ARTIFICIAL NEURAL NETWORK CORRECTION OF ROUGH ERRORS OF OBSERVATIONS

In the context of tower measured radiation datasets.following the correction principle meetinga diagnostic equation in data quality control and in terms of a technique for model construction ondata and ANN(artificial neural network)retrieval for BP correction of radiation measurementswith rough errors available,a BP model is presented.Evidence suggests that the developed modelworks well and is superior to a convenient multivariate linear regression model,indicating its wideapplications.     

大坂山公路隧道工程地质特征

大坂山公路隧道位于青海省西宁市—甘肃省张掖市公路(即227国道),自南向北穿越大坂山主峰。隧道轴线长约1.538km,轴线走向29°,系国内海拔最高的公路隧道。由于隧道址区所处的特殊地形地质背景条件,必须查明一些特殊的隧道工程地质问题。经工程地质勘探查明了:一、大坂山址区不存在多年冻土,仅发育季节冻土,对隧道工程危害不大;二、隧道围岩类型分为四类、11段,其中稳定性好的Ⅴ类围岩占隧道全长51％,Ⅳ类围岩占15％,Ⅲ类围岩占2％,稳定性差的Ⅱ类围岩占32％;三、隧道址区地壳稳定程度属次不稳定级,为6.5级地震潜在震源区,在五十年地震活动强度超越概率0.1的条件下,相应地震烈度值为7.8度;四、隧道址区位于分水岭地带,水文地质条件简单,大气降水和地表水不易补给地下水,预测隧道总涌水量仅668m~3/d。     

Establishment of digital model for dynamic simulation analysis on hydraulic impact perforator

Hydraulic impact perforator is powerful tools for trenchless project. It has advantages in cabinet structure, low cost, long life and easy protected. Compared with pneumatic DTH, the hydraulic impact spear worked under high pressure and using uncompressible fluid thusgreater impact energy and higher efficiency can be supported. The authors founded the dynamic simulation model of HDI-146 hydraulic impact spear. The project for solving the differential equation was suggested also. By means of virtual machine technology, the dynamic mechanism of HDI-146 can be explored and tutoring us to optimize the structural parameters can be made.     

二维地质体的瞬变电磁场响应特征

直接从时间域出发 ,应用时域有限差分方法 (FDTD)分析地下和地面的瞬变响应。由于二维情况便于图形表示 ,采取了线源二维地电模型。通过对二层均匀地电结构和含二维低阻体时地面垂直感生电动势曲线的计算 ,说明瞬变场响应有滞后现象 ,即异常地质体一旦引起瞬变响应 ,就会往后延时 ,并使响应延续较长时间。在实际的工程勘察中 ,曾用 3～ 5ms以后的延迟时间探测过较浅的异常体 ,如 2 0m至 150m深度范围内的地下老窑采空区 ,并取得了较好的探测效果 ,上述数字模拟结果为以往的实践提供了理论依据     

悼念王仁院士

我国著名的力学家、地球动力学家和力学教育家、中国科学院院士、北京大学力学与工程科学系暨地球物理系教授、中国共产党党员王仁先生因病医治无效 ,不幸于 2 0 0 1年 4月 8日 10时 48分在北京协和医院逝世 ,享年 80岁。王仁先生 192 1年 1月 2日出生于浙江省吴兴县。 1943年毕业于西南联大航空工程系并获得工学学士学位。 1944年春到贵阳飞机制造厂做设计员工作。 1945年抗战胜利后被派到台湾参加对日军修理厂的接收工作 ,在台中市第三飞机制造厂任工程师。 1948～ 195 0年在美国西雅图华盛顿大学航空工程系继续深造 ,于19 5 0年获理学硕…     

SELECTION OF SUITABLE METHODS FOR TERRAIN MODELLING FOR RIVER ENGINEERING

LINTRODUCTIONTerrainmodellingisatermtodescribetheprocessofrepresentingthesurfaceoftheEarth.Mathemahcally,theproblemcanbedescribedas;Givenasetofn(3sn相似文献   

