导航雷达近海回波图像丢帧内插技术研究     

陈壮杰  宋占杰  高成志  齐占辉  张锁平 《海洋技术学报》2011,30(1):68-71

研究了在连续的X波段导航雷达图像序列中丢失一帧图像状态下的一种快速修复算法.该算法主要采用基于运动估计与运动补偿的视频序列修复技术进行插帧修复.具体步骤是根据雷达图像中像素点的运动特点,采用改进的三步搜索算法并结合双向运动估计进行搜索,然后对矢量场进行后续处理,最后内插出重建帧.为了提高图像修复的精度,还引入了亚像素运...  相似文献   

管道终端及防沉板基础分析     

谭越  石云  刘明 《海洋地质译丛》2011,(3):93-96

管道终端（PLET）是水下生产系统的一个重要组成部分。管道终端的支撑结构与其防沉板基础为一体,具有结构简单、安装方便、重量轻等优点。以我国南海300m水深某油田环境条件作为设计基础,根据结构整体滑动的受力特点和具体的安装方式,考虑了底流的影响,利用SACS软件对在位和吊装两种工况进行了结构分析,确定了结构形式,选用了高强钢。对防沉板基础的承载力、沉降等情况进行了计算分析,结果表明,管道终端结构和防沉板基础满足力学性能和土质要求。  相似文献   

深水锚泊定位半潜式钻井平台性能数值与试验研究     

史琪琪  杨建民  肖龙飞 《海洋工程》2011,29(4):29-36

近年来,深水半潜平台已成为海洋工程领域研究的热点。分别通过模型试验和数值模拟的方法,对不同水深和浪向条件下作业的深水半潜平台的运动以及系泊系统的受力进行全面分析。在此基础上,进一步研究平台在深水作业时的运动和动力特性,以及水深和环境海况的变化对平台运动和系泊系统受力的影响规律。同时,对比完整系泊系统的情况,对一根系泊缆破断的极端状态下平台的特性开展研究,获得运动和系泊系统受力的变化规律。对比发现试验和数值的结果能较好地相互吻合,且均能满足相应的安全度要求,保证平台实际作业时的可靠性,为深水半潜平台设计中的安全极限计算提供一定的依据。  相似文献   

基于Quickbird影像的数字线划图数据更新          下载免费PDF全文

范志坚  付蓉 《海洋测绘》2011,31(2):72-75

伴随着我国国民经济建设的快速发展,有必要对现势性较差的1:1万数字线划图(DLG)数据进行更新.常用数据更新方法比较繁琐,成本比较高,制作的周期也较长.因此,对基于Quickbird影像对1:1万DLG数据更新的相关技术进行了探讨.  相似文献   

AIS专题统计分析应用系统研究          下载免费PDF全文

赵忠东  夏启兵 《海洋测绘》2011,31(3):54-57

AIS专题统计分析应用系统以AIS岸基网络系统提供的信息为基础,采用分级、分类、定制等多种技术手段,实现AIS船舶运行信息的有效管理和共享,为航海及其他海洋活动提供更加全面、及时、可靠和集成的综合信息服务,进一步发挥AIS系统信息的社会服务效能.文章描述了系统的实现目标、系统组成、功能模块设计及关键技术,并对系统应用前...  相似文献   

Structural style in a young flexure-induced oblique extensional system,north-western Bonaparte Basin,Australia     

《Journal of Structural Geology》2015

In the north-western Bonaparte Basin (North West Shelf of Australia) Neogene to Recent flexure-induced extension superimposed obliquely over the Mesozoic rift structures. Thus, the area offers a good opportunity to investigate the dynamics and architecture of oblique extension fault systems. Analysis of basin-scale 2D and 3D seismic data along the Vulcan sub-basin shows that Neogene deformation produced a new set of extensional, en échelon faults, at places accompanied by the reactivation of the Mesozoic faults. The pre-existing Mesozoic structures strongly control the distribution of the Neogene-Recent deformation, both at regional and local scales. Main controls on the Neogene-Recent fault style, density and segmentation/linkage include: (1) the orientation of the underlying Mesozoic structures, (2) the obliqueness of the younger extension relative to the rift-inherited faults, and (3) the proximity to the Timor Trough. Three types of vertical relationships have been observed between Mesozoic and Neogene-Recent faults. Hard linkages seems to develop when both fault systems trend parallel, therefore increasing risks for trap integrity. It is suggested that the orientation of maximum horizontal stress (S_Hmax) relative to the Mesozoic faults, forming hydrocarbon traps, is critical for their potential seal/leak behaviour. Stratigraphic growth across the faults indicates that main fault activity occurred during the Plio-Pleistocene, which corresponds to the timing of tectonic loading on Timor Island and the development of lithospheric flexure. Synchronism of normal faulting with flexural bending suggests that extensional deformation on the descending Australian margin accompanied the formation of the Timor Trough.  相似文献   

