[1] Haijian Wang, Qiang Zhang*. Dynamic Identification of Coal-Rock Interface Based on Adaptive Weight Optimization and Multi-Sensor Information Fusion[J]. Information Fusion. 2019,51(11):114-128.(SCI,中科院一区,IF:18.600,Top期刊)被引频次:55
[2] Xuemei Zhao, Haijian Wang*, Jun Wu, et al. Remote Sensing Image Segmentation using Geodesic-Kernel Functions and Multi-Feature Spaces[J]. Pattern Recognition, doi: 10.1016/j. patcog.2020.107333. (SCI,中科院一区,IF:8.518,Top期刊)被引频次:12
[3] Haijian Wang, Lili Liu, Xuemei Zhao, Qiang Zhang. Pre-perception and Accurate Recognition of Coal-Rock Interface Based on Active Excitation Infrared Characterization, Journal of Computational Design and Engineering, 2022,9(5): 2040-2054. (SCI,JCR一区,中科院二区,IF:6.167)被引频次:2
[4] Haijian Wang, Zhenyu Wu, Xuemei Zhao. Surface and underwater human pose recognition based on temporal 3D point cloud deep learning[J]. Scientific Reports, 2024, doi: 10.1038/s41598-023-50658-4. (SCI,中科院二区,IF:4.600)
[5] Haijian Wang, Han Mo, Shilin Lu, Xuemei Zhao. Electrolytic capacitor surface defect detection based on deep convolution neural network[J]. Journal of King Saud University - Computer and Information Sciences, 2024,36(2):101935. (SCI,中科院二区,IF:6.9)
[6] Xuemei Zhao, Haijian Wang*, Jun Wu, et al. A gamma distribution-based fuzzy clustering approach for large area SAR image segmentation[J]. IEEE Geoscience and Remote Sensing letters, 2021, 18(11):1986-1990.(SCI,JCR一区,中科院二区,IF:5.343)被引频次:2
[7] Haijian Wang, Xingrui Fan, Mengdie Huang. Shearer parameter optimization and low energy consumption mining based on 3D point cloud characterization of coal wall[J]. Energy Science & Engineering, doi: 10.1002/ese3.164.(SCI,中科院三区,IF:3.8)
[8] Haijian Wang, Qiang Zhang*, Fei Xie. Dynamic Tension Test and Intelligent Coordinate Control System of a Heavy Scraper Conveyor[J]. IET Science, Measurement & Technology. 2017,11(7): 871-877. (SCI,中科院四区,IF:1.975)被引频次:22
[9] Xuemei Zhao, Yu Li, Haijian Wang*. Manifold based on neighbor mapping and its projection for remote sensing image segmentation[J]. International Journal of Remote Sensing, 2019, 40(24): 9304-9320. (SCI,JCR二区,中科院三区,IF:2.976)被引频次:4
[10] Haijian Wang, Shilin Lu, Xuemei Zhao, et al. Hardness Identification of Rock based on Multi-Sensor Information Fusion During the Process of Tunnelling [J]. Bulletin of the Polish Academy of Sciences: Technical Sciences, 2020, 68 (6): 1301-1309. (SCI,JCR三区,中科院四区,IF:1.385)被引频次:4
[11] Qiang Zhang, Haijian Wang*, Tong Guo. Fatigue Damage of V-lock Chain Ring Under Random Load[J]. Polish Maritime Research,2016,23(1): 4-9.(SCI,中科院四区,IF:1.263)
