELECTRIC conductivity, *VICKERS hardness, *CERAMICS
Abstract

Silicide ceramics are attracted significant attention due to their exceptional physical properties. However, their inherent brittleness at room temperature limits their practical applications. Here, we aim to improve the mechanical properties of tantalum disilicide (TaSi2) ceramics by modifying the preparation methods and sintering conditions. We fabricate the dense TaSi2 ceramics using high‐pressure and high‐temperature (HPHT) sintering technology at 5.5 GPa and 800–1300°C. We characterize the microstructures, mechanical, and electronic properties of bulk TaSi2 ceramics at HPHT conditions. Our results indicate an enhancement in the fracture toughness of 11.97 MPa m1/2 for TaSi2 ceramics. More importantly, the electrical conductivity (47.13 × 105 S/m) of TaSi2 ceramic is increased and verified by theoretical calculations. These findings provide crucial insights for future applications of TaSi2 and offer valuable avenues for the design and synthesis of advanced ceramic materials. [ABSTRACT FROM AUTHOR]

Published
2024
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32. A Case-Control Study on Factors of HPV Vaccination for Mother and Daughter in China

Author

Chen, Linyi, primary, Sun, Xihong, additional, Luo, Jing, additional, Zhang, Yuanshan, additional, Ha, Yu, additional, Xu, Xiaoxia, additional, Tao, Liandi, additional, Mu, Xuefeng, additional, Gao, Shengnan, additional, Han, Yongchao, additional, Wang, Chi, additional, Wang, Fuliang, additional, Wang, Juan, additional, Yang, Bingying, additional, Guo, Xiaoyan, additional, Yu, Yajie, additional, Ma, Xian, additional, Liu, Lijian, additional, Ma, Wenmin, additional, Xie, Pengmin, additional, Wang, Chao, additional, Li, Guoxing, additional, Lu, Qingbin, additional, and Cui, Fuqiang, additional

Published
2023
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35. Mussel-Based Biomimetic Strategies in Musculoskeletal Disorder Treatment: From Synthesis Principles to Diverse Applications

Author

Yu,Yajie, Lv,Bin, Wu,Juntao, Chen,Wei, Yu,Yajie, Lv,Bin, Wu,Juntao, and Chen,Wei

Abstract

Yajie Yu,1– 3,* Bin Lv,1,* Juntao Wu,1 Wei Chen2,3 1Department of Orthopaedics, Union Hospital, Tongji Medical College, Huazhong University of Science and Technology, Wuhan, People’s Republic of China; 2Department of Pharmacology, School of Basic Medicine, Tongji Medical College, Huazhong University of Science and Technology, Wuhan, 430030, People’s Republic of China; 3Hubei Key Laboratory for Drug Target Researches and Pharmacodynamic Evaluation, Huazhong University of Science and Technology, Wuhan, 430030, People’s Republic of China*These authors contributed equally to this workCorrespondence: Wei Chen, Email weichen86@hust.edu.cnAbstract: Musculoskeletal disorders are the second leading cause of disability worldwide, posing a huge global burden to the public sanitation system. Currently, tissue engineering-based approaches act as effective strategies, which are, however, challenging in limited application scenarios. Mussel-based biomimetic materials, exhibit numerous unique properties such as intense adhesion, biocompatibility, moisture resistance, and injectability, to name only a few, and have attracted extensive research interest. In particular, featuring state-of-the-art properties, mussel-inspired biomaterials have been widely explored in innumerable musculoskeletal disorder treatments including osteochondral defects, osteosarcoma, osteoarthritis, ligament rupture, and osteoporosis. Nevertheless, a comprehensive and timely discussion of their applications in musculoskeletal disorders is insufficient. In this review, we emphasize on (1) the main categories and characteristics of mussel foot proteins and their fundamental mechanisms for the spectacular adhesion in mussels; (2) the diverse synthetic methods and modification of various polymers; and (3) the emerging applications of mussel-biomimetic materials, the future perspectives, and challenges, especially in the area of musculoskeletal disorder. We envision that this review

Published
2023

36. Investigation of the microstructure and physical properties of TaSi2sintered at high temperature and high pressure

Author

Yu, Yajie, Zhang, Zhengang, Xiao, Chengxiang, Chen, Haihua, Lu, Cheng, and Ma, Jianyi

