共查询到17条相似文献,搜索用时 312 毫秒
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管长龙 《中国海洋大学学报(自然科学版)》1996,(1)
将Pawka为改进最大似然方法(MLM)而提出的迭代方案应用于扩展本征关方法(EEV),作为EEV的一种迭代形式(IEEV)。用模拟数据检验了IEEV的合理性,并与EEV作了比较。计算结果表明,IEEV的估计性状较EEV有改善。最后将IEEV及EEV用于分析仪器阵列的外海观测数据。 相似文献
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最大熵原理应用于海浪波高分布的研究 总被引:5,自引:0,他引:5
利用最大熵原理从理论上推导出波高的最大熵分布,在此基础上研究了状态参量对波高分布和波高熵的影响。影响最大熵分布的因子是平均波高和状态参量,不同海况对应的状态参量是不同的。利用波高实测资料,得出3种不同海况下的最大熵分布,通过比较发现最大熵分布很好地符合实测数据。把最大熵分布与目前广泛应用的瑞利分布作了比较,结果表明,最大熵分布有2个优点:没有对波高作出任何限制性假定和能够描述不同海况下的波高分布。 相似文献
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张宏欣 《数字海洋与水下攻防》2018,1(1):57-62
针对非协作磁性目标定位中初始条件难以确定的问题,提出一种基于静态多模型滤波思想的自适应跟踪方法。 首先对磁场观测模型进行分析,设计了一种磁性目标初始参数估算方法,通过该方法得到不同假设条件下的磁性目标状态初值及其误差矩阵,在此基础上起始多个扩展卡尔曼滤波器(Extended Kalman Filter, EKF) 进行求解,根据各个滤波器的求解结果利用最大似然准则选取最佳解作为当前时刻估计结果。 通过仿真实验验证了方法的有效性,结果表明,方法可在目标源及位置等先验信息完全未知条件下准确估计出真实目标状态,对磁性目标实际应用具有参考价值。 相似文献
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较详细介绍了贝叶斯统计方法在海浪方向谱估计中的应用,指出先验分布的不同对估计结果没有影响,由于均匀分布与最大熵原则相对应,使其具有某种特殊性.数值模拟表明贝叶斯方法对双峰方向分布估计的有效性,将其应用于黑海实测资料,证明双峰方向分布的出现依赖于估计方法分辨力的大小,而用最大似然法得到的双峰方向分布值得怀疑.最后给出出现双峰方向分布的一种可能物理解释. 相似文献
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通过线性回归合成3颗卫星的遥感反射率,得到2006年7月27日—2006年8月8日期间有效数据量较多且时间连续的遥感反射率资料,并据此对长江口邻近海域近岸水舌向外海的扩展过程进行了分析。结果表明:在此期间存在一次明显的扩展过程,水舌的遥感反射率随离岸距离增加而降低,水舌主要沿纬度方向扩展,而在南、北方向摆动范围不大。该扩展过程分为伸展和消退两个阶段, 7月27日—8月2日期间,水舌逐天向东伸展,最远处到达124.4°E附近;在向东伸展途中,水舌宽度逐渐变窄但变化幅度较小;水舌内部遥感反射率的不同等值线均向东伸展,但向东伸展的程度不同,水舌边界的伸展速度变化较大(17.6~33.4 km/d),平均为每天24.5 km。从8月3日起水舌开始消退,至8月8日已完全消失;在消退过程中,水舌的范围缩小,遥感反射率下降,水舌轴线方向基本保持不变。结合相关资料对该过程的生消机理进行初步分析认为,在水舌扩展过程中,潮流的主要作用是阻碍沿岸水沿岸线方向运动,持续而强劲的南风对水舌的产生和伸展起重要作用,而东风则促使水舌消退。 相似文献
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海浪双峰方向分布的一种物理解释 总被引:3,自引:0,他引:3
用 18个波高计组成的直径为 40cm的圆形阵列在大型风浪槽内系统地测量了风浪和涌浪方向谱。用两种分辨力较高的方向谱估计方法最大似然法(MLM)和贝叶斯方法(BDM)分析的结果表明:风浪高频域出现的依赖于估计方法的双峰方向分布是一种物理假象;在较成长的涌浪低频域,得到跟传播方向对称、两峰间隔大约60°-90°非常规则的双峰方向分布,它跟频率和涌浪的成长状态有关,而跟估计方法无关,这种现象可以用非线性波-波相互作用过弱,在不同方向之间不能有效传递能量来解释。 相似文献
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Results of estimating the directional wave fields in front of a detached breakwater are presented here in this paper. Two of non-phase-locked methods, i.e., the Maximum Likelihood Method (MLM) and the Extended Maximum Entropy Principle Method (EMEP), were adopted for the purpose. In general, the latter outperforms the former. It is shown that the reflection coefficients decrease with increasing distances away from the detached breakwater, and within four wavelengths from the detached breakwater, the rate of the decrease is faster for wave fields having larger directional spreads. When the measuring distance is more than four wavelengths away from the detached breakwaters, the reflection coefficients tend to reach to a constant value. It is shown that, with the use of the non-phase-locked EMEP method, the effective region can be extended, as compared with the results of Huntley and Davidson [J. Waterw. Port Coast. Ocean Eng. 124 (1998) 312]. 相似文献
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In the nearshore,the wave field contains reflected and incident waves in which there iscorrelation between their phases due to the effect of reflection by some obstacles.Based on the extendedeigenvector method(EEV)derived by Guan et al.,a modified method(MEEV)is proposed as a generaland practical approach to estimating directional spectra for the co-existent field of incident and reflectedwaves and a formula is given for direct calculation of the reflection coefficient.The results of numericalsimulations show that MEEV is superior to EEV in resolution power,and the computed reflectioncoefficient agrees well with the real value within a certain range of incident angle. 相似文献
