近期论文
SCI论文
[1]Bin Shi, Xueqin Chen, Xing Hu, Kang Yao, Shiao Yan, and Qiao Dong*. Internal Distress Recognition of Asphalt Materials Based on Static Coplanar Array Capacitance Imaging Technology. IEEE Transactions on Intelligent Transportation Systems. 2025: 1-12.
[2]Bin Shi, Xueqin Chen, Xing Hu, Kang Yao, Shiao Yan, and Qiao Dong*. Dynamic Coplanar Array Capacitance Imaging Method for Asphalt Materials With Concealed Damages. IEEE Transactions on Intelligent Transportation Systems, 2025;26: 6977-90.
[3]Xing Hu, Qiao Dong*, Bin Shi, Xueqin Chen, Kang Yao, and Xin Yuan. Moisture migration characterization of bitumen emulsion-based cold-mix asphalt mixture over curing based on capacitive measurement. Measurement., 2025;253: 117791.
[4]Kang Yao, Xueqin Chen, Bin Shi, Xing Hu, Shiao Yan, Xinyuan Cao, Qiao Dong*. Removal of surface moisture effect for predicting asphalt pavement density from capacitance data. Construction and Building Materials. 2025;473:141011.
[5]Kang Yao, Xueqin Chen, Qiao Dong*, Bin Shi, Xing Hu, Shiao Yan, Jun Zhang. A novel non-destructive testing approach for asphalt concrete density measurement based on coplanar capacitance: Theory, numerical simulation, and experiment. Construction and Building Materials. 2025;458:139727.
[6]Shiao Yan, Liheng Shu, Zhou Zhou, Haonan Lu, Kang Yao, Qiao Dong*. Evaluation of microscopic characteristics and repair effects of the flexible grouting material for cement-stabilized macadam. Construction and Building Materials. 2025;458:139579.
[7]Bin Shi, Xiang Wang, Xueqin Chen, Kang Yao, Xing Hu, Qiao Dong*. Multi-objective optimization of mobile coplanar array capacitance sensor for imaging internal damages in asphalt mixtures. IEEE Sensors Journal. 2025;25(1):1516-26.
[8]Kang Yao, Qiao Dong*, Xueqin Chen, Shiao Yan, Bin Shi, Shengjia Xie, Zhiqiang Cheng. Effects of heavy truck braking on inverted asphalt pavement considering vehicle dynamics. Construction and Building Materials. 2024;412:134871.
[9]Kang Yao, Qiao Dong*, Xueqin Chen, Xiang Wang, Shengjia Xie, Zhiqiang Cheng. Influence of bonding condition of different interfaces on the mechanical responses and failure mode of asphalt pavement. Canadian Journal of Civil Engineering. 2024;0(0):1-14.
[10]Jiayu Yang, Qiao Dong*, Xueqin Chen, Bin Shi, Xiang Wang. Evaluation of concrete surface permeability: a dynamic water film-based approach. Measurement. 2024;224:113863.
[11]Shiao Yan, Lijing Shao, Liheng Shu, Xiang Wang, Bin Shi, Qiao Dong*. Performance and mechanism of dual-network cementitious material formed by acrylamide monomer in-situ polymerization and ultra-fine portland cement. Journal of Materials Science. 2024;59(29):13709-23.
[12]Shiao Yan, Haonan Lu, Zhou Zhou, Qiao Dong*, Xueqin Chen, Xiang Wang. A polymer latex modified superfine cement grouting material for cement-stabilized macadam – Experimental and simulation study. Construction and Building Materials. 2024;413:134893.
[13]Shiao Yan, Qiao Dong*, Xueqin Chen, Xiang Wang, Bin Shi, Kang Yao. Impact of waste cooking oil under different stages on aged asphalt-mineral interface adhesion via molecular dynamics simulations. Journal of Materials in Civil Engineering. 2024;36(3):04023628.
[14]Shiao Yan, Qiao Dong*, Xueqin Chen, Xiang Wang, Bin Shi, Kang Yao. Study on inherent characteristics of asphalt regenerating agents: Insights from density functional theory calculations and molecular dynamics simulations. Construction and Building Materials. 2024;411:134390.
[15]Shiao Yan, Qiao Dong*, Xueqin Chen, Jihan Li, Xiang Wang, Bin Shi. An experimental and numerical study on the hybrid effect of basalt fiber and polypropylene fiber on the impact toughness of fiber reinforced concrete. Construction and Building Materials. 2024;411:134270.
[16]Xiang Wang, Qiao Dong*, Xiaokang Zhao, Shiao Yan, Shuangping Wang, Bohan Yang. Prediction of remaining service life of cement concrete pavement in airfield runway. Road Materials and Pavement Design. 2024;25(1):150-67.
[17]Xiang Wang, Qiao Dong*, Bin Shi, Shiao Yan, Kang Yao. Evaluation of void beneath the airport pavement slab corner based on the strain monitoring. International Journal of Pavement Engineering. 2024;25(1):2328123.
[18]Sike Wang, Qiao Dong, Xueqin Chen, Zepeng Chu, Ruiqi Li, Jing Hu, Xingyu Gu. Measurement of asphalt pavement crack length using yolo v5-bifpn. Journal of Infrastructure Systems. 2024;30(2):04024005.
[19]Bin Shi, Qiao Dong, Xueqin Chen, Xiang Wang, Kang Yao, Shiao Yan, Xing Hu. Defect imaging and identification in asphalt materials using coplanar capacitance sensors with single-pair electrodes. Construction and Building Materials. 2024;412:134853.