Abstract

Tantalum disilicide (TaSi2) has been widely studied for its excellent physical properties such as high hardness, high temperature oxidation resistance and low resistivity. Here, we aim to investigate the effects of different sintering temperatures and pressures on the microstructure and physical properties of TaSi2ceramics. We successfully prepared dense TaSi2ceramics using high-pressure and high-temperature (HPHT) sintering techniques. Characterization results show that TaSi2ceramic properties are strongly influenced by the sintering temperature. The density, Vickers hardness and fracture toughness of TaSi2sintered samples reaches a maximum value of 9.182 g/cm3, 11.34 GPa and 11.97 MPa m1/2, respectively. The fracture toughness of TaSi2sintered samples was significantly improved and also exhibited excellent high-temperature oxidation resistance. Meanwhile, we also investigated the microstructure and grain size variation of TaSi2sintered samples with sintering conditions using scanning electron microscopy (SEM) and electron backscatter diffraction (EBSD). The results show that HPHT sintering can effectively refine the grains of TaSi2ceramics. It provides effective data and ideas for more efficient utilization of TaSi2and preparation of other high-performance ceramics.

Published
2024
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37. Multitargets Joint Training Lightweight Model for Object Detection of Substation

Author

Yan, Xingyu, Jia, Lixin, Cao, Hui, Yu, Yajie, Wang, Tao, Zhang, Feng, and Guan, Qingshu

Abstract

The object detection of the substation is the key to ensuring the safety and reliable operation of the substation. The traditional image detection algorithms use the corresponding texture features of single-class objects and would not handle other different class objects easily. The object detection algorithm based on deep networks has generalization, and its sizeable complex backbone limits the application in the substation monitoring terminals with weak computing power. This article proposes a multitargets joint training lightweight model. The proposed model uses the feature maps of the complex model and the labels of objects in images as training multitargets. The feature maps have deeper feature information, and the feature maps of complex networks have higher information entropy than lightweight networks have. This article proposes the heat pixels method to improve the adequate object information because of the imbalance of the proportion between the foreground and the background. The heat pixels method is designed as a kind of reverse network calculation and reflects the object’s position to the pixels of the feature maps. The temperature of the pixels indicates the probability of the existence of the objects in the locations. Three different lightweight networks use the complex model feature maps and the traditional tags as the training multitargets. The public dataset VOC and the substation equipment dataset are adopted in the experiments. The experimental results demonstrate that the proposed model can effectively improve object detection accuracy and reduce the time-consuming and calculation amount.

Published
2024
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41. Linker Substitution Influences Succinimide Ring Hydrolysis Equilibrium Impacting Stability of Attachment to the Antibody-Drug Conjugate

Author

Wang, Lu, primary, Hobson, Adrian D, additional, Salomon, Paulin L., additional, Fitzgibbons, Julia, additional, Xu, Jianwen, additional, McCarthy, Sean, additional, Wu, Kan, additional, Ying, Jia, additional, Hernandez, Axel, additional, Li, Xiang, additional, Xu, Zhou, additional, Wang, Zhongyuan, additional, Yu, Yajie, additional, Li, Junxian, additional, and Lin, Tao, additional

Published
2023
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47. Astragaloside IV Protects Detrusor from Partial Bladder Outlet Obstruction-Induced Oxidative Stress by Activating Mitophagy through AMPK-ULK1 Pathway

Author

Zhu, Xiaoyu, primary, Tao, Fangze, additional, Zhang, Li, additional, Yu, Yajie, additional, Xu, Yanchao, additional, Yang, Gang, additional, Wei, Zhifeng, additional, Cheng, Yidong, additional, Yin, Xuelai, additional, Zhang, Xinyuan, additional, Wei, Wu, additional, and Wang, Anxi, additional

Published
2022
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48. Online stroke segmentation by quick penalty‐based dynamic programming

Author

Liu Wenyin, Tong Lu, Yu Yajie, Shuang Liang, and Rui Zhang

Subjects
online stroke segmentation, penalty-based dynamic progacramming, sketchy stroke, regular primitive shapes, line segments, elliptical arcs, Computer applications to medicine. Medical informatics, R858-859.7, Computer software, QA76.75-76.765
Abstract

A stroke segmentation method named quick penalty‐based dynamic programming is proposed for splitting a sketchy stroke into several regular primitive shapes, such as line segments and elliptical arcs. The authors extend the dynamic programming framework with a customisable penalty function, which measures the correctness of splitting a stroke at a particular point. With the help of the penalty function, the proposed dynamic programming framework can finish the stroke segmentation process without any prior knowledge of the number and/or the type of segments contained in the sketchy stroke. Its response time is sufficiently short for online applications, even for long strokes. Experiments show that the proposed method is robust for strokes with arbitrary shape and size.

Published
2013
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