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This work discusses developments related to the generation and measurement of directional wave spectra in multi-directional wave tank using deterministic waves. The details of the generation method, based on the single summation method described by Jefferys (1987), are given and the capacity of the Edinburgh curved wave tank to generate such waves is assessed. The Maximum Likelihood Method (MLM) and one of its derivative, The Modified Maximum Likelihood Method (MMLM) (Isobe and Kondo, 1985), are adapted to the characteristics of deterministic waves. The methods are assessed both with simulated waves and real wave elevations from the Edinburgh curved tank. Both methods show very satisfactory results with very stable angular spreading estimates and good tracking of mean directions of propagation across frequencies. The adapted MLM compares favourably with the industry standard, the Bayesian Directional Method, while only taking a fraction of the time needed to the BDM to produce its spectral estimates. 相似文献
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Frequency-dependent cross-spectral parameters for pitch-roll buoy data and parameters that describe directional wave spectra based on a directional Fourier series are developed by the National Data Buoy Center (NDBC) and other organizations that collect wave data. The World Meteorological Organization (WMO) specifies wave data product formats in its Wave Observation (FM 65 WAVEOB) code. Other organizations, such as the US Army Corps of Engineers Field Wave Gaging Program (FWGP), have similar specifications. A directional Fourier series has poor directional resolution compared with advanced methods such as those based on maximum likelihood and maximum entropy. Transformations are developed for applying the advanced methods and working with directional wave information stored in the WMO's FM 65 WAVEOB code, the FWGP's Wave Data Analysis Standard (WDAS) format, and similar codes and formats. Using the transformations, a directional Fourier series expansion method, a Maximum Likelihood Method (MLM), and a Maximum Entropy Method (MEM) are each applied to 115 sets of NDBC directional wave data. The MEM and MLM provide better directional resolution, but the MEM produces artificial double peaks. There are considerable differences for the three used methods. The developed transformation equations enable wave data users to apply the method that best suits their applications. 相似文献
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Okey Nwogu 《Applied Ocean Research》1989,11(4):176-182
A procedure for estimating directional wave spectra from an array of wave probes based on the Maximum Entropy Method (MEM) is developed in the present paper. The MEM approach yields an angular spreading function at each frequency band consistent with the input cross-spectral density matrix. The method is evaluated using numerical simulations of directional sea states. The MEM is also used to analyze data obtained from the three-dimensional wave basin of the Hydraulics Laboratory, National Research Council of Canada. Finally, the MEM is compared with the Maximum Likelihood Method (MLM) and is shown to be a powerful tool for directional wave analysis. 相似文献