Configuration Synthesis and Grasping Performance Analysis of Multi-Loop Coupling Capture Mechanism for Launch and Recovery of Torpedo-Shaped Autonomous Underwater Vehicle

Research of capture mechanisms with strong capture adaptability and stable grasp is important to solve the problem of launch and recovery of torpedo-shaped autonomous underwater vehicles(AUVs).A multi-loop coupling capture mechanism with strong adaptability and high retraction rate has been proposed for the launch and recovery of torpedo-shaped AUVs with different morphological features.Firstly,the principle of capturing motion retraction is described based on the appearance characteristics of torpedo-shaped AUVs,and the configuration synthesis of the capture mechanism is carried out using the method of constrained chain synthesis.Secondly,the screw theory is employed to analyze the degree of freedom(DoF)of the capture mechanism.Then,the 3D model of the capture mechanism is established,and the kinematics and dynamics simulations are carried out.Combined with the capture orientation requirements of the capture mechanism,the statics and vibration characteristics analyses are carried out.Furthermore,considering the capture process and the underwater working environment,the motion characteristics and hydraulics characteristics of the capture mechanism are analyzed.Finally,a principle prototype is developed and the torpedo-shaped AUVs capture experiment is completed.The work provides technical reserves for the research and development of AUV capture special equipment.

Global and International Security Under Spatial Grasp Paradigm

Global and international security cannot be provided from a single point or a set of separate points whatever powerful these might be(even with quantum supercomputers!).It should rather be deeply embedded and integrated with bodies of real systems wherever in physical,virtual,or combined spaces they may exist.So global security capabilities should not only be distributed,but rather be really spatial,self-organized,and dynamic,also exhibiting overall integrity,awareness,and consciousness features.The paper describes applicability of the patented and revealed in 10 books Spatial Grasp Model and Technology(SGT)and its basic Spatial Grasp Language(SGL)which conceptually and functionally match security problems of large distributed and heterogeneous systems.It investigates very practical security solutions for finding and tracing distribution of forbidden items,world roaming criminals,recovery from natural and human-made disasters,tracing and elimination of moving dangerous objects in terrestrial and celestial spaces,as well as analysis and restoration of damaged transport networks.It advises how different security infrastructures can be organized and managed,and how to cooperate and integrate within global security systems with higher awareness and consciousness levels over them.The provided security-oriented version of SGL can be quickly implemented and integrated with existing distributed management and security systems.

基于GRASPS设计工具的八年级英语项目化教学实践研究——以“情景剧表演”为例

《英语课程标准》的基本原则中提到:要加强课程综合,注重关联,突出实践。然而传统的英语课堂只重视学生对英语知识的机械输入和积累,忽视学生英语学习过程的启发,特别是英语语言的实践活动,导致学生被动学习,课堂教学低效。笔者基于八年级学生的认知特点,以生活化的情景剧为表现形式,依托GRASPS设计工具和项目化学习进行教学改革,创设真实情境、突出学生主体、建立有效评价,给学生主动参与、体验、实践的机会,提升学生运用所学语言和跨学科知识创造性解决问题的能力。

Providing Global Awareness in Distributed Dynamic Systems

The paper investigates applicability of the developed high-level model and technology for solution of diverse problems in large distributed dynamic systems which can provide sufficient awareness of their structures,organization,and functionalities.After the review of meanings of awareness and existing approaches for its expression and support,the paper shows application of the Spatial Grasp Model and Technology(SGT)and its basic Spatial Grasp Language(SGL)for very practical awareness solutions in large distributed dynamic systems,with obtaining any knowledge from any point inside or outside the system.The self-evolving,self-replicating,and self-recovering scenario code in SGL can effectively supervise distributed systems under any circumstances including rapidly changing number of their elements.Examples are provided in SGL for distributed networked systems showing how in any node any information about other nodes and links,including the whole system,can be obtained by using network requesting patterns based on recursive scenarios combining forward and backward network matching and coverage.The returned results may be automatically organized in networked patterns too.The presented exemplary solutions are parallel and fully distributed,without the need of using vulnerable centralized resources,also very compact.This can be explained by fundamentally different philosophy and ideology of SGT which is not based on traditional partitioned systems representation and multiple agent communications.On the contrary,SGT and its basic language supervise and control distributed systems by holistic self-spreading recursive code in wavelike,virus-like,and even“soul-like”mode.

