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2020 – today
- 2021
[j86]Hongjiao Guan, Yingtao Zhang, Min Xian, Heng-Da Cheng, Xianglong Tang:
SMOTE-WENN: Solving class imbalance and small sample problems by oversampling and distance scaling. Appl. Intell. 51(3): 1394-1409 (2021)- [j85]Fei Xu, Yingtao Zhang, Heng-Da Cheng, Boyu Zhang, Jianrui Ding, Chunping Ning, Ying Wang:
Tumor saliency estimation for breast ultrasound images via breast anatomy modeling. Artif. Intell. Medicine 119: 102155 (2021) - [j84]Kuan Huang, Yingtao Zhang, Heng-Da Cheng, Ping Xing, Boyu Zhang:
Semantic segmentation of breast ultrasound image with fuzzy deep learning network and breast anatomy constraints. Neurocomputing 450: 319-335 (2021) - [j83]Changfa Shi, Min Xian, Xiancheng Zhou, Haotian Wang, Heng-Da Cheng:
Multi-slice low-rank tensor decomposition based multi-atlas segmentation: Application to automatic pathological liver CT segmentation. Medical Image Anal. 73: 102152 (2021) - [j82]Kaige Zhang
, Yingtao Zhang, Heng-Da Cheng:
CrackGAN: Pavement Crack Detection Using Partially Accurate Ground Truths Based on Generative Adversarial Learning. IEEE Trans. Intell. Transp. Syst. 22(2): 1306-1319 (2021) - [c54]Kuan Huang, Yingtao Zhang, Heng-Da Cheng, Ping Xing:
MSF-GAN: Multi-Scale Fuzzy Generative Adversarial Network for Breast Ultrasound Image Segmentation. EMBC 2021: 3193-3196 - [c53]Xiankun Yan, Jianrui Ding, Heng-Da Cheng:
A Novel Adaptive Fuzzy Deep Learning Approach for Histopathologic Cancer Detection. EMBC 2021: 3518-3521 - [c52]Kuan Huang, Yingtao Zhang, Heng-Da Cheng, Ping Xing:
Shape-Adaptive Convolutional Operator for Breast Ultrasound Image Segmentation. ICME 2021: 1-6 - [i12]Changfa Shi, Min Xian, Xiancheng Zhou, Haotian Wang, Heng-Da Cheng:
Multi-Slice Low-Rank Tensor Decomposition Based Multi-Atlas Segmentation: Application to Automatic Pathological Liver CT Segmentation. CoRR abs/2102.12056 (2021) - 2020
- [j81]Hongjiao Guan, Yingtao Zhang, Heng-Da Cheng, Xianglong Tang:
Bounded-abstaining classification for breast tumors in imbalanced ultrasound images. Int. J. Appl. Math. Comput. Sci. 30(2): 325-336 (2020) - [j80]Kaige Zhang, Yingtao Zhang, Heng-Da Cheng:
Self-Supervised Structure Learning for Crack Detection Based on Cycle-Consistent Generative Adversarial Networks. J. Comput. Civ. Eng. 34(3) (2020) - [j79]Yingtao Zhang, Yan Liu, Heng-Da Cheng, Ziyao Li, Cong Liu:
Fully multi-target segmentation for breast ultrasound image based on fully convolutional network. Medical Biol. Eng. Comput. 58(9): 2049-2061 (2020) - [c51]Fei Xu, Yingtao Zhang, Heng-Da Cheng, Jianrui Ding, Boyu Zhang, Chunping Ning, Ying Wang:
Breast Anatomy Enriched Tumor Saliency Estimation. ICPR 2020: 2904-2911 - [c50]Kuan Huang, Yingtao Zhang, Heng-Da Cheng, Ping Xing, Boyu Zhang:
Semantic Segmentation of Breast Ultrasound Image with Pyramid Fuzzy Uncertainty Reduction and Direction Connectedness Feature. ICPR 2020: 3357-3364
2010 – 2019
- 2019
- [j78]Yingjie Zhang, Jianxing Xu, Heng-Da Cheng:
AdaBoost-based conformal prediction with high efficiency. Int. J. High Perform. Comput. Netw. 13(4): 355-365 (2019) - [j77]Hongjiao Guan, Yingtao Zhang, Heng-Da Cheng, Min Xian, Xianglong Tang:
BA2Cs: Bounded abstaining with two constraints of reject rates in binary classification. Neurocomputing 357: 125-134 (2019) - [i11]Fei Xu, Yingtao Zhang, Min Xian, Heng-Da Cheng, Boyu Zhang, Jianrui Ding, Chunping Ning, Ying Wang:
Tumor Saliency Estimation for Breast Ultrasound Images via Breast Anatomy Modeling. CoRR abs/1906.07760 (2019) - [i10]Kuan Huang, Yingtao Zhang, Heng-Da Cheng, Ping Xing, Boyu Zhang:
Fuzzy Semantic Segmentation of Breast Ultrasound Image with Breast Anatomy Constraints. CoRR abs/1909.06645 (2019) - [i9]Kaige Zhang, Yingtao Zhang, Heng-Da Cheng:
CrackGAN: A Labor-Light Crack Detection Approach Using Industrial Pavement Images Based on Generative Adversarial Learning. CoRR abs/1909.08216 (2019) - [i8]Fei Xu, Yingtao Zhang, Min Xian, Heng-Da Cheng, Boyu Zhang, Jianrui Ding, Chunping Ning, Ying Wang:
Breast Anatomy Enriched Tumor Saliency Estimation. CoRR abs/1910.10652 (2019) - 2018
- [j76]Kaige Zhang, Heng-Da Cheng, Boyu Zhang:
Unified Approach to Pavement Crack and Sealed Crack Detection Using Preclassification Based on Transfer Learning. J. Comput. Civ. Eng. 32(2) (2018) - [j75]Min Xian, Yingtao Zhang, Heng-Da Cheng, Fei Xu, Boyu Zhang, Jianrui Ding:
Automatic breast ultrasound image segmentation: A survey. Pattern Recognit. 79: 340-355 (2018) - [c49]Kuan Huang, Heng-Da Cheng, Yingtao Zhang, Boyu Zhang, Ping Xing, Chunping Ning:
Medical Knowledge Constrained Semantic Breast Ultrasound Image Segmentation. ICPR 2018: 1193-1198 - [c48]Fei Xu, Min Xian, Yingtao Zhang, Kuan Huang, Heng-Da Cheng, Boyu Zhang, Jianrui Ding, Chunping Ning, Ying Wang:
A Hybrid Framework for Tumor Saliency Estimation. ICPR 2018: 3935-3940 - [c47]Kaige Zhang, Heng-Da Cheng, Shan Gai:
Efficient Dense-Dilation Network for Pavement Cracks Detection with Large Input Image Size. ITSC 2018: 884-889 - [i7]Min Xian, Yingtao Zhang, Heng-Da Cheng, Fei Xu, Kuan Huang, Boyu Zhang, Jianrui Ding, Chunping Ning, Ying Wang:
A Benchmark for Breast Ultrasound Image Segmentation (BUSIS). CoRR abs/1801.03182 (2018) - [i6]Boyu Zhang, Yingtao Zhang, Heng-Da Cheng, Min Xian, Shan Gai, Olivia Cheng, Kuan Huang:
Computer-Aided Knee Joint Magnetic Resonance Image Segmentation - A Survey. CoRR abs/1802.04894 (2018) - [i5]Hongjiao Guan, Yingtao Zhang, Heng-Da Cheng, Xianglong Tang:
Abstaining Classification When Error Costs are Unequal and Unknown. CoRR abs/1806.03445 (2018) - [i4]Fei Xu, Min Xian, Yingtao Zhang, Kuan Huang, Heng-Da Cheng, Boyu Zhang, Jianrui Ding, Chunping Ning, Ying Wang:
A Hybrid Framework for Tumor Saliency Estimation. CoRR abs/1806.10696 (2018) - 2017
- [c46]Kaige Zhang, Heng-Da Cheng:
A Novel Pavement Crack Detection Approach Using Pre-selection Based on Transfer Learning. ICIG (1) 2017: 273-283 - [i3]Min Xian, Yingtao Zhang, Heng-Da Cheng, Fei Xu, Boyu Zhang, Jianrui Ding:
Automatic Breast Ultrasound Image Segmentation: A Survey. CoRR abs/1704.01472 (2017) - 2016
- [j74]Chenguang Liu, Heng-Da Cheng, Yingtao Zhang, Yuxuan Wang, Min Xian:
Robust multiple cue fusion-based high-speed and nonrigid object tracking algorithm for short track speed skating. J. Electronic Imaging 25(1): 013014 (2016) - [j73]Min Xian, Yingtao Zhang, Heng-Da Cheng, Fei Xu, Jianrui Ding:
Neutro-Connectedness Cut. IEEE Trans. Image Process. 25(10): 4691-4703 (2016) - [c45]Hongjiao Guan, Yingtao Zhang, Min Xian, Heng-Da Cheng, Xianglong Tang:
WENN for individualized cleaning in imbalanced data. ICPR 2016: 456-461 - [c44]Min Xian, Fei Xu, Heng-Da Cheng, Yingtao Zhang, Jianrui Ding:
EISeg: Effective interactive segmentation. ICPR 2016: 1982-1987 - [c43]Fei Xu, Min Xian, Heng-Da Cheng, Jianrui Ding, Yingtao Zhang:
Unsupervised saliency estimation based on robust hypotheses. WACV 2016: 1-6 - 2015
- [j72]Min Xian, Yingtao Zhang, Heng-Da Cheng:
Fully automatic segmentation of breast ultrasound images based on breast characteristics in space and frequency domains. Pattern Recognit. 48(2): 485-497 (2015) - [c42]Haoyang Shao, Yingtao Zhang, Min Xian, Heng-Da Cheng, Fei Xu, Jianrui Ding:
A saliency model for automated tumor detection in breast ultrasound images. ICIP 2015: 1424-1428 - [c41]Jianrui Ding, Min Xian, Heng-Da Cheng, Yingtao Zhang, Fei Xu:
An algorithm based on LBPV and MIL for left atrial thrombi detection using transesophageal echocardiography. ICIP 2015: 4224-4227 - [i2]Jianrui Ding, Min Xian, Heng-Da Cheng, Yang Li, Fei Xu, Yingtao Zhang:
An algorithm for Left Atrial Thrombi detection using Transesophageal Echocardiography. CoRR abs/1508.05995 (2015) - [i1]Min Xian, Yingtao Zhang, Heng-Da Cheng, Fei Xu, Jianrui Ding:
Neutro-Connectedness Cut. CoRR abs/1512.06285 (2015) - 2014
- [j71]Yuxuan Wang, Heng-Da Cheng, Juan Shan:
Multiplayer tracking system for short track speed skating. IET Comput. Vis. 8(6): 629-641 (2014) - [c40]Jianrui Ding, Heng-Da Cheng, Jianhua Huang, Yingtao Zhang:
Multiple-instance learning with global and local features for thyroid ultrasound image classification. BMEI 2014: 66-70 - [c39]Rongrong Ni, Heng-Da Cheng, Yao Zhao, Lize Chen:
Adaptive reversible watermarking using trimmed prediction and pixel-selection-based sorting. ChinaSIP 2014: 616-620 - [c38]Min Xian, Heng-Da Cheng, Yingtao Zhang:
A Fully Automatic Breast Ultrasound Image Segmentation Approach Based on Neutro-Connectedness. ICPR 2014: 2495-2500 - 2013
- [j70]Yan Liu, Heng-Da Cheng, Jianhua Huang, Yingtao Zhang, Xianglong Tang, Jiawei Tian:
An Effective Non-rigid Registration Approach for Ultrasound Image Based On "Demons" Algorithm. J. Digit. Imaging 26(3): 521-529 (2013) - [c37]Chenguang Liu, Heng-Da Cheng, Vicki H. Allan:
Articulated human pose tracking based on game theory. ICIP 2013: 2553-2556 - [c36]Yingtao Zhang, Heng-Da Cheng, Jianhua Huang, Xianglong Tang:
A Novel Metric for Image Denoising Algorithms. IScIDE 2013: 538-545 - [c35]Rongrong Ni, Heng-Da Cheng, Yao Zhao, Zhitong Zhang, Rui Liu:
Reversible Image Watermarking Based on Neural Network and Parity Property. MUE 2013: 285-292 - [c34]Rongrong Ni, Heng-Da Cheng, Yao Zhao, Yu Hou:
High Capacity Reversible Watermarking for Images Based on Classified Neural Network. SCIA 2013: 697-706 - [c33]Songbo Liu, Heng-Da Cheng, Yan Liu, Jianhua Huang, Yingtao Zhang, Xianglong Tang:
An effective computer aided diagnosis system using B-Mode and color Doppler flow imaging for breast cancer. VCIP 2013: 1-4 - 2012
- [j69]Yan Liu, Heng-Da Cheng, Jianhua Huang, Yingtao Zhang, Xianglong Tang:
An Effective Approach of Lesion Segmentation Within the Breast Ultrasound Image Based on the Cellular Automata Principle. J. Digit. Imaging 25(5): 580-590 (2012) - [j68]Jianrui Ding, Heng-Da Cheng, Jianhua Huang, Jiafeng Liu, Yingtao Zhang:
Breast Ultrasound Image Classification Based on Multiple-Instance Learning. J. Digit. Imaging 25(5): 620-627 (2012) - [j67]Yanhui Guo, Heng-Da Cheng:
Image noise removal approach based on subpixel anisotropic diffusion. J. Electronic Imaging 21(3): 033026 (2012) - [j66]Yan Liu, Heng-Da Cheng, Jianhua Huang, Yingtao Zhang, Xianglong Tang, Jin-Wen Tian, Yajie Wang:
Computer Aided Diagnosis System for Breast Cancer Based on Color Doppler Flow Imaging. J. Medical Syst. 36(6): 3975-3982 (2012) - [j65]Yingtao Zhang, Heng-Da Cheng, Jianhua Huang, Xianglong Tang:
An effective and objective criterion for evaluating the performance of denoising filters. Pattern Recognit. 45(7): 2743-2757 (2012) - [c32]Heng-Da Cheng, Yingtao Zhang:
Detecting of contrast over-enhancement. ICIP 2012: 961-964 - 2010
- [j64]Xiangjun Shi, Heng-Da Cheng, Liming Hu, Wen Ju, Jiawei Tian:
Detection and classification of masses in breast ultrasound images. Digit. Signal Process. 20(3): 824-836 (2010) - [j63]Ying Wang, Hong Wang, Yanhui Guo, Chunping Ning, Bo Liu, Heng-Da Cheng, Jiawei Tian:
Novel Computer-Aided Diagnosis Algorithms on Ultrasound Image: Effects on Solid Breast Masses Discrimination. J. Digit. Imaging 23(5): 581-591 (2010) - [j62]Bo Liu, Heng-Da Cheng, Jianhua Huang, Jiawei Tian, Xianglong Tang, Jiafeng Liu:
Fully automatic and segmentation-robust classification of breast tumors based on local texture analysis of ultrasound images. Pattern Recognit. 43(1): 280-298 (2010) - [j61]Heng-Da Cheng, Juan Shan, Wen Ju, Yanhui Guo, Ling Zhang:
Automated breast cancer detection and classification using ultrasound images: A survey. Pattern Recognit. 43(1): 299-317 (2010) - [j60]Bo Liu, Heng-Da Cheng, Jianhua Huang, Jiawei Tian, Xianglong Tang, Jiafeng Liu:
Probability density difference-based active contour for ultrasound image segmentation. Pattern Recognit. 43(6): 2028-2042 (2010) - [j59]Yingtao Zhang, Heng-Da Cheng, Jiawei Tian, Jianhua Huang, Xianglong Tang:
Fractional subpixel diffusion and fuzzy logic approach for ultrasound speckle reduction. Pattern Recognit. 43(8): 2962-2970 (2010) - [j58]Heng-Da Cheng, Rui Min, Ming Zhang:
Automatic wavelet base selection and its application to contrast enhancement. Signal Process. 90(4): 1279-1289 (2010) - [j57]Ming Zhang, Ling Zhang, Heng-Da Cheng:
A neutrosophic approach to image segmentation based on watershed method. Signal Process. 90(5): 1510-1517 (2010) - [c31]Ping Guo, Zhenjiang Miao, Yuan Shen, Heng-Da Cheng:
Real Time Human Action Recognition in a Long Video Sequence. AVSS 2010: 248-255 - [c30]Ping Guo, Zhenjiang Miao, Heng-Da Cheng:
Masks based human action detection in crowded videos. ICIP 2010: 693-696 - [c29]Jia Li, Zhenjiang Miao, Heng-Da Cheng, Dianyong Zhang:
Unsynchronized markerless motion capture with sharp illumination changes. ICIP 2010: 1529-1532 - [c28]Juan Shan, Yuxuan Wang, Heng-Da Cheng:
Completely automatic segmentation for breast ultrasound using multiple-domain features. ICIP 2010: 1713-1716 - [c27]Yingtao Zhang, Heng-Da Cheng, Jiawei Tian, Jianhua Huang:
A novel speckle reduction and contrast enhancement method based on fuzzy anisotropic diffusion. ICIP 2010: 4161-4164
2000 – 2009
- 2009
- [j56]Heng-Da Cheng, Xiaopeng Cai, Rui Min:
A novel approach to color normalization using neural network. Neural Comput. Appl. 18(3): 237-247 (2009) - [j55]Rui Min, Heng-Da Cheng:
