声学技术
聲學技術
성학기술
Technical Acousitics
2014年
4期
292-298
,共7页
反演%二维浅海声层析%波恩近似%声速剖面%经验正交函数
反縯%二維淺海聲層析%波恩近似%聲速剖麵%經驗正交函數
반연%이유천해성층석%파은근사%성속부면%경험정교함수
inversion%two-dimensional shallow ocean tomography%Born Approximation%Sound Speed Profile (SSP)%Empirical Orthogonal Function(EOF)
目前的海洋声层析方法主要针对深海环境或水平不变浅海环境,对于水平剧变的二维浅海声层析问题仍未提出实用有效的方法。提出一种二维浅海声层析方法并讨论其理论可行性。其主要的思路是将一个水平变化的浅海环境等效为一个水平不变的背景环境叠加微弱的扰动,由波动方程推导出声速扰动与格林函数扰动之间的关系式,引用波恩近似解决两者之间的非线性问题,将反演过程简化为线性方程组的求解过程;后期针对该方法的局限性做进一步改进,包括引入迭代思路及使用一定的先验知识并提取经验正交函数(Empirical Orthogonal Function, EOF)。数值仿真实验说明该方法对局部的小幅度扰动甚至是孤立子内波的反演结果都具有较高的分辨率,初步验证了该方法的理论可行性。
目前的海洋聲層析方法主要針對深海環境或水平不變淺海環境,對于水平劇變的二維淺海聲層析問題仍未提齣實用有效的方法。提齣一種二維淺海聲層析方法併討論其理論可行性。其主要的思路是將一箇水平變化的淺海環境等效為一箇水平不變的揹景環境疊加微弱的擾動,由波動方程推導齣聲速擾動與格林函數擾動之間的關繫式,引用波恩近似解決兩者之間的非線性問題,將反縯過程簡化為線性方程組的求解過程;後期針對該方法的跼限性做進一步改進,包括引入迭代思路及使用一定的先驗知識併提取經驗正交函數(Empirical Orthogonal Function, EOF)。數值倣真實驗說明該方法對跼部的小幅度擾動甚至是孤立子內波的反縯結果都具有較高的分辨率,初步驗證瞭該方法的理論可行性。
목전적해양성층석방법주요침대심해배경혹수평불변천해배경,대우수평극변적이유천해성층석문제잉미제출실용유효적방법。제출일충이유천해성층석방법병토론기이론가행성。기주요적사로시장일개수평변화적천해배경등효위일개수평불변적배경배경첩가미약적우동,유파동방정추도출성속우동여격림함수우동지간적관계식,인용파은근사해결량자지간적비선성문제,장반연과정간화위선성방정조적구해과정;후기침대해방법적국한성주진일보개진,포괄인입질대사로급사용일정적선험지식병제취경험정교함수(Empirical Orthogonal Function, EOF)。수치방진실험설명해방법대국부적소폭도우동심지시고립자내파적반연결과도구유교고적분변솔,초보험증료해방법적이론가행성。
Currently most of developed ocean tomography methods aim to solve the inversion problem in Deep Ocean or the range-independent shallow water. There is still a lack of practicable methods for the strong range-dependent ocean tomography. In this paper, a two-dimensional shallow ocean acoustic tomography method is developed and the theoretic feasibility discussed. The main idea is: a range-dependent environment can be regarded as a range-independent environment with disturbance, and then the convertible formula between the sound speed profile (SSP) disturbance and Green function disturbance can be deduced from the wave equation. The nonlinear problem is solved by Born approximation so that inversion problem is transformed to a solving process of linear equations. Then the iterative way or EOF by means of observation data is introduced to improve the availability of the proposed me-thod. Numerical simulations show that the method is capable of inverting the small amplitude disturbance of the SSP, even like soliton, with reasonable precision, and the results indicate the preliminary validation of the proposed method.