基于GRASPS的小学信息科技表现性任务设计——以《“服”想连篇》一课为例

作者利用GRASPS工具,立足核心素养导向,以“在线学习与生活”模块为例,挖掘基本问题,确立任务目标,设计评估标准与评价标准,设计了《“服”想连篇》一课的表现性任务,以期能够为测评信息学科核心素养提供新路经。

考虑电池充电的无人机车辆物流配送模型

“最后一公里”物流配送是物流终端面对客户的最后一环。车载无人机的配送模式克服了道路对车辆的限制,但由于无人机的电池容量有限导致续航时间短,而每次完成配送任务回收无人机需要更换电池,使得人力成本以及配送时间的增加。基于这种无人机车辆的协同配送模式,考虑了无人机的电池电量消耗和在车辆上的充电速率限制,提出无人机在无配送任务时在车辆进行充电的配送路径规划模型。设计了一种结合遗传算法和邻域搜索算法的改进GRASP(greedy randomized adaptive search procedure)算法来求解模型。基于设计测试集进行测试实验,并对影响路径规划的主要因素进行灵敏度分析,以充分利用无人机的配送能力。

基于机器视觉的堆叠货箱抓取系统设计

针对冷链运输领域自动化水平低的问题,设计一套基于机器视觉的堆叠货箱抓取系统。基于Matlab标定工具完成相机标定,得到坐标系转换数学模型,使用改进Canny边缘检测算法提取图像中堆叠货箱的位置信息,通过PLC控制卸货机器人按照既定程序实现对冷链集装箱中堆叠货箱的抓取作业。实验结果表明:图像处理时间小于2 ms,抓取效率可达5 s/件,抓取位置误差小于5 mm,完全满足工业生产要求。

基于视觉的机器人抓取系统设计

为提高流水线工件装配的自动化水平及柔性,设计了基于视觉的机器人抓取系统。在流水线工位上方安装机器视觉系统,采集工件图像,通过编制的图像处理程序,完成工件类型识别和定位,引导机器人手臂抓取物料并摆放至物料区,最后完成工件装配。系统实际运行中能够对流水线上任意摆放位置的不同工件进行抓取,同时精确完成不同工件的装配任务。结果表明,机器人抓取系统具有高抗干扰能力和较强的柔性,能够提升生产线的工作效率。

基于GRASP的系统维修时间和维修工时模型

介绍了 GRASP方法并分析了系统维修性问题的特点 ,建立了基于 GRASP方法的维修时间与维修工时模型 ,并进行了实例研究。实践表明 ,该模型方便可行 ,是工程上解决维修时间和维修工时问题的重要工具之一。

基于改进的GRASP算法的飞机优化恢复研究

当执行航班计划过程中发生不可预见的事件导致航班延误或取消时,航空公司必须采取措施进行航班恢复.航班恢复包括飞机恢复、机组恢复及乘客恢复,其中飞机恢复是航空公司考虑的首要因素.文中通过系统分析飞机排班工作的要求和流程,提出了飞机恢复的数学模型.为了满足实时解算的要求,文中采用改进的贪婪随机自适应搜索过程(greedyrandomized adaptive search procedure,GRASP)进行求解.文中采用某航空公司的真实数据,计算结果表明:所提出的模型可以给出相对优化的恢复方案,可用于航空公司的航空恢复.

