A new dynamic model for predicting transient phenomena in a PEM fuel cell system PR Pathapati, X Xue, J Tang Renewable energy 30 (1), 1-22, 2005 | 485 | 2005 |
Preprocessing-free gear fault diagnosis using small datasets with deep convolutional neural network-based transfer learning P Cao, S Zhang, J Tang IEEE Access 6, 26241-26253, 2018 | 396 | 2018 |
Active-passive hybrid piezoelectric networks for vibration control: comparisons and improvement J Tang, KW Wang Smart Materials and Structures 10 (4), 794, 2001 | 279 | 2001 |
Structural damage detection using neural network with learning rate improvement X Fang, H Luo, J Tang Computers & structures 83 (25-26), 2150-2161, 2005 | 271 | 2005 |
Dynamic modeling of single tubular SOFC combining heat/mass transfer and electrochemical reaction effects X Xue, J Tang, N Sammes, Y Du Journal of power sources 142 (1-2), 211-222, 2005 | 194 | 2005 |
System level lumped-parameter dynamic modeling of PEM fuel cell X Xue, J Tang, A Smirnova, R England, N Sammes Journal of Power Sources 133 (2), 188-204, 2004 | 149 | 2004 |
Multi-directional energy harvesting by piezoelectric cantilever-pendulum with internal resonance J Xu, J Tang Applied Physics Letters 107 (21), 213902, 2015 | 144 | 2015 |
Development of a classification system for engineering student characteristics affecting college enrollment and retention Q Li, H Swaminathan, J Tang Journal of Engineering Education 98 (4), 361-376, 2009 | 127 | 2009 |
Design of a linear-motion dual-stage actuation system for precision control W Dong, J Tang, Y ElDeeb Smart Materials and Structures 18 (9), 095035, 2009 | 93 | 2009 |
Tunable modulation of refracted lamb wave front facilitated by adaptive elastic metasurfaces S Li, J Xu, J Tang Applied Physics Letters 112 (2), 021903, 2018 | 89 | 2018 |
Development of an instrument to measure perspectives of engineering education among college students Q Li, DB McCoach, H Swaminathan, J Tang Journal of Engineering Education 97 (1), 47-56, 2008 | 89 | 2008 |
Adaptive pitch control of wind turbine for load mitigation under structural uncertainties Y Yuan, J Tang Renewable Energy 105, 483-494, 2017 | 87 | 2017 |
Granular damping in forced vibration: qualitative and quantitative analyses X Fang, J Tang Journal of Vibration and Acoustics 128 (4), 489-500, 2006 | 82 | 2006 |
Modeling and analysis of piezoelectric cantilever-pendulum system for multi-directional energy harvesting J Xu, J Tang Journal of Intelligent Material Systems and Structures 28 (3), 323-338, 2017 | 79 | 2017 |
An enhanced frequency-shift-based damage identification method using tunable piezoelectric transducer circuitry LJ Jiang, J Tang, KW Wang Smart Materials and Structures 15 (3), 799, 2006 | 76 | 2006 |
Vibration control of rotationally periodic structures using passive piezoelectric shunt networks and active compensation J Tang, KW Wang Journal of vibration and acoustics 121 (3), 379-390, 1999 | 76 | 1999 |
Vibration delocalization of nearly periodic structures using coupled piezoelectric networks J Tang, KW Wang Journal of vibration and acoustics 125 (1), 95-108, 2003 | 74 | 2003 |
Crack induced vibration localization in simplified bladed-disk structures X Fang, J Tang, E Jordan, KD Murphy Journal of sound and vibration 291 (1-2), 395-418, 2006 | 73 | 2006 |
Tunable prism based on piezoelectric metamaterial for acoustic beam steering J Xu, J Tang Applied Physics Letters 110 (18), 181902, 2017 | 72 | 2017 |
Development and analysis of a bridge-lever-type displacement amplifier based on hybrid flexure hinges W Dong, F Chen, F Gao, M Yang, L Sun, Z Du, J Tang, D Zhang Precision Engineering 54, 171-181, 2018 | 71 | 2018 |