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随着我国对外贸易的飞速发展,海上运输事业得到了长足性进展,各类海上事故频繁发生.海上搜寻救助作为海上生命安全的最后一道防线,已受到各级政府的高度重视.从当前我国海上搜救工作取得的成绩、面临的难题、与国外比较我国海上搜救存在的不足和加强国际交流、发展我国海上搜救工作的几点建议等方面对该问题进行了全面阐发. 相似文献
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随着我国"海洋强国"和"一带一路"战略的实施,海上活动日益频繁,海难事故风险持续增长,海上人员安全问题受到了越来越多的关注。本文以海上搜救区域的确定和搜寻方案的规划两个关键技术为切入点,综述了海上搜救辅助决策关键技术的发展过程和相应的研究成果。首先,针对海上遇险目标的运动特性,介绍了遇险目标漂移模型的发展,概述了漂移轨迹和搜救区域的计算方法;其次,分别对静止和运动目标的搜寻策略进行了回顾与归纳;最后,总结了上述技术在国内外的业务化应用情况,进而探讨了相关技术的未来发展方向。本文旨在为我国海上搜救应急保障体系的建设和重大海难事故应急反应能力的提高提供依据和参考。 相似文献
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为加强我国海洋管理尤其是海上突发事故应急处理,实现海上志愿服务的健康可持续发展,文章论述海上志愿者及其相关法律问题。研究结果表明:海上志愿者具有自愿性、无偿性和公益性,其身份可认定为非营利性组织中的个体或行政辅助人;我国海上志愿者的具体实践主要是海上搜救志愿者,在发挥重要作用的同时也存在组织管理等方面的问题,亟须以法律制度的形式,从完善国家海洋管理体制机制出发加以解决;对于海上志愿者的侵权责任,应充分考虑海上志愿服务的特殊性,以支持其发展为前提,根据现有法律体系,统一司法标准和机制,并加快专门立法。 相似文献
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利用中尺度气象模式WRF(Weather Research and Forecasting Model)、无结构网格近岸海洋模式FVCOM(Finite-Volume Coastal and Ocean Model)和基于蒙特卡洛随机统计理论的海上搜救目标漂移轨迹模式Leeway,建立了长江口及邻近海域海上搜救物漂移轨迹预测模型系统。漂移轨迹预测以风和表层海流预报为基础,考虑了包括落水位置和时间、风致漂移方向、搜救目标物状态的不确定性以及风场预报误差带来的漂移路径预测误差,经统计获得搜救目标物可能漂移集合范围。对近年来发生在长江口邻近海域的海难事故后报模拟验证结果证明了Leeway模式在长江口邻近海域的适用性,同时表明所建立的搜救模型系统具有较高的精度,操作方便、时效性高,在搜救业务化预报工作中具有广阔的应用前景。 相似文献
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文章根据海上搜救装备现状评估,界定远海深海搜救范围;围绕海上通道安全、海洋经济开发和海洋权益维护等要求,分析远海深海搜救面临的形势和需求;遵循战略引领、军民融合、整体布局和提质增效原则,确定远海深海搜救装备建设总体要求;基于卫星通信监控系统、中远程搜救飞机、大型搜救船舶、深海扫测打捞装备架构体系,制定远海深海搜救装备建设主要任务和保障措施。本文提出的思路已在"十三五"相关专项规划中得到体现和落实。 相似文献
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为了提高现有的海上搜救和绿潮漂移预测模型的预报精度,在2011年7月20日进行了一次落水人员、绿潮和无动力船漂移预测的海上试验。通过分析这三种海上漂移物运移轨迹的实验数据,确立了落水人员、绿潮、以及无动力船在海上漂移轨迹的主要影响因素。实验结果表明,落水人员和绿潮的漂移轨迹比较一致,基本都受限制于海流运动。其中,落水人员相较于绿潮来说受到潮流的作用比较大,风对绿潮的影响相比对落水人员的影响大。无动力船的漂移轨迹与落水人员和绿潮的漂移轨迹略有不同,受潮流往复作用较小。根据海上实验的结果,我们重新确立了搜救模型的中海流和风应力的参数,使得搜救模型的模拟结果更吻合于实验数据。 相似文献
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为优化海上搜救资源部署、提高救助成功率,结合层次分析法与模糊综合评价法,从海上搜救的自然环境、辖区信息和行动评估3个方面选取11个指标构建海上搜救困难度评价模型,在验证模型可靠性的基础上,首次对渤海海域开展二维搜救困难度评价和研究。使用成功率来表征搜救困难度并进行时空分布特征分析,成功率越低则困难度越高。结果表明:渤海海上搜救成功率全年分布趋势为海岸线周边海域相对较低,渤海中部海域相对较高。整体来看,夏季成功率远高于其他季节,春、秋季次之,冬季最低。冬季辽东湾及秦皇岛沿岸海域成功率为全年和全海域最低。对渤海沿岸港口海域及中部海域各选1个长期观测的站点开展年变化特征分析,发现同一地点的搜救成功率年变化主要受水温影响,证实了冬季是搜救困难度最高的季节。综上所述,冬季渤海沿岸海域,尤其是辽东湾及秦皇岛沿岸海域为高困难度搜救区,需要加大日常巡逻管理,改善搜救系统部署。 相似文献
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国际海上救援效率比较研究 ——以东海特定水域为例 总被引:1,自引:0,他引:1
为研究东海海域海上救援效率和国际协作的协调性,以国际救援为视角,基于ArcGIS构建了海事救援效率评价模型。根据巡逻船舶密度数据确定了救援船舶的概率分布,得出了救援船舶与遇险船舶的可能距离,同时考虑了风浪影响下遇险船舶的漂移以及巡逻船舶失速的情况,分别计算了常风向和次常风向下中国、日本和韩国在东海特定水域的海上救援效率。结果表明:以各国现有的巡逻船舶配备对研究区内漂移的遇险船舶展开救援时,常风向下先后抵达的顺序为韩国、日本和中国,驰援时间分别为5.14、8.18和9.67 h;次常风向下抵达的顺序为韩国、日本和中国,驰援时间分别为5.45、8.25和10.08 h;为提高我国的救援效率,需要在东海海域部署9~10艘巡逻船舶开展常态化巡逻。本文研究可为我国有关部门科学制定和完善海上救援方案,调整海上救援力量配备,进一步加强国际间的协调与合作提供参考。 相似文献
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The drift motion of a maritime distress target is the collective result of the balance of forces that comes from wind, currents and waves. The drift properties vary from one type of object to another. The objective of this paper is to explore the leeway drift characteristics of typical Chinese offshore fishing vessels as well as evaluate the leeway drift model. First, a series of field experiments were conducted in South China Sea to provide data source. Next, nine leeway coefficients in AP98 leeway model were derived by the least square fitting based on the experimental data. Furthermore, another drifting dynamics model based on a balance of forces on the drifting vessel due to wind and currents, was also calibrated for comparison. Finally, two cases of drift trajectory and searching areas were simulated by the two different models through Lagrangian particle tracking and Monte Carlo techniques. Results indicate that the AP98 leeway model is in better accordance with the observation compared with the drifting dynamics model. Additionally, the simulation accuracy of AP98 leeway model can be improved to some extent especially when the probability of positive crosswind (POPC) is considered. Considering the large number of the typical offshore fishing vessels in South China Sea, and their high accident rate, the model coefficients for this type of vessels are expected to be implemented into more search and rescue (SAR) models by SAR organizations. 相似文献
