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1.
《中国航空学报》2021,34(5):652-665
There is a strong demand for Planetary Exploration Mobile robots (PEMRs) that have the capability of the traversability, stability, efficiency and high load while tackling the specialized tasks on planet surface. In this paper, an electric parallel wheel-legged hexapod robot which has high-adaption locomotion on the unstructured terrain is presented. Also, the hybrid control framework, which enables robot to stably carry the heavy loads as well as to traverse the uneven terrain by utilizing both legged and wheeled locomotion, is also proposed. Based on this framework, robot controls the multiple DOF leg for performing high-adaption locomotion to negotiate obstacles via Gait Generator (GG). Additionally, by using Whole-Body Control (WBC) of framework, robot has the capability of flexibly accommodating the uneven terrain by Attitude Control (AC) kinematically adjusting the length of legs like an active suspension system, and by Force/torque Balance Control (FBC) equally distributing the Ground Reaction Force (GRF) to maintain a stable body. The simulation and experiment are employed to validate the proposed framework with the physical system in the planetary analog environments. Particularly, to smoothly demonstrate the performance of robot transporting heavy loads, the experiment of carrying 3-person load of about 240 kg is deployed.  相似文献   
2.
The Earth orbital environment is drastically changing due to an intensification of the space activities. In particular, several projects of large constellations, proposed for the next years for communications purpose like global internet access, Internet of Things, or for Earth observations, will lead to the deployment of several thousands of new satellites at an unprecedented rate. It is a crucial challenge for space traffic management, which will deal with a great number of satellite conjunctions, potentially causing a collision with damaging consequences for the constellation itself and the space environment sustainability.In this paper, we investigate the close approach frequency and the cumulative collision probability for each referenced constellation. For this purpose, we compute the orbital evolution of satellites in different constellations during the lifecycle, from the deployment to the decommissioning, and we apply the CUBE algorithm and the Foster method to assess the collision probability with the background space debris population assuming a constant uncertainty in position. We show the variation of risk defined by the close approach frequency and the cumulative collision probability as a function of the proposed configuration. In particular, satellites of the Iridium and Kuiper constellation, but also satellite of the Telesat constellation on polar orbits are the most exposed at a collision. Moreover, the decommissioning phase contribute for a major part to the final cumulative collision probability.  相似文献   
3.
郭行  符文星  付斌  陈康  闫杰 《宇航学报》2019,40(2):182-190
针对复杂动态环境下无人飞行器的动态障碍规避问题,基于合理假设建立了无人飞行器和动态障碍的运动学模型,并综合考虑无人飞行器飞行过程中的终端约束、控制输入约束、安全避障约束等,以能量最少为性能指标构建动态避障问题数学描述。之后,针对终端约束和控制输入约束,依据优化模型预测静态规划算法(OMPSP)生成初始轨迹;针对动态避障问题的不等式约束,引入松弛变量并结合滑模变结构控制方法设计松弛变量动力学,实现对一个、多个或同时多个动态障碍的安全规避;最后,依据有限时间微分动态规划(RHDDP)算法进行轨迹优化,获得满足上述各种约束并能规避动态障碍的近似最优轨迹。  相似文献   
4.
针对分离式卫星载荷模块(PM)受到扰动时可能与服务模块(SM)发生碰撞的问题,综合音圈电机反电动势(back-EMF)和柔性线缆动力学的效应,基于牛顿欧拉法建立了分离式卫星(DFP)载荷模块动力学模型。基于Hertz接触理论,推导了分离式卫星碰撞过程中连续接触力模型,并分析了碰撞过程中产生的接触力对载荷模块指向精度和指向稳定度的影响。数值仿真结果表明,碰撞使得载荷模块指向精度和指向稳定度下降5个数量级,碰撞后载荷模块可再次恢复到超静超稳工作状态,恢复时间超过1400 s。本文建立的碰撞模型对研究分离式卫星碰撞规避和碰撞控制具有重要意义。  相似文献   
5.
针对柔性空间机械臂在轨服务应用需求,提出一种基于刚体运动与柔性振动相耦合的空间双臂机器人协同控制方法.首先引入空间位姿变量的概念,构造出面向协同控制目标的Jacobian矩阵,建立柔性空间机器人系统的刚柔耦合动力学模型,基于指定的最小距离得到其运动学逆解,并根据系统动量矩守恒关系及系统的Jacobian矩阵,并根据机械臂末端的运动速度,然后采用阻尼最小二乘法得出关节角度,使柔性空间机器人能够有效完成协同控制和空间避障任务,并基于RecurDyn V7R5软件环境验证算法的正确性.最后,基于SolidWorks和ADAMS虚拟样机建立柔性空间机器人系统的立体CAD模型,并结合空间在轨搬运任务进行模拟仿真,柔性空间机器人关节操作和运动轨迹的仿真结果图验证了本文算法的有效性.  相似文献   
6.
