Wavenumber response of Shanghai Seismic array

Seismic array can be traced back to 1950s when it mainly aimed at detecting and distinguishing the signals of nuclear explosion and seismic signals. The research on seismic array includes seismic array techniques and applications of array in geophysics. Array techniques involve array design and data processing methods (Anne, 1990). Nowadays, the continuous development of seismic array￠s theory could relate to many scientific issues in geophysical field (Tormod, 1989; Mykkeltveit, Bungum, 1984). Seismic array is mainly applied to detect weak events. The response characteristic of array is an important indication of array￠s detection ability. Therefore, when we study an array or construct an array, one of the neces-sary works is to calculate the response characteristics of the array (Harjes, 1990). The aperture and layout of array are two dominating geometrical features. The typical aperture of interna-tional array is generally from several to tens kilometers. For instance, arrays with aperture of dozens kilometers aperture are KSA, WRA, YKA, etc, while arrays with several kilometer aperture are ARC, FIN, GEE, etc. Moreo-ver, in the view of array￠s layout, NOR, GER, etc have circle layout, while WRA, YKA, etc have decussating layout. This paper mainly discusses the relation between deployment of array and wavenumber response. With the example of constructing Shanghai Seismic Array, this paper provides one practical solution to search the proper array deployment. In this paper, the simple delay beam technique is adopted to calculate the response characteris-tics of array. Certainly, the different processing methods have different result, but the result from the simple delay beam processing could be enough to reflect the feature of an array.     

地震灾害快速评估的计算机方法和程序

文中介绍一种在微机上实现的地震灾害快速评估应用软件：ＤＩＳＥＶ，ＤＩＳＥＶ由地震输入系统，图形显示系统，灾害评估系统和数据输出系统等４部分组成，采用确定性的地震灾害评估方法，用Ｃ语言设计完成，ＤＩＳＥＶ操作简单，快速，对震后快速反应工作以及救灾工作有重要意义。     

Discussion on uncertainties，attenuation of ground motion and aseismic design criterion

Ｄｉｓｃｕｓｓｉｏｎｏｎｕｎｃｅｒｔａｉｎｔｉｅｓ，ａｔｔｅｎｕａｔｉｏｎｏｆｇｒｏｕｎｄ　ｍｏｔｉｏｎａｎｄａｓｅｉｓｍｉｃｄｅｓｉｇｎｃｒｉｔｅｒｉｏｎＴｉａｎ－ＺｈｏｎｇＺＨＡＮＧ（张天中）；Ｙｕｎ－ＳｈｅｎｇＭＡ（马云生）ａｎｄＸｉＳＨＵ（舒...     

The channel-geometry method: Guidelines and applications

All river engineering schemes require flood discharge estimates as part of the design and appraisal process. Unfortunately, continuous measurement of flood discharges is limited to those river sites with instrumented gauging stations, which constitute only a small proportion of channel reaches where information is required. Therefore, considerable research effort has been devoted to the development of reliable indirect techniques of flood discharge estimation. Research on the interrelationship of stream channel geometry and river discharge has provided the basis for an indirect method of flood estimation – the channel-geometry method – which employs river channel dimensions alone to estimate discharge characteristics at ungauged river sites. Channel-geometry equations are developed empirically by relating streamflow data from gauging stations and channel dimensions measured from natural river reaches in the vicinity of the gauge, and take the form of power function relations. Once regional channel-geometry equations have been defined, a channel width or channel capacity measurement is the only variable needed to estimate the flood flow characteristics at a specified river site. The method is useful as an alternative to traditional catchment-based approaches or as a rapid reconnaissance technique. In addition to the application for flood discharge prediction, channel-geometry equations could prove helpful in the management of river channels, first, by providing a basis for assessing local deviations in the channel form–discharge relation, deviations which could be employed as indicators of the sensitivity of particular stretches of river channel to change, and secondly, in the computation of natural channel dimensions for use in river channel design and river restoration.     

电视天气预报制作系统

电视气象服务是气象服务的重要窗口之一。电视天气预报制作系统将计算机技术，电视技术和气象预报产品有机地结合起来融为一体，该文介绍了国家气象中心电视天气预报制作系统的系统设计思想，系统结构、系统分析，计算机动画技术和音／视频技术，节目内容及取得的效益，同时提出了我国气象部门国家，省，地三级电视气象服务系统的发展方向。     

石灰桩加固软弱地基的若干问题简述

本文简要综述了石灰桩加固软弱地基的机理和石灰桩复合地基的形状，对其设计及有关问题进行了简要探讨，得出了一些有益的结论。     

优选土层锚杆围护体设计方案的计算机实现

介绍了土层锚杆围护体（包括墙体和锚杆支护结构）的方案优选计算机系统的功能和特色,讨论了其计算机实现方法,以及利用系统进行以工程要求和工程成本为目标的土层锚杆围护体设计方案优选的思路和方法     

FW-610型地下管线非开挖铺设钻机设计

利用水平螺旋钻进铺设地下管道的方法,并在此基础上对其进行钻进工艺方法改进,在降低钻机动力消耗、减小体积、降低制造成本的基础上,设计一种小型钻机,适用于我国非开挖施工市场的短距离、小跨度的地下管线穿越施工。     

Adaptation of water resources systems to changing society and environment: a statement by the International Association of Hydrological Sciences

ABSTRACT

We explore how to address the challenges of adaptation of water resources systems under changing conditions by supporting flexible, resilient and low-regret solutions, coupled with on-going monitoring and evaluation. This will require improved understanding of the linkages between biophysical and social aspects in order to better anticipate the possible future co-evolution of water systems and society. We also present a call to enhance the dialogue and foster the actions of governments, the international scientific community, research funding agencies and additional stakeholders in order to develop effective solutions to support water resources systems adaptation. Finally, we call the scientific community to a renewed and unified effort to deliver an innovative message to stakeholders. Water science is essential to resolve the water crisis, but the effectiveness of solutions depends, inter alia, on the capability of scientists to deliver a new, coherent and technical vision for the future development of water systems.

EDITOR D. Koutsoyiannis; ASSOCIATE EDITOR not assigned