论文:
35.Ziyi Chen;Yaowu Shi;Yingwei Wang;Liangxu Jiang;Xiaohui Yu and Xinbo Li.A Small-object Detection based Scheme for Multiplexed Frequency Hopping Recognition in Complex Electromagnetic Interference[J]. IEEE Communications Letters,2024 34.Yingwei Wang;Liangxu Jiang;Ziyi Chen;Han Zhang and Xinbo Li.Contactless weighing method based on deep learning and acoustic levitation[J]. Measurement Science and Technology,2024,Vol.35 33.Meng Wang;Guojun Liu;Runyu Liu;Yuxuan Feng;Xinbo Li;Conghui Wang and Xiaodong Sun.Micro-mixing chip under piezoelectric pulse discontinuous flow mechanism[J]. Measurement,2024,Vol.227 32.Qirun Li;Xinbo Li;Ziyi Chen;Liangxu Jiang and Yingwei Wang.Fast 3-D millimeter-wave MIMO array imaging algorithms based on the CF-DFrFT[J]. Digital Signal Processing,2024,Vol.147 31.Liangxu Jiang;Yingwei Wang;Shuyuan Fan and Xinbo Li.Acoustic Trap Step for Single-Axis Acoustic Levitators[J].Physical Review Applied,2023,Vol.19(1): 014050 (SCI, WOS:000923000700004)
30.Xinbo Li, Xiaoyu Wang, Xinyu Zuo, Liangxu Jiang, and Xiaohui Yu. Wind speed and direction measurement method based on intelligent optimization algorithm, Review of Scientific Instruments94, 024901(2023).(SCI) 29.Zhigang Yang;Luntao Dong;Meng Wang;Guojun Liu;Xinbo Li;Yan Li.A wearable insulin delivery system based on a piezoelectric micropump[J].Sensors and Actuators A: Physical,2022,Vol.347: 113909(SCI, WOS:000933302000001) 28.Li, Xinbo;Wang, Xiaoyu;Jiang, Liangxu.Wind parameters measurement method based on co-prime array signal processing[J].Measurement,2022,Vol.192.(SCI, WOS:000781623300006) 27.Li, Xinbo;Wang, Yingwei;Jiang, Liangxu;Chen, Ziyi;Fan, Shuyuan.A reinforced CenterNet scheme on position detection of acoustic levitated objects.[J].Neural Computing & Applications,2022,: 1-16.(SCI, WOS:000903406800005) 26.Guojun Liu;Wanghao Shen;Yan Li;Hong Zhao;Xinbo Li;Conghui Wang;Fang He.Continuous separation of particles with different densities based on standing surface acoustic waves[J].Sensors and Actuators A: Physical,2022,Vol.341: 113589.(SCI收录) 25.Guojun Liu;Meng Wang;Luntao Dong;Duanyi Zhu;Conghui Wang;Yanhui Jia;Xinbo Li;Jibo Wang.A novel design for split-and-recombine micromixer with double-layer Y-shaped mixing units[J].Sensors and Actuators A: Physical,2022,Vol.341: 113569. 24.李新波,王晓玉,李厚禹,等. 互质圆形阵列DOA估计方法[J]. 2022白菜注册网站学报(工学版),2022,52(1):204-210. DOI:10.13229/j.cnki.jdxbgxb20200794.(EI检索) 23.李新波,王晓玉,朱阁彦. MIMO超声波传感器阵列风速风向测量方法[J]. 哈尔滨工程大学学报,2021,42(11):1694-1700.(EI检索)DOI:10.11990/jheu.202008002. 