释放SF_6气体改变电离层电子密度的实验研究

电离层受到自然或人工扰动后产生的电子密度变化会影响无线电的传播。实验模拟了人工释放SF_6气体扰动电离层,通过对SF_6气体在电离层中的扩散过程和相应的离子化学反应的分析,并结合实验测量,研究了电离层电子密度随SF_6气体释放量的变化规律。实验结果表明:SF_6气体在电离层高度释放后,电子密度显著减少,且减少量与气体释放量在一定范围内呈负指数关系。研究可为今后提高卫星通信保密性和实施通信干扰等应用提供理论依据。     

合成孔径聚焦在水浸超声缺陷定量中的应用

针对水浸超声检测常用缺陷定量方法存在成本高或缺陷定量误差较大的问题,提出一种将原始检测数据经频域合成孔径聚焦技术（FSAFT）处理后再运用半波高法进行缺陷定量评价（FSAFT-DQM）的新方法。建立了水浸超声点聚焦探头FSAFT成像方法,制备了横通孔和平底孔试样,开展了FSAFT-DQM缺陷定量评价试验研究。试验结果表明:FSAFT-DQM缺陷定量精度受检测深度影响不明显;当扫描步距不大于探头中心频率对应的半波长时,与半波高法相比,平底孔试样FSAFT-DQM缺陷定量误差由71.9%降低到10.0%以内;扫描步距在探头中心频率对应的半波长到波长之间时,图像频域插值算法将平底孔试样FSAFT-DQM缺陷定量误差由17.2%降低到5.6%。研究结果表明:FSAFT-DQM能有效提高缺陷定量精度。      

方形截面飞行器上仰机动对滚转特性影响的数值模拟

飞行器从中小迎角至大迎角范围内,由于背风区流动分离形态的演化,静态气动特性特别是横侧向气动特性也随迎角显著变化,可能诱发复杂的滚转运动。但飞行器一般是上仰机动时,才从平飞状态快速拉起至大迎角,此机动过程对横侧向气动特性和滚转运动可能产生较大影响。本文发展了刚体动力学方程和Navier-Stokes方程的松耦合求解技术,并通过数值模拟航天飞机脱落碎片的六自由度运动轨迹进行了验证。针对背风区涡流形态及横侧向气动特性复杂的方形截面飞行器,数值模拟研究了其不同迎角下的静态滚转气动特性、自由滚转运动特性,以及上仰机动时不同拉起速率对滚转运动特性的影响。结果表明,对于此飞行器,静态时存在临界迎角约为13°,当迎角小于临界迎角时,滚转方向是静不稳定的,诱发快速滚转运动;当迎角大于临界迎角时,滚转方向是静稳定的,其滚转运动是收敛的。但上仰机动时,滚转运动的形态还与拉起速率相关,即使拉起的终止迎角大于临界迎角,如果拉起速率较慢,也可能出现快速滚转运动。     

基于PSD的并联微定位平台位姿检测方法

位置姿态（以下简称位姿）检测是研究六自由度定位平台的技术难点之一,为了快速准确测量六自由度并联微定位平台的位姿,验证平台的定位精度,基于多片二维PSD光电位置传感器设计了六自由度光学位姿检测系统。依据几何光学理论,建立了六自由度位姿解算的数学模型。通过仿真计算,该算法可以快速准确解算六自由度定位平台位姿。进一步分析了该模型在考虑存在测量误差时的理论计算误差,结果表明,基于二维PSD位置传感器的六自由度光学位姿检测系统在解算六自由度定位平台位姿的同时,具备较高的测量精度。     

Validity assessment of SAMOSA retracking for fully-focused SAR altimeter waveforms

