机器人外文翻译(文献翻译,中英文翻译)

机器人外文翻译(文献翻译,中英文翻译)
机器人外文翻译(文献翻译,中英文翻译)

外文翻译

外文资料:

Robots

First, I explain the background robots, robot technology development. It should be said it is a common scientific and technological development of a comprehensive results, for the socio-economic development of a significant impact on a science and technology. It attributed the development of all countries in the Second World War to strengthen the economic input on strengthening the country's economic development. But they also demand the development of the productive forces the inevitable result of human development itself is the inevitable result then with the development of humanity, people constantly discuss the natural process, in understanding and reconstructing the natural process, people need to be able to liberate a slave. So this is the slave people to be able to replace the complex and engaged in heavy manual labor, People do not realize right up to the world's understanding and transformation of this technology as well as people in the development process of an objective need. Robots are three stages of development, in other words, we are accustomed to regarding robots are divided into three categories. is a first-generation robots, also known as teach-type robot, it is through a computer, to control over one of a mechanical degrees of freedom Through teaching and information stored procedures, working hours to read out information, and then issued a directive so the robot can repeat according to the people at that time said the results show this kind of movement again, For example, the car spot welding robots, only to put this spot welding process, after teaching, and it is always a repeat of a work It has the external environment is no perception that the force manipulation of the size of the work piece there does not exist, welding 0S It does not know, then this fact from the first generation robot, it will exist this shortcoming, it in the 20th century, the late 1970s, people started to study the second-generation robot, called Robot with the feeling that This feeling with the robot is similar in function of a certain feeling, for

instance, force and touch, slipping, visual, hearing and who is analogous to that with all kinds of feelings, say in a robot grasping objects, In fact, it can be the size of feeling out, it can through visual, to be able to feel and identify its shape, size, color Grasping an egg, it adopted a acumen, aware of its power and the size of the slide. Third-generation robots, we were a robotics ideal pursued by the most advanced stage, called intelligent robots, So long as tell it what to do, not how to tell it to do, it will be able to complete the campaign, thinking and perception of this man-machine communication function and function Well, this current development or relative is in a smart part of the concept and meaning But the real significance of the integrity of this intelligent robot did not actually exist, but as we continued the development of science and technology, the concept of intelligent increasingly rich, it grows ever wider connotations.

Now, I would like to briefly outline some of the industrial robot situation. So far, the industrial robot is the most mature and widely used category of a robot, now the world's total sales of 1.1 million Taiwan, which is the 1999 statistics, however, 1.1 million in Taiwan have been using the equipment is 75 million, this volume is not small. Overall, the Japanese industrial robots in this one, is the first of the robots to become the Kingdom, the United States have developed rapidly. Newly installed in several areas of Taiwan, which already exceeds Japan, China has only just begun to enter the stage of industrialization, has developed a variety of industrial robot prototype and small batch has been used in production.

Spot welding robot is the auto production line, improve production efficiency and raise the quality of welding car, reduce the labor intensity of a robot. It is characterized by two pairs of robots for spot welding of steel plate, bearing a great need for the welding tongs, general in dozens of kilograms or more, then its speed in meters per second a 5-2 meter of such high-speed movement. So it is generally five to six degrees of freedom, load 30 to 120 kilograms, the great space, probably expected that the work of a spherical space, a high velocity, the concept of freedom, that is to say, Movement is relatively independent of the number of components, the equivalent of our body, waist is a rotary degree of freedom We have to be able to hold his arm, Arm can be bent, then this three degrees of freedom, Meanwhile there is a wrist

posture adjustment to the use of the three autonomy, the general robot has six degrees of freedom. We will be able to space the three locations, three postures, the robot fully achieved, and of course we have less than six degrees of freedom. Have more than six degrees of freedom robot, in different occasions the need to configure.

The second category of service robots, with the development of industrialization, especially in the past decade, Robot development in the areas of application are continuously expanding, and now a very important characteristic, as we all know, Robot has gradually shifted from manufacturing to non-manufacturing and service industries, we are talking about the car manufacturer belonging to the manufacturing industry, However, the services sector including cleaning, refueling, rescue, rescue, relief, etc. These belong to the non-manufacturing industries and service industries, so here is compared with the industrial robot, it is a very important difference. It is primarily a mobile platform, it can move to sports, there are some arms operate, also installed some as a force sensor and visual sensors, ultrasonic ranging sensors, etc. It’s surrounding environment for the conduct of identification, to determine its campaign to complete some work, this is service robot’s one of the basic characteristics.

For example, domestic robot is mainly embodied in the example of some of the carpets and flooring it to the regular cleaning and vacuuming. The robot it is very meaningful, it has sensors, it can furniture and people can identify, It automatically according to a law put to the ground under the road all cleaned up. This is also the home of some robot performance.

