基于传动误差和齿面印痕控制的弧齿锥齿轮小轮加工参数的设计(英文)

This paper proposes a new approach to design pinion machine tool-settings for spiral bevel gears by controlling contact path and transmission errors. It is based on the satisfaction of contact condition of three given control points on the tooth surface. The three meshing points are controlled to be on a predesigned straight contact path that meets the pre-designed parabolic function of transmission errors. Designed separately, the magnitude of transmission errors and the orientation of the contact path are subjected to precise control. In addition, in order to meet the manufacturing requirements, we suggest to modify the values of blank offset, one of the pinion machine tool-settings, and redesign pinion ma- chine tool-settings to ensure that the magnitude and the geometry of transmission errors should not be influenced apart from minor effects on the predesigned straight contact path. The proposed approach together with its ideas has been proven by a numerical example and the manufacturing practice of a pair of spiral bevel gears.     

The effect of neglecting VLBI reference station clock offsets on UT1 estimates

Very Long Baseline Interferometry (VLBI) allows to monitor universal time (UT1) by conducting regular international experiments. Such dedicated observation networks are equipped with different hardware components, which require different processing strategies when the data are correlated. As the timing units at each stations are usually offset with respect to universal time (UTC) this effect should be considered during correlation processing. Thus, it is investigated how neglecting of these offsets theoretically impacts the estimation of UT1. Three different strategies for the proper handling of the timing offset will be discussed and their advantages/drawbacks will be pointed out. Moreover, it is studied how neglecting of these timing offsets affects UT1 time-series and how such a missing correction can be applied a posteriori. Although the discussed effect is for most of the UT1 experiments smaller than the formal error of the estimates, it is important to consider station clock offsets properly in next-generation VLBI systems, which are expected to improve accuracy of results by about one order of magnitude.     

Spaceborne GPS receiver antenna phase center offset and variation estimation for the Shiyan 3 satellite

In determining the orbits of low Earth orbit (LEO) satellites using spaceborne GPS, the errors caused by receiver antenna phase center offset (PCO) and phase center variations (PCVs) are gradually becoming a major limiting factor for continued improvements to accuracy. Shiyan 3, a small satellite mission for space technology experimentation and climate exploration, was developed by China and launched on November 5, 2008. The dual-frequency GPS receiver payload delivers 1 Hz data and provides the basis for precise orbit determination within the range of a few centime-ters. The antenna PCO and PCV error characteristics and the principles influencing orbit determi-nation are analyzed. The feasibility of PCO and PCV estimation and compensation in different directions is demonstrated through simulation and in-flight tests. The values of receiver antenna PCO and PCVs for Gravity Recovery and Climate Experiment (GRACE) and Shiyan 3 satellites are estimated from one month of data. A large and stable antenna PCO error, reaching up to 10.34 cm in the z-direction, is found with the Shiyan 3 satellite. The PCVs on the Shiyan 3 satellite are estimated and reach up to 3.0 cm, which is slightly larger than that of GRACE satellites. Orbit validation clearly improved with independent k-band ranging (KBR) and satellite laser ranging (SLR) measurements. For GRACE satellites, the average root mean square (RMS) of KBR resid-uals improved from 1.01 cm to 0.88 cm. For the Shiyan 3 satellite, the average RMS of SLR resid-uals improved from 4.95 cm to 4.06 cm.     

无人船数据链SC-FDE突发信号载波同步方法

设计了一种适用于无人船组网数据链的SC-FDE突发通信时隙的帧结构,通过计算前导序列和独特字(UW)序列的自相关函数,调整差分相关长度,提出一种适用于多模式帧结构的载波同步方法。最后,通过仿真评估了所提出算法在不同条件下的有效频偏估计范围、频偏估计精度等性能,为算法工程实现的主要设计参数提供参考。     

分离式共轴刚性旋翼风洞试验技术研究

为在■3.2 m风洞开展高速直升机共轴刚性旋翼风洞试验,中国空气动力研究与发展中心(China Aerodynamic Research and Development Center,CARDC)开展了分离式共轴刚性旋翼风洞试验关键技术研究。解决了双旋翼共轴反向驱动、双旋翼联动和差动变距操纵、旋翼气动力分离测量、旋翼间距调整等关键技术问题,研制了■2 m直径共轴刚性旋翼试验台和旋翼天平、旋翼操纵系统,实现了旋翼共轴等速反向旋转、双旋翼联动和差动变距操纵、旋翼升力偏置调整、旋翼气动力孤立测量、旋翼间距调整等功能。通过开展风洞试验,验证了该试验技术,表明试验技术具有技术成熟度高、数据重复性精度高、可调节参数多的优点。     

数控加工中复杂轮廓环的等距干涉处理

复杂轮廓环的等距算法是ＣＡＤ／ＣＡＭ系统中重要的基本算法之一，该算法的完善与否决定着ＣＡＤ／ＣＡＭ系统的基本性能，许多研究人员针对这个问题提出了一若干有益的解决方案，但这睦算法的结果并不是特别理想，本文针对数控加工中复杂轮廓环的等距问题，提出了一种有效的环原始等距，原始等距后的环的自交处理算法，其基本思想是对复杂累廓环经原始等距的过渡后形成的复杂网状环进行拓扑关系的规整和判断，从而生成正确的等距结     

航空运输中系留索弹性变形对货物偏移量的影响分析

为获取在航空运输中系留索弹性变形对货物偏移量的影响效果,构建了货物系留固定的受力计算模型,并通过实例分析,计算分析了不同系留索弹性变形的条件下对货物最大偏移量的影响,实现了不同系留索的弹性变形对货物最大偏移量影响效果的可视化。该计算模型为货物系留索设计提供了重要依据,保证了航空货物运输的安全。     

GPS/GLONASS/GALILEO实时服务（RTS）产品性能评估分析

目前,不同机构提供的GNSS实时服务产品性能存在差异。为了全面揭示实时服务产品的性能，为系统服务和用户应用提供参考，统计了各实时服务产品的历元完整率及卫星数量，基于实时轨道和钟差恢复方法，比较分析了产品精度，并评估了产品定位性能。研究结果表明：正常情况下，实时服务产品的历元完整率较高，基本可保持在95%以上，所提供系统的卫星数量保持稳定且充足。对于GPS，各机构卫星实时轨道平均精度基本一致，约为3cm，实时钟差精度略有差别。对于其他GNSS，不同机构产品精度存在差别。利用实时服务产品进行GPS实时精密单点定位的平面精度优于10cm，高程精度优于20cm。相对于GPS单系统，多系统联合定位精度基本一致，但收敛速度明显提升。     

GNSS实时卫星钟差估计技术进展

不依赖实体基准站增强信息的GNSS实时精密单点定位服务将逐渐成为主流定位模式。实时卫星钟差产品作为实时精密单点定位的关键先决条件之一，其精度直接决定实时精密定位服务的性能。计算实时卫星钟差的GNSS实时卫星钟差估计技术成为实时精密定位的核心技术之一，其主要包括两种解算模式：非差解算模式和差分解算模式。由于对卫星模糊度等未知参数处理策略的不同，卫星钟差估计技术又可细分为非差、历元差分、星间差分、混合差分等策略类型。针对不同实时卫星钟差估计技术的原理方法、算法效率、适用性等问题，综合目前已有相关研究成果的基础上，对GNSS实时卫星钟差估计的研究现状、关键技术和面临的挑战进行了较为系统的总结综述，并对未来卫星钟差预报产品和实时估计产品的关系进行了展望。