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Search and rescue (SAR) for both airborne and maritime vehicles has been an area of intense investigation for many years. Current techniques include employment of small distress transmitters which provide signals that have only a limited interception capability. This can considerably increase the search time and reduce its effectiveness. With the increased availability-existing and planned-of both synchronous and nonsynchronous satellites, SAR investigations are being directed toward the application of satellites. The present paper introduces the concept of satellite-based maritime search and rescue system (SAMSARS). This is a proposed pseudonoise (PN) wide-band spread spectrum system that would operate at low power levels and coexist with operational communication satellite systems (voice or data) without mutual interference. The use of existing operational satellite spectrum, instead of a dedicated distress channel or special satellites, is a major feature of SAMSARS. Other important aspects are its capability of providing unique identification and distress information in minutes following activation of the distress transmitter and its inherent immunity to false alarms. SAMSARS can also provide position location directly when three satellites are mutually visible or indirectly, by taking advantage of a vessel's on-board derived navigation data. This paper presents concept elements such as message structure, transmitter and receiver block diagrams, and unique features of SAMSARS. The paper also presents an operational example, including sample link power budgets, and finally specifies areas for further investigation. 相似文献
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On predicting boat drift for search and rescue 总被引:1,自引:0,他引:1
A theoretical model for predicting boat drift for search and rescue missions is presented in this work. The drift model is based on the law of physics which govern the motion of a floating body in a given wind and surface current field. In terms of the empirical aerodynamics force coefficients of the boat or any other drifting object, external wind field, and current field, the drift velocity of the boat being searched for can be obtained. The uncertainty of the characteristics of the boat’s drift is evaluated by interval analysis of the uncertainties of the characteristics of the drifting boat and external forcing fields. The search area expansion and the source of uncertainty are systematically evaluated. The current statistical model-based operational definitions of leeway drift, leeway rate, leeway angle, divergence angle, leeway divergence, downwind component of leeway, and crosswind component of leeway are clarified in light of the presented theoretical model. The divergence angle and leeway divergence are evaluated through the interval analysis of the uncertainty of the parameters involved. 相似文献
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为探讨海上搜救目标无动力渔船和落水人员在海水中的漂移规律,对现有海上搜救目标漂移轨迹预测模型进行评估与改进,国家海洋局南海海洋工程勘察中心于2011年2月和4月在广东近岸海域开展了3组模拟人和2组无动力船海上漂移试验。试验发现模拟人与无动力船大部分时刻的漂移轨迹位于下风向的右侧,80%以上的时刻漂移轨迹位于海流流向和下风向的矢量合成区间内。以漂移速度为应变量,流速和风速为自变量进行二元回归分析发现,广东海域的模拟人和无动力渔船的流致漂移参数约为1.0,风致漂移参数分别为0.019和0.038。 相似文献