英国论文代写：建筑风荷载

该项目详细说明了风的分析，以及它如何影响现在建造的高大细长的建筑物。该项目具有人工神经网络（ANN）和横风向响应的应用。高大的建筑物易受强风和飓风的袭击。本项目论述了建造能抵抗动态风强建筑物的新方法。

该项目对人工神经网络进行了详细的研究，该神经网络具有确定不同H、D比值的细长建筑横风向响应的能力。这将大大有助于现代建筑。这个项目对1487, 2500, 3500和4500样本数据点进行了详细的研究，其中4500是最精确的，可以用来训练网络，这是非常有价值的。

文章的细节

题目：低层和高层建筑风荷载的计算评估

名称：agernehkenubihdagnew

年份：2012

文章的细节

标题：增加对高层建筑风荷载的影响

姓名：MasoudSanayei，lewisedgers，josephalonge，PaulKirshen

该工程涉及建筑物的基础系统，并着重研究高风荷载对高层建筑的影响。地震活动对高层建筑造成很大的破坏。风速和飓风对高大的基础设施有很大的影响。该项目处理这些影响，并试图尽量减少它。

该项目的重点是风效应和由150层楼建筑的强风速风所产生的压力。该工程的产量是高层建筑和基础设施能承受30%的风速和压力。然而，研究表明风速只会增加3 – 5%。因此，该项目有效地解决了高达50层高的高层建筑的风荷载问题。对高层建筑由于风压和速度的增加而产生的竖向位移进行了详细的研究。

英国论文代写：建筑风荷载

The project gives us a detailed explanation on the wind analysis and how it affects the tall slender buildings which are built now days. The project has application of Artificial Neural Network (ANN) and across wind response. The tall structures are vulnerable to the strong winds and hurricanes. This project deals with the new methods of constructing strong buildings which can resist dynamic winds.

The project has detailed study of the ANN which has the capability to determine the across wind response of the tall slender buildings for various h: b: d ratios. This will greatly assists the modern building constructions. It is extremely valuable that this project has a detailed study of the 1487, 2500, 3500 & 4500 sample data point’s out of which 4500 is the most accurate and can be used to train the networks.

Article Details

Title: Computational Evaluation of Wind Loads on Low and High-rise Buildings

Name: AgernehKenubihDagnew

Year: 2012

Article Details

Title: Effects of Increased Wind Loads on TallBuildings

Name: MasoudSanayei, LewisEdgers, JosephAlonge, PaulKirshen

The project deals with the foundation system of a building and also focuses on the increased effects of high wind loads on the tall buildings. The seismic activities have a great damage on the tall buildings. The wind velocity and the hurricanes have a great force on the tall infrastructures. This project deals with these effects and tries to minimize it.

The project focuses on the wind effects and the pressure developed by a strong velocity wind on a fifty story building. The output of the project is such that the tall buildings and infrastructures can withstand 30 % increase in wind velocity and the pressure developed by it. However, researches show that only 3 – 5 % increase will be there in the wind velocity. Thus, this project has efficiently dealt with the wind load problem in tall builds up to 50 stories high. It has a detailed study of the vertical displacement of the tall buildings due to increase in the wind pressure and velocity.