The medical robots, nearly five years of relatively rapid development of new application areas. If people in the course of an operation, doctors surgery, is a fatigue, and the other manually operated accuracy is limited. Some universities in Germany, which, facing the spine, lumbar disc disease, the identification, can automatically use the robot-aided positioning, operation and surgery Like the United States have been more than 1,000 cases of human eyeball robot surgery, the robot, also including remote-controlled approach, the right of such gastrointestinal surgery, we see on the television inside. a manipulator, about the thickness fingers such a manipulator, inserted through the abdominal viscera, people on the screen operating the machines hand, it also used the method of laser lesion laser treatment, this is the case, people

would not have a very big damage to the human body.

In reality, this right as a human liberation is a very good robots, medical robots it is very complex, while it is fully automated to complete all the work, there are difficulties, and generally are people to participate. This is America, the development of such a surgery Lin Bai an example, through the screen, through a remote control operator to control another manipulator, through the realization of the right abdominal surgery A few years ago our country the exhibition, the United States has been successful in achieving the right to the heart valve surgery and bypass surgery. This robot has in the area, caused a great sensation, but also, AESOP's surgical robot, In fact, it through some equipment to some of the lesions inspections, through a manipulator can be achieved on some parts of the operation Also including remotely operated manipulator, and many doctors are able to participate in the robot under surgery Robot doctor to include doctors with pliers, tweezers or a knife to replace the nurses, while lighting automatically to the doctor's movements linked, the doctor hands off, lighting went off, This is very good, a doctor's assistant.

Robot is mankind's right-hand man; friendly coexistence can be a reliable friend. In future, we will see and there will be a robot space inside, as a mutual aide and friend. Robots will create the jobs issue. We believe that there would not be a "robot appointment of workers being laid off" situation, because people with the development of society, In fact the people from the heavy physical and dangerous environment liberated, so that people have a better position to work, to create a better spiritual wealth and cultural wealth.

译文资料:

机器人

首先我介绍一下机器人产生的背景,机器人技术的发展,它应该说是一个科学技术发展共同的一个综合性的结果,同时,为社会经济发展产生了一个重大影响的一门科学技术,它的发展归功于在第二次世界大战中各国加强了经济的投入,就加强了本国的经济的发展。另一方面它也是生产力发展的需求的必然结果,也是人类自身发展的必然结果,那么随着人类的发展,人们在不断探讨自然过程中,在认识和改造自然过程中,需要能够解放人的一种奴隶。那么这种奴隶就是代替人们去能够从事复杂和繁重的体力劳动,实现人们对不可达世界的认识和改造,这也是人们在科技发展过程中的一个客观需要。

机器人有三个发展阶段,那么也就是说,我们习惯于把机器人分成三类,一种是第一代机器人,那么也叫示教再现型机器人,它是通过一个计算机,来控制一个多自由度的一个机械,通过示教存储程序和信息,工作时把信息读取出来,然后发出指令,这样的话机器人可以重复的根据人当时示教的结果,再现出这种动作,比方说汽车的点焊机器人,它只要把这个点焊的过程示教完以后,它总是重复这样一种工作,它对于外界的环境没有感知,这个力操作力的大小,这个工件存在不存在,焊的好与坏,它并不知道,那么实际上这种从第一代机器人,也就存在它这种缺陷,因此,在20世纪70年代后期,人们开始研究第二代机器人,叫带感觉的机器人,这种带感觉的机器人是类似人在某种功能的感觉,比如说力觉、触觉、滑觉、视觉、听觉和人进行相类比,有了各种各样的感觉,比方说在机器人抓一个物体的时候,它实际上力的大小能感觉出来,它能够通过视觉,能够去感受和识别它的形状、大小、颜色。抓一个鸡蛋,它能通过一个触觉,知道它的力的大小和滑动的情况。第三代机器人,也是我们机器人学中一个理想的所追求的最高级的阶段,叫智能机器人,那么只要告诉它做什么,不用告诉它怎么去做,它就能完成运动,感知思维和人机通讯的这种功能和机能,那么这个目前的发展还是相对的只是在局部有这种智能的概念和含义,但真正完整意义的这种智能机器人实际上并没有存在,而只是随着我们不断的科学技术的发展,智能的概念越来越丰富,它内涵越来越宽。

下边我简单介绍一下工业机器人的一些情况。到目前为止,工业机器人是最

成熟,应用最广泛的一类机器人,世界总量目前已经销售110万台,这是1999年的统计,但这110万台在已经进行装备使用的是75万台,这个量也是不小的。总体情况看,日本在工业机器人这一块,是首位的,成为机器人的王国,美国发展也很迅速,目前在新安装的台数方面,已经超过了日本,中国刚开始进入产业化的阶段,已经研制出多种工业机器人样机,已有小批量在生产中使用。