HT22细胞氧糖剥夺再灌注及Grasp65过表达干预后高尔基体的形态变化及其可能机制研究

目的探讨HT22细胞氧糖剥夺再灌注及Grasp65过表达干预后高尔基体的形态变化及其可能机制。方法利用小鼠海马神经元细胞系HT22为研究对象,HT22细胞经氧糖剥夺再灌注损伤及Grasp65过表达干预后,采用MTT法检测细胞存活率;Hoechest33258荧光染色法评估细胞凋亡;并应用细胞免疫荧光技术观察高尔基体的形态;应用Western blot技术检测GM130和GAAP蛋白的表达。结果氧糖剥夺再灌注可导致HT22细胞的活性显著降低(P<0.05),凋亡率显著增高(P<0.05);并可导致高尔基体形态的异常,随着再灌注时间的延长,高尔基体逐渐发生碎裂,尤其以再灌注12 h和24 h最为明显;GM130、GAAP的表达水平在氧糖剥夺再灌注后出现下降,特别是在再灌注12 h、24 h后出现了显著下降(P<0.05)。过表达Grasp65后,HT22细胞在氧糖剥夺再灌注所致高尔基体碎裂出现减少(P<0.05),碎裂程度减轻,同时GM130和GAAP的表达均显著增加(P<0.05),HT22细胞的存活率大大提高(P<0.05),凋亡率显著降低(P<0.05)。结论缺血再灌注损伤的细胞模型中,同样发生了高尔基体的碎裂;过表达Grasp65可以减轻氧糖剥夺再灌注损伤所致的高尔基体碎裂,并可以减少HT22细胞的凋亡,其机制可能与上调GM130和GAAP的表达有关。

类氧铥离子辐射跃迁几率和激发态寿命的GRASP计算

使用扩展的相对论多组态自洽场方法计算了类氧铥离子的精细结构能级、跃迁波长、自发辐射跃迁几率、受激辐射跃迁几率、振子强度和激发态寿命。从计算结果中发现：在３ｐ－３ｓ 跃迁中有４个跃迁很有可能实现粒子数反转而辐射激光。

基于SGRASP-LP算法的混流装配线排序问题

针对实际混流装配线上工作站工作过载过大、无效时间过长导致的装配线运行效率低下问题,在保留基本模型约束条件的基础上引入“保持生产混合”和“作业自主中断”两个约束条件,建立以“最小化工作过载和无效时间”为目标的混流装配线排序问题优化模型。在基本GRASP算法的初始解构造阶段增加阈值参数选择机制,并将改进后的GRASP算法与线性规划方法结合,设计了模型的SGRASP-LP求解算法。以某汽车企业的底盘装配线为例,将SGRASP-LP算法分别与GRASP算法和企业解决该类问题常用的MILP算法相比较。结果表明,SGRASP-LP算法运算速度更快,所求方案更优,是解决相关排序问题的有效算法。

机器人随动挂件系统设计与应用

针对刹车鼓悬挂链输送线上人工完成挂件效率低、劳动强度大、易发安全事故、自动化程度不高、存在工件磕碰伤等问题,应用2D视觉技术和机器人随动技术,设计了一种机器人随动挂件系统,并应用到悬挂链输送线上,实现了刹车鼓工件的型号识别、自动抓取、随动挂件、产品信息追溯。实际使用结果表明:机器人代替人工完成挂件,生产效率提高25%,杜绝安全事故发生,避免工件磕碰造成损伤,提高企业自动化生产水平,具有良好的推广价值。

中药自动抓配系统的设计

随着中医药的发展,中药文化在传统医学体系中扮演着重要的角色,为了解决医药医生抓配中药困难的问题,设计了一款基于STM32的中药抓配系统。设备上位机接收医生开出的药单,通过串口通信下发指令给抓配设备的主控,抓药设备根据接收的指令,控制药柜前的横向与纵向步进电机、称重传感器等设备,实现对中药材的自动抓配。医生通过上位机对中药抓配过程进行远程监控。该系统通过数字化、智能化的手段,提高了中药抓配的精准性和效率,也促进了中医药的传统文化与现代科技的融合。

基于CVCS的浮法玻璃冷端机械手堆垛系统调度问题

采用目前生产线上常用的高速堆垛机(High-Speed-Stacker, HSS)和即时分拣机(Pick-on-the-Fly,POF)两种机械手分别堆垛不同规格的玻璃原片,目标是最小化玻璃的废料率。针对切割和抓取自动化过程,提出了一种组合Unit的方法最大化生产效率,并在此基础上采用了平衡Unit的优化方法。根据两种类型机械手是否同时工作,提出了混合抓取和分类抓取两种解决方案。最后针对抓取阶段的特点提出了一种组合变异布谷鸟搜索(Combination Variation Cuckoo Search,CVCS)算法,引入了内外逆序和多领域插入变异操作,防止算法陷入局部最优。仿真实验采用响应面分析法对CVCS进行参数标定。并将CVCS与MMGA、BPSO、DABC、CS算法进行了对比分析,实验结果验证了CVCS算法解决该问题的优越性。

