汪洋
(0)

基本信息

  • 性别:
  • 聘任技术职务:副教授
  • 学历:博士研究生毕业
  • 联系电话:
  • 电子邮箱:wyang@shnu.edu.cn
  • 通讯地址:海思路100号
  • 部门:信息与机电工程学院
  • 学位:工学博士学位
  • 毕业院校:中科院上海微系统与信息技术所
  • 办公地址:

研究方向

研究方向:

研究方向:

人工智能,机器视觉,计算成像,光电子,嵌入式机器人等。


主持和参与了多项国家级和省部级项目,发表SCI论文30余篇,指导学生多次获得全国大学生电子设计大赛一等奖、美国大学生数学建模大赛M奖、全国大学生数学建模大赛二等奖及上海市创造杯大赛二等奖等奖励。

 

学术成果(以下信息源于科研管理系统)

学术成果:
论文
  • [1] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [2] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [3] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [4] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [5] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [6] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [7] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [8] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [9] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [10] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [11] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [12] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [13] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [14] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [15] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [16] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [17] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [18] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [19] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [20] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [21] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [22] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [23] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [24] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [25] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [26] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [27] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [28] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [29] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [30] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [31] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [32] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [33] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [34] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [35] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [36] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [37] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [38] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [39] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [40] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [41] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [42] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [43] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [44] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [45] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [46] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [47] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [48] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [49] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [50] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [51] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [52] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [53] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [54] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [55] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [56] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [57] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [58] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [59] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [60] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [61] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [62] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [63] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [64] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [65] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [66] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [67] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [68] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [69] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [70] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [71] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [72] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [73] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [74] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [75] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [76] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [77] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [78] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [79] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [80] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [81] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [82] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [83] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [84] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [85] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [86] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [87] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [88] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [89] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [90] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [91] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [92] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [93] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [94] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [95] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [96] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [97] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [98] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [99] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [100] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [101] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [102] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [103] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [104] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [105] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [106] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [107] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [108] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [109] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [110] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [111] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [112] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [113] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [114] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [115] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [116] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [117] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [118] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [119] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [120] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [121] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [122] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [123] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [124] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [125] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [126] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [127] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [128] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [129] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [130] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [131] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [132] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [133] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [134] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [135] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [136] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [137] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [138] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [139] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [140] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [141] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [142] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [143] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [144] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [145] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [146] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [147] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [148] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [149] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [150] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [151] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [152] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [153] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [154] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [155] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [156] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [157] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [158] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [159] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [160] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [161] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [162] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [163] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [164] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [165] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [166] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [167] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [168] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [169] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [170] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [171] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [172] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [173] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [174] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [175] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [176] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [177] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [178] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [179] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [180] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [181] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [182] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [183] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [184] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [185] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [186] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [187] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [188] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [189] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [190] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [191] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [192] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [193] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [194] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [195] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [196] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [197] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [198] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [199] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [200] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [201] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [202] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [203] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [204] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [205] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [206] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [207] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [208] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [209] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [210] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [211] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [212] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [213] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [214] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [215] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [216] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [217] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [218] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [219] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [220] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [221] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [222] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [223] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [224] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [225] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [226] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [227] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [228] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [229] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [230] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [231] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [232] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [233] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [234] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [235] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [236] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [237] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [238] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [239] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [240] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [241] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [242] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [243] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [244] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [245] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [246] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [247] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [248] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [249] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [250] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [251] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [252] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [253] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [254] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [255] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [256] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [257] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [258] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [259] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [260] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [261] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [262] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [263] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [264] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [265] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [266] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [267] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [268] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [269] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [270] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [271] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [272] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [273] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [274] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [275] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [276] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [277] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [278] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [279] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [280] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [281] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [282] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [283] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [284] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [285] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [286] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [287] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [288] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [289] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [290] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [291] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [292] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [293] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [294] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [295] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [296] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [297] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [298] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [299] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [300] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [301] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [302] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [303] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [304] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [305] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [306] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [307] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [308] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [309] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [310] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [311] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [312] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [313] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [314] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [315] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [316] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [317] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [318] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [319] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [320] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [321] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [322] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [323] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [324] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [325] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [326] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [327] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [328] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [329] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [330] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [331] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [332] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [333] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [334] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [335] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [336] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [337] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [338] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [339] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [340] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [341] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [342] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [343] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [344] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [345] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [346] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [347] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [348] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [349] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [350] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [351] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [352] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [353] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [354] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [355] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [356] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [357] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [358] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [359] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [360] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [361] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [362] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [363] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [364] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [365] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [366] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [367] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [368] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [369] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [370] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [371] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [372] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [373] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [374] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [375] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [376] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [377] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [378] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [379] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [380] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [381] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [382] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [383] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [384] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [385] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [386] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [387] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [388] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [389] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [390] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [391] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [392] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [393] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [394] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [395] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [396] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [397] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [398] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [399] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [400] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [401] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [402] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [403] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [404] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [405] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [406] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [407] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [408] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [409] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [410] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [411] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [412] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [413] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [414] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [415] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [416] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [417] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [418] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [419] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [420] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [421] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [422] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [423] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [424] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [425] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [426] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [427] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [428] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [429] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [430] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [431] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [432] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [433] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [434] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [435] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [436] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [437] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [438] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [439] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [440] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [441] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [442] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [443] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [444] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [445] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [446] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [447] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [448] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [449] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [450] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [451] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [452] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [453] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [454] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [455] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [456] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [457] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [458] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [459] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [460] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [461] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [462] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [463] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [464] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [465] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [466] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [467] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [468] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [469] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [470] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [471] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [472] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [473] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [474] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [475] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [476] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [477] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [478] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [479] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [480] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [481] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [482] 汪洋. A low-cost, high-efficiency LED probe compatible with optical fiber port for optogenetics. Microsystem Technologies,2019,25(4):1-7.
  • [483] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
  • [484] 汪洋. 基于模糊PID控制的外腔半导体激光稳频系统研究. 上海师范大学学报,2019,48(4):383-386.
科研项目
  • [1] 汪洋.上海市2022年度科学仪器领域项目:AI辅助的分子束外延设备共享管理与应用技术研究,在研.
  • [2] 汪洋.校一般科研项目:面向光感基因技术的无线程控光刺激装置研究,在研.
专利成果

教学工作

教学工作:
教职工课程信息
开课学年开课学期课程名称
2018-20191模式识别
2017-20182通信电子线路
2019-20202电子技术实验
2018-20192通信电子线路
2022-20232电子技术实验
2023-20242数字电子技术实验
2020-20212电子技术实验
2019-20201通信电子线路实验
2023-20241模式识别
2022-20231概率论与数理统计
2025-20261模式识别
2024-20252电子技术实验
2020-20211概率论与数理统计
2018-20191模式识别
2021-20222电子技术实验
2024-20251模式识别

荣誉奖励

社会兼职

版权所有 © 上海师范大学