点焊机器人主要是针对汽车生产线,提高生产效率,提高汽车焊接的质量,降低工人的劳动强度的一种机器人。它的特点是通过机器人对两个钢板进行点焊的时候,需要承载一个很大的焊钳,一般在几十公斤以上,那么它的速度要求在每秒钟一米五到两米这样的高速运动,所以它一般来说有五到六个自由度,负载三十到一百二十公斤,工作的空间很大,大概有两米,这样一个球形的工作空间,运动速度也很高,那么自由度的概念,就是说,是相对独立运动的部件的个数,就相当于我们人体,腰是一个回转的自由度,我们大臂可以抬起来,小臂可以弯曲,那么这就三个自由度,同时腕部还有一个调整姿态来使用的三个自由度,所以一般的机器人有六个自由度,就能把空间的三个位置,三个姿态,机器人完全实现,当然也有小于六个自由度的,也有多于六个自由度的机器人,只是在不同的需要场合来配置。

第二类是服务机器人,随着工业化的发展,尤其近十年以来,机器人的发展的应用领域在不断拓宽,目前一个很重要的特征,大家都知道,机器人已经从制造业逐渐转向了非制造业和服务行业,刚才谈的汽车制造属于是制造业,但服务行业包括清洁、加油、救护、抢险、救灾这些等等,都属于非制造行业和服务行业,那么这里边跟工业机器人相比,它有一个很重要的不同,它主要是一个移动平台,它能够移动、去运动,上面有一些手臂进行操作,同时还装有一些像力觉传感器和视觉传感器、超声测距传感器等等。它对周边的环境进行识别,来判断它的运动,完成某种工作,这是服务机器人的基本的一个特点。

例如,家务机器人主要体现在像一些对地毯和地板定期的它能够进行清扫和吸尘,它这个机器人很有意思,它有传感器,它能够把家具和人能识别出来,它自动的按照一种规律,能根据路径把地面全部的清扫干净,这也是家务中一些机器人的表现。

那么医疗机器人,是近五年来发展比较迅速的一个新的应用领域。如果人手术的时候,医生来手术,一个是疲劳,另一个人手操作的精度还是有限的。在德国一些大学里面,面向人的脊椎,如腰间盘突出这种病,进行识别以后,能够自

动地用机器人来辅助进行定位,进行操作和手术。像美国已经有一千多例机器人对人眼球进行手术,这样的机器人,还包括通过遥控操作的办法,实现对人的胃肠这种手术,大家在电视里边看到,一个机械手,大概有手指这样粗细的一个机械手,通过插入腹脏以后,人在屏幕上操作这个机器手,同时对它用激光的方法对病灶进行激光的治疗,这样的话,人就不用很大幅度地破坏人的身体,这实际对人的一种解放,是非常好一种机器人,医疗机器人它也很复杂,一方面它完全自动去完成各种工作,是有困难的,一般来说都是人来参与,这是美国开发的一个林白手术这样一个例子,人通过在屏幕上,通过一个遥控操作手来控制另一个机械手,实现通过对人的腹腔进行手术,前几年我们国家展览会上,美国已经成功的实现了对人的心脏瓣膜的手术和搭桥手术,这已经在机器人领域中,引起了很大的轰动,还包括,AESOP的这种外科手术机器人,它实际上通过一些仪器能够对人的一些病变进行检查,通过一个机械手就能够实现对人的某些部位进行手术,还包括遥操作机械手,以及多个医生可以在机器人共同参与下进行手术,包括机器人给大夫医生拿钳子、镊子或刀子来代替护士的工作,同时把照明能够自动的给医生的动作联系起来,医生的手到哪儿,照明就去哪儿,这样非常好的,一个医生的助手。

机器人是人类的得力助手,能友好相处的可靠朋友,将来我们会看到人和机器人会存在一个空间里边,成为一个互相的助手和朋友。机器人会不会产生饭碗的问题。我们相信不会出现“机器人上岗,工人下岗”的局面,因为人们随着社会的发展,实际上把人们从繁重的体力和危险的环境中解放出来,使人们有更好的岗位去工作,去创造更好的精神财富和文化财富。

