Computer Science ›› 2025, Vol. 52 ›› Issue (11A): 240900072-7.doi: 10.11896/jsjkx.240900072
• Image Processing & Multimedia Technology • Previous Articles Next Articles
SONG Lei1, WANG Baohui1, DU Hui2
CLC Number:
| [1]LIU J H,TONG J,NI J J,et al.Improved U-Net-based segmentation of lower limb skeletal CT images [J].Computer Systems &Applications,2022,31(10):134-141. [2]ZHU H D,CHEN Y,ZHANG L.Research on Grayscale Normalization Methods for Medical Images [J].International Journal of Biomedical Engineering,2006(3):148-151. [3]OTSU N.A Threshold Selection Method from Gray-Level Histograms[J].IEEE Transactions on Systems,Man,and Cybernetics,1979,9(1):62-66. [4]ADAMS R,BISCHOF L.Seeded region growing[J].IEEETransactions on Pattern Analysis and Machine Intelligence,1994,16(6):641-647. [5]CANNY J.A Computational Approach to Edge Detection[J].IEEE Transactions on Pattern Analysis and Machine Intelligence,1986,8(6):679-698. [6]MARR D,HILDRETH E.Theory of edge detection[C]//Proceedings of the Royal Society of London.1980:187-217. [7]WEN Y.Research on Semantic Segmentation Technology of Medical Images Based on Deep Learning [D].Chengdu:University of Electronic Science and Technology of China,2024. [8]RONNEBERGER O,FISCHER P,BROX T.U-Net:Convolutional Networks for Biomedical Image Segmentation[C]//International Conference on Medical Image Compu-ting and Computer-Assisted Intervention.Springer,2015. [9]MILLETARI F,NAVAB N,AHMADI S A.V-Net:Fully Con-volutional Neural Networks for Volumetric Medical Image Segmentation[J].arXiv:1606.04797,2016. [10]NIYAS S,PAWAN S J,ANAND KUMAR M,et al.Medicalimage segmentation with 3D convolutional neural networks:A survey[J].Neurocomputing,2022,493:397-413. [11]CHEN L C,ZHU Y,PAPANDREOU G,et al.Encoder-Decoder with Atrous Separable Convolution for Semantic Image Segmentation[C]//Proceedings of the European Conference on Computer Vision(ECCV).Springer,2018:833-851. [12]WANG H.Research on Medical Image Segmentation MethodsBased on Deep Learning [D].Guilin:Guilin University of Electronic Technology,2022. [13]ZHOU Z,SIDDIQUEE M M R,TAJBAKHSH N,et al.UNet++:Redesigning Skip Connections to Exploit Multiscale Fea-tures in Image Segmentation[C]//Proceedings of the International Conference on Medical Image Computing and Computer-Assisted Intervention(MICCAI).Springer,2018:3-11. [14]OKTAY O,SCHLEMPER J,FOLGOC L L,et al.Attention U-Net:Learning Where to Look for the Pancreas[C]//International Conference on Medical Image Computing and Computer-Assisted Intervention(MICCAI).2018:605-613. [15]ALOM Z,TAHA T M,ASARI V K.Recurrent Residual Con-volutional Neural Network based on U-Net(R2U-Net) for Me-dical Image Segmentation[J].Neurocomputing,2018,275:406-417. [16]HE C E,XU H J,WANG Z,et al.Research on Automatic Seg-mentation Algorithm of Multimodal Magnetic Resonance Brain Tumor Images [J].Acta Optica Sinica,2020,40(6):66-75. |
| [1] | LUO Chi, LU Lingyun, LIU Fei. Partial Differential Equation Solving Method Based on Locally Enhanced Fourier NeuralOperators [J]. Computer Science, 2025, 52(9): 144-151. |
| [2] | GUO Husheng, ZHANG Xufei, SUN Yujie, WANG Wenjian. Continuously Evolution Streaming Graph Neural Network [J]. Computer Science, 2025, 52(8): 118-126. |
| [3] | LUO Xuyang, TAN Zhiyi. Knowledge-aware Graph Refinement Network for Recommendation [J]. Computer Science, 2025, 52(7): 103-109. |
| [4] | LIU Chengzhuang, ZHAI Sulan, LIU Haiqing, WANG Kunpeng. Weakly-aligned RGBT Salient Object Detection Based on Multi-modal Feature Alignment [J]. Computer Science, 2025, 52(7): 142-150. |
| [5] | XU Yongwei, REN Haopan, WANG Pengfei. Object Detection Algorithm Based on YOLOv8 Enhancement and Its Application Norms [J]. Computer Science, 2025, 52(7): 189-200. |
| [6] | FANG Chunying, HE Yuankun, WU Anxin. Emotion Recognition Based on Brain Network Connectivity and EEG Microstates [J]. Computer Science, 2025, 52(7): 201-209. |
| [7] | SHI Xincheng, WANG Baohui, YU Litao, DU Hui. Study on Segmentation Algorithm of Lower Limb Bone Anatomical Structure Based on 3D CTImages [J]. Computer Science, 2025, 52(6A): 240500119-9. |
| [8] | CHEN Xianglong, LI Haijun. LST-ARBunet:An Improved Deep Learning Algorithm for Nodule Segmentation in Lung CT Images [J]. Computer Science, 2025, 52(6A): 240600020-10. |
| [9] | LI Weirong, YIN Jibin. FB-TimesNet:An Improved Multimodal Emotion Recognition Method Based on TimesNet [J]. Computer Science, 2025, 52(6A): 240900046-8. |
| [10] | XU Yutao, TANG Shouguo. Visual Question Answering Integrating Visual Common Sense Features and Gated Counting Module [J]. Computer Science, 2025, 52(6A): 240800086-7. |
| [11] | WANG Rui, TANG Zhanjun. Multi-feature Fusion and Ensemble Learning-based Wind Turbine Blade Defect Detection Method [J]. Computer Science, 2025, 52(6A): 240900138-8. |
| [12] | LI Mingjie, HU Yi, YI Zhengming. Flame Image Enhancement with Few Samples Based on Style Weight Modulation Technique [J]. Computer Science, 2025, 52(6A): 240500129-7. |
| [13] | WANG Rong , ZOU Shuping, HAO Pengfei, GUO Jiawei, SHU Peng. Sand Dust Image Enhancement Method Based on Multi-cascaded Attention Interaction [J]. Computer Science, 2025, 52(6A): 240800048-7. |
| [14] | JIN Lu, LIU Mingkun, ZHANG Chunhong, CHEN Kefei, LUO Yaqiong, LI Bo. Pedestrian Re-identification Based on Spatial Transformation and Multi-scale Feature Fusion [J]. Computer Science, 2025, 52(6A): 240800156-7. |
| [15] | ZHANG Yongyu, GUO Chenjuan, WEI Hanyue. Deep Learning Stock Price Probability Prediction Based on Multi-modal Feature Wavelet Decomposition [J]. Computer Science, 2025, 52(6A): 240600140-11. |
|
||
Home