复杂约束下的编队姿态有限时间协同控制方法

综合考虑无角速度量测、外部扰动和系统参数不确定性等约束条件的影响，研究航天器编队姿态有限时间协同控制问题。首先建立航天器相对姿态协同控制模型，利用扩张观测器实现对系统姿态角速度及耦合扰动的估计；在此基础上提出了一种有限时间滑模姿态协同控制律；通过构造合适的Lyapunov函数证明了系统相对姿态误差能够在有限时间内收敛到有界域内；将该结果推广到存在饱和输入情形下，并设计了相应的有限时间滑模姿态协同控制律。仿真结果校验了算法的有效性。     

嫦娥五号探测器多舱段间接力式校时及误差控制方法

为优化嫦娥五号探测器操控,达到通过给任意具备测控链路的舱段校时即可实现多舱段组合体时间同步的目标,提出了一种接力式校时及误差控制方法。该方法通过相邻舱段间接力式时间传递实现舱段间时间自流动。设计了基于飞行模式的时间基准设备检索方法,通过统一的检索配置表使各设备能够根据飞行模式识别上级时间基准设备,实现了各舱段的自主校时。设计了总线控制器(Bus controller,BC)与远置单元(Remote terminal,RT)间的分布式时间传递误差控制方法,BC端修正时间信息发送时产生的误差,RT端控制时间信息接收时引入的误差,保证了整器时统精度。研究方法实现了多舱段复杂航天器的器内自组织时统,已在嫦娥五号探测器上得到应用并取得预期效果,可为后续航天器软件设计提供参考。     

Finite-time relative orbit-attitude tracking control for multi-spacecraft with collision avoidance and changing network topologies

This paper addresses the relative position tracking and attitude synchronization control problem for spacecraft formation flying (SFF). Based on the derived relative coupled six-degree-of-freedom dynamics, a robust adaptive finite-time fast terminal sliding mode controller is proposed to achieve the desired formation in the presence of model uncertainties and external disturbances. It is shown that the designed controller is effective for changing information exchange topology making it robust to node failure. Then, the artificial potential function method is employed to generate collision avoidance schemes to modify the controller such that inter-agent collision avoidance can be ensured during the formation maneuver, which is critical for practical missions. The stability of the overall closed-loop system is proved by using Lyapunov theory. Finally, numerical examples for a given SFF scenario are presented to illustrate the performance of the controller.     

Analysis of BDS-3 distributed autonomous navigation based on BeiDou system simulation platform

Satellite autonomous navigation is an important function of the BeiDou-3 navigation System (BDS-3). Satellite autonomous navigation means that the navigation satellite uses long-term forecast ephemeris and Inter-Satellite Link (ISL) measurements to determinate its own spatial position and time reference without the support of the ground Operation and Control System (OCS) for a long time to ensure that the navigation system can normally maintain the time and space reference. This paper aims to analyze the feasibility of distributed autonomous navigation algorithms. For the first time, a ground parallel autonomous navigation test system (GPANTS) is built. The performance of distributed autonomous navigation is then analyzed using the two-way ISL ranging of BDS-3 satellites. First, the BDS simulation platform and the GPANTS are introduced. Then, the basic principles of distributed satellite autonomous orbit determination and time synchronization based on ISL measurements are summarized. Preliminary evaluation of the performance of the BDS-3 constellation autonomous navigation service under ideal conditions through simulation data. Then the performance of autonomous navigation for 22 BeiDou-3 satellites using ISL measurements is evaluated. The results show that when satellites operate autonomously for 50 days without the support of any ground station, the User Range Error (URE) of autonomous orbit determination is better than 3 m, and the time synchronization accuracy is better than 4 ns.     

Hardware-In-the-Loop Simulations of spacecraft attitude synchronization using the State-Dependent Riccati Equation technique

A nonlinear control technique pertaining to attitude synchronization problems is presented for formation flying spacecraft by utilizing the State-Dependent Riccati Equation (SDRE) technique. An attitude controller consisting of relative control and absolute control is designed using a reaction wheel assembly for regulator and tracking problems. To achieve effective relative control, the selective state-dependent connectivity is also adopted. The global asymptotic stability of the controller is confirmed using the Lyapunov theorem and is verified by Monte-Carlo simulations. An air-bearing-based Hardware-In-the-Loop Simulator (HILS) is also developed to validate the proposed control laws in real-time environments. The SDRE controller is discretized for implementation of a real-time processor in the HILS. The pointing errors are about 0.2° in the numerical simulations and about 1° in the HILS simulations, and experimental simulations confirm the effectiveness of the control algorithm for attitude synchronization in a spacecraft formation flying mission. Consequently, experiments using the HILS in a real-time environment can appropriately perform spacecraft attitude synchronization algorithms for formation flying spacecraft.     

并发多媒体负载访问存储系统的模型分析

多媒体应用要求存储系统提供满足服务质量QoS(Quality of Service)需求的数据访问服 务,反应时间超过截止期限的访问请求必须小于一定的比例.在开放环境下,并发多媒体负载中访问请求的随机性增加了实现这一目标的难度.并发多媒体应用的访问请求经汇聚后到达存储系统的过程服从泊松分布,存储系统的服务时间服从指数分布;并发多媒体负载访问存储系统的过程用M/M/1排队论模型描述.通过对该模型的分析推导出构成并发负载的多媒体应用数量N与负载中访问请求的响应时间分布之间的关系.仿真试验的结果证明该模型对于保证并发多媒体应用的QoS是非常有效的.     

VGA视频信号测量方法

本文论述了VGA视频信号一些重要参数的测量方法,提供了测试VGA视频信号的可操作手段.利用这些测量方法能够很方便地对VGA视频信号进行分析,有助于查找问题.     

分布式SAR时间同步误差的影响分析与试验验证

时间同步是空间同步和相位同步的工作前提,是实现星载分布式SAR干涉测量的核心问题.基于多项式时间同步误差模型,给出了含时间同步误差的数字回波信号仿真模型.采用理论分析与全数字仿真试验相结合的方式分析了时间同步误差对于涉测绘带损失、双站SAR成像以及干涉测高精度的影响.基于包含SAR载荷和时间同步样机等实物在内的半实物仿真系统,提出了采用不同设备连接方案的误差隔离和溯源试验评估方法,通过试验结果对比分析得到时间同步误差对干涉测高的准确影响结果.最后综合得到对时间同步分系统的输入输出指标要求.本文工作对时间同步的工程实现提供有力支撑.     

Cross-layer design of LT codes and LDPC codes for satellite multimedia broadcast/multicast services

According to large coverage of satellites, there are various channel states in a satellite broadcasting network. In order to introduce an efficient rateless transmission method to satellite multimedia broadcasting/multicast services with finite-length packets, a cross-layer packet transmission method is proposed with Luby transform （LT） codes for efficiency in the network layer and low density parity check （LDPC） codes for reliability in the physical layer jointly. The codewords generated from an LT encoder are divided into finite-length packets, which are encoded by an LDPC encoder subsequently. Based on noise and fading effects of satellite channels, the LT packets received from an LDPC decoder either have no error or are marked as erased, which can be mod- eled as a binary erasure channels （BECs）. By theoretical analysis on LT parameters and LDPC parameters, the relationships between LDPC code rates in the physical layer and LT codes word lengths in the network layer are investigated. With tradeoffs between the LT codes word lengths and the LDPC code rates, optimized cross-layer solutions are achieved with a binary search algorithm. Verified by simulations, the proposed solution for cross-layer parameters design can provide the best transmission mode according to satellite states, so as to improve throughput performance for satellite multimedia transmission.