获得不同风向、风速下结构的风致响应是进行风致疲劳寿命可靠性分析的基础。考虑顺风向脉动力、横风向脉动力以及由结构振动引起的自激力,对不同风向角不同风速下圆形线状结构风振响应进行估算。根据ESDU(En-gineering Sciences Data Un...获得不同风向、风速下结构的风致响应是进行风致疲劳寿命可靠性分析的基础。考虑顺风向脉动力、横风向脉动力以及由结构振动引起的自激力,对不同风向角不同风速下圆形线状结构风振响应进行估算。根据ESDU(En-gineering Sciences Data Unit)工程科学数据库的资料,在对结构进行风振响应估算的过程中,一定程度上记入雷诺数效应、结构表面粗糙度等重要因素对结构风力及风致振动响应的影响。最后,计算了一实际钢质圆形截面天线的风振响应,并与该天线的气动弹性模型风洞试验结果进行了比较。结果表明计算得到的结果与气动弹性模型试验结果吻合较好。展开更多
Automatic extraction of road and linear structure from remote sensing images is a very important problem. This paper analyses several existing methods of the automatic road and linear structure extraction by using som...Automatic extraction of road and linear structure from remote sensing images is a very important problem. This paper analyses several existing methods of the automatic road and linear structure extraction by using some multi-spectral remote sensing images acquired from different spatial resolutions, districts and road characteristics. Their advantages and disadvantages have been generalized.展开更多
文摘获得不同风向、风速下结构的风致响应是进行风致疲劳寿命可靠性分析的基础。考虑顺风向脉动力、横风向脉动力以及由结构振动引起的自激力,对不同风向角不同风速下圆形线状结构风振响应进行估算。根据ESDU(En-gineering Sciences Data Unit)工程科学数据库的资料,在对结构进行风振响应估算的过程中,一定程度上记入雷诺数效应、结构表面粗糙度等重要因素对结构风力及风致振动响应的影响。最后,计算了一实际钢质圆形截面天线的风振响应,并与该天线的气动弹性模型风洞试验结果进行了比较。结果表明计算得到的结果与气动弹性模型试验结果吻合较好。
文摘Automatic extraction of road and linear structure from remote sensing images is a very important problem. This paper analyses several existing methods of the automatic road and linear structure extraction by using some multi-spectral remote sensing images acquired from different spatial resolutions, districts and road characteristics. Their advantages and disadvantages have been generalized.