We demonstrate in this work how we can take advantage of known unfocused SAR (UF-SAR) retracking methods (e.g. the physical SAMOSA model) for retracking of fully-focused SAR (FF-SAR) waveforms. Our insights are an important step towards consistent observations of sea surface height, significant wave height and backscatter coefficient (wind speed) with both UF-SAR and FF-SAR. This is of particular interest for SAR altimetry in the coastal zone, since coastal clutter may be filtered out more efficiently in the high-resolution FF-SAR waveform data, which has the potential to improve data quality. We implemented a multi-mission FF-SAR altimetry processor for Sentinel-3 (S3) and Sentinel-6 Michael Freilich (S6), using a back-projection algorithm, and analysed ocean waveform statistics compared to multilooked UF-SAR. We find for Sentinel-3 that the averaged power waveforms of UF-SAR and FF-SAR over ocean are virtually identical, while for Sentinel-6 the FF-SAR power waveforms better resemble the UF-SAR zero-Doppler beam. We can explain and model the similarities and differences in the data via theoretical considerations of the waveform integrals. These findings suggest to use the existing UF-SAR SAMOSA model for retracking S3 FF-SAR waveforms but the SAMOSA zero-Doppler beam model for S6 FF-SAR waveforms, instead. Testing the outlined approach over short track segments, we obtain range biases between UF-SAR and FF-SAR lower than 2 mm and significant wave height biases lower than 5 cm.     

Ergodic sum rate for uplink NOMA transmission in satellite-aerial-ground integrated networks

The application of Non-Orthogonal Multiple Access (NOMA) technology into satellite-aerial-ground integrated networks can meet the requirements of ultra-high rate and massive connectivity for the Sixth-Generation (6G) communication systems. We consider an uplink NOMA scenario for such a satellite-aerial-ground integrated network where multiple users communicate with satellite under the help of an Unmanned Aerial Vehicle (UAV) as an aerial relay equipped with a phased array. Supposing that buffer-aided decode-and-forward protocol is adopted at the UAV relay, we first formulate an optimization problem to maximize Ergodic Sum Rate (ESR) of the considered system subject to individual power constraint and quality-of-service constraint of each user. Then, with known imperfect channel state information of each user, we propose a joint power allocation and robust Beam Forming (BF) iterative algorithm to maximize ESR for the user-to-UAV link. Besides, to take the advantages of Free-Space Optical (FSO) and millimeter Wave (mmWave) communications, we present a switch-based hybrid FSO/mmWave scheme and a robust BF algorithm for the UAV-to-satellite link to achieve higher rate. Moreover, a closed-form ESR expression is derived. Finally, the effectiveness and correctness of the proposed solutions are verified by numerical simulations, and the performance evaluation results show that the proposed solutions not only achieve performance enhancement and robustness, but also outperform the orthogonal multiple access significantly.     

Biaxial tensile behavior of Ti-6Al-4V under proportional loading

The biaxial tensile behavior of isotropic Ti-6Al-4 V is characterized in this paper. A novel cruciform specimen was designed and optimized to achieve uniform stress and strain distribution within the gauge area. Biaxial tensile tests were conducted at three different loading ratios by the biaxial testing machine. The Digital Image Correlation (DIC) technique was applied to determine strain distribution, and a high-speed camera was employed to record the fracture process. An Inverse Analysis (IA) approach with a combined experimental and numerical method was proposed to determine the true stresses at the gauge section of the specimen during biaxial tensile tests. The results indicate that the initial yield locus can be described by the Cazacu criterion accurately, whereas the Mises criterion can predict better the strengthening behavior of Ti-6Al-4 V in the first quadrant in the principal stress space.     

Green UAV communications for 6G: A survey

Unmanned Aerial Vehicles (UAVs) have received a wide range of attention for military and commercial applications. Enhanced with communication capability, UAVs are considered to play important roles in the Sixth Generation (6G) networks due to their low cost and flexible deployment. 6G is supposed to be an all-coverage network to provide ubiquitous connections for space, air, ground and underwater. UAVs are able to provide air-borne wireless coverage flexibly, serving as aerial base stations for ground users, as relays to connect isolated nodes, or as mobile users in cellular networks. However, the onboard energy of small UAVs is extremely limited. Thus, UAVs can be only deployed to establish wireless links temporarily. Prolonging the lifetime and developing green UAV communication with low power consumption becomes a critical challenge. In this article, a comprehensive survey on green UAV communications for 6G is carried out. Specifically, the typical UAVs and their energy consumption models are introduced. Then, the typical trends of green UAV communications are provided. In addition, the typical applications of UAVs and their green designs are discussed. Finally, several promising techniques and open research issues are also pointed out.