Polygonal deformation bands     

《Journal of Structural Geology》2015

We report for the first time the occurrence of polygonal faults in sandstone, which is compelling given that layer-bound polygonal fault systems have been observed so far only in fine-grained sediments such as clay and chalk. The polygonal faults are shear deformation bands that developed under shallow burial conditions via strain hardening in dm-wide zones. The edges of the polygons are 1–5 m long. The shear deformation bands are organized as conjugate faults along each edge of the polygon and form characteristic horst-like structures. The individual deformation bands have slip magnitudes ranging from a few mm to 1.5 cm; the cumulative average slip magnitude in a zone is up to 10 cm. The deformation bands heaves, in aggregate form, accommodate a small isotropic horizontal extension (strain <0.005). The individual shear deformation bands show abutting T-junctions, veering, curving, and merging where they mechanically interact. Crosscutting relationships are rare. The interactions of the deformation bands are similar to those of mode I opening fractures. The documented fault networks have important implications for evaluating the geometry of km-scale polygonal fault systems in the subsurface, top seal integrity, as well as constraining paleo-tectonic stress regimes.  相似文献   

Evidence of multi-stage faulting by clay mineral analysis: Example in a normal fault zone affecting arkosic sandstones (Annot sandstones)     

《Journal of Structural Geology》2015

Fault affecting silicoclastic sediments are commonly enriched in clay minerals. Clays are sensitive to fluid–rock interactions and deformation mechanisms; in this paper, they are used as proxy for fault activity and behavior. The present study focuses on clay mineral assemblages from the Point Vert normal fault zone located in the Annot sandstones, a Priabonian-Rupelian turbidite succession of the Alpine foredeep in SE France. In this area, the Annot sandstones were buried around 6–8 km below the front of Alpine nappes soon after their deposition and exhumed during the middle-late Miocene. The fault affects arkosic sandstone beds alternating with pelitic layers, and displays throw of about thirty meters. The fault core zone comprises intensely foliated sandstones bounding a corridor of gouge about 20 cm thick. The foliated sandstones display clay concentration along S–C structures characterized by dissolution of K-feldspar and their replacement by mica, associated with quartz pressure solution, intense microfracturation and quartz vein precipitation. The gouge is formed by a clayey matrix containing fragments of foliated sandstones and pelites. However, a detailed petrographical investigation suggests complex polyphase deformation processes. Optical and SEM observations show that the clay minerals fraction of all studied rocks (pelites and sandstones from the damage and core zones of the fault) is dominated by white micas and chlorite. These minerals have two different origins: detrital and newly-formed. Detrital micas are identified by their larger shape and their chemical composition with a lower Fe–Mg content than the newly-formed white micas. In the foliated sandstones, newly-formed white micas are concentrated along S–C structures or replace K-feldspar. Both types of newly formed micas display the same chemical composition confirmed microstructural observations suggesting that they formed in the same conditions. They have the following structural formulas: Na_0.05 K_0.86 (Al _1.77 Fe_0.08 Mg_0.15) (Si_3.22 Al_0.78) O₁₀ (OH)_2. They are enriched in Fe and Mg compared to the detrital micas. Newly-formed chlorites are associated with micas along the shear planes. According to microprobe analyses, they present the following structural formula: (Al_1,48 Fe_2,50 Mg_1,84) (Si_2,82 Al_1,18) O₁₀ (OH)₈. All these data suggest that these clay minerals are synkinematic and registered the fault activity. In the gouge samples, illite and chlorite are the major clay minerals; smectite is locally present in some samples.In the foliated sandstones, Kubler Index (KI) ((001) XRD peak width at half height) data and thermodynamic calculations from synkinematic chlorite chemistry suggest that the main fault deformation occurred under temperatures around 220 °C (diagenesis to anchizone boundary). KI measured on pelites and sandstones from the hanging and footwall, display similar values coherent with the maximal burial temperature of the Annot sandstones in this area. The gouge samples have a higher KI index, which could be explained by a reactivation of the fault at lower temperatures during the exhumation of the Annot sandstones formation.  相似文献   

Recent Activity of the Badu-Longwei Segment, Guguan-Xiangong Fault in Southern Liupanshan, Constrained by Rhythmic Sediment Lithology and Geomorphic Characteristics     

SHI Zhigang  YUAN Daoyang  HE Wengui  LIU Xingwang  WANG Jun 《《地质学报》英文版》2015,89(4):1165-1175

This study's objective was to investigate the Guguan-Xiangong Fault, which lies in the southern Liupanshan area, through satellite image interpretation and field observations. Guguan-Xiangong Fault is divided into five subsegments; among these, the Badu-Longwei segment has been the most recently active. The geomorphic features of the Badu-Longwei segment are clearly displayed, including multiple high fault scarps with fresh bedrock free faces. There is significant evidence for Holocene activity of the three fault sections, located in Renhuashu, Tianjiagou, and Xinjiecun respectively. The three sections feature distinct episodic deposition and fault scratches. Based on 14 Cdating and field observations on the three fault sections, two or more paleoearthquakes across the Badu-Longwei fault segment are ascertained, between 5874±116 and 5430±140 a BP, and after 2037±83 a BP respectively. The Badu-Longwei segment of the Guguan-Xiangong Fault is preliminarily extrapolated as the seismogenic structure of the 600 A.D. Qin-Long earthquake.  相似文献   

SKUA基岩三维地质建模   总被引：1，自引：0，他引：1  

陈文杰 《城市地质》2015,(2):72-78

以天津平原地区某个工区为例,介绍了三维地质模型建模的数据准备,SKUA建模的流程以及模型分析,共使用28条断层,6个地层的地质构造图,3条地质剖面构建了地质结构模型,表明SKUA建模是高效的和实用的。  相似文献