对闪电成像传感器探测性能的贝叶斯分析

K. Virts, Timothy J. Lang, D. Buechler, P. Bitzer
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摘要

热带降雨测量任务卫星(TRMM LIS,1998-2015 年)和国际空间站(ISS LIS,2017 年至今)上搭载的相同闪电成像传感器对全球热带地区进行了二十多年的闪电观测,国际空间站 LIS 的覆盖范围扩展到了中纬度地区。量化两个国际空间站传感器的探测性能是生成国际空间站综合气候记录以及将国际空间站数据与其他传感器和网络的闪电探测数据精确结合的必要步骤。我们将两个 LIS 传感器的闪电观测数据与地球静止闪电成像仪 (GLM) 和地基地球网络总闪电网络 (ENTLN)、地球网络全球闪电网络 (ENGLN)、国家闪电探测网络 (NLDN) 以及全球闪电数据集 (GLD360) 等参考源进行了比较。我们没有采用假定参考传感器性能完美的相对探测效率(DE)方法,而是采用贝叶斯方法来估计每个被分析系统的绝对探测效率(ADE)上限。分析结果表明了 ADE 的地理模式及其昼夜周期和年度演变。在 TRMM 时代,参考网 ADE 增加了约 15-30%,导致 TRMM LIS ADE 下降。国际空间站 LIS 闪光 ADE 相对稳定在 61-65%,比 TRMM LIS 生命周期末期低约 4-5%。
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Bayesian analysis of the detection performance of the Lightning Imaging Sensors
Identical Lightning Imaging Sensors aboard the Tropical Rainfall Measuring Mission satellite (TRMM LIS, 1998–2015) and International Space Station (ISS LIS, 2017–present) have provided over two decades of lightning observations over the global tropics, with ISS LIS extending coverage into the mid-latitudes. Quantifying the detection performance of both LIS sensors is a necessary step toward generating a combined LIS climatological record and accurately combining LIS data with lightning detections from other sensors and networks. We compare lightning observations from both LIS sensors with reference sources including the Geostationary Lightning Mapper (GLM) and ground-based Earth Networks Total Lightning Network (ENTLN), Earth Networks Global Lightning Network (ENGLN), National Lightning Detection Network (NLDN), and Global Lightning Dataset (GLD360). Instead of a relative detection efficiency (DE) approach that assumes perfect performance of the reference sensor, we employ a Bayesian approach to estimate the upper limit of the absolute DE (ADE) of each system being analyzed. The results of this analysis illustrate the geographical pattern of ADE as well as its diurnal cycle and yearly evolution. Reference network ADE increased by ~15–30% during the TRMM era, leading to a decline in TRMM LIS ADE. ISS LIS flash ADE has been relatively consistent at 61–65%, about 4–5% lower than TRMM LIS at the end of its lifetime.
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