多元受限的航班时刻优化模型与方法研究

针对我国空域的实际，结合航班时刻制定的特点，在多元受限地面等待策略的基础上，建立了一个多元受限航班时刻优化模型，提出了一套求解该优化模型的改进启发式算法。并在所提模型和算法的基础上，开发了航班时刻优化系统，对全国实际的航班时刻进行了优化，验证了理论模型和方法的可行性。     

Downsizing an orbital space robot: A dynamic system based evaluation

Small space robots have the potential to revolutionise space exploration by facilitating the on-orbit assembly of infrastructure, in shorter time scales, at reduced costs. Their commercial appeal will be further improved if such a system is also capable of performing on-orbit servicing missions, in line with the current drive to limit space debris and prolong the lifetime of satellites already in orbit. Whilst there have been a limited number of successful demonstrations of technologies capable of these on-orbit operations, the systems remain large and bespoke. The recent surge in small satellite technologies is changing the economics of space and in the near future, downsizing a space robot might become be a viable option with a host of benefits. This industry wide shift means some of the technologies for use with a downsized space robot, such as power and communication subsystems, now exist. However, there are still dynamic and control issues that need to be overcome before a downsized space robot can be capable of undertaking useful missions. This paper first outlines these issues, before analyzing the effect of downsizing a system on its operational capability. Therefore presenting the smallest controllable system such that the benefits of a small space robot can be achieved with current technologies. The sizing of the base spacecraft and manipulator are addressed here. The design presented consists of a 3 link, 6 degrees of freedom robotic manipulator mounted on a 12U form factor satellite. The feasibility of this 12U space robot was evaluated in simulation and the in-depth results presented here support the hypothesis that a small space robot is a viable solution for in-orbit operations.     

美军网络战体系建设策略及现状分析

美军已将网络战作为一种新的作战形式引入作战领域,近年来正加速推进网络战体系建设,在战略理论、指挥机构建设、技术装备研究和训练演习等方面已取得了较大进展,并具备了较强的作战能力。归纳了美国家及军队重要网络空间战略文件的主要内容,评述了主要网络战指挥机构及作战力量建设过程与现状,分析了美军网络战技术与装备研究的进展,并对其训练演习情况进行了阐述。其研究成果对全面理解美军网络战体系建设的特点、措施及现状具有参考价值。     

异构无人系统协同作战关键技术综述

针对异构无人系统的规模、异构性强弱,对异构无人系统进行了分类,引入了异构无人系统协同作战班组的概念以及应用设想,并通过城市环境中异构无人系统协同作战问题为牵引,提出了异构无人系统协同作战面临的挑战与解决思路,在此基础之上,从异构无人系统协同控制架构、协同任务规划、智能交互、目标感知、环境感知等主要方面对异构无人系统协同作战的关键技术进行了分析,最后对异构无人系统协同作战目前的研究进展与挑战进行了总结。     

Issues of geologically-focused situational awareness in robotic planetary missions: Lessons from an analogue mission at Mistastin Lake impact structure,Labrador, Canada

Remote robotic data provides different information than that obtained from immersion in the field. This significantly affects the geological situational awareness experienced by members of a mission control science team. In order to optimize science return from planetary robotic missions, these limitations must be understood and their effects mitigated to fully leverage the field experience of scientists at mission control.     

管理效率、技术进步与生产率增长——基于中美航空公司的比较

运用Malmquist生产率指数方法，对中美15个航空公司2000～2006年期间的全要素生产率的变化作了测算与对比。分析结果显示，2000—2006年这些公司的生产效率总体上都有所提高，中国航空公司的全要素生产率的平均增长率为4.3％，美国的平均增长率为6．1％；综合效率改善与技术进步对中美两国航空公司生产率的影响程度并不相同，美国航空公司的主要驱动因素为技术变革与创新，中国航空公司的发展动力主要为对已有技术的运用以及组织管理效率的提升。中国航空公司全要素生产率水平的提高，除继续强调综合效率的重要性之外，也要进一步加强对技术进步的重视。     

航线收益管理的边际分析方法

 本文首先综述了航线运输收益管理中两票价等级的最优运营方法的历史与现状,指出了各个经典公式的限制条件和公式推导的不严密性。然后,利用边际分析方法详细推导了一个新的最优座位安排的通用公式,对该领域的传统公式作了重要更正。最后,通过实例分析、计算并与传统公式相比,表明新公式在理论上较为完善,在工程上也实用、简便。     

SCOR模型浅析

本文介绍了供应链运作参考模型的产生及主要构成,与其它绩效考核体系的区别,以及对于供应链管理的作用.     

有人无人直升机协同搜潜效能研究

通过分析直升机搜潜的任务过程,结合蒙特卡洛法的随机抽样特性,建立了基于蒙特卡洛法的效能 评估模型,用以评估直升机使用浮标搜潜的成功概率。基于仿真实验对有人直升机搜潜、无人直升机双机编组 搜潜、有无人直升机协同搜潜的效能进行了对比分析。