垂直磨削中磨削参数对磨削痕迹分布的影响

针对垂直磨削中磨削痕迹分布规律不明晰而使得磨削表面质量难以准确控制的问题,开展垂直磨削中磨削参数对磨削痕迹分布规律影响的研究。依据单颗磨粒磨削痕迹分布方程、仿真分析和探讨了砂轮转速、工件转速、进给速度、转速比和相移对磨削痕迹分布的影响,基于磨削参数对磨削痕迹分布和残留高度的影响,优选出了磨削痕迹分布相对合理的磨削参数组合,并进行磨削加工对比实验。结果表明,垂直磨削法中,磨削参数通过改变磨削痕迹的长度、间距、数量、位置关系和分布情况等影响磨削后工件的表面质量。其中,相移的大小会影响磨削痕迹的首尾相接与相互错开情况,直接决定着磨削纹理的形成与否,进而成为影响磨削后工件表面质量的关键因素;此外,尽管磨削参数中工件转速相差很小,但磨削痕迹分布状况会出现显著的差异,进而导致工件表面纹理和破碎情况显著不同及表面粗糙度Ra存在59～125 nm的差距。因此,基于磨削参数对磨削痕迹分布的影响,合理的匹配磨削加工参数可大幅提高工件表面质量。     

投影栅相位法视觉检测技术研究

提出了一种新型的投影栅和相位法视觉检测系统,该系统由投射器将具有正弦分布的条纹投射到被测物体表面,利用不同方位投射条纹的相位来确定双目立体视觉中的对应匹配点。文中对该视觉检测系统进行了标定,建立了双目视觉传感器的三维测量数学模型,标定结果的平均误差为0.039 6mm,均方差为0.023 1mm,角度相对误差为0.2％。最后不仅给出了V型体表面测量的结果,角度相对误差为0.22％,同时还给出了V型体的三维重建图。     

基于相位重合点检测技术的频标比对系统

相位重合点检测是一种高准确度测量周期性信号参数的技术,已实际应用于高准确度频率计中。介绍了相位重合点检测技术的原理及其在频标比对系统中的应用。实际工作情况证明,采用相位重合点检测技术的频标比对系统,具有电路简单,可靠性高的优点,测量分辨力达到了100 ps量级。     

圆柱共形缝隙阵列的相位补偿方法研究

对圆柱共形缝隙阵列的相位补偿方法进行了研究。首先根据对偶原理,给出了任意方向放置的缝隙单元的远场计算公式。然后根据叠加原理推导出圆柱共形缝隙阵列的远区场计算公式,并通过相位补偿方法使共形阵列的电磁特性接近于平面阵列。最后对9×9圆柱共形缝隙阵列、其对应的平面阵列以及相位补偿后阵列的远区场实际算例进行验证分析。结果表明,通过相位补偿可以对共形阵列的电磁特性进行改善。     

一种低轨星座高精度相位保持方法

针对大型低轨星座在轨运行的高精度构型保持问题,提出了一种基于极限环的高精度相位保持方法。首先,推导了实际轨道与参考轨道的平相位角偏差与半长轴偏差的关系；然后,建立了基于极限环的相位保持周期以及半长轴改变量计算方法；最后,基于推导的半长轴偏差与相位偏差的关系,提出了一种相位保持实施方法。考虑地球非球形和大气阻力的数值仿真表明：本文提出的相位保持方法能够在卫星定轨数据精度不高、数据采样间隔较大的情况下,实现低轨星座系统的高精度相位保持。     

Lock threshold deterioration induced by antenna vibration and signal coupling effects in hypersonic vehicle carrier tracking system of Ka band

The envelope of a hypersonic vehicle is affected by severe fluctuating pressure, which causes the airborne antenna to vibrate slightly. This vibration mixes with the transmitted signals and thus introduces additional multiplicative phase noise. Antenna vibration and signal coupling effects as well as their influence on the lock threshold of the hypersonic vehicle carrier tracking system of the Ka band are investigated in this study. A vibration model is initially established to obtain phase noise in consideration of the inherent relationship between vibration displacement and electromagnetic wavelength. An analytical model of the Phase-Locked Loop(PLL), which is widely used in carrier tracking systems, is established. The coupling effects on carrier tracking performance are investigated and quantitatively analyzed by imposing the multiplicative phase noise on the PLL model. Simulation results show that the phase noise presents a Gaussian distribution and is similar to vibration displacement variation. A large standard deviation in vibration displacement exerts a significant effect on the lock threshold. A critical standard deviation is observed in the PLL of Binary Phase Shift Keying(BPSK) and Quadrature Phase Shift Keying(QPSK) signals. The effect on QPSK signals is more severe than that on BPSK signals. The maximum tolerable standard deviations normalized by the wavelength of the carrier are 0.04 and 0.02 for BPSK and QPSK signals,respectively. With these critical standard deviations, lock thresholds are increased from à12 andà4 d B to 3 and à2 d B, respectively.     

