Variations of geomagnetic cutoff rigidity in the southern hemisphere close to 70°W (South-Atlantic Anomaly and Antarctic zones) in the period 1975–2010

We report the existence of rapid variations in (effective) geomagnetic cutoff rigidity (Rc) between the equatorial and Antarctic zones adjacent to the Andes Mountains, revealed by the variation rate of geomagnetic cutoff rigidity (VRc) in the period 1975–2010. Our analysis is based on empirical records and theoretical models of the variations in cosmic rays and on the structure of geomagnetic fields. These have given us a different view of variations in Rc in time and space along the 70°W meridian, where secular variations in the geomagnetic field are strongly influenced by the proximity of the South Atlantic Magnetic Anomaly (SAMA), one of the most important characteristics of the terrestrial magnetic field that affects our planet, close from the equator to the 50°S parallel and from South America to South Africa. The VRc presents rapid changes in mid-latitudes where SAMA exerts its influence despite the existence of smooth changes in the geomagnetic field. This shows that these changes occur mainly in the spatial configuration, rather than in the temporal evolution of Rc. The analysis was performed using measurements from the Chilean Network of Cosmic Rays and Geomagnetism Observatories, equipped with BF-3 and latest generation He-3 neutron monitors, Fluxgate magnetometers, geomagnetic reference field (IGRF) and Tsyganenko 2001 model (just for completeness).     

单人制机组资源管理(SRM)的训练

针对SRM的背景和基本概念进行了分析和介绍,探讨了飞行员初始飞行训练中SRM的组成、训练方法和评估要点,为飞行员培养中SRM能力的训练和应用奠定了基础。     

空域资源优化配置及调整策略研究

近年来,不断增长的空中交通需求以及有限的空域资源之间的矛盾日益突出,尤其是在飞行量密集的多机场地区。在研究如空域灵活使用等国外空域管理方面的经典理论,以及已在实践应用层面取得的成果和经验的基础上,结合中国空域自身的条件及特点,从低空空域资源、军民航协调机制、多机场地区空域资源统筹三个方面作为切入点,提出了相应的空域资源配置及调整的构想,并详细阐述了实施的方法,得出了采用更科学优化和共享模式的空域资源使用方式才是解决中国空域紧缺的有效手段。     

县域土地利用与生态环境关系探讨

以福建省云霄县作为探讨案例，根据存在的生态环境问题，并结合土地利用现状，提出创建环境友好型土地利用模式、大力加强生态建设、加强区域环境整治力度三点建议，从而探讨县域土地利用与生态环境协调发展的可行性。     

针栓式喷注单元雾化角模型分析

为了实现不同径向孔形的针栓式喷注器雾化角的准确预测，从动量守恒方程出发建立了液膜撞击液膜和液膜撞击液束的雾化角理论修正模型。对于液膜撞击液膜的喷注单元，模型中通过理论推导引入了2个变形因子，将撞击的几何变形效应与雾化角关联；对于液膜撞击液束，通过引入阻塞率定义有效撞击动量比，同时将液束入口孔形的影响隐含考虑在变形因子中，最后根据高速摄影试验结果和数值仿真结果获得了对应的变形因子组合系数，使得新的雾化角模型适应性更广、准确性更高。结果表明：引入变形因子和阻塞率的理论模型预测值与试验及数值仿真结果吻合很好；对于液膜撞击液膜，变形因子基本维持在0.9~1.1，根据试验结果及仿真结果，变形因子推荐值为C₁=0.99和C₂=1.06；对于液膜撞击液束，变形因子推荐值为C₁=0.75和C₂=1.25。该模型根据实际出口的轴向动量和合成总动量计算雾化角，隐含考虑了撞击作用造成的影响，较根据撞击前入口的轴向动量和合成总动量计算雾化角的常用模型预测值准确度显著提高，为针栓式喷注器的理论研究和工程设计提供了重要参考。     

