[1] Wang L, Zhou B, Liu J. Simultaneous recovery of the temperature and species concentration from integral equation model[J]. Applied Mathematical Modelling, 2016, 40(4): 3090-3103. [2] Zhou B, Fraser K H, Poelma C, et al. Ultrasound imaging velocimetry: Effect of beam sweeping on velocity estimation[J]. Ultrasound in medicine & biology, 2013, 39(9): 1672-1681. [3] Zhou B, Zhang J Y. A novel ECT–EST combined method for gas–solids flow pattern and charge distribution visualization[J]. Measurement Science and Technology, 2013, 24(7): 074003. [4] Owen J, Zhou B, Rademeyer P, et al. Understanding the structure and mechanism of formation of a new magnetic microbubble formulation[J]. Theranostics, 2012, 2(12): 1127-1139. IF 11.556/Q1 [5] B. Zhou, J. Zhang, and S. Wang, “Reconstruction of flame temperature field with optical sectioning method,” IET Image Process. 5, 382–393 (2011). [6] Yang D Y, Zhou B, Xu C L, et al. Thick-wall electrical capacitance tomography and its application in dense-phase pneumatic conveying under high pressure[J]. IET image processing, 2011, 5(5): 513-522. [7] Yang D, Zhou B, Xu C, et al. Dense-phase pneumatic conveying under pressure in horizontal pipeline[J]. Particuology, 2011, 9(4): 432-440. [8] Zhou B, Zhang J, Xu C, et al. Image reconstruction in electrostatic tomography using a priori knowledge from ECT[J]. Nuclear Engineering and Design, 2011, 241(6): 1952-1958. [9] Zhang J, Zhou B, Wang S. Effect of axial and radial velocities on solids mass flow rate measurement[J]. Robotics and Computer-Integrated Manufacturing, 2010, 26(6): 576-582. [10] Xu C, Zhou B, Wang S. Dense-phase pneumatically conveyed coal particle velocity measurement using electrostatic probes[J]. Journal of Electrostatics, 2010, 68(1): 64-72. [11]向鹏,周宾,祝仰坤,贺文凯,岳晓庚,陶依贝.复杂环境下基于深度神经网络的摄像机标定[J/OL].激光与光电子学进展:1-15[2019-03-12]. [12]寇潇文,周宾,刘训臣,陈海轩,张勐,刘鹏飞.腔衰荡光谱方法测量大气中痕量NH_3的浓度[J].光学学报,2018,38(11):369-378. [13]李可,周宾,贾金柱,杜煜,陆勇,程禾尧,王式民,王浩.基于多光谱吸收的交替迭代优化算法[J].工程热物理学报,2018,39(07):1598-1608. [14]程禾尧,王一红,张辉,周宾,王浩,汪步斌,熊涌泉.基于剩余幅度调制技术对强吸收下气体体积分数的测量研究[J].仪表技术与传感器,2018(06):92-96. [15]王浩,周宾,任红伟,肖睿,汪步斌,熊涌泉,王一红,康信文,程禾尧.基于波长调制技术对强水蒸气干扰下痕量氨气的测量研究[J].工程热物理学报,2018,39(04):911-921. [16]陶依贝,周宾,刘鹏飞,邱实,向鹏,贺文凯.基于LabVIEW的物料体积流量实时测量系统[J].仪表技术与传感器,2018(03):51-56+63. [17]汪步斌,周宾,王浩,熊涌泉,王一红,祝仰坤,王式民.基于三角波调制的免标定气体浓度测量方法研究[J].光学学报,2017,37(09):354-363. [18]熊涌泉,周宾,王一红,王浩,汪步斌,程禾尧,王式民.基于波长调制光谱技术的免标定单线测量法[J].光学学报,2017,37(09):344-353. [19]许康,王一红,周宾,汤光华,韩少鹏,程禾尧,李可.基于DOAS方法烟气中NH_3对NO浓度测量的干扰补偿[J].仪表技术与传感器,2016(12):121-125+144.
