[1] Hyperspectral imagery denoising based on oblique subspace projection. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing , v 7, n 6, p 2468-2480, June 2014(EI收录20143418081590)
[2] The effects of solar irradiance spectra on calculation of narrow band top-of-atmosphere reflectance. IEEE Journal of Selected Topics in Applied Earth Observations and Remote Sensing, v 7, n 1, p 49-58, January 2014(SCI收录280VO ,EI收录20140217190826)
[3] ITS applications-oriented ARGIS technology. Advanced Materials Research, v 433-440, p 2650-2655, 2012 , Materials Science and Information Technology, MSIT2011(EI收录20120414712557)
[4] Laboratory Calibration of a Field Imaging Spectrometer System. Sensors, 2011, 11(3):2408~2425 (SCI收录843RJ,影响因子1.871)
[5] 基于高光谱热红外发射率光谱的地表岩石CaO含量定量估计. 光谱学与光谱分析,2011,31(11):2940~2943.(SCI收录740IT,影响因子0.873;EI收录20114614524911)
[6] Study on specialized emergency navigation terminal for disaster relief. Key Engineering Materials , v 467-469, p 1991-1996, 2011, Materials, Mechatronics and Automation(EI收录20111113753757)
[7] Design of underwater passive navigation simulation system based on information fusion. Advances in Intelligent and Soft Computing, v 141 AISC, p 229-238, 2012, Advances in Computational Environment Science - Selected Papers from 2012 International Conference on Environment Science, ICES 2012(EI收录20121915010408)
[8] Prediction analysis of traffic flow based on cloud model. Advances in Intelligent and Soft Computing, v 141 AISC, p 219-227, 2012, Advances in Computational Environment Science - Selected Papers from 2012 International Conference on Environment Science, ICES 2012(EI收录20121915010407)
[9] Simulation research on urban traffic integration control system based on multi-agent. Advanced Materials Research, v 562-564, p 2011-2018, 2012, Materials Engineering and Automatic Control(EI收录20124215573874)
[10] Application Analysis of Internet of Things on the Management of Supply Chain and Intelligent Logistics. Applied Mechanics and Materials, v411-414, p2655-2661, 2013, Information Technology Applications in Industry II(EI收录20134416920385)
[11] Application Analysis of Internet of Things in Intelligent Transportation. Applied Mechanics and Materials, v411-414, p2662-2666, 2013, Information Technology Applications in Industry II(EI收录20134416920386)
[12] GNSS软件接收机算法设计与仿真测试. 新葡的京集团35222vip学报(自然版),2008,44(6):927-932(EI收录085111788562)
[13] Intelligent Scheduling of Public Traffic Vehicles Based on a Hybrid Genetic Algorithm. TSINGHUA SCIENCE AND TECHNOLOGY,2008,13(5):625-631(EI收录090511886933)
[14] 智能交通系统中的公交车辆调度方法研究. 中国公路学报,2003,16(2):82-85(EI收录03357615988)
[15] 基于多智能体的城市交通集成控制系统设计. 新葡的京集团35222vip学报(自然版),2008,44(2):289-292(EI收录081711223270)
[16] 面向车辆监控导航的地图匹配算法研究. 新葡的京集团35222vip学报(自然版),2009,45(2):280-285
[17] 基于云模型的车辆定位导航系统模糊评测分析 控制与决策,2002,17(5):550-553,580(EI收录02437160387)
[18] 智能交通系统中的公交车辆动态调度研究. 公路交通科技,2002,19(3):123-126(EI收录02487245757)
[19] 特征自适应的精准目标跟踪算法. 系统工程与电子技术,2008,30(11):2255-2258(EI收录085111798104)
[20] 基于支持矢量机和信任域的目标跟踪算法. 新葡的京集团35222vip学报(自然版),2008,44(5):810-814(EI收录084311655594)
[21] 基于方向小波变换的分层多描述图像编码. 新葡的京集团35222vip学报(自然版),2008,44(5):793-798(EI收录084311655592)
[22] Application of Image Matching Technology Based on SAR Image to Integrated Navigation System. International Geoscience and Remote Sensing Symposium (IGARSS), v 3, 25th Anniversary IGARSS 2005: IEEE International Geoscience and Remote Sensing Symposium, 2005, p 3952-3955(EI收录06289994309、ISTP收录BEG75)
[23] 水下无源导航系统仿真匹配算法研究. 武汉大学学报,2003,49(2):156-160(EI收录03237500067)
[24] GPS/GLONASS组合导航定位技术在ITS中的应用. 系统工程理论与实践,2001,21(1):114-119(EI收录01386651514)
[25] GPS/INS/DM组合导航定位技术在智能交通系统中的应用. 北京航空航天大学学报,2000,26(3):299-302(EI收录00115400662)
[26] 基于路况信息的城市道路交通管理控制. 公路交通科技,2000,17(3):41-44(EI收录00075242691)
[27] 基于云模型理论的智能控制倒立摆. 控制理论与应用,2000,25(4):519-523(EI收录01015499061)
主要论著:
《交通控制工程》著者:张飞舟、范耀祖.中国铁道出版社,2005年4月;
《软件定义的GPS和伽利略接收机》译者:杨东凯、张飞舟、张波.防工业出版社,2009年3月;
《物联网技术导论》著者:张飞舟、杨东凯、陈智. 电子工业出版社,2010年6月;
《物联网应用与解决方案》著者:张飞舟、杨东凯.电子工业出版社,2012年9月,2018年评为新葡的京集团35222vip优秀教材;
《智慧城市及其解决方案》著者:张飞舟、杨东凯、张驰.电子工业出版社,2015年9月;
发明专利:2项
[1] 2011年获得国家发明专利“一种复杂环境下的导航方法”,发明专利号为: ZL20101 0117534.4;
[2] 2013年获得国家发明专利“面向城市交通的动态路径诱导方法”,发明专利号为:ZL201010593086.5
软件著作权:12项