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Jie Huang 0003
Person information
- affiliation: Missouri University of Science and Technology, Department of Electrical and Computer Engineering, Rolla, MO, USA
- affiliation (PhD 2015): Clemson University, Department of Electrical and Computer Engineering, SC, USA
Other persons with the same name
- Jie Huang — disambiguation page
- Jie Huang 0001
— Chinese University of Hong Kong, Department of Mechanical and Automation Engineering, Hong Kong
- Jie Huang 0002 — Marvell Semiconductor, Santa Clara, CA, USA (and 2 more)
- Jie Huang 0004
- Jie Huang 0005
- Jie Huang 0006
- Jie Huang 0007
- Jie Huang 0008
- Jie Huang 0009
- Jie Huang 0010 — CISPA Helmholtz Center for Information Security, Saarbrücken, Germany
- Jie Huang 0011
- Jie Huang 0012 — University of Aizu, School of Computer Science and Engineering, Aizu-Wakamatsu, Japan
- Jie Huang 0013 — Kaiser Permanente Division of Research, Oakland, CA, USA
- Jie Huang 0014
- Jie Huang 0015
- Jie Huang 0016
- Jie Huang 0017
- Jie Huang 0018
- Jie Huang 0019
- Jie Huang 0020
- Jie Huang 0021
- Jie Huang 0022 — Beijing Institute of Technology, School of Mechanical and Vehicular Engineering, Beijing, China
- Jie Huang 0023 — Beijing Institute of Technology, School of Automation, Key Laboratory of Intelligent Control and Decision of Complex Systems, Beijing, China
- Jie Huang 0024 — University of Science and Technology of China, School of Computer Science and Technology, Anhui Province Key Laboratory of Big Data Analysis and Application, Hefei, China
- Jie Huang 0025
- Jie Huang 0026
- Jie Huang 0027
- Jie Huang 0028
- Jie Huang 0029
- Jie Huang 0030
- Jie Huang 0031
- Jie Huang 0032 — Tongji University, School of Software Engineering, Shanghai, China
- Jie Huang 0033
- Jie Huang 0034
- Jie Huang 0035
- Jie Huang 0036
- Jie Huang 0037
- Jie Huang 0038
- Jie Huang 0039
- Jie Huang 0040 — Portland State University, Department of Computer Science, Portland, OR, USA (and 1 more)
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2020 – today
- 2024
- [j30]Dinesh Reddy Alla
Cascaded Sapphire Fiber Bragg Gratings Inscribed by Femtosecond Laser for Molten Steel Studies. IEEE Trans. Instrum. Meas. 73: 1-8 (2024) - [j29]Ogbole C. Inalegwu
Distributed Sensing for Early Detection of Water Leakages in the Burner Area of an Electric Arc Furnace Using Optical Fiber Sensors. IEEE Trans. Instrum. Meas. 73: 1-12 (2024) - [j28]Farhan Mumtaz
Ultrafast Annealing Improves SNR and Long-Term Stability of a Highly Multiplexed Line-by-Line FBG Array Inscribed by Femtosecond Laser in a Coreless Fiber for Extreme-Temperature Applications. IEEE Trans. Instrum. Meas. 73: 1-10 (2024) - [j27]Yan Tang
Enhanced Sensitivity and Robustness in an Embeddable Strain Sensor Using Microwave Resonators. IEEE Trans. Instrum. Meas. 73: 1-8 (2024) - [j26]Chen Zhu
Prompt, Accurate, and Noncontact Material Identification Using a Single Microwave Sensor With Machine Learning Analysis. IEEE Trans. Instrum. Meas. 73: 1-10 (2024) - [j25]Chen Zhu
Highly Sensitive Liquid-Level Sensing Based on Microwave Frequency Domain Reflectometry and Interferometry. IEEE Trans. Instrum. Meas. 73: 1-9 (2024) - 2023
- [j24]Taihao Han
Predicting Dissolution Kinetics of Tricalcium Silicate Using Deep Learning and Analytical Models. Algorithms 16(1): 7 (2023) - [j23]Ogbole C. Inalegwu, Rex E. Gerald II, Jie Huang
A Machine Learning Specklegram Wavemeter (MaSWave) Based on a Short Section of Multimode Fiber as the Dispersive Element. Sensors 23(10): 4574 (2023) - [j22]Chen Zhu
