... 能散探测器 energy-dispersive detector 声能散射 acoustic scattering 增能散射 upscattering ...
基于4个网页-相关网页
Acoustic Scattering Coefficient 声散射系数
acoustic scattering layer 声散射层
inverse acoustic scattering 反散射
acoustic scattering properties 声散射特性
Inverse acoustic scattering problem 声波散射反问题
multiple acoustic scattering problem 多区域声波散射
inverse acoustic scattering problems 逆散射问题
Abstract: As we all know, the near field of underwater target acoustic scattering has time-space distribution. Its characteristics can be illustrated by the target time (equivalent to position)-aspect 2dimensional highlight distribution.
众所周知,水中目标声散射近场具有时-空分布特性,它的特性可用目标的时间(即距离)-方位二维亮点分布来描述。
参考来源 - 水中目标二维亮点分布研究Based on the data of SongHua Lake experiment,analyse the bubble-shell's acoustic scattering intensity and insertion loss,the connection of the sound wave frequency,the sound wave irradiation area and the density of bubble screen.
依据松花湖气幕弹实验数据分析了气幕弹的声散射强度和插入损失,即气幕弹的声散射强度和插入损失与入射声波频率、声波照射面积和气幕密度之间的依赖关系。
参考来源 - 气幕弹的声学特性及其使用效果分析·2,447,543篇论文数据,部分数据来源于NoteExpress
The inverse acoustic scattering problem is a typical inverse problem.
声波反散射问题是个典型的数学物理反问题。
Transient acoustic scattering contains rich information about objects.
瞬态声散射信号包含有较丰富的目标信息。
Previous research on acoustic scattering was generally on the premise that the incident waves were plane waves.
声散射问题的研究一般建立在入射波为平面波的基础上。
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