机器人外文翻译

英文原文出自《Advanced Technology Libraries》2008年第5期 Robot Robot is a type of mechantronics equipment which synthesizes the last research achievement of engine and precision engine, micro-electronics and computer, automation control and drive, sensor and message dispose and artificial intelligence and so on. With the development of economic and the demand for automation control, robot technology is developed quickly and all types of the robots products are come into being. The practicality use of robot products not only solves the problems which are difficult to operate for human being, but also advances the industrial automation program. At present, the research and development of robot involves several kinds of technology and the robot system configuration is so complex that the cost at large is high which to a certain extent limit the robot abroad use. To development economic practicality and high reliability robot system will be value to robot social application and economy development. With the rapid progress with the control economy and expanding of the modern cities, the let of sewage is increasing quickly: With the development of modern technology and the enhancement of consciousness about environment reserve, more and more people realized the importance and urgent of sewage disposal. Active bacteria method is an effective technique for sewage disposal,The lacunaris plastic is an effective basement for active bacteria adhesion for sewage disposal. The abundance requirement for lacunaris plastic makes it is a consequent for the plastic producing with automation and high productivity. Therefore, it is very necessary to design a manipulator that can automatically fulfill the plastic holding. With the analysis of the problems in the design of the plastic holding manipulator and synthesizing the robot research and development condition in recent years, a economic scheme is concluded on the basis of the analysis of mechanical configuration, transform system, drive device and control system and guided by the idea of the characteristic and complex of mechanical configuration,

人形机器人论文中英文资料对照外文翻译

中英文资料对照外文翻译 最小化传感级别不确定性联合策略的机械手控制 摘要:人形机器人的应用应该要求机器人的行为和举止表现得象人。下面的决定和控制自己在很大程度上的不确定性并存在于获取信息感觉器官的非结构化动态环境中的软件计算方法人一样能想得到。在机器人领域,关键问题之一是在感官数据中提取有用的知识,然后对信息以及感觉的不确定性划分为各个层次。本文提出了一种基于广义融合杂交分类(人工神经网络的力量,论坛渔业局)已制定和申请验证的生成合成数据观测模型,以及从实际硬件机器人。选择这个融合,主要的目标是根据内部(联合传感器)和外部( Vision 摄像头)感觉信息最大限度地减少不确定性机器人操纵的任务。目前已被广泛有效的一种方法论就是研究专门配置5个自由度的实验室机器人和模型模拟视觉控制的机械手。在最近调查的主要不确定性的处理方法包括加权参数选择(几何融合),并指出经过训练在标准操纵机器人控制器的设计的神经网络是无法使用的。这些方法在混合配置,大大减少了更快和更精确不同级别的机械手控制的不确定性,这中方法已经通过了严格的模拟仿真和试验。 关键词:传感器融合,频分双工,游离脂肪酸,人工神经网络,软计算,机械手,可重复性,准确性,协方差矩阵,不确定性,不确定性椭球。 1 引言 各种各样的机器人的应用(工业,军事,科学,医药,社会福利,家庭和娱乐)已涌现了越来越多产品,它们操作范围大并呢那个在非结构化环境中运行 [ 3,12,15]。在大多数情况下,如何认识环境正在发生变化且每个瞬间最优控制机器人的动作是至关重要的。移动机器人也基本上都有定位和操作非常大的非结构化的动态环境和处理重大的不确定性的能力[ 1,9,19 ]。每当机器人操作在随意性自然环境时,在给定的工作将做完的条件下总是存在着某种程

工业机器人外文翻译

附录外文文献 原文 Industrial Robots Definition “A robot is a reprogrammable,multifunctional machine designed to manipulate materials,parts,tools,or specialized devices,through variable programmed motions for the performance of a variety of tasks.” --Robotics Industries Association “A robot is an automatic device that performs functions normally ascribrd to humans or a machine in orm of a human.” --Websters Dictionary The industrial robot is used in the manufacturing environment to increase productivity . It can be used to do routine and tedious assembly line jobs , or it can perform jobs that might be hazardous to do routine and tedious assembly line jobs , or it can perform jobs that might be hazardous to the human worker . For example , one of the first industrial robots was used to replace the nuclear fuel rods in nuclear power plants . A human doing this job might be exposed to harmful amounts of radiation . The industrial robot can also operate on the assembly line , putting together small components , such as placing electronic components on a printed circuit board . Thus , the human worker can be relieved of the routine operation of this tedious task . Robots can also be programmed to defuse bombs , to serve the handicapped , and to perform functions in numerous applications in our society . The robot can be thought of as a machine that will move an end-of-arm tool , sensor , and gripper to a preprogrammed location . When the robot arrives at this location , it will perform some sort of task . This task could be welding , sealing , machine loading , machine unloading , or a host of assembly jobs . Generally , this work can be accomplished without the involvement of a human being , except for programming and for turning the system on and off . The basic terminology of robotic systems is introduced in the following :

