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31.
浅析高精度地图发展现状及关键技术 总被引:1,自引:0,他引:1
随着国家对智能汽车创新发展战略任务的推进,作为其关键保障技术的高精度地图在近几年已经成为测绘等多个领域的研究重点。针对当前高精度地图综述性理论研究相对缺乏的问题,本文从高精度地图数据结构、数据生产和功能应用3个方面,对高精度地图相关的主要研究内容及现状进行阐述和总结。从数据结构层面,高精度地图描述内容可划分为静态地图数据和动态地图数据,其中静态地图数据是当前制图的重点;考虑数据生产的层次性,分别对高精度地图的生产模式、生产流程和具体的技术方法进行了分析,认为专业部门指导结合众包是数据生产的基本特征;以自动驾驶中的匹配定位和导航规划为代表,总结了高精度地图在应用方面的关键技术。最后,对高精度地图未来发展的方向进行了展望。 相似文献
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南海神狐海域天然气水合物注热降压开采数值模拟研究 总被引:2,自引:0,他引:2
针对南海神狐海域天然气水合物成藏条件,利用pT+H软件和水平井技术对天然气水合物的注热和注热降压开采效果进行了模拟分析。重点讨论了注入热水温度为30、60、90℃时水合物饱和度以及CH4气体饱和度、CH4产气率、累积CH4产气量和产水量的变化规律,发现两种开采模式下水合物低饱和度分布范围随时间增长和温度升高而增大;CH4产气率在开采10 d内升高较快,之后逐渐减小。模拟结果表明:注热降压开采模式比单纯注热模式的效果有较大改善,而且温度对于提高CH4产气量效果不明显,但因为天然气水合物藏的低渗透性,神狐海域的天然气水合物的CH4产气量不大。研究结果可为南海神狐海域和类似地区天然气水合物开采提供参考。 相似文献
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泥火山的全球分布和研究进展 总被引:1,自引:0,他引:1
本文系统介绍了泥火山的全球分布特征、分类、成矿、成因特征和机制、生物地球化学和地质灾害。泥火山是盆地地层深部含水的泥质物在高压作用下喷出地表形成的锥状沉积体,主要发育在沉积速率较快和有横向挤压构造作用的盆地中。全球陆地有超过40个泥火山发育区,海底有超过20个泥火山发育区,每个发育区有几座到200多座泥火山不等,陆地和浅海区共有2000多个泥火山。各地泥火山有不同的喷发周期,喷发物也各有不同的形态、成分、来源和年龄。尽管泥火山的成因机制尚颇有争议,但较快的沉积速率和活动大陆边缘横向构造挤压作用无疑是两个最为关键的因素。由于泥火山对大地构造属性、油气勘探、生物地球化学、地质灾害和全球气候变化等问题的研究有着重要的意义,已逐渐成为地球科学一个新的研究热点。 相似文献
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Bacterioplankton productivity (BP) spatial variation was investigated in relation to potential resources, including primary productivity and dissolved organic matter, in the micro-tidal Neuse River–Pamlico Sound estuarine system, North Carolina, USA. Estuarine BP was predicted to correlate with the trophic gradient, decreasing along the salinity gradient in parallel with the decrease in organic matter and primary productivity. This prediction was tested over four years at spatial scales ranging from kilometers to meters along the riverine axis and with depth. The general pattern of BP across the salinity gradient was unimodal and matched the phytoplankton patterns in peak location and variability. Peak locations varied with discharge, especially in 2003 when above average discharge moved peaks downstream. Spatial coherence of BP with other variables was much less at short time scales. The effect of temperature, nutrients, and phytoplankton on BP varied by location, especially fresh versus brackish stations, although only temperature explained more than 20% of the BP variation. Depth variation of BP was as great as longitudinal variation and bottom samples were often higher than surface. BP was strongly correlated with particulate organic carbon at the pycnocline and bottom, highlighting the importance of particulate matter as a resource. Station-averaged BP and phytoplankton data corresponded well with two published meta-analyses, although the offset of the freshwater station suggested longitudinal differences in community composition or resource availability. 相似文献
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S.D. Archer K. SafiA. Hall D.G. CummingsM. Harvey 《Deep Sea Research Part II: Topical Studies in Oceanography》2011,58(6):839-850
The impact of in situ iron fertilisation on the production of particulate dimethylsulphoniopropionate (DMSPp) and its breakdown product dimethyl sulphide (DMS) was monitored during the SOLAS air-sea gas exchange experiment (SAGE). The experiment was conducted in the high nitrate, low chlorophyll (HNLC) waters of the sub-Antarctic Southern Ocean (46.7°S 172.5°E) to the south-east of New Zealand, during March-April, 2004. In addition to monitoring net changes in the standing stocks of DMSPp and DMS, a series of dilution experiments were used to determine the DMSPp production and consumption rates in relation to increased iron availability. In contrast to previous experiments in the Southern Ocean, DMS concentrations decreased over the course of the 15-d iron-fertilisation experiment, from an integrated volume-specific concentration in the mixed layer on day 0 of 0.78 nM (measured values 0.65-0.91 nM) to 0.46 nM (measured values 0.42-0.47 nM) by day 15, in parallel with the surrounding waters. DMSPp, chlorophyll a and the abundance of photosynthetic picoeukaryotes exhibited indiscernible or only moderate increases in response to the raised iron availability, despite an obvious physiological response by the phytoplankton. High specific growth rates of DMSPp, equivalent to 0.8-1.2 doublings d−1, occurred at the simulated 60% light level of the dilution experiments. Despite the high production rates, DMSPp accumulation was suppressed in part by microzooplankton grazers who consumed between 61% d−1 and 126% d−1 of the DMSPp production. Temporal trends in the rates of production and consumption illustrated a close coupling between the DMSP-producing phytoplankton and their microzooplankton grazers. Similar grazing and production rates were observed for the eukaryotic picophytoplankton that dominated the phytoplankton biomass, partial evidence that picoeukaryotes contributed a substantial proportion of the DMSP synthesis. These rates for DMSPp and picoeukaryotes were considerably higher than for chlorophyll a, indicating higher cycling rates of the DMSP-producing taxa than for the bulk phytoplankton community. When compared to the total phytoplankton community, there was no evidence of selection against the DMSP-containing phytoplankton by the microzooplankton grazers; the opposite appeared to be the case. SAGE demonstrated that increased iron availability in the HNLC waters of the Southern Ocean does not invariably lead to enhanced DMS sea-air flux. The potential suppression of DMSPp accumulation by grazers needs to be taken into account in future attempts to elevate DMS emission through in situ iron fertilisation and in understanding the hypothesised link between levels of Aeolian iron deposition in the Southern Ocean, DMS emission and global albedo. 相似文献