22.Guojun Liu, Zhiqiang Li,Xinbo Li, Yan Li, Hong Zhao, et al. Design and experiment of a focused acoustic sorting chip based on TSAW separation mechanism[J]. Microsystem Technologies, 2020. (SCI,WOS:000527455000004) 21.Guojun Liu, Fang He,Yan Li, Xinbo Li, Hong Zhao, Conghui Wang, Conghong Zhan, Chunxiu Tang. Controllable Synthesis of Silver Nanoparticles Using Piezoelectric-Actuated High-Frequency Vibration Self-Circulating Microfluidic Reactor[J]. Nano, 2019. 14(8):1950097. (SCI,WOS:000484116400004) 20.李新波,朱阁彦,李厚禹,贾云龙.三维超声阵列风速风向测量方法[J].西安交通大学学报,2019,第53卷(9): 70-78.(EI检索) 19.Guojun Liu, Fang He,Yan Li, Hong Zhao, Xinbo Li, Huajie Tang, Zhiqiang Li, Yanyan Zhang, Zhigang Yang.Effects of two surface acoustic wave sorting chips on particles multi-level sorting[J].Biomedical microdevices, 2019,21(3):59 (SCI,WOS:72475500003) 18.Jibo Wang, Guojun Liu, Xinbo Li,Fang He,Xiang Ma.A Micromixer with Two-Layer Crossing Microchannels Based on PMMA Bonding Process[J]. International Journal of Chemical Reactor Engineering, 2019, 17(8):20180265, (SCI,WOS:000482188500008) 17.Guojun Liu, Fang He, Xinbo Li, Hong Zhao, Yanyan Zhang, Zhiqiang Li, Zhigang Yang. Multi-level separation of particles using acoustic radiation force and hydraulic force in a microfluidic chip[J]. Microfluidics and Nanofluidics, (2019)23:23 (SCI, WOS:000456071200001) 16.刘国君, 何芳, 马祥, 王记波, 李新波, 刘建芳. 基于微流控芯片的SAW分选技术研究现状[J]. 微纳电子技术, 2018, 55(9): 642-651. (EI收录) 15.Liu G , He F , Li X , et al. Multi-level separation of particles using acoustic radiation force and hydraulic force in a microfluidic chip[J]. Microfluidics and Nanofluidics, 2019, 23(2).(SCI) 14.赵洋,李新波,石要武.声矢量阵列波达方向估计的四元数空间稀疏分解[J].光学精密工程,2018,第26卷(3): 199-206.(EI检索) 13.Li X, Zhu G, Gao W, et al. A novel ultrasonic array signal processing scheme for wind measurement[J]. ISA Transactions, 2018,81(10): 259-269. (SCI,WOS: 00038973080 0044, EI:20164803051301) 12.Wen-xiu Chang, Xin-bo Li, Jun Wang,Stokes parameters and 2-D DOAs estimation of polarized sources with an L-shaped coprime array, Digital Signal Processing, 2018,78(7):30-41. (SCI, WOS: 000431935000003, EI: 20181004880799) 11.李新波,王英伟,王宇昆,刘国君,吴越,石要武.凹球面双发射极超声阵列悬浮能力研究[J]. 西安交通大学学报, 2018, 52(11):110-115.(EI检索) 10.赵洋, 李新波, 石要武. 声矢量阵列波达方向估计的四元数空间稀疏分解[J]. 光学精密工程, 2018, 26(3):715-722.(EI检索) 9.李新波,石要武,王猛,等. 归一化循环相关超声回波时延估计[J]. 光学精密工程, 2017, 25(2):547-554.(EI检索) 8.单泽彪, 石要武, 刘小松,李新波*,时变遗忘因子动态DOA跟踪算法,2022白菜注册网站学报工学版,2016,46(2):632-638.