机器人结构论文中英文对照资料外文翻译文献

中英文对照资料外文翻译文献 FEM Optimization for Robot Structure Abstract In optimal design for robot structures, design models need to he modified and computed repeatedly. Because modifying usually can not automatically be run, it consumes a lot of time. This paper gives a method that uses APDL language of ANSYS 5.5 software to generate an optimal control program, which mike optimal procedure run automatically and optimal efficiency be improved. 1)Introduction Industrial robot is a kind of machine, which is controlled by computers. Because efficiency and maneuverability are higher than traditional machines, industrial robot is used extensively in industry. For the sake of efficiency and maneuverability, reducing mass and increasing stiffness is more important than traditional machines, in structure design of industrial robot. A lot of methods are used in optimization design of structure. Finite element method is a much effective method. In general, modeling and modifying are manual, which is feasible when model is simple. When model is complicated, optimization time is longer. In the longer optimization time, calculation time is usually very little, a majority of time is used for modeling and modifying. It is key of improving efficiency of structure optimization how to reduce modeling and modifying time. APDL language is an interactive development tool, which is based on ANSYS and is offered to program users. APDL language has typical function of some large computer languages. For example, parameter definition similar to constant and variable definition, branch and loop control, and macro call similar to function and subroutine call, etc. Besides these, it possesses powerful capability of mathematical calculation. The capability of mathematical calculation includes arithmetic calculation, comparison, rounding, and trigonometric function, exponential function and hyperbola function of standard FORTRAN language, etc. By means of APDL language, the data can be read and then calculated, which is in database of ANSYS program, and running process of ANSYS program can be controlled.

管道机器人外文翻译

一款使用离合器连接类型的内窥管道机器人 摘要-这篇论文展示了一款使用离合器的新型内窥管道机器人,用于直径小于或等于100mmde 管道内窥。这款机器人拥有三条驱动轴,且每条驱动轴各有一个离合器,离合器的设计依据平行联动原理。内窥管道机器人牢固的模型机构已经过驱动,原型机也被制作出来。机器人系统已经过一系列的仿真软件模拟和实验验证。 1.简介 管内机器人经过漫长的发展,根据运动模型可分为几种基本类型,比如轮驱动、蠕动、自动足、螺旋驱动、爬行、PIG和惰性运行等类型。在这些类型之中,轮式驱动应用最为广泛。在过去的十年时间间,机器人各式各样的驱动类型研究呈现井喷式增长。不同的驱动类型的机器人一般会有三个驱动轴,依靠单独控制各轴的速度,可以让机器人实现通过关节或者T型管道。而且这种类型机器人与轮式驱动、螺旋驱动和PIG等类型比较起来会有较大的可折叠区域,比较节省空间。 近来,随着小型化管道机器人市场的扩大,对直径小于100mm的管道机器人的关注同时愈来愈热。因为室内管道的清洁程度会直接影响到人的健康,因此,对室内管道的清洁与监测变得愈加重要,同时直径小于100mm的机器人也将主要用于室内管道清洁。机械装置使用的是平行连杆机构,有助于实现装置

减速功能。减速器与其他使用两个底板的典型减速器不同,第二部分将会详细介绍机器人系统的特征。第三部分将会讲解机构的运动学分析。机构的有效性将会通过软件仿真与实验验证,这些会在第四部分展示出来。最后,同时也是至关重要的是总结。 2.机器人特征 A机器人硬件设备及系统 如例1所示,机器人系统包括控制盒与机器人装备。根据模块化设置,控制盒与机器人硬件设备室分开的。 机器人硬件设备包含主体,三条链轮和如例2显示的三个离合轮部分。机器人长80mm,外扩至100mm。机械联动装置可确保制动功能的实现,这是因为装置有效避免了电磁制动器的缺点,比如滑移、电力不足以及规格限制。 例1.装备有机械离合装置的管道检测机器人系统 机器人装置可实现两种不同的操作模式:驱动模式与制动模式。驱动模式下的机器人会运行,制动模式会使机器人停止运行并且

外文翻译:机器人本科生外文翻译资料

外文翻译资料原文 学院 专业班级 学生姓名 指导教师

Robot Darrick Addison (dtadd95@https://www.360docs.net/doc/844272685.html,), Senior Software Engineer/Consultant, ASC Technologies Inc. 01 Sep 2001 "A re-programmable, multifunctional manipulator designed to move material, parts, tools, or specialized devices through various programmed motions for the performance of a variety of tasks." -- From the Robot Institute of America, 1979 Darrick Addison, an experienced developer in databases, networks, user interfaces, and embedded systems, introduces the field of robotics and the issues surrounding robotic systems. He covers mechanical design, sensory systems, electronic control, and software. He also discusses microcontroller systems, including serial and memory-mapped interfacing, and talks about some of the available open source software options. The word "robot" originates from the Czech word for forced labor, or serf. It was introduced by playwright Karel Capek, whose fictional robotic inventions were much like Dr. Frankenstein's monster -- creatures created by chemical and biological, rather than mechanical, methods. But the current mechanical robots of popular culture are not much different from these fictional biological creations. Basically a robots consists of: ? A mechanical device, such as a wheeled platform, arm, or other construction, capable of interacting with its environment ?Sensors on or around the device that are able to sense the environment and give useful feedback to the device ?Systems that process sensory input in the context of the device's current situation and instruct the device to perform actions in response to the situation In the manufacturing field, robot development has focused on engineering robotic arms that perform manufacturing processes. In the space industry, robotics focuses on highly specialized, one-of-kind planetary rovers. Unlike a highly automated manufacturing plant, a planetary rover operating on the dark side of the moon -- without radio communication -- might run into unexpected situations. At a minimum, a planetary rover must have some source of sensory input, some way of interpreting that input, and a way of modifying its actions to respond to a changing world. Furthermore, the need to sense and adapt to a partially unknown environment requires intelligence (in other words, artificial intelligence).