Fs-Laser Fabricated Miniature Fabry-Perot Interferometer in a No-Core Fiber for High-Temperature Applications. Sensors 23(18): 7754 (2023) - [j21]Abhishek Prakash Hungund
Real-Time Air Gap and Thickness Measurement of Continuous Caster Mold Flux by Extrinsic Fabry-Perot Interferometer. IEEE Trans. Instrum. Meas. 72: 1-14 (2023) - [j20]Muhammad Roman
Temperature Monitoring in the Refractory Lining of a Continuous Casting Tundish Using Distributed Optical Fiber Sensors. IEEE Trans. Instrum. Meas. 72: 1-11 (2023) - [j19]Bohong Zhang
Advancing Aluminum Casting Optimization With Real-Time Temperature and Gap Measurements Using Optical Fiber Sensors at the Metal-Mold Interface. IEEE Trans. Instrum. Meas. 72: 1-12 (2023) - [j18]Bohong Zhang
In Situ High-Temperature Raman Spectroscopy via a Remote Fiber-Optic Raman Probe. IEEE Trans. Instrum. Meas. 72: 1-8 (2023) - 2022
- [j17]Farhan Mumtaz
Highly Sensitive Strain Sensor by Utilizing a Tunable Air Reflector and the Vernier Effect. Sensors 22(19): 7557 (2022) - [j16]Deva Prasaad Neelakandan
Liquid Core Detection and Strand Condition Monitoring in a Continuous Caster Using Optical Fiber. Sensors 22(24): 9816 (2022) - [j15]Jing Guo
Temperature-Insensitive Inclinometer Based on Transmission Line Fabry-Perot Resonators. IEEE Trans. Instrum. Meas. 71: 1-10 (2022) - [j14]Chen Zhu
Review of Fiber Optic Displacement Sensors. IEEE Trans. Instrum. Meas. 71: 1-12 (2022) - 2021
- [j13]Ibrahem Jasim, Jiayu Liu, Chen Zhu
Microsphere Photolithography Patterned Nanohole Array on an Optical Fiber. IEEE Access 9: 32627-32633 (2021) - [j12]Muhammad Roman
Thermal Mapping of Metal Casting Mold Using High-Resolution Distributed Fiber-Optic Sensors. IEEE Trans. Instrum. Meas. 70: 1-10 (2021) - [j11]Chen Zhu
Ultrasensitive Open-Ended Coaxial Cable-Based Microwave Resonator Learns to Sense Impacts. IEEE Trans. Instrum. Meas. 70: 1-9 (2021) - 2020
- [j10]Muhammad Roman
A Spatially Distributed Fiber-Optic Temperature Sensor for Applications in the Steel Industry. Sensors 20(14): 3900 (2020) - [j9]Ting Xue, Lingshuang Xu, Qian Wang, Bin Wu, Jie Huang:
A 3-D Reconstruction Method of Dense Bubbly Plume Based on Laser Scanning. IEEE Trans. Instrum. Meas. 69(5): 2145-2154 (2020) - [j8]Yiyang Zhuang
A High-Resolution 2-D Fiber Optic Inclinometer for Structural Health Monitoring Applications. IEEE Trans. Instrum. Meas. 69(9): 6544-6555 (2020) - [j7]Chen Zhu
Probing Changes in Pressure With Subpascal Resolution Using an Optical Fiber Fabry-Perot Interferometer. IEEE Trans. Instrum. Meas. 69(9): 6556-6563 (2020) - [j6]Chen Zhu
Progress Toward Sapphire Optical Fiber Sensors for High-Temperature Applications. IEEE Trans. Instrum. Meas. 69(11): 8639-8655 (2020)
2010 – 2019
- 2019
- [j5]Chen Zhu
Truly Distributed Coaxial Cable Sensing Based on Random Inhomogeneities. IEEE Trans. Instrum. Meas. 68(11): 4600-4607 (2019) - 2018
- [j4]Chen Zhu
Displacement and Strain Measurement up to 1000 °C Using a Hollow Coaxial Cable Fabry-Perot Resonator. Sensors 18(5): 1304 (2018) - [j3]Chen Zhu
Optical Interferometric Pressure Sensor Based on a Buckled Beam With Low-Temperature Cross-Sensitivity. IEEE Trans. Instrum. Meas. 67(4): 950-955 (2018) - [j2]Chen Zhu
A Liquid-Level Sensor Based on a Hollow Coaxial Cable Fabry-Perot Resonator With Micrometer Resolution. IEEE Trans. Instrum. Meas. 67(12): 2892-2897 (2018) - 2017
- [j1]Chen Zhu
An Optical Interferometric Triaxial Displacement Sensor for Structural Health Monitoring: Characterization of Sliding and Debonding for a Delamination Process. Sensors 17(11): 2696 (2017)
Coauthor Index
aka: Rex E. Gerald II
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