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1.
德令哈6.6级地震前卫星红外长波辐射OLR的分析 总被引:4,自引:0,他引:4
应用NOAA卫星资料反演的地震长波辐射值OLR对2003年4月17日发生在青海省德令哈西的6.6级地震进行了追踪研究。结果显示:2003年1月起OLR距平值出现明显的高值异常区域。 相似文献
2.
发生地震时常伴随有地热辐射增强现象,这些异常信息隐藏于遥感卫星NOAA所捕获的地球射出长波辐射(OLR)数据中,目前多数研究还停留在对源数据的解读,缺乏有效的信息处理技术,致使大部分的OLR数据没有得到充分利用。因此,本文提出一种基于鞅理论的概率统计方法来识别异常特征算法,从有噪声的非结构化的源数据中提取出震前OLR数据异常变化特征序列,从时间序列和地域范围进行震前异常分析。本算法实验是以尼泊尔的在2014年9月至2015年7月期间(包括2015年4月25日Ms7.8大地震)发生的3次地震的OLR数据为例,实验结果显示震中区域的OLR数据在震前的2~3个月开始有显著的异常数据变化,通过分析发现数据显示数据异常在震前出现的时间长短与地震的大小相关,异常的发生区域与震区周围的地貌特征相关。这说明基于鞅理论的算法所提取的OLR数据异常点序列的确与地震发生的时间地点是有关系的。 相似文献
3.
R. R. Kelkar 《Journal of Earth System Science》1993,102(1):271-281
This paper discusses the use of satellite data for studying climate change, with particular emphasis on the inter-annual variability
of the Indian southwest monsoon. Precipitation estimates made from INSAT-1B radiance data are shown to bring out the variations
that occurred in the monsoon rainfall of 1987 and 1988. Outgoing Longwave Radiation derived from INSAT-1B shows good correspondence
with precipitation patterns. 相似文献
4.
Jiang Shangcheng 《Acta Meteorologica Sinica》1993,7(3):367-380
The outgoing longwave radiation(OLR)observed by NOAA satellite series has widely applied in various researchfields since the 1980s in China.In this paper,advances of the applied research of OLR are described in the following re-spects:(1)Studies of the global ITCZ;(2)Climatology of the subtropical high over northern Pacific;(3)Studies of the tropical cyclone over West Pacific;(4)Characteristics of the intraseasonal variation(ISV)of tropical convective activities;(5)Divergence wind and large scale circulation over the tropics;(6)Studies of the air-sea interaction;(7)Estimation of precipitation over the Tibetan Plateau and the Yangtze River(Changjiang River)basin during therainy season;(8)Analyses of regional climates of China;(9)Studies of prediction of the severe and disastrous weather and climate;(10)Atlas of OLR.The distinctive features of these advances are reviewed and the focal points of the OLR applied research in futureare also suggested. 相似文献
5.
6.
7.
OLR揭示的北太平洋副热带高压的气候学特征 总被引:6,自引:0,他引:6
本文利用NOAA卫星观测的射出长波辐射(OLR)资料,分析了北太平洋副热带高压的气候学特征,揭示并解释了北太平洋副高的位置和强度显着东西向振荡的年循环现象,探讨了用卫星资料研究副高的新途径。 相似文献
8.
Weng Duming 《Acta Meteorologica Sinica》1995,9(2):228-236
ERBE and ISCCP data are used to investigate the cloud forcing and latitude and atmospheric temperature effects on outgoing longwave radiation(OLR) in the earth-atmosphere system,and the similarity of OLR field to 500 hPa and surface effective radiation fields.Also,discussion is taken up of the OLR distribution on a nationwide basis,indicating that the winter(summer) OLR pattern is roughly a zonal type(asymmetrical saddle) with the annual pattern analogous to the January one.In the end the yearly OLR variation features are addressed on a regional basis. 相似文献
9.