智能避障机器人设计外文翻译

INTELLIGENT VEHICLE Our society is awash in “machine intelligence” of various kinds.Over the last century, we have witnessed more and more of the “drudgery” of daily living being replaced by devices such as washing machines. One remaining area of both drudgery and danger, however, is the daily act ofdriving automobiles 1.2 million people were killed in traffic crashes in 2002, which was 2.1% of all globaldeaths and the 11th ranked cause of death . If this trend continues, an estimated 8.5 million people will be dying every year in road crashes by 2020. In fact, the U.S. Department of Transportation has estimated the overall societal cost of road crashes annually in the United States at greater than $230 billion. When hundreds or thousands of vehicles are sharing the same roads at the same time, leading to the all too familiar experience of congested traffic. Traffic congestion undermines our quality of life in the same way air pollution undermines public health.Around 1990, road transportation professionals began to apply them to traffic and road management. Thus was born the intelligent transportation system(ITS). Starting in the late 1990s, ITS systems were developed and deployed. In developed countries, travelers today have access to signifi-cant amounts of information about travel conditions, whether they are driving their own vehicle or riding on public transit systems. As the world energy crisis, and the war and the energy

搬运机器人外文翻译

外文翻译 专业机械电子工程 学生姓名张华 班级 B机电092 学号 05 指导教师袁健

外文资料名称:Research,design and experiment of end effector for wafer transfer robot 外文资料出处:Industrail Robot:An International Journal 附件: 1.外文资料翻译译文 2.外文原文

晶片传送机器人末端效应器研究、设计和实验 刘延杰、徐梦、曹玉梅 张华译 摘要:目的——晶片传送机器人扮演一个重要角色IC制造行业并且末端执行器是一个重要的组成部分的机器人。本文的目的是使晶片传送机器人通过研究其末端执行器提高传输效率,同时减少晶片变形。 设计/方法/方法——有限元方法分析了晶片变形。对于在真空晶片传送机器人工作,首先,作者运用来自壁虎的超细纤维阵列的设计灵感研究机器人的末端执行器,和现在之间方程机器人的交通加速度和参数的超细纤维数组。基于这些研究,一种微阵列凹凸设计和应用到一个结构优化的末端执行器。对于晶片传送机器人工作在大气环境中,作者分析了不同因素的影响晶片变形。在吸收面积的压力分布的计算公式,提出了最大传输加速度。最后, 根据这些研究得到了一个新的种末端执行器设计大气机器人。 结果——实验结果表明, 通过本文研究应用晶片传送机器人的转换效率已经得到显着提高。并且晶片变形吸收力得到控制。 实际意义——通过实验可以看出,通过本文的研究,可以用来提高机器人传输能力, 在生产环境中减少晶片变形。还为进一步改进和研究末端执行器打下坚实的基础,。 创意/价值——这是第一次应用研究由壁虎启发了的超细纤维阵列真空晶片传送机器人。本文还通过有限元方法仔细分析不同因素在晶片变形的影响。关键词:晶片传送机器人末端执行器、超细纤维数组、晶片 1.介绍