Evaluation of rapid phase clock/bias products for PPP ambiguity resolution and its application to the M7.1 2019 Ridgecrest,California earthquake

Precise point positioning with ambiguity resolution (PPP-AR) is a useful tool for high-precision geodetic and geophysical applications, while phase bias products are the prerequisite to implement PPP-AR. Wuhan University has been providing the final (the best operationally post-processing solution based) phase clock/bias products with a latency of two weeks since March of 2019, while a dedicated open-source software package PRIDE PPP-AR is released to leverage these products for high-precision positioning. In order to satisfy some both time and precision critical applications, such as rapid earthquake response, Wuhan University also released rapid (with comparable quality but with much shorter delivery latency) phase clock/bias products with a latency of less than 24 h and updated PRIDE PPP-AR in July 2019. We first introduce the phase clock/bias generation and validation schemes and the maintenance of routine products provision. Then, with 14 days (July 2 to July 15 in 2019) of GPS data collected from 146 globally distributed IGS (International GNSS Service) stations, we evaluated the positioning performance of the rapid products with respect to their final counterparts. It is found that positioning precision of PPP-AR using rapid products is comparable to that using final products, especially in kinematic positioning mode. When rapid products are used, the RMS of PPP-AR in static mode with respect to IGS weekly solutions can reach 1.7 mm, 1.8 mm and 5.5 mm in the east, north and up components, respectively. Furthermore, the RMS of epoch-wise positions with respect to daily solutions for the east, north and up components are 0.51 cm, 0.57 cm and 1.51 cm for PPP-AR with rapid products in kinematic mode. It demonstrates that the rapid phase clock/bias products can sufficiently meet the precision requirement of most geodetic and geophysical applications yet with much shorter time delay. Finally, we study the July 6th M7.1 2019 Ridgecrest, California earthquake using the rapid phase clock/bias products and demonstrate their comparable performance against the final products.     

基于相位差的转轴扭矩测量中的零位识别与处理

提出了一种基于相位差原理的转轴扭矩测量中的零位识别与处理方法。采用两路反射式模拟输出激光光强传感器和对应的反射色带，形成两路标准的正弦信号，通过同步采样和幅度归一化处理，得到两路信号的瞬时相位差，并依此实现对转轴扭矩载荷的测试，克服了以往基于脉冲信号测量中无法在静态条件下进行零位校正的困难。对该系统实现的关键技术和参数进行了分析，通过模拟信号输入和标准扭转试验台验证了本文所提出的方法的应用效果。理论和实验结果表明，该方法不需要转轴转动，就可以准确识别其零位，从而大大降低了该技术在现场使用中的调校要求。     

Long-term time-varying characteristics of UPD products generated by a global and regional network and their interoperable application in PPP

The quality and availability of Uncalibrated Phase Delay (UPD) solutions are crucial to the Precise Point Positioning (PPP) service, and the long-term temporal variability and its contributing factors should be better understood. In this paper, we comprehensively investigate the long-term time-varying characteristics of each UPD product respectively generated by a global and regional network and their interoperable application in PPP-AR (ambiguity resolution), the sampling of the WL and NL UPDs are daily and 30 s, respectively. Firstly, in terms of our 30 day Wide-Lane (WL) UPD products of 31 satellites, the Standard Deviation (STD) of each satellite WL UPDs ranges from 0.04 to 0.06 cycles, indicating that the long-term prediction accuracy of satellite WL UPD is sufficient for fixing Wide-Lane ambiguities. Secondly, when a satellite in eclipsing the discontinulity may corrupt the determination of Narrow-Lane (NL) UPD in form of offset, as a result of lacking or poor satellite attitude dynamic modeling. When the influence of discontinuity is removed, the STD of our estimated satellite NL UPDs is less than 0.05 cycles. Thirdly, the STD of our estimated receiver WL UPDs is mainly below 0.2 cycles, which implies that its stability is one order poorer that of the satellite. In addition, if they are used for stations in and around the network covered region, the stability of the UPD products from the CMONOC (Crustal Movement Observation Network of China) is better than that from a global network, benefit from the fact that all the CMONOC stations are equipped with the same receiver type. Finally, the PPP-AR results show that a rate of 82.9% for stations with a WL-ambiguity-fixed rate of over 90% while 69.5% for stations with an NL-ambiguity-fixed rate of over 80% can be achieved when using UPD from the global network, which is worse than that of using UPD from the CMONOC (85.7% for stations with a WL-ambiguity-fixed rate of over 90% while 75% for stations with an NL-ambiguity-fixed rate of over 80%). The results of the experiment on the UPD interoperable application in PPP show that the global network UPD products can provide a fast AR at any single station, and the convergence time is well below 25 min. Particularly, when the location of a station is in and around the regional network, our results show that the PPP results obtained using regional UPDs enable the consistent use of global UPDs. When the location of a station is far away from the regional network, using the regional UPDs can not achieve PPP-AR. Finally, the WL UPDs of the previous day is used for forecasting to estimate the NL UPDs, the stability analysis results of NL UPDs solution and positioning results are demonstrate the validity of forecasted UPD products.