主要论文著作 [1] Jiang L, Chen Y, Qiao B, Fan S, Wang Y*, Li X Enhancing acoustic levitation capacity through array geometry optimization[J]. Applied Acoustics, 2024, 222: 110040. [2] Jiang L, Wang Y, Fan S, et al. Acoustic trap step for single-axis acoustic levitators[J]. Physical Review Applied, 2023, 19(1): 014050. [3] Jiang L, Wang Y, Fan S, et al. Transfer function modeling and dynamic performance analysis of single-axis acoustic-levitation systems[J]. Mechatronics, 2023, 92: 102984. [4] Jiang L, Wang Y, Yiwei C, et al. Effects and selection of update rates in acoustic levitator[J]. Measurement Science and Technology, 2024, 0957-0233. [5] Li, X, Qiao, B, Chen, Y, Jiang, L*, Sun, X*. Electroacoustic response of ultrasonic transducer with arbitrary period signal input based on extended piston model. Measurement Science and Technology, 2025, 36(8): 085111. [6] Li X, Zhao X, Fan S, Jiang L*. Ultrasonic wind parameter measurement method based on cyclostationary[J]. Measurement, 2025, 241: 115646. [7] Wang Y, Jiang L, Chen Z, et al. MMH-Net: A novel multi-modal hybrid learning network for accurate mass estimation of acoustic levitated objects[J]. Engineering Applications of Artificial Intelligence, 2024, 136: 108965. [8] Chen Y, Qiao B, Fan S, Jiang L*, et al. Effect of array arrangement on acoustic levitation performance[J]. Measurement Science & Technology, 2024(10): 35. [9] Fan S, Jiang L, Chen Y, et al. Acoustic array robot based on the dual-rotation mechatronic design[J]. IEEE Robotics and Automation Letters, 2024, 9(7): 6202–6207. [10] Li X, Wang X, Jiang L*. Wind parameters measurement method based on co-prime array signal processing[J]. Measurement, 2022(192): 110847.
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