Development and prospects of initial alignment method for strap-down inertial navigation system北大核心CSCD

Initial alignment technology is directly related to the navigation accuracy and startup time of the strap-down inertial navigation system (SINS), and has always been regarded as a challenging focal point in the research field of inertial navigation. This paper makes a comprehensive survey of SINS initial alignment technology, briefly introduces the basic principles of initial alignment without latitude, coarse alignment with known latitude and precise alignment, and points out their advantages, disadvantages and applicable conditions. The research and effects of existing initial alignment error suppression techniques are then analyzed and discussed. Finally, according to the problems of existing initial alignment methods and the development requirements of the carrier, the future research direction of SINS initial alignment technology is predicted. © 2022 Journal of Clinical Hepatology. All rights reserved.     

Use of localized necking and fracture as a failure criterion in ship collision analysis

This study explores the use of localized necking for failure modeling in maritime crash analysis, using large shell elements. The assumption that the failure of a large shell element occurs simultaneously with the onset of localized necking is revisited. This study particularly investigates the numerical implementation of the localized necking condition and its implications on the results of ship collision analysis involving not only plate rupture but also various failure mechanisms such as the crushing and tearing of web girders, stringers, and their intersections. Through a series of large-scale collision simulations, the effects of bending deformation on the initiation of necking, non-proportional loading paths, and ductile fractures not preceded by localized necking, are investigated. It is demonstrated that a localized necking-based fracture model provides a reasonable, relatively mesh-insensitive estimate of the onset of fracture in the outer hull panels; however, fracture propagation is very sensitive to the numerical implementation of the necking and fracture model, especially for the cases involving the crushing of web frames and stringers.     

含有非线性电阻的动态电路唯一稳态的范数判定方法

以矩阵范数为工具，得到了确定含有非线性电阻的动态电路唯一稳态的条件，并给出了一个算例，其结果与理论分析吻合．本文的结果表明，含有非线性电阻的动态电路的唯一稳态．可以用矩阵范数决定．而且这个方法可以应用于任意阶的非线性电路．判据适用范围更广，结果便于应用，在理论与实用两个方面，都有重要意义．     

浅谈构筑物错位纠偏在工程中的应用

分析工程错位事故发生的原因和处理错位事故的方法(错位纠偏),并提出具体的处理措施。     

腹地经济发展对港口吞吐量影响的动态研究

腹地经济规模和经济结构的变化影响着港口的发展方向，但是一般的静态回归模型中解释变量参数是固定的，无法反应腹地各种影响因素变化对港口吞吐量产生的动态影响，而变参数状态空间模型克服了这一缺陷，解释变量的参数可以随时间改变，充分体现了解释变量对因变量影响关系的改变，因此能够更加准确反映考察期内腹地各种因素对港口吞吐量的动态影响。在介绍模型的基础上，就东北经济对大连港集装箱吞吐量影响进行了实证研究，得出了较为详尽的结论，这些结论是港口未来发展的重要决策依据。     

用称重传感器实现倾角虚拟测量

将虚拟测量技术应用于平台倾角的测量,提出了用称重传感器测量倾角的设想,并通过实验加以验证,发现该方法存在一定的测量误差,但误差分布规律性较强,应用误差补偿方法以减小实际测量误差。经过补偿,使称重传感器测量倾角的实际误差大大减小,最大相对误差为0.375%F.S.,最大绝对误差为0.1687°,达到了较高的测量精度,完全可以满足工程实际倾角测量的精度要求。     

船舶浮态计算方法及船舶浮态图谱

本文用化非线性问题为线性问题的线性化方法,对非线性隐式的船舶浮态方程组进行了数值解,并在深入研究的基础上提出了两种形式浮态图谱,以便能迅速而准确地确定船舶各种不同装载情况下的浮态。本文给出了五万吨油轮“西湖”号算例。     

基于曲波变换的高铁绝缘子状态检测方法

针对高铁接触网绝缘子破损的不良状态图像检测问题,提出一种利用曲波变换的绝缘子不良状态定位检测方法。先通过Radon变换实现绝缘子角度的确定,接着运用曲波变换对系数矩阵进行统计处理,最后实现绝缘子的角度调整、定位和破损情况判断。该方法能够精确定位绝缘子,并给出不良状态的判断,可以为工程应用提供技术参考。     

工程平面控制网置平平差的方法研究

提出一种将秩亏自由网平差和三参数坐标转换相结合的平面控制网平差方法,其特点是在平差过程中控制网整体网形不因上级控制点点位的改变而变化。首先介绍秩亏自由网平差及其精度评定的原理,推导进行控制网三参数坐标转换及对置平后的控制网进行精度评定的数学模型。仿真计算结果证明了对传统边角控制网而言,置平平差较约束平差具有更强的抗原始数据误差的能力,是一种工程平面控制网平差的新方法。