代表性学术成果: 项目: 纵向 [1] 离子辐照诱导横向各向异性提高软磁合金高频磁性研究,25万元,国家自然科学基金,2011~2013,项目负责人。 [2] 高频电磁兼容软磁器件研究,10万元,天津自然科学基金,2014~2016,项目负责人。 [3] FeCo基纳米晶合金的高温高频软磁特性研究,3万元,天津市教委项目,2009~2011,项目负责人。 [4] 双向纳米晶合金晶间耦合与高温软磁特性的研究,国家自然科学基金,2009~2011,第三完成人。 [5] 高频、高Q值、高稳定性SAW谐振器多层膜材料研究,国家自然科学基金,2010~2012,第二参加人。 横向 [1]糖尿病监测盒镀层研究,2012.1~2012.12,项目负责人 [2]糖尿病监测盒镀层稳定性研究,2013.1~2013.12,项目负责人 国际合作与美国Wichita State University 威奇塔州立大学电子工程与计算机科学系开展通讯理论及器件研究。研究成果: [1] Y. Ding, D. F. Parham, G. Tchankwe, Y. H. Ding, “Automatic cycle identification in speaker’s speech breathing signals”, the 2014 International Conference on Applied Mathematics, Modelling and Simulation (ICAMMS2014), October 16-17, 2014, Xiamen, China [2] Y. Ibdah, Y.Ding, Y.H.Ding, “ Shadowing in M2MChannels at 2100 and 700 MHz in Dense Scattering Environments (CECNet 2014), December 12-15,2015, Beijing China. [3] G. Bai, Y. Ding, M. B. Yildirim, Y. H. Ding, “Short-term Prediction Models for Wind Speed and Wind Power”, the 2014 International Conference on Systems and Informatics (ICSAI 2014) , November 15-17 , 2014, Shanghai, China. 论文: [1]Yanhong Ding , Xu Ma. “Relay Transmission over HF channel”, Wireless Personal Communications, (2015) 015-2332-3(SCI) [2]Y.H. Ding, R.J. Tian, K.Xue, Y. Tian, X.C. Wang Y.M. Shi,& X. Ma, “The Diversity Gains of Amplify-and-forward Relay System with Frequency Selective Channels”,Applied Mechanics and Materials Vols. 644-650 (2014) pp 4297-4302(EI) [3]Y.H. Ding, R.J. Tian, J.S. Tao, X.R. Ma, X.C. Wang, X. Ma, “SoS models for Rayleigh fading channel”, WIT Transactions on Information and Communication Technologies, Vol. 60, (2014) pp 87-93(EI) [4]Y.H. Ding1, R.J. Tian1, J.S. Tao1, X.C. Wang1, P.H. Li1, Y.M. Shi1, X.R. Ma1, X. Ma2, “The diversity gains for OFDM relay systems”, WIT Transactions on Information and Communication Technologies, Vol. 60 (2014) pp 131-138(EI) [5]丁燕红,杨保和.薄带宽度对( Fe0.9Co0.1)76.9Cu0.6Nb2.5Si11B9非晶合金阻抗效应的影响.功能材料.2010, 41(12), 2161-2162 (EI) [6]丁燕红, 李明吉,杨保和,马叙. Fe15.38Co61.52Cu0.6Nb2.5Si11B9纳米晶软磁合金的交流磁性.物理学报,2011, 60(9) 097502-1-5 (SCI) [7] 丁燕红, 李明吉,杨保和,马叙. Crystallization kinetics of amorphous finemet modified with Co, 2012.11 901-904 (EI) [9] Yanhong Ding, Shuisheng Zhao, Xuan Liu , Yi Long , Rongchang Ye , Yongqing Chang , Farong Wan. The influence of annealing temperature on AC magnetic properties of Fe-Co-Cu-Nb-Si-B nanocrystalline alloy. Mater. Lett. 2008, 62:1376–1378 (SCI) [10] Yanhong Ding, Xuan Liu , Shuisheng Zhao, Yi Long, Rongchang Ye , Yongqin Chang. Magnetic properties of nanocrystalline Finemet alloys with Co addition. J Alloys. Compd. 2007, 440: 220-224 (SCI) [11] Yanhong Ding, Xuan Liu , Yi Long , Rongchang Ye , Yongqing Chang , Farong Wan. High-temperature A.C. magnetic properties of nanocrystalline Finemet alloys with Co addition. Acta Metallurgica Sinica. 2007, 20(5), 327-333 (SCI) [12] Yanhong Ding, Tian Qiu, Xuan Liu, Yi Long, Yongqin Chang, Rongchang Ye. Permeability-frequency spectra of (Fe1-xCox)73.5Cu1Nb3Si13.5B9 nanocrystalline alloys under different magnetic fields. J.Magn.Magn.Mater. 2006, 305: 332-335 (SCI) [13] 丁燕红,刘烜,李丽娜,龙毅,叶荣昌,常永勤.退火温度对 (Fe0.2Co0.8)76.9Cu0.6Nb2.5Si11B9软磁合金磁谱的影响. 功能材料.2007, 38(12),1968-1970(EI) [14] 丁燕红,邱田,刘烜,龙毅,叶荣昌,常永勤. (Fe1-xCox)73.5Cu1Nb3Si13.5B9纳米晶软磁合金的交流磁性. 稀土学报,2005,23:143-146(磁性材料专辑) [15] 丁燕红,邱田,刘烜,龙毅. (Fe1-xCox)73.5Cu1Nb3Si13.5B9纳米晶合金磁谱的研究. 第十二届磁学会会议论文集, 2005: 218 [16] 邱田,丁燕红,龙毅,常永勤,叶荣昌.纳米晶软磁复合磁粉芯在中高频段性能研究.功能材料.2006,37: 1127(已被EI检索) (EI) [17] 邱田,丁燕红,龙毅,常永勤,叶荣昌. FINEMET纳米晶软磁复合磁粉芯在中高频应用研究.稀土学报,2005,23:147-150(磁性材料专辑) [18] 邱田,陈丽莉,丁燕红,龙毅,常永勤,叶荣昌.纳米晶软磁复合磁粉芯在中高频应用研究.第十二届磁学会会议论文集,2005: 219 [19] 刘炫,丁燕红,赵水生,龙毅,叶荣昌,常永勤. [(Fe1-xCox)0.75B0.2Si0.05]96Nb4 金属玻璃的磁谱. 功能材料. 2007, 38(12),1956-1958(EI) [20] 刘炫,李丽娜,丁燕红,赵水生,龙毅,叶荣昌,常永勤. 铁基金属玻璃区间退火对磁性能影响的研究. 材料热处理学报. 2008,29(2):1-4 (EI) 专利: [1] 丁燕红 田瑞洁 马叙. 一种用于测量软磁合金居里温度的方法及测量装置: 中国,公开号:CN201410183931, 2013-05-04 [2] 丁燕红 田瑞洁 薛珂 苏永志 马叙 王晓姹. 一种用于高频条件下的高初始磁导率软磁合金: 中国,公开号:CN201410298274, 2014-06-26 获奖: 天津市科技进步二等奖:高级家电板冷轧关键工艺优化及使用技术开发,第三名。 |