环境扰动约束下的稀疏贝叶斯定位方法

针对匹配场被动定位技术对海洋环境扰动敏感的问题,提出了一种基于稀疏贝叶斯学习的稳健匹配场处理方法。该方法通过分析环境扰动情况下的声场构成,建立了海洋环境扰动模型,同时结合水下定位问题的稀疏性,将匹配场被动定位问题表述为稀疏信号重构问题。然后,使用稀疏贝叶斯学习方法迭代更新目标位置及模型失配权向量,收敛至最优稀疏解作为目标定位结果。最后使用仿真数据和北厄尔巴岛的海试数据对算法进行了验证,仿真和实验结果表明:该算法在海洋环境模型失配情况下也能够准确定位,且能分辨水平间距为100 m的两个目标。因此,基于稀疏贝叶斯学习的稳健匹配场处理方法能够有效利用海洋环境扰动声场结构和水下定位稀疏特性,以增强匹配场处理的稳健性和定位精度,并且具有应对多源定位问题的能力。      

基于长焦距、大口径反射式光学系统成像的工艺技术研究

文中以焦距4 000 mm、口径Φ400 mm的反射式平行光管精密调试、检测工艺方法为研究对象。作为某光学系统的检测与标定基准, 该平行光管在成像质量、分辨率、出射光束平行性等关键指标都有极高的要求,重点从主镜微应力粘接、主次镜光学间隔精确调节、主次镜光轴一致性调节和分划板位置精确标定等关键工艺环节入手进行了深入研究,并利用自准直法进行了精密调试、检测。最终得到的平行光管系统分辨率≤0.8″,出射光束平行差≤3″,星点能量集中,无明显像差,十字分划板竖刻线与安装基准铅垂,综合性能指标达到设计要求。     

利用声辐射模态重构任意目标的散射声场

水下目标散射声场的重构可以作为水下目标散射特性的研究基础。本文主要利用声辐射模态对水下目标进行散射声场重构研究。首先,在借助声传递矩阵给出的任意结构声辐射模态的流体域求解方法基础上,通过理论证明了目标的散射声压与声辐射模态具有函数关系。其次,借助声场分布模态的概念,同时考虑到声场分布模态病态及声压测量易受噪声污染,提出基于声辐射模态的正则化散射声场重构算法。仿真结果表明,波数越低,重构所需声辐射模态阶数越少,在较高波数时仅需总模态数的大约20%即可对声场进行重构。与基于边界元的声场重构算法相比,计算量减小了至少80%,且克服了赫姆霍兹积分方程最小二乘法仅对球壳结构的重构效果较好而不适用于长条形结构重构的缺陷。     

Gaussian solitons in nonlocal media: variational analysis

Exact solutions of Gaussian solitons in nonlinear media with a Gaussian nonlocal response are obtained. Using the variational approach, we obtain the approximate solutions of such solitons when the degree of the nonlocality is arbitrary. Specifically, we study the conditions for Gaussian solitons that propagate in weakly and highly nonlocal media. We also compare the variational result with the known exact solutions for weakly and highly nonlocal media.     

载流子影响下铁磁膜中静磁孤子的存在性分析

铁磁膜近邻存在半导体载流子的影响下,静磁表面波在一定频率范围内与外加恒磁场相垂直的传播方向上能演化成静磁孤子,而且静磁表面波群速在一定频率范围会改变运动方向成为反向波,其大小受载流子浓度的影响 关键词： 静磁孤子 载流子 铁磁膜 静磁表面波     

具可变时滞和分布时滞的细胞神经网络的2~N具权重伪概周期解问题(英文)

本文讨论一类具可变时滞和分布时滞的细胞神经网络的2 N具权重伪概周期解的存在性和多重性.通过对系统功能函数和参数给出一些新的假设,把细胞神经网络的不变盆分成2 N个紧凸子集.证明过程说明在每一个紧凸子集内至少存在该系统的一个具权重伪概周期解.最后给出一个例子说明所得结果的可行性.     

Near equilibrium dynamics and one-dimensional spatial–temporal structures of polar active liquid crystals

We systematically explore near equilibrium, flow-driven, and flow-activity coupled dynamics of polar active liquid crystals using a continuum model. Firstly, we re-derive the hydrodynamic model to ensure the thermodynamic laws are obeyed and elastic stresses and forces are consistently accounted. We then carry out a linear stability analysis about constant steady states to study near equilibrium dynamics around the steady states, revealing long-wave instability inherent in this model system and how active parameters in the model affect the instability. We then study model predictions for onedimensional(1D) spatial–temporal structures of active liquid crystals in a channel subject to physical boundary conditions.We discuss the model prediction in two selected regimes, one is the viscous stress dominated regime, also known as the flow-driven regime, while the other is the full regime, in which all active mechanisms are included. In the viscous stress dominated regime, the polarity vector is driven by the prescribed flow field. Dynamics depend sensitively on the physical boundary condition and the type of the driven flow field. Bulk-dominated temporal periodic states and spatially homogeneous states are possible under weak anchoring conditions while spatially inhomogeneous states exist under strong anchoring conditions. In the full model, flow-orientation interaction generates a host of planar as well as out-of-plane spatial–temporal structures related to the spontaneous flows due to the molecular self-propelled motion. These results provide contact with the recent literature on active nematic suspensions. In addition, symmetry breaking patterns emerge as the additional active viscous stress due to the polarity vector is included in the force balance. The inertia effect is found to limit the long-time survival of spatial structures to those with small wave numbers, i.e., an asymptotic coarsening to long wave structures. A rich set of mechanisms for generating and limiting the flow structures as well as the spatial–temporal structures predicted by the model are displayed.     

时空非相干光孤子的传播和相干特性

研究了时空非相干椭圆形高斯光束在饱和对数型非线性介质中的自陷行为，得到了孤子的形成条件并分析了其相干特性，讨论了光束自陷的变化形式，发现光束的初态和材料非线性对其有决定性的影响, 并进一步获得了光束半径和光束相干半径的解析表达式，发现光束的相干特性不但会随传播距离产生周期性的变化，且随组份频率的增大而减弱.     

聚乙烯醇/聚乙烯吡咯烷酮/碘复合水凝胶的制备与性能

采用低温冷冻的方法, 通过改变聚乙烯醇(PVA)和聚乙烯吡咯烷酮碘络合物(PVP-I)的配比、 冷冻时间、 冷冻-解冻循环次数, 制备出一种可调控力学性能的PVA/PVP-I复合水凝胶. 研究了该复合水凝胶的机械 性能、 微观结构、 碘缓释性能和抑菌性质. 研究结果表明, PVA/PVP-I复合水凝胶可调控的力学性质可以满足伤口敷料对水凝胶力学性质的需求; 复合水凝胶的网络结构可以有效降低碘在紫外线下的分解速度, 实现对碘的稳定保护作用及控制释放, 从而发挥水凝胶持续抑菌性能, 为抑菌水凝胶的设计制备提供了新思路.