  总被引:1,自引:0,他引:1  
针对现有机场地面运动扰动恢复方法对计划路径偏离、滑行道关闭等干扰事件的应对能力不足,以及轨迹调整过程缺少量化评价指标优化等问题,提出一种基于混合整数规划的扰动恢复方法。利用优化技术协调受扰动影响的航空器计划轨迹,降低干扰事件对场面运行效率和其他场面调度问题的影响;同时,引入迭代冲突规避策略提高求解效率。基于真实机场布局的实验结果表明,该方法能够在计划路径偏离和滑行道关闭2类干扰事件出现后,快速、有效地调整航空器的计划轨迹,使机场地面运动恢复安全有序状态。  相似文献   
7.
《中国航空学报》2020,33(9):2420-2433
In this study, a neural adaptive controller is developed for a ground experiment with a spacecraft proximity operation. As the water resistance in the experiment is highly nonlinear and can significantly affect the fidelity of the ground experiment, the water resistance must be estimated accurately and compensated using an active force online. For this problem, a novel control algorithm combined with Chebyshev Neural Networks (CNN) and an Active Disturbance Rejection Control (ADRC) is proposed. Specifically, the CNN algorithm is used to estimate the water resistance. The advantage of the CNN estimation is that the coefficients of the approximation can be adaptively changed to minimize the estimation error. Combined with the ADRC algorithm, the total disturbance is compensated in the experiment to improve the fidelity. The dynamic model of the spacecraft proximity maneuver in the experiment is established. The ground experiment of the proximity maneuver that considers an obstacle is provided to verify the efficiency of the proposed controller. The results demonstrate that the proposed method outperforms the pure ADRC method and can achieve close-to-real-time performance for the spacecraft proximity maneuver.  相似文献   
8.
Conflict Detection and Resolution(CDR) is the key to ensure aviation safety based on Trajectory Prediction(TP). Uncertainties that affect aircraft motions cause difficulty in an accurate prediction of the trajectory, especially in the context of four-dimensional(4D) Trajectory-Based Operation(4DTBO), which brings the uncertainty of pilot intent. This study draws on the idea of time geography, and turns the research focus of CDR from TP to an analysis of the aircraft reachable space constrained by 4D waypoint constraints. The concepts of space–time reachability of aircraft and space–time potential conflict space are proposed. A novel pre-CDR scheme for multiple aircraft is established. A key advantage of the scheme is that the uncertainty of pilot intent is accounted for via a Space-Time Prism(STP) for aircraft. Conflict detection is performed by verifying whether the STPs of aircraft intersect or not, and conflict resolution is performed by planning a conflict-free space–time trajectory avoiding intersection. Numerical examples are presented to validate the efficiency of the proposed scheme.  相似文献   
9.
羊帆  张国良  田琦  王保明 《宇航学报》2018,39(2):229-238
针对自由漂浮空间机器人(Free Floating Space Robot,FFSR)的避障规划与控制问题,提出一种FFSR的避障规划-跟踪一体化控制方法。首先,基于障碍物伪距离技术,采用FFSR逆几何模型求解期望末端位姿下的连杆伪距离估计值,进而通过求解非线性优化问题,获得FFSR避障期望轨迹。其次,将全局轨迹规划与局部在线避障相结合,辅以离散状态黎卡提方程(DSDRE)控制方法实现FFSR的避障规划-跟踪一体化控制。最后,采用6R空间机器人模型验证了所提方法的有效性。仿真结果表明,该方法能够实现FFSR的避障控制,有效克服了传统FFSR控制中末端轨迹规划与控制相分离的问题,提高了FFSR的环境适应性。  相似文献   
10.
李安醍  李诚龙  武丁杰  卫鹏 《航空学报》2020,41(8):323726-323726
针对无人机在城市空域环境和密集交通流下的避撞决策问题,提出马尔科夫决策过程(MDP)和蒙特卡洛树搜索(MCTS)算法对该问题进行建模求解。蒙特卡洛树搜索算法在求解过程中为保证实时性而使其搜索深度受限,容易陷入局部最优,导致在含有静态障碍的场景中无法实现避撞的同时保证全局航迹最优。因此结合跳点搜索算法在全局规划上的优势,建立离散路径点引导无人机并改进奖励函数来权衡飞行路线,在进行动态避撞的同时实现对静态障碍的全局避撞。经过多个实验场景仿真,其结果表明改进后的算法均能在不同场景中获得更好的性能表现。特别是在凹形限飞区空域仿真模型中,改进后的算法相对于原始的蒙特卡洛树搜索算法,其冲突概率降低了36%并且飞行时间缩短47.8%。  相似文献   
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