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Chaotic phenomenon and the maximum predictable time scale of observation series of urban hourly water consumption 被引量:2
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作者 柳景青 张士乔 俞申凯 《Journal of Zhejiang University Science》 EI CSCD 2004年第9期1053-1059,共7页
The chaotic characteristics and maximum predictable time scale of the observation series of hourly water consumption in Hangzhou were investigated using the advanced algorithm presented here is based on the convention... The chaotic characteristics and maximum predictable time scale of the observation series of hourly water consumption in Hangzhou were investigated using the advanced algorithm presented here is based on the conventional Wolf's algorithm for the largest Lyapunov exponent. For comparison, the largest Lyapunov exponents of water consumption series with one-hour and 24-hour intervals were calculated respectively. The results indicated that chaotic characteristics obviously exist in the hourly water consumption system; and that observation series with 24-hour interval have longer maximum predictable scale than hourly series. These findings could have significant practical application for better prediction of urban hourly water consumption. 展开更多
关键词 Hourly water consumption series Lyapunov exponent CHAOS Maximum predictable time scale
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Seasonal Variation Features of Western North Pacific Tropical Cyclone Tracks with Their Predictability
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作者 彭永清 严绍瑾 《Advances in Atmospheric Sciences》 SCIE CAS CSCD 1994年第4期463-469,共7页
Analysis is done of monthly and seasonal variations as climatic features of the tracks from 1196 tropical cyclones originating in the western North Pacific over the period 1949 to 1980, followed by the investigation o... Analysis is done of monthly and seasonal variations as climatic features of the tracks from 1196 tropical cyclones originating in the western North Pacific over the period 1949 to 1980, followed by the investigation of 301 onland cyclone tracks over China mainland in terms of methodology for nonlinear system. Obtained by computing the accumulated distance distribution function of the tracks Cm (l) is the characteristic chaos quantity for the related dynamic systems and then the fractual dimensionality d = 4.86 and Kolmogorov entropy approximation K2 = 0.0164, thereby leading to the predictability time scale = 2.54 days. It is found that the reference path among the onland typhoon No.23 of 1971, or Bess in the international nomenclature. Our results could be of operational use as a kind of reference. 展开更多
关键词 Tropical cyclone tracks Seasonal variation Predictability time scale
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