基于GRASP算法的多成像卫星协同观测调度

针对摘要多成像卫星协同观测调度问题,具有观测任务的时间窗口、卫星存储及能量等约束,是一个NP难的组合优化问题。建立了多成像卫星协同观测调度模型,采用贪婪随机自适应搜索算法(GRASP)对问题模型进行求解,并且对基本的GRASP算法做出了一定的改进,在其初始解的构造阶段设计了定长受限候选列表和变长受限候选列表两种策略,在邻域搜索阶段结合模拟退火算法来搜索更好的解。仿真实例表明,该算法在解决成像卫星任务调度问题时是有效的。

机器人立式纸箱自动开箱套箱成型系统设计及应用

针对烟草生产线预压打包段前采用人工完成纸箱开箱套箱成型,存在人工成本高、生产效率及自动化程度低等问题,论文设计了一套以机器人为核心多设备协同作业的立式纸箱自动开箱套箱成型系统。该系统主要由机器人抓取系统、内外箱上料装置及内箱盖折叠装置等组成,利用机器人臂在作业空间多自由度运动控制特点,设计出一套适应纸箱成型的工艺动作流程,满足了企业对生产线高度自动化的需求。以复烤片烟包装用瓦楞纸箱为对象进行测试,应用效果表明:该系统能够完全替代人工实现纸箱的自动开箱套箱成型,其额定生产能力可达63箱/h,内外箱套箱成功率可达99%以上,作业人员由5人减至1人,显著提高了生产自动化程度及效率。

GRASP65的表达对胃癌细胞增殖、凋亡、迁移和侵袭的影响

目的:探讨高尔基体堆叠蛋白65(Golgi reassembly stacking protein 65,GRASP65)在体外对人胃癌细胞增殖、凋亡、迁移和侵袭能力的影响。方法:首先,通过Western blot和RT-qRCR鉴别低分化胃癌细胞MKN-45、中分化胃癌细胞SGC-7901、高分化胃癌细胞MKN-28和正常胃黏膜细胞GES-1中GRASP65蛋白和mRNA的表达量。然后,用si RNA干扰技术通过Lipofectamine 2000瞬时转染下调和MKN-45细胞中GRASP65的表达量。用qRT-PCR和Western blot检测转染后各组细胞中GRASP65的蛋白和mRNA表达量以证实转染成功。最后,用CCK-8、流式细胞术、Transwell迁移和侵袭实验检测转染后的各组胃癌细胞增殖、凋亡、迁移和侵袭能力的改变。结果:Western blot和qRT-RCR结果显示MKN-45细胞和SGC-7901细胞中GRASP65的蛋白和mRNA表达量明显高于MKN-28细胞和GES-1细胞中GRASP65蛋白和mRNA表达量(P<0.05),故选择低分化胃癌细胞MKN-45作为实验细胞株来下调GRASP65的表达量。qRT-PCR和Western blot结果证明转染成功,转染组GRASP65的mRNA和蛋白表达量与阴性对照组和空白对照组对比有统计学意义(P<0.05)。CCK-8、流式细胞术、Transwell迁移和侵袭实验均证明,下调MKN-45细胞的GRASP65的表达量可抑制胃癌细胞MKN-45体外增殖、迁移和侵袭能力,并促进细胞凋亡。结论:下调GRASP65的表达可明显减弱胃癌细胞的体外增殖能力,同时促进胃癌细胞的凋亡、体外侵袭和迁移。

Task Oriented Optimal Grasp Planning by Three Fingered Robot Hands

This paper presents a way for research on grasp planning of three fingered robot hands. According to the assortment of human hand grasping, two typical grasping poses for three finger grasps are summarized. The task requirements, the geometrical and physical features of the object and the information from the environment are synthesized. Grasp pose is deduced by task analysis, and the graspable plane is sought and determined. The process of grasp planning is finally carried out by determining three grasp points on the feasible grasp plane.