Effective image retrieval using dominant color descriptor and fuzzy support vector machine. Pattern Recognit. 42(1): 147-157 (2009) - [j54]Yanhui Guo, Heng-Da Cheng:
New neutrosophic approach to image segmentation. Pattern Recognit. 42(5): 587-595 (2009) - [j53]Heng-Da Cheng, Yanhui Guo, Yingtao Zhang:
A novel Hough transform based on eliminating particle swarm optimization and its applications. Pattern Recognit. 42(9): 1959-1969 (2009) - [j52]GuoJun Liu, Xianglong Tang, Heng-Da Cheng, Jianhua Huang, Jiafeng Liu:
A novel approach for tracking high speed skaters in sports using a panning camera. Pattern Recognit. 42(11): 2922-2935 (2009) - [j51]Wen Ju, Juan Shan, Changhui Yan, Heng-Da Cheng:
Discrimination of disease-related non-synonymous single nucleotide polymorphisms using multi-scale RBF kernel fuzzy support vector machine. Pattern Recognit. Lett. 30(4): 391-396 (2009) - 2008
- [j50]Liang Wang, Hongxun Yao, Heng-Da Cheng:
Effective and Automatic Calibration Using Concentric Circles. Int. J. Pattern Recognit. Artif. Intell. 22(7): 1379-1401 (2008) - [c26]Juan Shan, Heng-Da Cheng, Yuxuan Wang:
A novel automatic seed point selection algorithm for breast ultrasound images. ICPR 2008: 1-4 - [c25]Yuxuan Wang, Heng-Da Cheng, Juan Shan:
Detecting shadows of moving vehicles based on HMM. ICPR 2008: 1-4 - 2007
- [j49]Shujun Fu, Qiuqi Ruan, Wenqia Wang, Fuzheng Gao, Heng-Da Cheng:
A feature-dependent fuzzy bidirectional flow for adaptive image sharpening. Neurocomputing 70(4-6): 883-895 (2007) - [j48]Liming Hu, Heng-Da Cheng, Ming Zhang:
A high performance edge detector based on fuzzy inference rules. Inf. Sci. 177(21): 4768-4784 (2007) - [j47]Maotang Li, Heng-Da Cheng, Yejun Wang:
Novel Airborne Real-Time Survey System. IEEE Trans. Instrum. Meas. 56(6): 2404-2410 (2007) - 2006
- [j46]Heng-Da Cheng, Xiangjun Shi, Rui Min, Liming Hu, Xiaopeng Cai, H. N. Du:
Approaches for automated detection and classification of masses in mammograms. Pattern Recognit. 39(4): 646-668 (2006) - [c24]Heng-Da Cheng, Manasi Datar, Wen Ju:
Natural Scene Segmentation Based on Information Fusion and Homogeneity Property. JCIS 2006 - [c23]Xiangjun Shi, Heng-Da Cheng, Liming Hu:
Mass Detection and Classification in Breast Ultrasound Images Using Fuzzy SVM. JCIS 2006 - 2005
- [j45]Heng-Da Cheng, Paul P. Wang:
Medical image processing. Inf. Sci. 175(3): 139-140 (2005) - [j44]Rongrong Ni, Qiuqi Ruan, Heng-Da Cheng:
Secure semi-blind watermarking based on iteration mapping and image features. Pattern Recognit. 38(3): 357-368 (2005) - 2004
- [j43]Heng-Da Cheng, X. J. Shi:
A simple and effective histogram equalization approach to image enhancement. Digit. Signal Process. 14(2): 158-170 (2004) - [j42]Heng-Da Cheng, Jingli Wang, Xiangjun Shi:
Microcalcification detection using fuzzy logic and scale space approaches. Pattern Recognit. 37(2): 363-375 (2004) - [j41]Heng-Da Cheng, Muyi Cui:
Mass lesion detection with a fuzzy neural network. Pattern Recognit. 37(6): 1189-1200 (2004) - 2003
- [j40]Heng-Da Cheng, Jiguang Li:
Fuzzy homogeneity and scale-space approach to color image segmentation. Pattern Recognit. 36(7): 1545-1562 (2003) - [j39]Heng-Da Cheng, Mei Xue, X. J. Shi:
Contrast enhancement based on a novel homogeneity measurement. Pattern Recognit. 36(11): 2687-2697 (2003) - [j38]Heng-Da Cheng, Xiaopeng Cai, Xiaowei Chen, Liming Hu, Xueling Lou:
Computer-aided detection and classification of microcalcifications in mammograms: a survey. Pattern Recognit. 36(12): 2967-2991 (2003) - [c22]Heng-Da Cheng, Jingli Wang:
Fuzzy logic and scale space approach to microcalcification detection. ICASSP (2) 2003: 345-348 - [c21]Heng-Da Cheng, Muyi Cui:
Mass lesion detection with a fuzzy neural network. ICASSP (2) 2003: 849-852 - 2002
- [j37]Heng-Da Cheng, Hui juan Xu:
A novel fuzzy logic approach to mammogram contrast enhancement. Inf. Sci. 148(1-4): 167-184 (2002) - [j36]Heng-Da Cheng, Xihua Jiang, Jingli Wang:
Color image segmentation based on homogram thresholding and region merging. Pattern Recognit. 35(2): 373-393 (2002) - [c20]Heng-Da Cheng, X. J. Shi, C. Glazier:
Optimum-Interval Interpolation Approach to Real-time Vector Machines. JCIS 2002: 712-715 - [c19]Heng-Da Cheng, Muyi Cui:
Mass Detection Using Fuzzy Neural Network. JCIS 2002: 736-739 - [c18]Heng-Da Cheng, M. Xue, Rita I. Freimanis:
Novel Approach to Medical Image Enhancement. JCIS 2002: 745-748 - [e2]H. John Caulfield, Shu-Heng Chen, Heng-Da Cheng, Richard J. Duro, Vasant G. Honavar, Etienne E. Kerre, Mi Lu, Manuel Graña Romay, Timothy K. Shih, Dan Ventura, Paul P. Wang, Yuanyuan Yang:
Proceedings of the 6th Joint Conference on Information Science, March 8-13, 2002, Research Triangle Park, North Carolina, USA. JCIS / Association for Intelligent Machinery, Inc. 2002, ISBN 0-9707890-1-7 [contents] - 2001
- [j35]Heng-Da Cheng, Xihua Jiang, Ying Sun, Jingli Wang:
Color image segmentation: advances and prospects. Pattern Recognit. 34(12): 2259-2281 (2001) - 2000
- [j34]Heng-Da Cheng, Hui juan Xu:
A novel fuzzy logic approach to contrast enhancement. Pattern Recognit. 33(5): 809-819 (2000) - [j33]Heng-Da Cheng, Y. H. Chen, X. H. Jiang:
Thresholding using two-dimensional histogram and fuzzy entropy principle. IEEE Trans. Image Process. 9(4): 732-735 (2000) - [j32]Heng-Da Cheng, Ying Sun:
A hierarchical approach to color image segmentation using homogeneity. IEEE Trans. Image Process. 9(12): 2071-2082 (2000) - [j31]Donald L. Hung, Heng-Da Cheng, Savang Sengkhamyong:
Design of a configurable accelerator for moment computation. IEEE Trans. Very Large Scale Integr. Syst. 8(6): 741-746 (2000)
1990 – 1999
- 1999
- [j30]Heng-Da Cheng, Yen-Hung Chen:
Fuzzy partition of two-dimensional histogram and its application to thresholding. Pattern Recognit. 32(5): 825-843 (1999) - [j29]R. J. Mueller, Heng-Da Cheng, A. R. Barakat:
Incoherent radar spectrum processing using neural network. Signal Process. 69(2): 117-129 (1999) - [j28]Heng-Da Cheng, Yen-Hung Chen, Ying Sun:
A novel fuzzy entropy approach to image enhancement and thresholding. Signal Process. 75(3): 277-301 (1999) - [j27]Donald L. Hung, Heng-Da Cheng, Savang Sengkhamyong:
Design of a hardware accelerator for real-time moment computation: a wavefront away approach. IEEE Trans. Ind. Electron. 46(1): 207-218 (1999) - 1998
- [j26]Heng-Da Cheng, Rutvik Desai:
Scene Classification by Fuzzy Local Moments. Int. J. Pattern Recognit. Artif. Intell. 12(7): 921-938 (1998) - [j25]Heng-Da Cheng, Mario Miyojim:
Automatic Pavement Distress Setection System. Inf. Sci. 108(1-4): 219-240 (1998) - [j24]Heng-Da Cheng, J. R. Chen, Rita I. Freimanis, X. H. Jiang:
A Novel Fuzzy Logic Approach to Microcalcification Detection. Inf. Sci. 111(1-4): 189-205 (1998) - [j23]Heng-Da Cheng, Jim-Rong Chen, Jiguang Li:
Threshold selection based on fuzzy c-partition entropy approach. Pattern Recognit. 31(7): 857-870 (1998) - [j22]Heng-Da Cheng, Chen-Yuan Wu, Donald L. Hung:
Vlsi For Moment Computation And Its Application To Breast Cancer Detection. Pattern Recognit. 31(9): 1391-1406 (1998) - [j21]Heng-Da Cheng, C. H. Chen, H. H. Chiu, Hui juan Xu:
Fuzzy homogeneity approach to multilevel thresholding. IEEE Trans. Image Process. 7(7): 1084-1086 (1998) - [j20]Heng-Da Cheng, Yui Man Lui, Rita I. Freimanis:
A Novel Approach to Microcalcification Detection Using Fuzzy Logic. IEEE Trans. Medical Imaging 17(3): 442-450 (1998) - [c17]Heng-Da Cheng, Hui juan Xu:
Fuzzy approach to contrast enhancement. ICPR 1998: 1549-1551 - [c16]Heng-Da Cheng, Yen-Hung Chen:
Thresholding based on fuzzy partition of 2D histogram. ICPR 1998: 1616-1618 - [c15]Heng-Da Cheng, Yen-Hung Chen:
Novel fuzzy entropy approach to thresholding and enhancement. Image Processing 1998 - [c14]Heng-Da Cheng, Yui Man Lui:
Multilevel thresholding selection by optimizing multiple constraint function. Image Processing 1998 - 1997
- [j19]Heng-Da Cheng, Jim-Rong Chen:
Automatically Determine the Membership Function Based on the Maximum Entropy Principle. Inf. Sci. 96(3&4): 163-182 (1997) - [j18]Heng-Da Cheng, C. H. Chen, H. H. Chiu:
Image Segmentation Using Fuzzy Homogeneity Criterion. Inf. Sci. 98(1-4): 237-262 (1997) - [j17]Heng-Da Cheng, Yui Man Lui:
Automatic Bandwidth Selection of Fuzzy Membership Functions. Inf. Sci. 103(1-4): 1-21 (1997) - [j16]Lifeng Wang, Heng-Da Cheng:
Discretizing continuous neural networks using a polarization learning rule. Pattern Recognit. 30(2): 253-260 (1997) - [j15]Changyi Sun, Christopher M. U. Neale, Jeffrey J. McDonnell, Heng-Da Cheng:
Monitoring land-surface snow conditions from SSM/I data using an artificial neural network classifier. IEEE Trans. Geosci. Remote. Sens. 35(4): 801-809 (1997) - 1996
- [j14]Heng-Da Cheng, Sung-Gyun Nho:
Transformation of Gray Level and Color Images. Inf. Sci. 90(1-4): 179-202 (1996) - [j13]Yui Man Lui, Heng-Da Cheng:
A New Peak Selection Criterion Based on Minimizing the Classification Error. Inf. Sci. 94(1-4): 213-233 (1996) - [j12]Heng-Da Cheng, D. C. Xia:
A novel parallel approach to character recognition and its VLSI implementation. Pattern Recognit. 29(1): 97-119 (1996) - [j11]Hui Cheng, Heng-Da Cheng:
Feasible map algorithm for path planning. Robotics Auton. Syst. 17(3): 149-170 (1996) - 1995
- [j10]Heng-Da Cheng, X. Cheng:
Shape Recognition Using A Fixed-Size VLSI Architecture. Int. J. Pattern Recognit. Artif. Intell. 9(1): 1-21 (1995) - [j9]Mario Miyojim, Heng-Da Cheng:
Synthesized images for pattern recognition. Pattern Recognit. 28(4): 595-610 (1995) - [c13]Changyi Sun, Heng-Da Cheng, Jeffrey J. McDonnell, Christopher M. U. Neale:
Identification of mountain snow cover using SSM/I and artificial neural network. ICASSP 1995: 3451-3454 - [c12]Heng-Da Cheng, C. H. Chen, Rita I. Freimanis:
A neural network for breast cancer detection using fuzzy entropy approach. ICIP (3) 1995: 141-144 - 1994
- [c11]Rutvik Desai, Heng-Da Cheng:
Pattern recognition by local radial moments. ICPR (2) 1994: 168-172 - 1993
- [c10]Hui Cheng, Heng-Da Cheng:
A novel approach for motion planning. IROS 1993: 692-697 - [c9]Heng-Da Cheng, Xueqin Li, Lifeng Wang:
Parallel VLSI-oriented algorithm and architecture for computing histogram of images. VCIP 1993 - [c8]Heng-Da Cheng, C. Xia, Chang N. Zhang:
Parallel approach to character recognition and its VLSI implementation. VCIP 1993 - [c7]Zhiwei Zhao, Xueqin Li, Heng-Da Cheng:
Effective fuzzy logic approach to image enhancement. VCIP 1993 - 1992
- [c6]Heng-Da Cheng, X. Cheng:
Attribute grammar for shape recognition and its VLSI implementation. ICPR (1) 1992: 104-107 - 1991
- [j8]Yuan Yan Tang, Heng-Da Cheng, Ching Y. Suen:
Transformation-Ring-Projection (Trp) Algorithm and its VLSI Implementation. Int. J. Pattern Recognit. Artif. Intell. 5(1-2): 25-56 (1991) - [j7]Heng-Da Cheng, Yuan Yan Tang, Ching Y. Suen:
VLSI architectures for image transformation. IEEE Trans. Syst. Man Cybern. 21(2): 409-413 (1991) - [c5]Chang Nian Zhang, Heng-Da Cheng:
Mapping Multiple Problem Instances into a Single Systolic Array with Application to Concurrent Error Detection. ICPP (1) 1991: 668-669 - [p4]Réjean Plamondon, Heng-Da Cheng:
Overview. Pattern Recognition: Architectures, Algorithms and Applications 1991: 3 - [p3]Heng-Da Cheng, Jin-Yun Zhang:
Kalman filter for Image restoration and its VLSI Implementation. Pattern Recognition: Architectures, Algorithms and Applications 1991: 23-54 - [p2]Réjean Plamondon, Heng-Da Cheng:
Overview. Pattern Recognition: Architectures, Algorithms and Applications 1991: 139 - [p1]Réjean Plamondon, Heng-Da Cheng:
Overview. Pattern Recognition: Architectures, Algorithms and Applications 1991: 269 - [e1]Réjean Plamondon, Heng-Da Cheng:
Pattern Recognition: Architectures, Algorithms and Applications. World Scientific Series in Computer Science 29, World Scientific 1991, ISBN 978-981-02-0604-8 [contents] - 1990
- [j6]Heng-Da Cheng, Charles Tong, Y. J. Lu:
VLSI curve detector. Pattern Recognit. 23(1-2): 35-50 (1990) - [j5]Heng-Da Cheng, Yuan Yan Tang, Ching Y. Suen:
Parallel image transformation and its VLSI implementation. Pattern Recognit. 23(10): 1113-1129 (1990) - [c4]C. W. Li, Heng-Da Cheng:
A mathematical model for pulmonary blood circulation. CBMS 1990: 397-404
1980 – 1989
- 1989
- [c3]Q. S. Gao, Heng-Da Cheng:
Macro transform approach to solve indecomposable problems. TAI 1989: 153-160 - 1987
- [j4]Heng-Da Cheng, King-sun Fu:
VLSI architectures for string matching and pattern matching. Pattern Recognit. 20(1): 125-141 (1987) - 1986
- [j3]Heng-Da Cheng, King-sun Fu:
Algorithm partition and parallel recognition of general context-free languages using fixed-size VLSI architecture. Pattern Recognit. 19(5): 361-372 (1986) - [j2]Heng-Da Cheng, King-Sun Fu:
VLSI architecture for dynamic time-warp recognition of handwritten symbols. IEEE Trans. Acoust. Speech Signal Process. 34(3): 603-613 (1986) - [c2]Heng-Da Cheng, King-Sun Fu:
VLSI architecture for hand-written symbol recognition. ICRA 1986: 1960-1965 - 1985
- [j1]Heng-Da Cheng, Wei-Chung Lin, King-Sun Fu:
Space-Time Domain Expansion Approach to VLSI and Its Application to Hierarchical Scene Matching. IEEE Trans. Pattern Anal. Mach. Intell. 7(3): 306-319 (1985) - [c1]Heng-Da Cheng, King-Sun Fu:
Algorithm partition for a fixed-size VLSI architecture using space-time domain expansion. IEEE Symposium on Computer Arithmetic 1985: 126-132
Coauthor Index
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