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1、精选优质文档-倾情为你奉上外 文 翻 译Introduction to RoboticsMechanics and Control机器人学入门力学与控制系别:机械与汽车工程系专业名称:机械设计制造及其自动化 学生姓名:郭仕杰学号: 指导教师姓名、职称: 贺秋伟 副教授完成日期 2014 年2 月28日Introduction to RoboticsMechanics and ControlAbstractThis book introduces the science and engineering of mechanical manipulation. This branch of the
2、robot has been in several classical field based. The main related fields such as mechanics, control theory, computer science. In this book, Chapter 1 through 8 topics ranging from mechanical engineering and mathematics, Chapter 9 through 11 cover control theory of material, and twelfth and 13 may be
3、 classified as computer science materials. In addition, this book emphasizes the computational aspects of the problem; for example, each chapter it mainly mechanical has a brief section calculation. This book is used to teach the class notes introduction to robotics, Stanford University in the fall
4、of 1983 to 1985. The first and second versions have been through 2002 in use from 1986 institutions. Using the third version can also benefit from the revised and improved due to feedback from many sources. Thanks to all those who modified the author's friends. This book is suitable for advanced
5、 undergraduates the first grade curriculum. If students have contributed to the dynamics and linear algebra course in advanced language program in a basic course of statics. In addition, it is helpful, but not absolutely necessary, let the students finish the course control theory. The purpose of th
6、is book is a simple introduction to the material, intuitive way. Specifically, does not need the audience mechanical engineer strict, although much of the material is from the field. At the Stanford University, many electrical engineers, computer scientists, mathematicians find this book very readab
7、le. Here we only on the important part to extract.The main content1、 Background The historical characteristics of industrial automation is popular during the period of rapid change. Either as a cause or an effect of automation technology, period of this change is closely linked to the world economy.
8、 Use of industrial robots, can be identified in a unique device 1960's, with the development of computer aided design (CAD) system and computer aided manufacturing (CAM) system, the latest trends, automated manufacturing process. The technology is the leading industrial automation through anothe
9、r transition, its scope is still unknown. In the northern America, machinery and equipment used in early 80's of the 20th century, the late 80's of the 20th century a short pull. Since then, the market more and more (Figure 1.1), although it is affected by economic fluctuations, all the mark
10、et. Figure 1.2 shows the robots were installed in a large number of annual world industrial zone. Notably, the number of Japan's report is different from other areas: they count the number of machine of robot in other parts of the world are not considered robot (instead, they would simply be con
11、sidered "factory machines"). Therefore, the reported figures for the Japanese exaggerated.One of the main reason for the growth in the use of industrial robots is that they are falling costs. Fig. 1.3 shows that, in the last century 90's ten years, robot prices dropped although human l
12、abor costs. At the same time, the robot is not only cheaper, they become more effective and faster, more accurate, more flexible. If we factor these quality adjusted to the number, the use of robots to decrease the cost of even than their price tag faster. More cost-effective in the robot they becom
13、e, as human labor to become more expensive, more and more industrial work become robot automation candidate. This is the most important trend to promote the industrial robot market growth. The second trend is, in addition to the economic, as robots become more can become more tasks they can do, may
14、have on human workers engaged in dangerous or impossible. Industrial robots perform gradually get more complex, but it is still, in 2000, about 78% installation welding or material handling robot in USA robot.A more challenging field, industrial robots, accounted for 10% unit. This book focuses on t
15、he dynamics and control of the most important forms of industrial robot, manipulator. What is the industrial robot is sometimes debate. Equipment, as shown in Figure 1.4 is always included, and CNC milling machine (NC) is usually not. The difference lies in the programmable complex place if a mechan