速率转台的角速率不确定度评定方法

利用不确定度的理论来评定速率转台的角速率不确定度。     

测速元对弹道定位精确度的影响

对于弹道参数的数据融合问题,过去一般只考虑了多个测距元情况下,弹道位置参数精确度的改善.自从文[1]提出了测速定轨的原理和计算方法以及文[2]利用测速元诊断测距元的测量系统误差以后,使人们对测量系统中测速元的作用有了新的认识.讨论了在主体为测距元的测量系统中,若有一个或若干测速元,这些测量元素对弹道位置参数精确度的影响.结果表明测速元能显著提高弹道参数的精确度.     

全球精密单点定位性能评估

随着中国北斗三号卫星导航系统（BDS-3）全面建成与开通，北斗卫星导航系统已步入了新发展阶段，基于BDS-3实现全方位、多层次、高精度应用已成为地学研究中一项基本任务。利用全球最新均匀分布的10个MGEX跟踪站，分别从24 h内接收到的卫星数、卫星位置精度因子（PDOP）、卫星数据解算完整率和双频非组合精密单点定位（PPP）静态/动态定位精度等方面系统深入地评估了BDS-3在全球范围内的可用性。结果表明，测站对卫星跟踪能力与配备的接收机类型和区域位置有强相关性，单BDS-3卫星在全球范围内具有较强的连续定位能力，当使用SEPT POLARX5和JAVAD TRE_3接收机的情况下，数据解算完整率可达100%。此外，水平方向和高程方向定位精度分别优于2 cm和3 cm，并且在联合使用BDS-2和BDS-3定位的条件下，可使得静态定位精度在东、北和高程方向进一步提升37.6%,25.3%和38.9%。     

农村人力资本流动与农用土地制度改革

新中国成立以后我国农地制度经历了曲折的变迁，对我国农业劳动力转移、土地资源可持续利用和农村可持续发展产生了巨大而深远的影响。现行的以家庭承包责任制为核心的土地制度取得的成就有目共睹，但土地平均分配的方式使农业劳动生产率偏低，农地的社会保障功能和农地流转机制的不健全又影响了农业的规模经营，因此必须建立起一套既符合我国国情，又能促进农业劳动力转移的新型农地制度。     

Tightly closed ecological systems reveal atmospheric subtleties – experience from Biosphere 2

Processes which produce slow changes in air composition in a closed ecological system (CES) may not be noticed if the leak rate of the CES is significant. Dilution of the system’s air with outside air can mask these processes. A tightly closed CES provides the opportunity for slow changes to accumulate over time and be observed and measured. Biosphere 2 (volume 200,000 m³) had a low leak rate of less than 10 percent per year. Oxygen declined slowly at varying rates reflecting seasonal influences, which averaged to about 140 ppm per day during the first 16 months of the two-year closure. Computer simulations of the observed rate of oxygen loss combined with other hypothetical leak rates suggest that the decline would have been hidden by a leak rate as low as one percent per day. Sealing Biosphere 2 involved rigorous design specifications and inclusion of two expansion chambers (called “lungs”) to accommodate expansion/contraction of the atmosphere, which enabled limiting the pressure difference between inside and outside atmospheres to the range of ±8 Pa (0.08 mBar). Measurement of leak rate was by two methods: the first, measuring the rate of deflation of the lungs while holding a constant elevated pressure differential enabled calculation of an estimated leak rate within the usual operating pressure differential range; the second was to measure the progressive dilution of trace gases spiked into the atmosphere. Both methods confirmed leakage to be less than 10 percent per year. Operational data from the 40 m³ Laboratory Biosphere is used to illustrate how normal variations of temperature, humidity and barometric pressure would combine to force leakage and rapidly dilute the internal atmosphere if it were not equipped with a lung. It is demonstrated that very high degrees of closure for a CES enable experimental observation of small imbalances in atmospheric cycles or slow accumulation of trace gases that could otherwise be masked by dilution with atmosphere external to the CES.