First-principles derivation of reactive transport modeling parameters for particle tracking and PDE approaches

Both Eulerian and Lagrangian reactive transport simulations in natural media require selection of a parameter that controls the “promiscuity” of the reacting particles. In Eulerian models, measurement of this parameter may be difficult because its value will generally differ between natural (diffusion-limited) systems and batch experiments, even though both are modeled by reaction terms of the same form. And in Lagrangian models, there previously has been no a priori way to compute this parameter. In both cases, then, selection is typically done by calibration, or ad hoc. This paper addresses the parameter selection problem for Fickian transport by deriving, from first principles and D (the diffusion constant) the reaction-rate-controlling parameters for particle tracking (PT) codes and for the diffusion–reaction equation (DRE). Using continuous time random walk analysis, exact reaction probabilities are derived for pairs of potentially reactive particles based on D and their probability of reaction provided that they collocate. Simultaneously, a second PT scheme directly employing collocation probabilities is derived. One-to-one correspondence between each of D, the reaction radius specified for a PT scheme, and the DRE decay constant are then developed. These results serve to ground reactive transport simulations in their underlying thermodynamics, and are confirmed by simulations.     

GPS基线快速计算与跟踪方法探讨

为减少中国地壳运动观测网络提供的GPS最终解的滞后时间,及时跟踪地壳形变的动态,利用提取的GPS长期运动背景外推GPS每日最终解;同时以松弛解H文件中的协方差矩阵为约束条件,对松弛解H文件中的坐标进行7参数转换,得到ITRF2000框架下的GPS当日坐标;用外推的GPS当日解、GPS最终解和H文件分别计算基线长,并对结果进行比较,然后,为了从大量的基线中找出变化幅度较大的基线,利用经验正交函数分析（EOF）方法对活动地块内基线的空间特征进行分析,实现对GPS基线的动态跟踪与监视。     

地震电磁卫星精密定轨方法研究

高精度卫星轨道是提高卫星应用水平的基础,卫星精密定轨方法主要基于卫星轨道动力学理论．通过跟踪卫星轨迹的测轨技术,将几何和动力学信息进行融合。地震电磁卫星拟采用星载GPS和综合轨道求解方法进行精密定轨．并辅之以人卫激光测距,其定轨的精度可达厘米级。     

基于频率搬移的地震资料约束测井资料外推

于地震资料本身频带有限的特性,导致在利用地震资料作为约束条件进行测井资料外推时存在奇异性. 文中利用通信中常用的频率搬移技术,将频带有限的地震资料转化成一种频带拓宽的伪超分辨率资料来控制测井资料的外推,从而解决地震资料约束下的测井资料外推技术中的奇异性问题. 并利用同相轴自动追踪和时频分析技术,解决子波时变的问题,实现沿地层自适应地外推测井资料. 对实际资料的测井速度和反射系数外推结果表明, 此法具有较好的应用前景.     

浅谈海缆追踪系统及其应用

海底电缆的监测和维护已成为海洋工程勘察的一个重要组成部分,其精确跟踪定位更是世界性难题.文章首先对比分析了3种海缆追踪方法及相应的商业化系统,接着详细论述了有源系统TSS350国内首次对高压海缆的追踪应用效果.海缆追踪系统在国外小电流及断点电缆追踪上的成功应用已经证明了系统的性能;而国内湛江高压电缆实验高精度的路由追踪和埋深定位又为海缆追踪系统开辟了更广泛的应用空间.海缆追踪系统的原理、技术指标及其应用为国内海缆的监测和维护提供了解决办法,也为弥补国内研究空白提供了方法基础.     

基于软件接收机的BDS/MEMS IMU深组合导航性能分析

针对BDS/MEMS IMU深组合导航全物理实验难度较大的问题,提出一种基于软件接收机的BDS/MEMS深组合导航系统仿真分析方法。给出BDS软件接收机结构,介绍深组合导航系统结构设计及滤波算法,最后基于仿真数据进行验证。结果表明,在高动态条件下,就BDS/MEMS IMU导航系统而言,其深组合的导航精度较紧组合有较大提高,位置误差小于1 m,速度误差小于0.01 m/s。     

基于时域导频跟踪和频域插值的正交频分复用系统信道估计方法

针对下一代无线通信长期演进系统,提出了一种基于时域导频跟踪和频域迭代离散傅里叶变换插值的改进信道估计方法,首先利用导频符号进行信道估计,然后通过导频跟踪和迭代离散傅里叶变换插值获得时域和频域非导频位置的信道估计值。仿真结果表明,基于时域导频跟踪和频域迭代离散傅里叶变换插值的估计方法比传统的方法改善约2dB误比特率性能。     

雪龙船南北极考察走航图的制作

“雪龙船南北极考察走航图”是采用新编《系列世界地图》制作的成果。极地考察是一项全球性的重要的科学活动,雪龙船是我国目前唯一的极地科学考察破冰船,表现雪龙船极地科学考察航行路线的走航图,将成为我国南北极考察活动与社会公众沟通的新形式和重要媒介之一。     

The importance of spatial nested data in understanding the relationship between visitor use and landscape impacts

As managers and researchers of protected natural areas continue to seek balance in promoting visitor use but limiting negative experiential and natural resource impacts, the integration of social and physical spatial data may play a critical role in understanding how visitors and the community interface with the landscape within these protected areas. These spatial considerations are important for inventorying, monitoring, and managing the conditions of natural resources within parks. Specifically related to the visitor impacts of natural resources in parks are the use and condition of multiple-use trails. Technology such as GPS and GIS may allow for a unique assessment of the relationship between factors that influence this resource. This paper focuses on how visitor use distribution (measured through GPS tracking), activity type, and trail design influence the impacts to trail conditions. This paper also addresses statistical concerns related to spatial dependency. Results suggest that failure to account for spatial dependency can lead to erroneous Type I findings. Additionally, activity type (specifically horseback riders) and trail design were found to best predict trail impacts when controlling for spatial dependency.     

Comparison of adaptive structural damage identification techniques in nonlinear hysteretic vibration isolation systems

Early structural damage identification to obtain an accurate condition assessment can assist in the reprioritization of structural retrofitting schedules in order to guarantee structural safety. Nowadays, seismic isolation technology has been applied in a wide variety of infrastructure, such as buildings, bridges, etc., and the health conditions of these nonlinear hysteretic vibration isolation systems have received considerable attention. To effectively detect structural damage in vibration isolation systems based on vibration data, three time-domain analysis techniques, referred to as the adaptive extended Kalman filter （AEKF）, adaptive sequential nonlinear least-square estimation （ASNLSE） and adaptive quadratic sum-sqnares error （AQSSE）, have been investigated. In this research, these analysis techniques are compared in terms of accuracy, convergence and efficiency, for structural damage detection using experimental data obtained through a series of laboratory tests based on a base-isolated structural model subjected to E1 Centro and Kobe earthquake excitations. The capability of the AEKF, ASNLSE and AQSSE approaches in tracking structural damage is demonstrated and compared.