面向分布式服务聚合的“天地图”总体技术架构

介绍了"天地图"面向分布式多节点协同服务的总体架构,以及"天地图"公共地理框架数据体系、在线服务系统、运行支持系统的内容,旨在为同类平台的研究与建设提供参考。     

青藏高原东缘地区隆升作用特征－低温年代学证据

通过对比研究青藏高原东缘若尔盖－泸定地区低温年代学样品(ZFT样31件、AFT样56件和 A(U­Th)/He 样37件)各参数(隆升年龄和隆升速率)特征表明,该地区中生代以来的抬升冷却过程具由北向南的递进隆升特征,南部丹巴弧形带与北部茂县弧形带产生了显著的隆升剥露“翘掀式”调整,北部弧形带隆升剥露较早、速率先快后慢,南部弧形带隆升剥露较晚、速率先慢后快; 且在早中新世研究区处于平静期,抬升剥露作用显著减缓。年龄及抬升冷却速率等值线垂向上浅部(70℃等温面)较深部(110℃等温面)弧形展布特征显著; 平面上总体向南具连续弧形变化趋势(年龄变新、隆升速率增大)。抬升冷却(剥露)特征显示出中央造山带和青藏高原的形成对该地区隆升过程的强烈影响,以及弧形构造格架对浅部地表抬升剥露的显著控制作用。     

松辽盆地大庆长垣中浅层断层形成演化的新模式

松辽盆地油气集中富集的中浅层断层十分发育,不同反射界面断层发育存在差异,前人认为是多期构造活动的结果。本文应用先存构造条件下断层作用模式,利用三维地震资料,对中浅层的断裂系统重新进行构造解析。结果表明,①松辽盆地大庆长垣中浅层断裂系统按照错断层位、断距、延伸长度、走向可划分为8个类型;②T_2、T_1、T_(06)反射层断层的平均走向分别为322°、320°和316°,断层平均走向从下往上存在逆时针旋转的变化趋势;③大庆长垣自中浅层形成以来,构造应力机制由泉头组—明水组沉积时期的伸展应力机制转变为明水组沉积末期的走滑应力机制,但构造应力场的主应力方向没有发生改变;④研究区复杂的断裂系统是在构造应力场主应力方向保持相对稳定的条件下、在递进变形过程中逐渐形成的。该断层形成演化的新模式更合理地揭示了松辽盆地中浅层断层发育规律和成因机制,对研究区进一步的勘探开发有指导意义。     

人工合成纳米材料在水环境中的聚沉行为研究进展

随着纳米科技的快速发展,纳米材料的种类和数量呈指数增长。人工纳米材料不可避免地进入水环境并发生复杂的环境行为,可能在水中分散悬浮,也可能发生团聚和沉降,从而影响其迁移、转化和归趋。本文综述了近年来有关人工合成纳米材料在水环境中聚沉行为的研究进展,分析了影响纳米材料团聚与沉降的两个主要因素:自身理化性质(材料形态、颗粒尺寸、化学组成、晶体结构、表面修饰等)和水环境要素(pH、离子种类和离子强度、天然有机质等)及相应的作用机理,剖析了当前研究中存在的问题,指出有关纳米材料与无机胶体等物质间的异团聚、各环境要素间的交互作用、以及纳米材料在接近自然环境的低浓度(<1mg/L)条件下的聚沉行为研究仍需进一步完善。     

多元聚合分类方案

取得对样品（或逆分析中的要素）的客观分类（型），对于提高天气预报的效果有着十分重要的意义，遗憾的是目前尚未见到能够获得合理分类结果的可行客观分类方法。本方案是以聚合为策略，以计算机为工具，通过逐次全面比较所给样本资料各种情况下的分类，试图在这方面进行的一项尝试，方案目前已取得下列成果:① 提供出一种新的分类思路和方法；② 分类客观且有较好的效果；③ 对小样本可确保取得合理分类。     

Strategies for Transforming Fine Scale Knowledge to Management Usability

Simulation tools used for management purposes should fulfill several conditions by being computationally fast, user-friendly, realistic, generic and reliable. These traits are often counteracting since they simultaneously demand for model complexity as well as simplicity. Here we develop a strategy to overcome this general problem of environmental modelling for management use. Major ingredients are model analysis and reduction as new core components of the modelling process. In detail, a set of combined methods is proposed. Within a large class of models the set allows for automatically exploring model behaviour and for aggregating fine scale process knowledge together with spatio temporal resolution. Applications to a huge aquatic European regional seas ecosystem model (ERSEM), a complex photosynthesis model (PGEN) as well as a simple diagenetic model are presented. The analysis and aggregation methods provide first steps towards a new generation of decision support tools able to cope with an increase in scientific knowledge as well as management demands.     