[12] Haijian Wang, Mengdie Huang, Shilin Lu, et al. Dynamic Wear Identification of Elevator’s Traction Sheave Based on Multiple Acoustic Emission Information Fusion [J]. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2021, doi: 10.1007/s40430-021- 02998-3.(SCI,JCR三区,中科院四区,IF:1.755)
[13] Haijian Wang, Congcong Lu, Fei Xie, Lin Liu, Analysis of Emergency Braking Characteristics and Prediction of Fatigue Life for Elevator Block Brake based on Thermal–Structural Coupling, [J]. Journal of the Brazilian Society of Mechanical Sciences and Engineering, 2022,44(10 ):441. (SCI,JCR三区,中科院四区,IF:1.755)
[14] 王海舰, 黄梦蝶, 卢士林,张强*. 考虑截齿损耗的多传感信息融合煤岩界面感知识别[J]. 煤炭学报, 2021, 46(06): 1995-2008.(EI检索)被引频次:27
[15] 王海舰,刘丽丽,卢士林,黄梦蝶, 张强*. 多参数耦合优化煤岩界面主动红外感知识别[J]. 振动、测试与诊断,2022,42(2):308-314.(EI检索)
[16] 张强, 王海舰*, 付云飞. 不同工况及链速下矿用刮板动力学特性及冲击损伤研究[J]. 振动与冲击, 2016, 35 (24):51-58.(EI检索)被引频次:9
[17] Haijian Wang, Xiaoxuan Huang, Jiachen Du, et al. Dynamic coal-roc interface identification based on infrared thermal image characteristics. 2019 IEEE 3rd Information Technology, Networking Electronic and Automation control conference, pp589-596.(EI检索)
[18] Haijian Wang, Mengdie Huang, Shilin Lu, et al. A dynamic Coal-rock Interface Recognition Model Based on Cutting Acoustic Emission and Fuzzy D-S Theory. 2020 IEEE 4rd ITNEC, pp 274-279.(EI检索)
[19] Haijian Wang, Xinyue Liang, Menggao He, et al. Analysis of Application of PLC Technology in Automation Control of Electrical Engineering. 2020 IEEE Conference on Telecommunications, Optics and Computer Science (TOCS), pp133-136.(EI检索)
[20] 张强, 王海舰*. 基于模糊神经网络信息融合的采煤机煤岩识别系统[J]. 中国机械工程, 2016, 27(2):201-208. (F5000-中国精品科技期刊顶尖学术论文)被引频次:53
[21] 王海舰*,袁嘉惠,卢士林,等. 塔式起重机自动化配重控制及平衡动态特性分析研究[J]. 机电工程, 2021, 38 (1): 108-112.
[22] 王海舰*,周力,臧春华,等. 基于点云数据重构的扩径管道直径、圆度检测系统[J].机电工程,2022,39(11):1627-1635.
[23] 张强, 王海舰. 基于红外热像检测的截齿煤岩截割特性与闪温分析[J].传感技术学报, 2016, 29(5):686-692. 被引频次:60
[24] 张强, 王海舰*. 基于截齿截割红外热像的采煤机煤岩界面动态识别研究[J].煤炭科学技术. 2017, 45(5):22-27. 被引频次:35
[25] 张强, 王海舰*. 基于自适应神经-模糊推理系统模糊信息融合的采煤机截齿磨损在线监测 [J].中国机械工程, 2016, 27(19):2607-2614. 被引频次:21
[26] 张强, 王海舰*. 基于多传感特征信息融合的采煤机截齿失效诊断[J].中国机械工程, 2016, 27(17):2334-2340. 被引频次:25
[27] 张强, 王海舰*. 基于多参数耦合匹配优化的采煤机智能降尘控制研究[J].中国安全科学学报, 2016, 26(11):139-144.
[28] 张强, 王海舰. 基于压电振动俘能的自供电刮板输送机张力检测系统[J].传感技术学报, 2015, 28(9):1335-1340. 被引频次:38
[29] 张强, 王海舰*. 刮板输送机系统机电耦合模型及仿真分析[J].中国机械工程, 2015, 26(23):3134-3139.
[30] 张强, 王海舰*. 基于最优化降尘的采煤机恒功率自适应调节控制系统[J].机械设计与研究, 2015, 31(1):153-156.
[31] 张强, 王海舰*. 刮板输送机链轮力学特性及疲劳寿命预测[J].机械强度,2015,37(2):328-336. 被引频次:32
[32] 张强, 王海舰*. 滚筒式采煤机煤岩截割力学特性及测试系统研究 [J].工程设计学报.2017, 24(4):459-464, 479. 被引频次:9