人工智能专业外文翻译-机器人

译文资料: 机器人 首先我介绍一下机器人产生的背景,机器人技术的发展,它应该说是一个科学技术发展共同的一个综合性的结果,同时,为社会经济发展产生了一个重大影响的一门科学技术,它的发展归功于在第二次世界大战中各国加强了经济的投入,就加强了本国的经济的发展。另一方面它也是生产力发展的需求的必然结果,也是人类自身发展的必然结果,那么随着人类的发展,人们在不断探讨自然过程中,在认识和改造自然过程中,需要能够解放人的一种奴隶。那么这种奴隶就是代替人们去能够从事复杂和繁重的体力劳动,实现人们对不可达世界的认识和改造,这也是人们在科技发展过程中的一个客观需要。 机器人有三个发展阶段,那么也就是说,我们习惯于把机器人分成三类,一种是第一代机器人,那么也叫示教再现型机器人,它是通过一个计算机,来控制一个多自由度的一个机械,通过示教存储程序和信息,工作时把信息读取出来,然后发出指令,这样的话机器人可以重复的根据人当时示教的结果,再现出这种动作,比方说汽车的点焊机器人,它只要把这个点焊的过程示教完以后,它总是重复这样一种工作,它对于外界的环境没有感知,这个力操作力的大小,这个工件存在不存在,焊的好与坏,它并不知道,那么实际上这种从第一代机器人,也就存在它这种缺陷,因此,在20世纪70年代后期,人们开始研究第二代机器人,叫带感觉的机器人,这种带感觉的机器人是类似人在某种功能的感觉,比如说力觉、触觉、滑觉、视觉、听觉和人进行相类比,有了各种各样的感觉,比方说在机器人抓一个物体的时候,它实际上力的大小能感觉出来,它能够通过视觉,能够去感受和识别它的形状、大小、颜色。抓一个鸡蛋,它能通过一个触觉,知道它的力的大小和滑动的情况。第三代机器人,也是我们机器人学中一个理想的所追求的最高级的阶段,叫智能机器人,那么只要告诉它做什么,不用告诉它怎么去做,它就能完成运动,感知思维和人机通讯的这种功能和机能,那么这个目前的发展还是相对的只是在局部有这种智能的概念和含义,但真正完整意义的这种智能机器人实际上并没有存在,而只是随着我们不断的科学技术的发展,智能的概念越来越丰富,它内涵越来越宽。 下面我简单介绍一下我国机器人发展的基本概况。由于我们国家存在很多其

管道机器人(英文)

A SIMPLE ARCHITECTURE FOR IN-PIPE INSPECTION ROBOTS Mihaita HORODINCA, Ioan DOROFTEI, Emmanuel MIGNON, André PREUMONT Active Structures Laboratory UNIVERSITE LIBRE DE BRUXELLES Av. F. D. Roosevelt 50, cp 165/42, Brussels, Belgium Phone: (32)2-6504663 Fax: (32)2-6504660 e-mail: andre.preumont@ulb.ac.be Abstract: The paper presents an original robot architecture for in-pipe inspection. The robot consists of two parts articulated with a universal joint. One part is guided along the pipe by a set of wheels moving parallel to the axis of the pipe, while the other part is forced to follow an helical motion thanks to tilted wheels rotating about the axis of the pipe. A single motor is placed between the two bodies to produce the motion. All the wheels are mounted on a suspension to accommodate for changing tube diameter and curves in the pipe. The robot is autonomous and carries its own batteries and radio link. Four different prototypes have been constructed for pipe diameters of 170, 70 and 40 mm, respectively. For smaller diameters, the batteries and the radio receiver may be placed on an additional body attached to the others. The autonomy of the prototypes is about 2 hours. This architecture is very simple and the rotary motion can be exploited to carry out scrubbing or inspection tasks. Keywords: Autonomous mobile robot, In-pipe inspection, Helical motion Introduction Pipe inspection robots have been studied for a long time, and many original locomotion concepts have been proposed to solve the numerous technical difficulties associated with the change in pipe diameter, curves and energy supply. Although an exhaustive review of the literature is impossible due to the limited space available, a few broad categories can be identified: (i) For small size, many projects follow the earthworm principle consisting of a central part moving axially while the two end parts are provided with blocking devices connected temporarily to the pipe. Pneumatic versions of this concept have been proposed (e.g. [1]), but they require an umbilical for power. For smaller diameter (10 mm or less), a piezoelectric actuation has been considered, according to the inchworm principle, or according to an inertial locomotion driven by a saw-tooth wave voltage [2], or using vibrating fins with differential friction coefficients [3]. (ii) For medium size piping, classical electromechanical systems have been proposed with various architectures involving wheels and tracks, with more or less complicated kinematical structures, depending on the diameter adaptability and turning capability (e.g. [4,5]). (iii) For large pipes, walking tube crawlers have also been proposed [6].