[20]Zhen Liu, Xingyu Gu*, Qiao Dong. Permanent deformation evaluation and instability prediction of semi-rigid pavement structure using accelerated pavement testing and finite element method. Journal of Testing and Evaluation. 2024;52(1).
[21]Xing Hu, Qiao Dong*, Bin Shi, Kang Yao, Xueqin Chen, Xin Yuan. Moisture distribution and ice front identification in freezing soil using an optimized circular capacitance sensor. Sensors. 2024;24(22):7392.
[22]Xing Hu, Qiao Dong*, Bin Shi, Peng Xu, Xueqin Chen, Kang Yao, Xin Yuan. Visualisation detection of moisture accumulation in asphalt materials using electrical capacitance tomography technology. Road Materials and Pavement Design. 2024:1-22.
[23]Xing Hu, Qiao Dong*, Bin Shi, Xiang Wang, Xueqin Chen, Shiao Yan. Evaluation of piezoresistive response and freeze–thaw damage of self-sensing cement mortar based on conductive fibre. Road Materials and Pavement Design. 2024:1-17.
[24]Xueqin Chen, Baocai Wan, Yuhao Wang, Qiao Dong. Investigation on the temperature distribution characteristics of steel slag asphalt mixture under different microwave heating and cooling methods. Construction and Building Materials. 2024;425:136004.
EI会议
[1]Baocai Wan, Xueqin Chen*, Qiao Dong, Jiang Dongqi, editors. Study on Cracking Behavior of Steel Slag Asphalt Mixture at Different Healing Efficiencies Based on Discrete Element Method. International Conference on Road and Airfield Pavement Technology 2023. 2023 p. 155-167. Beijing, China.
[2]Kailiang Liu, Xueqin Chen*, Qiao Dong, Yong Ding, editors. Self-Healing Analyses of Asphalt Cracks under Changing Temperature Conditions through Molecular Dynamics. International Conference on Road and Airfield Pavement Technology 2023. 2023 p. 451-463. Beijing, China.
[3]Ruiqi Li, Xueqin Chen, Qiao Dong*, Sike Wang, Zepeng Chu, Xingyu Gu, editors. Point Cloud-Based Pavement Crack Extraction Using MSAC and KNN Algorithm. International Conference on Road and Airfield Pavement Technology 2023. 2023 p. 831-838. Beijing, China.
[4]Zepeng Chu, Sike Wang, Qiao Dong*, Xueqin Chen, Ruiqi Li, Xingyu Gu, editors. Detection of Road Cracks and Pavement Conditions Index Estimate Based on YOLOv5. International Conference on Road and Airfield Pavement Technology 2023. p. 439-450. Beijing, China.
[5]Liyuan Wang, Tianyou Zhang, Qiao Dong*, Wanqi Jiang, Classification of roughness for asphalt pavement resurfacing treatments based on SVM-KNN machine learning algorithm using LTPP data, Green and Intelligent Technologies for Sustainable and Smart Asphalt Pavements. 2021, CRC Press. p. 770-775.
[6]Wanqi Jiang, Qiao Dong*, Tianjie Zhang, Predicting the pavement performance: A comparison on traditional and multivariate time series model, Green and Intelligent Technologies for Sustainable and Smart Asphalt Pavements. 2021, CRC Press. p. 426-431.
[7]Haihang Han, Tianjie Zhang, Qiao Dong*, Xueqin Chen, Yangyang Wang, Pavement roughness level classification based on logistic and decision tree machine learnings, Green and Intelligent Technologies for Sustainable and Smart Asphalt Pavements. 2021, CRC Press. p. 400-405.
中文核心
[1]史斌, 董侨*, 陈雪琴, 胡兴, 姚康, 颜世傲. 沥青混合料隐性病害动态共面电容成像优化. 中国公路学报. 2024,37(12):269-283.
[2]刘震, 顾兴宇*, 李骏, 董侨, 蒋继望.探地雷达数值模拟与道路裂缝图像检测的深度学习增强方法. 地球物理学报, 2024,67(6): 2455-2471.
[3]赵晓康, 董侨*, 董是, 陈雪琴. 水稳碎石材料细观修复行为及最佳修复时机. 哈尔滨工业大学学报(自然科学版). 2024,56(03):78-88.
[4]董侨*, 姚康, 黄梦雨, 倪富健. 考虑资源稀缺性的养护措施综合效益全寿命周期费用评估. 北京工业大学学报. 2024,50(4):417-430.
[5]董侨*, 李家旺, 顾兴宇, 於亚辉, 张鑫. 基于APSO算法的公路光伏声屏障储充系统优化. 中国公路学报. 2023,36(12):236-248.
[6]董侨*, 袁佳伟, 赵晓康, 陈雪琴. 非均质性对水稳碎石材料细观开裂行为影响的数值研究. 中外公路. 2023,43(06):290-297.
[7]董侨*, 林烨龙, 王思可, 楚泽鹏, 陈雪琴, 颜世傲. 基于目标检测算法与迭代阈值分割的道路标线可视度评估. 同济大学学报(自然科学版). 2023,51(8):1168-1175.
[8]赵晓康, 董侨*, 顾兴宇, 倪富健, 王洋洋. 集料粒径与体积分数对水稳碎石材料抗裂性能的影响. 东南大学学报(自然科学版). 2022,52(1):138-144.
[9]赵晓康, 董侨*, 肖源杰, 杜慧, 贾彦顺. 基于细观非均质模型的水稳碎石基层材料疲劳开裂研究. 中南大学学报(自然科学版). 2021,52(09):3132-3142.
[10]赵晓康, 董侨*, 陈雪琴, 顾兴宇, 王丽园. 考虑初始缺陷的水泥基复合材料细观开裂研究. 中国公路学报. 2020,33(10):230-239.
