气象
氣象
기상
METEOROLOGICAL MONTHLY
2014年
1期
7-17
,共11页
卫星%对流初生%综述
衛星%對流初生%綜述
위성%대류초생%종술
geostationary satellite%convective initiation%review
本文主要对近年来利用静止气象卫星监测、分析和研究对流初生的国内外若干研究结果和进展给予了简要综述。主要涉及对流的判识、对流的追踪技术、初生对流的多光谱云顶特征、初生对流的判据和问题与展望等方面的内容。总体而言,利用静止气象卫星监测初生对流,以及发展的对流,是目前国内外研究和探索的热点之一。研究表明,通过精心挑选对对流敏感的光谱通道、通道组合和时间演变判据,可以对初生对流进行监测,可比地面雷达更早地预警降雨系统的发展,显示出在临近预报中的应用潜力。监测对流初生的算法流程大体上分为目标判识、目标追踪和初生对流判识三个部分。国际上主要的一些与对流初生相关的成熟算法各具特色,如 RDT(Rapidly Developing Thunderstorms)算法在对流判识中强调了垂直形态的峰值检测,追踪对流时利用了速度外推并检测重叠面积。ForTraCC(Forecasting and Tracking the Evolution of Cloud Clusters)算法关注活跃对流,一定程度上考虑了对流合并和分裂的情况,具有外推预报功能。GOES-R(The Geostationary Operational Environmental Satellite R- Series Program)算法特点是多光谱的使用,利用多光谱判识技术进行对流云顶检测,是面向下一代静止气象卫星探测能力的算法。UWCI(The University of Wisconsin Convective Initiation)构思巧妙,所提出的box-average技术简单易行,适合软件工程化。随着卫星传感器和探测能力的发展,以及计算机技术的快速发展,更多卫星资料将用于联合判识对流。同时,更新的计算机视觉、计算机图像处理和模式识别技术也将用来解决追踪中的复杂问题,进一步改进初生对流的判识准确率。
本文主要對近年來利用靜止氣象衛星鑑測、分析和研究對流初生的國內外若榦研究結果和進展給予瞭簡要綜述。主要涉及對流的判識、對流的追蹤技術、初生對流的多光譜雲頂特徵、初生對流的判據和問題與展望等方麵的內容。總體而言,利用靜止氣象衛星鑑測初生對流,以及髮展的對流,是目前國內外研究和探索的熱點之一。研究錶明,通過精心挑選對對流敏感的光譜通道、通道組閤和時間縯變判據,可以對初生對流進行鑑測,可比地麵雷達更早地預警降雨繫統的髮展,顯示齣在臨近預報中的應用潛力。鑑測對流初生的算法流程大體上分為目標判識、目標追蹤和初生對流判識三箇部分。國際上主要的一些與對流初生相關的成熟算法各具特色,如 RDT(Rapidly Developing Thunderstorms)算法在對流判識中彊調瞭垂直形態的峰值檢測,追蹤對流時利用瞭速度外推併檢測重疊麵積。ForTraCC(Forecasting and Tracking the Evolution of Cloud Clusters)算法關註活躍對流,一定程度上攷慮瞭對流閤併和分裂的情況,具有外推預報功能。GOES-R(The Geostationary Operational Environmental Satellite R- Series Program)算法特點是多光譜的使用,利用多光譜判識技術進行對流雲頂檢測,是麵嚮下一代靜止氣象衛星探測能力的算法。UWCI(The University of Wisconsin Convective Initiation)構思巧妙,所提齣的box-average技術簡單易行,適閤軟件工程化。隨著衛星傳感器和探測能力的髮展,以及計算機技術的快速髮展,更多衛星資料將用于聯閤判識對流。同時,更新的計算機視覺、計算機圖像處理和模式識彆技術也將用來解決追蹤中的複雜問題,進一步改進初生對流的判識準確率。
본문주요대근년래이용정지기상위성감측、분석화연구대류초생적국내외약간연구결과화진전급여료간요종술。주요섭급대류적판식、대류적추종기술、초생대류적다광보운정특정、초생대류적판거화문제여전망등방면적내용。총체이언,이용정지기상위성감측초생대류,이급발전적대류,시목전국내외연구화탐색적열점지일。연구표명,통과정심도선대대류민감적광보통도、통도조합화시간연변판거,가이대초생대류진행감측,가비지면뢰체경조지예경강우계통적발전,현시출재림근예보중적응용잠력。감측대류초생적산법류정대체상분위목표판식、목표추종화초생대류판식삼개부분。국제상주요적일사여대류초생상관적성숙산법각구특색,여 RDT(Rapidly Developing Thunderstorms)산법재대류판식중강조료수직형태적봉치검측,추종대류시이용료속도외추병검측중첩면적。ForTraCC(Forecasting and Tracking the Evolution of Cloud Clusters)산법관주활약대류,일정정도상고필료대류합병화분렬적정황,구유외추예보공능。GOES-R(The Geostationary Operational Environmental Satellite R- Series Program)산법특점시다광보적사용,이용다광보판식기술진행대류운정검측,시면향하일대정지기상위성탐측능력적산법。UWCI(The University of Wisconsin Convective Initiation)구사교묘,소제출적box-average기술간단역행,괄합연건공정화。수착위성전감기화탐측능력적발전,이급계산궤기술적쾌속발전,경다위성자료장용우연합판식대류。동시,경신적계산궤시각、계산궤도상처리화모식식별기술야장용래해결추종중적복잡문제,진일보개진초생대류적판식준학솔。
A brief review of geostationary satellite-based convective initiation (CI)including the cloud clus-ters (CC)identification,the CC tracking technique,the multi-spectral cloud-top properties of CI,the de-termination of likelihood for CI and some conclusions are presented.Studies indicate that CI may predict the rain storms more early than ground-based radar by choosing carefully the sensitive channels,bands combinations and temporal trends,showing its application potentials for nowcasting forecasts.The know-ing CI algorithms basically involve three parts:target identification,tracking technique and CI likelihood detection.The operational algorithms are similar approaches but something different.For example,the Rapidly Developing Thunderstorms algorithm (RDT)considers the vertical cross-section of cloud systems while the tracking algorithm is mainly built on the overlapping between cells according to their move and speed.The Forecasting and Tracking the Evolution of Cloud Clusters (ForTraCC)technique concerns ac-tive convective systems,presenting the tracking situation including merges and splitting and displaing the ability to forecast the MCS trajectory.The GOES-R CI algorithm aims for the next generation satellite’s sounding and observing,using a series of spectral and temporal thresholds to identify CI.While the Uni-versity of Wisconsin Convective Initiation (UWCI)algorithm utilizes a box-averaged approach to monitor cloud-top cooling rates of CI.This approach is computationally inexpensive and easily provide to engineer-ing.With some new payloads ongoing launch and more powerful detection abilities,more and more satel-lite data will be introduced to identify convective cells.Also,computer technique progress will help to solve the complicated problems which may appear in the process of convective tracking,these efforts will improve the accuracy of CI products.