D. R. Pattanaik 《Pure and Applied Geophysics》2007,164(8-9):1527-1545
The present study is an attempt to examine the variability of convective activity over the north Indian Ocean (Bay of Bengal
and Arabian Sea) on interannual and longer time scale and its association with the rainfall activity over the four different
homogeneous regions of India (viz., northeast India, northwest India, central India and south peninsular India) during the
monsoon season from June to September (JJAS) for the 26 year period (1979 to 2004). The monthly mean Outgoing Long-wave Radiation
(OLR) data obtained from National Oceanic and Atmospheric Administration (NOAA) polar orbiting spacecraft are used in this
study and the 26-year period has been divided into two periods of 13 years each with period-i from 1979 to 1991 and period
-ii from 1992 to 2004. It is ascertained that the convective activity increases over the Arabian Sea and the Bay of Bengal
in the recent period (period -ii; 1992 to 2004) compared to that of the former period (period -i; 1979 to 1991) during JJAS
and is associated with a significantly increasing trend (at 95% level) of convective activity over the north Bay of Bengal
(NBAY). On a monthly scale, July and August also show increase in convective activity over the Arabian Sea and the Bay of
Bengal during the recent period and this is associated with slight changes in the monsoon activity cycle over India. The increase
in convective activity particularly over the Arabian Sea during the recent period of June is basically associated with about
three days early onset of the monsoon over Delhi and relatively faster progress of the monsoon northward from the southern
tip of India. Over the homogeneous regions of India the correlation coefficient (CC) of OLR anomalies over the south Arabian
Sea (SARA) is highly significant with the rainfall over central India, south peninsular India and northwest India, and for
the north Arabian Sea (NARA), it is significant with northwest India rainfall and south peninsular rainfall. Similarly, the
OLR anomalies over the south Bay of Bengal (SBAY) have significant CC with northwest India and south peninsular rainfall,
whereas the most active convective region of the NBAY is not significantly correlated with rainfall over India. It is also
found that the region over northeastern parts of India and its surroundings has a negative correlation with the OLR anomalies
over the NARA and is associated with an anomalous sinking (rising) motion over the northeastern parts of India during the
years of increase (decrease) of convective activity over the NARA. 相似文献
10.
利用1959—2006年西南地区东部20个测站的逐日降水量资料和1979—2006年全球OLR(Outgoing Longwave Radiation)逐日格点资料, 分析了西南地区东部夏季典型旱涝年OLR的异常特征。结果表明: 按照区域降水指数可确定3个典型干旱年(2006, 1994和1997年)和3个典型洪涝年(1998, 1980和1993年), 而1998年和2006年分别是1959年以来西南地区东部降水偏多和偏少最明显的年份。西南地区东部典型旱涝年夏季OLR分布有明显的差异, 洪涝(干旱)年, 从青藏高原东部一直到江淮地区OLR值偏低(高), 同时孟加拉湾南部及赤道东印度洋地区OLR值也偏低(高), 而菲律宾及其附近地区OLR值偏高(低)。从3个关键区平均的逐日变化来看, 赤道东印度洋地区对流活动典型涝年强于典型旱年, 菲律宾及其附近地区对流活动则是旱年强于涝年, 青藏高原东部至江淮流域地区(包括西南地区东部)极端涝年盛行上升运动。涝年热带地区的ITCZ以向西移动的特征为主, 而旱年热带地区的ITCZ夏季前期则以向东移动的特征为主。典型涝年孟加拉湾南部及赤道东印度洋地区的对流北传的特征较明显, 6月中旬以后大部分时间可以传到30°N以北, 典型旱年孟加拉湾南部及赤道东印度洋地区的对流主要呈现南北振荡、 偶有中断的活动特征, 很少时间能达到30°N。低纬热带地区关键区域OLR 5~9月一般都具有准40天左右的显著低频变化周期, 而准12~15天的准双周变化周期在部分时段也显著。典型涝年夏季OLR 40天左右低频对流经向和纬向传播在西南地区东部区域得到加强, 低频对流偏强, 引起降水偏多, 而典型旱年夏季则相反, OLR 40天左右低频对流经向和纬向传播在该区域得到削弱, 低频对流偏弱, 引起降水偏少。 相似文献