[20] Liu, Q;Zhou, B;Zhang, JY;Cheng, RX,Development of Flue Gas Audio-Range Velocimeter Using Quadratic-Convex Frequency Sweeping, IEEE SENSORS, 2021(21):9777-9787. IF 3.441/Q2 [21]Wang, YH;Zhou, B;Liu, C, Calibration-free wavelength modulation spectroscopy based on even-order harmonics,OPTICS EXPRESS ;2021(29);26618-26633; IF 3.894/Q1 [22] Wang, YH;Zhou, B;Sensitivity and Accuracy Enhanced Wavelength Modulation Spectroscopy Based on PSD Analysis,IEEE PHOTONICS TECHNOLOGY LETTERS,2021(33),1487-1490;IF 2.468/Q2
[23]Dai, Minglu, Bin Zhou, Jianyong Zhang, Bingxian Zuo, and Yihong Wang. Experimental and simulation investigation of 3-D soot temperature and volume fraction fields of afterburner flame. Case Studies in Thermal Engineering (2022): 101932. IF 4.724/Q1 [24] Liu Q, Zhou B, Cheng R, Zhang J, Wang Y. High Temporal Resolution Pyrometry and Velocimetry Based on Acoustic Frequency Division Multiplexing. IEEE Trans Instrum Meas 2022;71:1–11. IF 4.016/Q1
[25] Yihong Wang, Bin Zhou, Rong Zhao, Bubin Wang, Qi Liu, Minglu Dai Super-accuracy calculation for the half width of a Voigt profile, Mathematics. 2022; 10(2):210. https://doi.org/10.3390/math10020210. (Q1, IF=2.258).
[26] Yihong Wang, Bin Zhou, Bubin Wang, Rong Zhao, Qi Liu, Minglu Dai On the highly accurate evaluation of the Voigt/complex error function with small imaginary argument, Mathematics. 2022; 10(3):308. (Q1, IF=2.258).
[27]Rong Zhao, Bin Zhou*, Jianyong Zhang, Ruixue Cheng, Qi Liu, Minglu Dai, Bubin Wang, Yihong Wang. A stability and spatial-resolution enhanced laser absorption spectroscopy tomographic sensor for complex combustion flame diagnosis[J]. Case Studies in Thermal Engineering. 2023,41:102662. (SCI, Q1/IF:6.8) [28]赵荣, 周宾*, 刘奇, 戴明露, 汪步斌, 王一红. 基于激光吸收光谱技术的在线层析成像算法[J]. 物理学报, 2023,72(5):054206. (SCI, IF:1.0,期刊亮点文章) [29]Rong Zhao, Cheng Du, Zhongqiang Yu, Jianyong Zhang, Ruixue Cheng, Qi Liu, Minglu Dai, Bubin Wang, Bin Zhou*. Laser absorption tomography of complex combustion fields based on finite element node strategy and adaptive edge optimization algorithm[J]. Thermal Science and Engineering Progress. 2023,46:102251. (SCI, Q1/IF: 4.8) [30]Rong Zhao, Cheng Du, Jianyong Zhang, Ruixue Cheng, Zhongqiang Yu, Bin Zhou*. Reconstruction algorithm optimization based on multi-iteration adaptive regularity for laser absorption spectroscopy tomography[J]. Applied Sciences. 2023,13(21):12083. (SCI, Q2/IF: 2.7) [31]Rong Zhao, Bin Zhou*, Jianyong Zhang, Ruixue Cheng, Qi Liu, Minglu Dai, Bubin Wang, Yihong Wang. Rapid online tomograph in non-uniform complex combustion fields based on laser absorption spectroscopy[J]. Experimental Thermal and Fluid Science, 2023, 147: 110930. (SCI, Q2/IF: 3.2) [32]. Qi Liu, Bin Zhou*, Jianyong Zhang, Ruixue Cheng, Minglu Dai, Xuhao Zhao, Yihong Wang. A novel time-of-flight estimation method of acoustic signals for temperature and velocity measurement of gas medium[J]. Experimental Thermal and Fluid Science, 2023, 140: 110759.(SCI, Q2/IF: 3.370) [33]. Qi Liu, Bin Zhou*, Jianyong Zhang, Ruixue Cheng, Xuhao Zhao, Rong Zhao, Minglu Dai, Bubin Wang, Yihong Wang. A Time-of-Flight Estimation Method for Acoustic Ranging and Thermometry Based on Digital Lock-In Filtering[J]. Sensors, 2022, 22(15): 5519. (SCI, Q2/IF:3.847) [34]. Qi Liu, Bin Zhou*, Ruixue Cheng, Jianyong Zhang, Rong Zhao, Minglu Dai, Xuhao Zhao, Yihong Wang. Online monitoring instantaneous 2D temperature distributions in a furnace using acoustic tomography based on frequency division multiplexing [J]. Case Studies in Thermal Engineering. 2023, 103176. (SCI, Q1/IF: 6.268)
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