On‐line identification of non‐linear hysteretic structural systems using a variable trace approach

In this paper, an adaptive on‐line parametric identification algorithm based on the variable trace approach is presented for the identification of non‐linear hysteretic structures. At each time step, this recursive least‐square‐based algorithm upgrades the diagonal elements of the adaptation gain matrix by comparing the values of estimated parameters between two consecutive time steps. Such an approach will enforce a smooth convergence of the parameter values, a fast tracking of the parameter changes and will remain adaptive as time progresses. The effectiveness and efficiency of the proposed algorithm is shown by considering the effects of excitation amplitude, of the measurement units, of larger sampling time interval and of measurement noise. The cases of exact‐, under‐, over‐parameterization of the structural model have been analysed. The proposed algorithm is also quite effective in identifying time‐varying structural parameters to simulate cumulative damage in structural systems. Copyright © 2001 John Wiley & Sons, Ltd.     

Formation of high-grade ignimbrites Part II. A pyroclastic suspension current model with implications also for low-grade ignimbrites

 Analogue experiments in part I led to the conclusion that pyroclastic flows depositing very high-grade ignimbrite move as dilute suspension currents. In the thermo–fluid–dynamical model developed, the degree of cooling of expanded turbulent pyroclastic flows dynamically evolves in response to entrainment of air and mass loss to sedimentation. Initial conditions of the currents are derived from column-collapse modeling for magmas with an initial H₂O content of 1–3 wt.% erupting through circular vents and caldera ring-fissures. The flows spread either longitudinally or radially from source up to a runout distance that increases with higher mass flux but decreases with higher gas content, temperature, bottom slope and coarser initial grain size. Progressive dilution by entrainment and sedimentation causes pyroclastic currents to transform into buoyant ash plumes at the runout distance. The ash plumes reach stratospheric heights and distribute 30–80% of the erupted material as widespread co-ignimbrite ash. Pyroclastic suspension currents with initial mass fluxes of 10⁷-10¹² kg/s can spread for tens of kilometers with only limited cooling, although they move as supercritical, strongly entraining currents for the eruption conditions considered here. With increasing eruption mass flux, cooling during passage through the fountain diminishes while cooling during flow transport increases. The net effect is that eruption temperature exerts the prime control on emplacement temperature. Pyroclastic suspension currents can form welded ignimbrite across their entire extent if eruption temperature is T_o>1.3^.T_mw, the minimum welding temperature. High eruption rates, a large fraction of fine ash, and a ring-fissure vent favor the formation of extensive high-grade ignimbrite. For very hot eruptions producing sticky, partially molten pyroclasts, analysis of particle aggregation systematics shows that factors favoring longer runout also favor more efficient aggregation, which reduces runout. As a result, very high-grade ignimbrites cannot spread more than a few tens of kilometers from their source. In cooler pyroclastic currents, particles do not aggregate, and the sedimentation process may involve re-entrainment of particles, which potentially leads to more extensive cooling and longer runout; such effects, however, are only significant when net erosion of substrate occurs. Model results can be employed to estimate mass flux and duration of ignimbrite eruptions from measured ignimbrite masses and aspect ratios. The model also provides an alternative explanation of the observed decrease in H/Lratios with ignimbrite mass. Received: 10 May 1998 / Accepted: 21 October 1998     

等高线图形综合策略的研究

利用Arc/Info的功能研究了等高线图形综合方法,其一是通过地形结构线控制的渐进式等高线综合,其二是利用Douglas方法得到更抽象的TIN间接来完成等高线图形综合。