基于Harris和卡尔曼滤波的农业机器人田间稳像算法

针对田间颠簸环境影响农业机器人采集实时稳定图像问题，提出了基于Harris和卡尔曼滤波的农业机器人田间稳像算法。首先，利用摄像头获取田间抖动视频图像序列，进行图像子区域划分并计算各区域灰度均方差，进而确定各区域Harris角点阈值；通过自适应角点阈值设置，增加角点距离约束，完成图像角点检测。然后，对检测出的角点进行光流跟踪，计算出帧间运动估计参数。最后，利用自适应卡尔曼滤波算法对运动估计参数进行平滑操作并动态调整滤波平滑性能，获得精确运动估计矢量。测试结果表明，改进后的Harris角点检测算法区域平均分布标准差减小；自适应卡尔曼滤波算法在保证平滑随机运动前提下，跟踪主动运动性能平均提升30.75个百分点；稳像后的图像峰间信噪比提升15.93%,单帧处理时间为25.66 ms,满足农业机器人30 f/s高速图像采集时同步稳像对实时性要求。     

类人机器人全能运动的稳定性研究

类人机器人全能运动包括不同粗糙平面上的快速行走、越障、踢球、格斗等,稳定性是上述运动的关键环节。本文从分析机器人关节角与零力矩点（ZMP）的关系入手,研究提高机器人运动稳定性的新方法。具体步骤是先粗调校正机器人姿态,然后确定各关节角度,得到保证稳定运动的关节角范围。最后依托韩国GP型机器人进行测试,结果表明了所提出方法的有效性。     

基于树莓派的代理机器人系统

为了弥补家庭服务从业人员的不足，解决中国的老龄化问题，本文提出了基于树莓派的代理机器人系统。该系统实现了对家居环境参数的采集，建立代理机器人与远程用户的连接，实现信息反馈和控制。     

Design of Automatic Quasi-synchronizing Device in Rural Small Hydropower Station

Generator synchronization is an important and frequent operation in rural small hydropower station. In order to ensure that generator can be paralleled in the grid automatically, efficiently, and stably in the rural small hydropower station whose parallel in operation still needs to be accomplished manually. This paper described an automatic quasi-synchronizing device, based on 89C52 Single-chip Microcomputer （SCM）. Its hardware includes three modules and its software is structuralized. The device structure is simple, and its reliability is high and the maintenance is easy. Besides, convenient Human Machine Interface （HMI） makes the parameter setting simple and flexible     

A MIMD PARALLEL ALGORITHM TO SOLVE TRIDIAGONAL TOEPLITZ LINEAR EQUATIONS

The rank one updating formula and the parallel eliminating algorithm for linear recurrence systems ane combined fo form a MTMD parallel algorithm fo solve tridiagonal Toeplitz Cinear equations. This algorithm has a simple strictire and requires onlty a few storages as well as in-terprocessor communications. There is no special demand on the number of processors in the parallel system. The speedup can come dose to p12 comparing with the LU decomposition method (p is the number of processors). It is worth pointing out that it is proposed algcmthn that considels and organizes the parallel arithmetic in the first order linear ricurrence systems with constant coefficients.     

A FINITE ELEMENT ALGORITHM FOR PARALLEL PROCESSING OF MULTI-FRONTS

In this paper,a new algorithm for solving large-scale finite element system is presented, which utilizes the architecture of parallel processing. Firstly, the structure is partitioned into sub-regions. Then multi-fronts are used to assemble and eliminate concurrently in every sub-region. Thus the condensed interface stiffness matrices and load vectors are obtained. By serially assembling and solving global equation to get interface displacements and backing to every sub-region, the inter-nodal displacements and element stresses can be solved. The results of computation show that it can not only increase the speed of computation,but also save the memory space of computer effectively. This algorithm is an effective method for solving large-scale structural finite element systems.     

移动机器人避障路径规划方法研究

以全自主移动机器人为研究平台，介绍了移动机器人的硬件体系结构、避障行为决策、避障运动控制等。提出一种足球机器人避障路径规划方法，该方法吸取了栅格法信息处理量小的优点，只对障碍物的威胁点进行检测，弥补了其在特征匹配方面的不足，同时无需考虑障碍物的运动状态和运动速度，提高了机器人避障的灵活性和鲁棒性。     

喷雾机器人远程控制系统的设计与试验研究

结合喷雾机器人作业环境的要求,开发出基于客户端/服务器模式的远程控制平台.该平台实现了通过无线网络实时传输各类数据和控制命令,客户端再现了机器人的工作环境和状态.在此基础上进行了系统性能测试和轨迹测试.试验结果表明:为了保证良好的操控性,机器人所处区域信号强度必须大于30%,操作者根据反馈信息判断机器人是否偏离预定路径,并在偏离时给予有效的纠正,为解决喷雾机器人重喷、漏喷的问题提供了一种方法.