16、ical device can be programmed to perform a variety of applications, it may be an industrial robot. This is the part of a limited class of tasks are considered fixed automation. For the purpose of this difference, do not need to be discussed; the basic properties of most materials suitable for variou
17、s programmable machine.In general, the mechanical and control research of the mechanical hand is not a new science, but a collection of the theme from the "classic" field. Mechanical engineering helps to machine learning methods for static and dynamic conditions. The mathematical descripti
18、on of movement of the tool manipulator space supply and other attributes. Provide design evaluation tool to realize the motion and force the desired algorithm control theory. Electrical engineering technology applied in the design of electrical engineering technology for sensor applied in design and
19、 industrial robot interface sensor, are programmed to perform the required task of basic computer science and the equipment.Figures:FIGURE 1.1: Shipments of industrial robots in North America in millions of USdollarsFIGURE 1.2: Yearly installations of multipurpose industrial robots for 1995-2000 and
20、forecasts for 2001-2004FIGURE 1.3: Robot prices compared with human labor costs in the 1990sFIGURE 1.4:The Adept 6 manipulator has six rotational joints and is popular in manyapplications. Courtesy of Adept Technology, Inc.2、 Control of mechanical armIn the study of robots, 3D spatial position we co
21、nstantly to the object of interest. These objects are all manipulator links, parts and tools, it deals, and other objects in the robot's environment. In a coarse and important level, these objects are described by two attributes: the position and direction. Of course, a direct interest in the to
22、pic is the attitude in which we represent these quantities and manipulate their mathematics.In order to describe the human body position in space and direction, we will always highly coordinate system, or frame, rigid object. Then we continue to describe the position and orientation of the reference
23、 frame of the coordinate system. Any framework can be used as a reference system in the expression of a body position and direction, so we often think of conversion or transformation of the body of these properties from one frame to another description. The 2 chapter discusses the Convention methods
24、 of dealing with job descriptions discussed method of treating and post convention described positioning and manipulation of coordinate system the quantity and mathematics different. Well developed skills relevant to the position and rotation of the description and is very useful in the field of rig
25、id robot.Kinematics is the science of sports, the movement does not consider the force which resulted in it. In the scientific research of kinematics, a position, velocity, acceleration, and the location variable high order derivative (with respect to time of all or any of the other variables (S). T
26、herefore, the kinematics of manipulator is refers to the geometric and temporal characteristics of all movement. The manipulator comprises nearly rigid connection, which is the relative movement of the joint connection of adjacent links. These nodes are usually instrument position sensor, so that ad
27、jacent link is a relative position measurement. In the case of rotating or rotary joint, the displacement is called the joint angle. Some robots including sliding (or prism) connection, in which the connection between the relative displacement is a translation, sometimes called the joint offset. The
28、 manipulator has a number of independent position variables are specified as the mechanism to all parts of the. This is a very general term, any mechanism. For example, a four connecting rod mechanism has only one degree of freedom (even with three members of the movement). In the case of the typica
29、l industrial robots, because the robots is usually an open kinematic chain, because each joint position usually define a variable, the node is equal to the number of degrees of freedom.The free end of the link chain consisting of the manipulator end effector. According to the application of robot, t
30、he end effector can be a starting point, the torch, electromagnet, or other device. We usually by mechanical hand position description framework description tool, which is connected to the end effector, relative to the base, the base of the mobile manipulator. In the study of mechanical operation of
31、 a very basic problem is the kinematics. This is to compute the position of mechanical static geometric problems in hand terminal positioning. Specifically, given a set of joint angles, the forward kinematics problem is to compute the position and orientation relative to the base of the tool holder.