外文翻译-多自由度步行机器人

多自由度步行机器人 摘要在现实生活中设计一款不仅可以倒下而且还可以站起来的机器人灵活智能机器人很重要。本文提出了一种两臂两足机器人,即一个模仿机器人,它可以步行、滚动和站起来。该机器人由一个头,两个胳膊和两条腿组成。基于远程控制,设计了双足机器人的控制系统,解决了机器人大脑内的机构无法与无线电联系的问题。这种远程控制使机器人具有强大的计算头脑和有多个关节轻盈的身体。该机器人能够保持平衡并长期使用跟踪视觉,通过一组垂直传感器检测是否跌倒,并通过两个手臂和两条腿履行起立动作。用实际例子对所开发的系统和实验结果进行了描述。 1 引言随着人类儿童的娱乐,对于设计的双足运动的机器人具有有站起来动作的能力是必不可少。 为了建立一个可以实现两足自动步行的机器人,设计中感知是站立还是否躺着的传感器必不可少。两足步行机器人它主要集中在动态步行,作为一种先进的控制问题来对待它。然而,在现实世界中把注意力集中在智能反应,更重要的是创想,而不是一个不会倒下的机器人,是一个倒下来可以站起来的机器人。 为了建立一个既能倒下又能站起来的机器人,机器人需要传感系统就要知道它是否跌倒或没有跌倒。虽然视觉是一个机器人最重要的遥感功能,但由于视觉系统规模和实力的限制,建立一个强大的视觉系统在机器人自己的身体上是困难的。如果我们想进一步要求动态反应和智能推理经验的基础上基于视觉的机器人行为研究,那么机器人机构要轻巧足以够迅速作出迅速反应,并有许多自由度为了显示驱动各种智能行为。至于有腿机器人,只有一个以视觉为基础的

小小的研究。面临的困难是在基于视觉有腿机器人实验研究上由硬件的显示所限制。在有限的硬件基础上是很难继续发展先进的视觉软件。为了解决这些问题和推进基于视觉的行为研究,可以通过建立远程脑的办法。身体和大脑相连的无线链路使用无线照相机和远程控制机器人,因为机体并不需要电脑板,所以它变得更加容易建立一个有许多自由度驱动的轻盈机身。 在这项研究中,我们制定了一个使用远程脑机器人的环境并且使它执行平衡的视觉和起立的手扶两足机器人,通过胳膊和腿的合作,该系统和实验结果说明如下。图 1 远程脑系统的硬件配置图 2 两组机器人的身体结构 2 远程脑系统 远程控制机器人不使用自己大脑内的机构。它留大脑在控制系统中并且与它用无线电联系。这使我们能够建立一个自由的身体和沉重大脑的机器人。身体和大脑的定义软件和硬件之间连接的接口。身体是为了适应每个研究项目和任务而设计的。这使我们提前进行研究各种真实机器人系统。 一个主要利用远程脑机器人是基于超级并行计算机上有一个大型及重型颅脑。虽然硬件技术已经先进了并拥有生产功能强大的紧凑型视觉系统的规模,但是硬件仍然很大。摄像头和视觉处理器的无线连接已经成为一种研究工具。远程脑的做法使我们在基于视觉机器人技术各种实验问题的研究上取得进展。 另一个远程脑的做法的优点是机器人机体轻巧。这开辟了与有腿移动机器人合作的可能性。至于动物,一个机器人有 4 个可以行走的四肢。我们的重点是基于视觉的适应行为的4肢机器人、机械动物,在外地进行试验还没有太多的研究。 大脑是提出的在母体环境中通过接代遗传。大脑和母体可以分享新设计

智能机器人外文翻译

Robot Robot is a type of mechantronics equipment which synthesizes the last research achievement of engine and precision engine, micro-electronics and computer, automation control and drive, sensor and message dispose and artificial intelligence and so on. With the development of economic and the demand for automation control, robot technology is developed quickly and all types of the robots products are come into being. The practicality use of robot products not only solves the problems which are difficult to operate for human being, but also advances the industrial automation program. At present, the research and development of robot involves several kinds of technology and the robot system configuration is so complex that the cost at large is high which to a certain extent limit the robot abroad use. To development economic practicality and high reliability robot system will be value to robot social application and economy development. With the rapid progress with the control economy and expanding of the modern cities, the let of sewage is increasing quickly: With the development of modern technology and the enhancement of consciousness about environment reserve, more and more people realized the importance and urgent of sewage disposal. Active bacteria method is an effective technique for sewage disposal,The lacunaris plastic is an effective basement for active bacteria adhesion for sewage disposal. The abundance requirement for lacunaris plastic makes it is a consequent for the plastic producing with automation and high productivity. Therefore, it is very necessary to design a manipulator that can automatically fulfill the plastic holding. With the analysis of the problems in the design of the plastic holding manipulator and synthesizing the robot research and development condition in recent years, a economic scheme is concluded on the basis of the analysis of mechanical configuration, transform system, drive device and control system and guided by the idea of the characteristic and complex of mechanical configuration, electronic, software and hardware. In this article, the mechanical configuration combines the character of direction coordinate and the arthrosis coordinate which can improve the stability and operation flexibility of the system. The main function of the transmission mechanism is to transmit power to implement department and complete the necessary movement. In this transmission structure, the screw transmission mechanism transmits the rotary motion into linear motion. Worm gear can give vary transmission

相关文档
最新文档