排序方式: 共有108条查询结果,搜索用时 15 毫秒
101.
结构所受的真实载荷历程是实现疲劳寿命监控的核心。本文面向结构疲劳寿命在线监测提出了一种基于物理原型的疲劳载荷的反演和寿命评估方法。通过对潜在疲劳危险部位附近的应变场监测,依据结构疲劳危险部位的物理原型,反演结构所受外载荷;然后按照结构疲劳寿命分析方法获得结构的疲劳寿命。完成了一个耳片疲劳寿命在线监测试验,结果表明了本方法的可行性和有效性。 相似文献
102.
天基与地基测量数据融合技术在靶场的应用 总被引:1,自引:0,他引:1
随着GPS技术的发展,靶场的测控也在逐步由地基测控网过渡到天地结合的一体化综合测控网。如何将天基测量数据同靶场现有的高精度测量带测量数据融合处理,近年成为数据处理的热点话题。本文就某具体任务,对天基和地基测量数据融合技术的方法和工程应用作了详细介绍,给出了初步的结论,提出了天基测量数据在工程应用时应注意的问题和有待进一步分析的问题。 相似文献
103.
直升机总体设计思路和方法发展分析 总被引:1,自引:0,他引:1
直升机总体设计对于型号研制成功与否有着极为重要的影响。随着直升机相关学科以及信息化技术的发展,直升机总体设计亦从传统的原准机设计法、参数统计法等发展到现代的多学科设计优化法。特别是系统工程和并行工程思想以及现代项目管理理念在航空产品研制中的应用,对直升机的总体设计思想产生了重大影响,推动着直升机总体设计向智能化、综合化和系统化方向发展。首先,简要回顾了直升机总体设计技术的发展历程,介绍了传统设计方法和现代设计方法在型号中的应用及其相互之间的差异;然后,重点分析了系统工程和并行工程思想、现代项目管理理念、直升机新构型以及数字化技术对直升机总体设计思想和方法的影响;最后,展望了直升机总体设计方法的未来发展趋势。 相似文献
104.
105.
The Meridian Project is a ground-based network program to monitor Solar-Terrestrial space environment, which consists of a chain of ground-based observatories with multiple instruments including magnetometers, ionosondes, HF and VHF radars, Lidars, IPS monitors, sounding rockets etc. The chain is mainly located in the neighborhood of 120$^\circ$E meridian, and is thus named the Meridian Project. The Meridian Project has officially been approved and supported by the Chinese government and will be finished by the end of 2010. This report gives an overview of the Meridian Project, and reports the recent development since 2008. 相似文献
106.
107.
开源软件定制改造过程中的原型选择 总被引:1,自引:0,他引:1
在定制改造开发过程中选择合适的原型系统,可以达到提高定制改造过程效率、减少开发成本、缩短开发周期的目的.在定制改造过程的原型分析和评估中依托构造成本模型COCOMO(COstructive COst MOdel) II,提出一种新的软件成本评估方法,综合分析了影响定制改造过程的功能差异、性能、规模、稳定性等关键因素,量化了这些关键因素对定制改造过程中成本计算公式中的关键变量——等价代码——的影响.实际的项目显示,该方法对预期工作量的估计误差约为17%,远小于COCOMO II模型40%的可接受阈值. 相似文献
108.
《中国航空学报》2023,36(8):229-246
Deployable mechanisms with light weight and high storage ratio have received considerable attention for space applications. To meet the requirements of space missions, a parabolic cylindrical deployable antenna based on cable-rib tension structures is proposed and verified by a physical prototype. The parabolic cylindrical antenna adopts simple parallel four-bar mechanisms to construct the basic deployable unit, and the cylindrical direction dimension can be easily extended by modularization, which has obvious advantages in storage ratio and area density. Considering the complexity of the entire antenna structure design, including cable networks and flexible trusses, the form-finding design optimization model of a parabolic cylindrical antenna is established using the force density sensitivity method, and then the kinematics analysis of the deployable mechanism is carried out. Finally, a single-module prototype with a deployable diameter of 4 m × 2 m was designed and fabricated. The results of the ground deployment process test and surface accuracy measurements show that the antenna has good feasibility and practicability. 相似文献