Determination of planetary boundary layer height on short spatial and temporal scales: A demonstration of the covariance wavelet transform in ground-based wind profiler and lidar measurements

被引:0
|
作者
机构
[1] Compton, Jaime C.
[2] Delgado, Ruben
[3] Berkoff, Timothy A.
[4] Hoff, Raymond M.
来源
Hoff, R.M. (hoff@umbc.edu) | 1600年 / American Meteorological Society卷 / 30期
基金
美国国家航空航天局;
关键词
NASA - Radiosondes - Optical radar - Boundary layers - Air quality - Boundary layer flow;
D O I
暂无
中图分类号
学科分类号
摘要
Journal article (JA)
引用
收藏
相关论文
共 10 条
  • [1] Determination of Planetary Boundary Layer Height on Short Spatial and Temporal Scales: A Demonstration of the Covariance Wavelet Transform in Ground-Based Wind Profiler and Lidar Measurements
    Compton, Jaime C.
    Delgado, Ruben
    Berkoff, Timothy A.
    Hoff, Raymond M.
    JOURNAL OF ATMOSPHERIC AND OCEANIC TECHNOLOGY, 2013, 30 (07) : 1566 - 1575
  • [2] PLANETARY BOUNDARY LAYER HEIGHT MEASURED BY A WIND PROFILER BASED ON THE WAVELET TRANSFORM
    Ai Wei-hua
    Ge Shu-rui
    Wei Hao
    Hu Ming-bao
    JOURNAL OF TROPICAL METEOROLOGY, 2017, 23 (04) : 396 - 407
  • [3] PLANETARY BOUNDARY LAYER HEIGHT MEASURED BY A WIND PROFILER BASED ON THE WAVELET TRANSFORM
    艾未华
    戈书睿
    魏浩
    胡明宝
    Journal of Tropical Meteorology, 2017, 23 (04) : 396 - 407
  • [4] Retrieval of the planetary boundary layer height from lidar measurements by a deep-learning method based on the wavelet covariance transform
    Mei, Liang
    Wang, Xiaoqi
    Gong, Zhenfeng
    Liu, Kun
    Hua, Dengxin
    Wang, Xiaona
    OPTICS EXPRESS, 2022, 30 (10): : 16297 - 16312
  • [5] Detection of the planetary boundary layer height by employing the Scheimpflug lidar technique and the covariance wavelet transform method
    Mei, Liang
    Li, Limei
    Liu, Zhi
    Fei, Ruonan
    Lu, Qingqing
    Chen, Ke
    Gong, ZhengFeng
    APPLIED OPTICS, 2019, 58 (29) : 8013 - 8020
  • [6] Improving Daytime Planetary Boundary Layer Height Determination from CALIOP: Validation Based on Ground-Based Lidar Station
    Liu, Zhao
    Mortier, Augustin
    Li, Zhengqiang
    Hou, Weizhen
    Goloub, Philippe
    Lv, Yang
    Chen, Xingfeng
    Li, Donghui
    Li, Kaitao
    Xie, Yisong
    ADVANCES IN METEOROLOGY, 2017, 2017
  • [7] Assessing CALIOP-Derived Planetary Boundary Layer Height Using Ground-Based Lidar
    Kim, Man-Hae
    Yeo, Huidong
    Park, Soojin
    Park, Do-Hyeon
    Omar, Ali
    Nishizawa, Tomoaki
    Shimizu, Atsushi
    Kim, Sang-Woo
    REMOTE SENSING, 2021, 13 (08)
  • [8] An intercomparison of long-term planetary boundary layer heights retrieved from CALIPSO, ground-based lidar, and radiosonde measurements over Hong Kong
    Su, Tianning
    Li, Jing
    Li, Chengcai
    Xiang, Pengzhan
    Lau, Alexis Kai-Hon
    Guo, Jianping
    Yang, Dongwei
    Miao, Yucong
    JOURNAL OF GEOPHYSICAL RESEARCH-ATMOSPHERES, 2017, 122 (07) : 3929 - 3943
  • [9] Inter-comparison of wind measurements in the atmospheric boundary layer and the lower troposphere with Aeolus and a ground-based coherent Doppler lidar network over China
    Wu, Songhua
    Sun, Kangwen
    Dai, Guangyao
    Wang, Xiaoye
    Liu, Xiaoying
    Liu, Bingyi
    Song, Xiaoquan
    Reitebuch, Oliver
    Li, Rongzhong
    Yin, Jiaping
    Wang, Xitao
    ATMOSPHERIC MEASUREMENT TECHNIQUES, 2022, 15 (01) : 131 - 148
  • [10] SET OF ALGORITHMS AND TECHNIQUES FOR ACCURATE 3D, SINGLE BEAM - SINGLE POINTING, LIDAR MEASUREMENTS FOR SLANT RANGE VISIBILITY, PLANETARY BOUNDARY LAYER HEIGHT AND WIND SPEED RETRIEVAL, ATMOSPHERIC LAYERS SPATIAL DISTRIBUTION AND CATEGORIZATION IN REAL TIME
    Pantazis, Alexandros
    Papayannis, Alexandros
    29TH INTERNATIONAL LASER RADAR CONFERENCE (ILRC 29), 2020, 237
1