32、 Sometimes, we think this is a change from the joint space is described as a manipulator position that Cartesian space description. "This problem will be discussed in the 3 chapter. In the 4 chapter, we will consider the inverse kinematics problem. The problems are as follows: the end effector
33、position and direction of the manipulator, computing all possible joint angle, can be used to achieve the position and direction of a given. (see Figure 1.7.) This is a practical problem of manipulator is fundamental. This is quite a complex geometry problem, the conventional solution in tens of tho
34、usands of humans and other biological systems time every day. In a case like a robot simulation system, we need to create computer control algorithm can make the calculation. In some ways, the solution to this problem is the most important element in the operating system.This is quite a complex geom
35、etry problem, the conventional solution in tens of thousands of humans and other biological systems time every day. In a case like a robot simulation system, we need to create computer control algorithm can make the calculation. In some ways, the solution to this problem is the most important elemen
36、t in the operating system.We can use this problem as a mapping on 3D Descartes "position" space "position" in the robot joint space. This need will occur when the 3D spatial objects outside the specified coordinates. Lack of this kind of algorithm some early robot, they just tran
37、sfer (sometimes by hand) required for the position, and then be recorded as a common set of values (i.e., as a position in joint space for later playback). Obviously, if the playback position and motion pattern recording and joint of the purely robot in Cartesian space, no algorithm for the joint sp
38、ace is necessary. However, the industrial robot is rare, the lack of basic inverse kinematics algorithm. The inverse kinematics problem is not a simple forward kinematics of A. The equation of motion is nonlinear, their solution is not always easy (or even possible in a closed form). At the same tim
39、e, the existing problems of solutions and multiple solutions occur. The study of these problems provides an appreciation of what the human mind nervous system is achieved when we, there seems to be no conscious thought, object movement and our arms and hands operation. Manipulator is a solution of t
40、he presence or absence of a given definition of work area. A solution for the lack of means of mechanical hands can not reach the desired position and orientation, because it is in the manipulator working area.In addition to static positioning problem, we can analyze the robot motion. Usually, the a
41、nalysis in the actuator velocity, it is convenient to define a matrix called the Jacobi matrix of the manipulator. The speed of Jacobi matrix specified in Descartes from the velocity mapping space and joint space. (see Figure 1.8.) This mapping configuration of the manipulator changes the natural ch
42、anges. At some point, called a singularity, this mapping is not to make the transformation. This phenomenon are important to the understanding of the mechanical hand designers and users.Figures:FIGURE 1.5: Coordinate systems or "frames" are attached to the manipulator and toobjects in the
43、environment.FIGURE 1.6: Kinematic equations describe the tool frame relative to the base frameas a function of the joint variables.FIGURE 1.7: For a given position and orientation of the tool frame, values for thejoint variables can be calculated via the inverse kinematics.FIGURE 1.8: The geometrica
44、l relationship between joint rates and velocity of theend-effector can be described in a matrix called the Jacobian.3、SymbolSymbol is always the problems in science and engineering. In this book, we use the following convention:First: Usually, uppercase variables vector or matrix. Scalar lowercase v
45、ariables.Second:Tail buoy use (such as the widely accepted) indicating inverse or transposed matrix.Third:Tail buoy not subject to strict conventions, but may be that the vector components (for example, X, Y, Z) or can be used to describe the PBO / P in a position of the bolt.Fourth:We will use a lo
46、t of trigonometric function, we as a cosine symbol angle E1 can adopt the following methods: because the E1 = CE1 = C1.In the vector sign note general: many mechanics textbook treatment number of vector at a very abstract level and often used vector is defined relative to expression in different coo
47、rdinate systems. The most obvious example is, in addition to vector is relative to a given or known a different frame of reference. This is usually very convenient, resulting in compact structure, elegant formula. For example, consider the angular velocity, connected in series with the last body
48、76; W4 'four rigid body (such as the manipulator links) relative to the fixed seat chain. Due to the angular velocity vector addition, angular velocity equation at last link we can write a very simple vector:However, unless the information is relative to a common coordinate system, they cannot b
49、e concluded, therefore, although elegant, equation (1.1) calculation. Most of the "work". A case study of the manipulator, such statements, (1.1) work coordinate system hidden bookkeeping, which is often we need to practice. Therefore, in this book, we put the symbol reference frame vectors, we don't and carrier, unless they are in the same coordinate system. In this way, we derive expressions for computing numerical solution, "bookkeeping" problem can be directly applied to