膨胀混凝土在加固钻孔灌注桩中的应用

膨胀混凝土应用于钻孔灌注桩中，能够提高桩土效应、桩的承载力和混凝土强度，节约水泥用量。通过一工程实例证明，采用膨胀混凝土是解决钻孔灌注桩缺陷问题的一种有效途径。     

岩石破裂时电磁辐射的机理研究

本文提出了岩石破裂时的电磁辐射是裂纹尖端电荷随着裂纹加速扩展运动所产生的假说.应用断裂力学方法推导了岩石破裂时初始裂纹长度与裂纹扩展加速度的关系,并计算了其速度和加速度值.根据破裂岩石的电子发射理论,解释了裂纹尖端带电荷的现象.利用岩石在单轴压缩致裂过程中记录到的近场电磁辐射的实验结果,计算了裂纹扩展时裂纹尖端的电荷量和远场电磁辐射强度.通过对电磁辐射波谱分析的研究,得到岩石破裂时电磁辐射频率上限的估计值.最后对岩石破裂时出现的声光电磁现象在理论上作了统一的定性的解释.     

岩爆烈度分级问题

在指出前人岩爆烈度划分所存在主要问题的基础上,本文提出了岩爆烈度新的分级原则、依据,以及新的烈度分级;同时总结了岩爆防治的有关措施。     

The Solar Oscillations Investigation - Michelson Doppler Imager

The Solar Oscillations Investigation (SOI) uses the Michelson Doppler Imager (MDI) instrument to probe the interior of the Sun by measuring the photospheric manifestations of solar oscillations. Characteristics of the modes reveal the static and dynamic properties of the convection zone and core. Knowledge of these properties will improve our understanding of the solar cycle and of stellar evolution. Other photospheric observations will contribute to our knowledge of the solar magnetic field and surface motions. The investigation consists of coordinated efforts by several teams pursuing specific scientific objectives.The instrument images the Sun on a 1024² CCD camera through a series of increasingly narrow spectral filters. The final elements, a pair of tunable Michelson interferometers, enable MDI to record filtergrams with a FWHM bandwidth of 94 m. Normally 20 images centered at 5 wavelengths near the Ni I 6768 spectral line are recorded each minute. MDI calculates velocity and continuum intensity from the filtergrams with a resolution of 4 over the whole disk. An extensive calibration program has verified the end-to-end performance of the instrument.To provide continuous observations of the longest-lived modes that reveal the internal structure of the Sun, a carefully-selected set of spatial averages are computed and downlinked at all times. About half the time MDI will also be able to downlink complete velocity and intensity images each minute. This high rate telemetry (HRT) coverage is available for at least a continuous 60-day interval each year and for 8 hours each day during the rest of the year. During the 8-hour HRT intervals, 10 of the exposures each minute can be programmed for other observations, such as measurements in MDI's higher resolution (1.25) field centered about 160 north of the equator; meanwhile, the continuous structure program proceeds during the other half minute. Several times each day, polarizers will be inserted to measure the line-of-sight magnetic field.MDI operations will be scheduled well in advance and will vary only during the daily 8-hour campaigns. Quick-look and summary data, including magnetograms, will be processed immediately. Most high-rate data will be delivered only by mail to the SOI Science Support Center (SSSC) at Stanford, where a processing pipeline will produce 3 Terabytes of calibrated data products each year. These data products will be analyzed using the SSSC and the distributed resources of the co-investigators. The data will be available for collaborative investigations.The MDI Engineering Team leaders include: D. Akin, B. Carvalho, R. Chevalier, D. Duncan, C. Edwards, N. Katz, M. Levay, R. Lindgren, D. Mathur, S. Morrison, T. Pope, R. Rehse, and D. Torgerson.