(EI检索) 7.Xinbo Li,Haixin Sun, Wei Gao, Yaowu Shi, Guojun Liu, Yue Wu, Wind speed and direction measurement based on arc ultrasonic sensor array signal processing algorithm, ISA Transactions, 2016, 65(11):437-444, (SCI, JCR一区) 6.Li, X., Sun, H., Jiang, L., Shi, Y., Wu, Y*. Modified Particle Filtering Algorithm for Single Acoustic Vector Sensor DOA tracking. Sensors 2015, 15, 26198-26211.(SCI JCRQ2区) 5.李新波, 付云博, 姜良旭*, 杜娟, 石要武, 杨志刚,神经网络分数阶PIμDλ在压电叠堆控制中的应用. 光学精密工程, 2015, 23(12): 3439-3445.(EI检索) 4.李新波, 姜良旭, 刘国君*, 王颢杰, 石要武, 杨志刚, 刘建芳. 用于声矢量阵列目标波达方向跟踪的粒子滤波算法. 光学精密工程, 2015,23(10):606-613.(EI检索) 3.Li, X., Jiang, H., Jiao, X., Zhang, K., Liu, G., & Liu, J*. Theoretical research and experimental study for a new measurement method of standing wave levitation force. Journal of Mechanical Science & Technology, 2015, 29(5):2169-2175.(SCI影响因子 0.838) 2.李新波,李晓青*,刘国君,石要武,杨志刚, 用于声矢量阵列波达方向估计的四元数最小范数法, 光学精密工程, 2014,22(7):1969-1975.(EI检索) 1.李新波,孙海欣,李晓青*,赵洋,梁亮,房小朋, 基于四元数MUSIC算法的声矢量传感器阵列二维波达角估计, 2022白菜注册网站学报(工学版), 2014,44(5): 1453-1459.(EI检索)
专利: 16.陈思源; 李新波; 申耘杰; 张宇; 李雨辰; 姜良旭; 范书源; 王英伟,基于球面密铺超声阵列交叉互融的无容器悬浮控制装置,CN202211479326.8[P],2023.5.12,授权公告号CN116107244B; 15.李新波,左昕雨,王晓玉,崔浩,李卓;基于FCN-MLP的弧形超声传感阵列风参数测量方法: CN202210047540. 2022-04-26[P].发明授权,授权公告号:CN114397474B 14.沈望皓,刘国君,李星奇,董轮涛,李新波,孙晓东,王聪慧,王猛,李鹏飞,刘晓鹏;一种基于粒子漂移的粒子分选方法及系统:CN202111212418.5[P]. 2022-03-01.发明授权,授权公告号:CN114100706B 13.李新波王晓玉一种三维风参数测量方法及系统:CN202011126573.0[P]. 2021-08-13.发明授权,授权公告号:CN112255429B 12.李新波,范书源,姜良旭,王英伟,王晓玉;种单轴式对置凹面阵列六通道分区驱动控制装置:CN202111236115.7[P]. 2021-12-21.发明授权,授权公告号CN 113814149B 11.李新波,王晓玉,姜良旭,左昕雨,范书源;基于粒子滤波算法的风速风向预测方法:CN202110047680.2[P]. 2021-05-11.发明授权,授权公告号:CN112785052B 10.李新波,王旺,姜良旭,李卓,崔浩,左昕雨,范书源;基于环扫式毫米波雷达点云成像的无人机捕获装置及方法:CN202110607837.2[P]. 2021-09-07. 发明授权,授权公告号:CN113357965B 9.李新波,贾云龙,王英伟,王宇坤,刘国君,吴越,于晓辉;基于凹面超声阵列的无容器悬浮控制装置,2020.09.01,CN201811147753.X.发明授权,授权公告号 CN108897265B 8.李新波,朱阁彦,西继东,孙晓东,于晓辉,刘国君,吴越;一种测量风速和风向的方法及系统, 2019.11.15,中国,ZL201710756124.6.发明授权,授权公告号CN107576819B 7.李新波,朱阁彦,王英伟,郭晨,西继东,刘帅,李厚禹,于润泽;三维空间来风的风速测量系统及方法,2019.9.11,中国,ZL201810027623.6. 发明授权,授权公告号CN108169511B 6.李新波,杨伟,王英伟,姜良旭,刘国君,吴越,刘建芳,杨志刚,石要武;一种压电泵输出压强恒压控制系统及恒压控制方法,2018.8.17,中国,ZL201610939385.7.发明授权,授权公告号CN106438303B。 5.李新波,高伟,梁亮,付云博,姜良旭,刘建芳,刘国君,杨志刚,石要武;超声波风速风向测量装置及测量方法,2017.11.24,中国,ZL201510353726.8。 4.李新波,付云博,杨涵璐,姜良旭,刘国君,吴越,刘建芳,杨志刚,石要武; 车轮振动压电俘能性能测试装置,2017.08.08,中国,ZL201410752747.2。 3.李新波,梁亮,刘建芳,周秀文,高伟,付云博,刘维帅,石要武,吴越; 一种压力自感知、自发电的智能鞋垫,2017.06.01,中国,ZL201410485647.8。 2.李新波,刘庆财,姜良旭,石要武,吴越,刘国君,杨志刚;压电泵性能测试装置,2017.03.29,ZL201510622853.3。 1.李新波,付云博,梁亮,刘国君,吴越,刘建芳,杨志刚;医疗针头销毁装置及方法,2016.02.03,中国,ZL20141042074.9。 |