测绘工程专业英语课文全部翻译.doc

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1、. .Section 2 The Reliability of a Survey and Errors测量误差的可靠性Since every technique of measurement is subject to unavoidable error, surveyors must be aware of all sources and types of error and how they bine. If the accuracy of a measurement is defined as the nearness of that value to its true value (a

2、 quantity we can never know) then a surveyor must ensure that the techniques he chooses will produce a result that is sufficiently accurate. He must know, therefore, how accurate he needs to be, how to achieve this accuracy and how to check that the required accuracy has been achieved. 由于每个测量技术是不可防止

3、的误差，测量员必须知道的所有误差的来源和类型，以及它们是如结合。如果测量的准确性，其真正的值我们可以永远不知道的数量的接近程度，该值被定义为，然后测量员必须确保他选择的技术将产生一个结果，是足够准确的。因此，他必须知道他需要的精度如，如实现这一目标的准确性和如检查所要求的精度已经到达。Accuracy requiredWhen surveying to produce a plan, the accuracy required is defined by the scale of the plot, since there should be no plottable error in the

4、 survey data. A good draughtsman can plot a length to within 0.25 mm and so, if a plan of an area is required at a scale of 1/1000, i.e., 1 mm on the plan represents 1 m on the ground, the smallest plottable distance is 0.25 m. Thus, for a survey at 1/1000 scale, all the measurements must be taken s

5、uch that the relative positions of any point with respect to any other must be determined to 0.25 m or better.当测量一个平面时,精度通常是根据展图比例决定的，因为在绘图中不能有测量误差。一个好的绘图员可以在大约0.25毫米的围画图，假设一个地区的图纸比例尺要1/1000，即1毫米图上距离代表1米实地距离，那么最小的测距应该是0.25米。因此，对于1/1000比例尺的测量，所有测量必须保证任意一点与其他任一点的相对位置不得大于0.25米。The specifications of sur

6、veys for other purposes such as engineering works or property boundary definition might well be determined by engineering tolerances or legal standards. 基于测量规可能被用于其他目的，如工程测量或财产边界的测量将由工程限差和合法的基准决定。Achieving the specificationTo ensure that the specification is achieved the equipment and methods must b

7、e chosen such that, not only will they collect the right sort of data, i.e., the correct bination of angles and distances, but that the data will be to the required accuracy. There are several types of error that occur and a knowledge of their importance and characteristics is essential in the under

8、standing of the limitations of the techniques of measurement. The salient features will be stated now but further information is given in later chapters. 为了确保测量符合规，仪器和数据应按照以下要求进展，并不是只是得到正确的数据，即更正角和边的关系，从而得到的数据满足精度的要求。在测量中有几种类型的误差，掌握它们的重要性和特性对于理解测量技术的限差是必不可少的。本章主要讲解这些误差的主要特征，后面的章节将提供进一步的阐述。Mistakes 粗

9、差Blunders or mistakes are often inaccurately referred to as gross errors. Miscounting the number of tape lengths when measuring a long distance or transposing numbers when booking are two very simple, but all too mon, examples of mistakes. These types of mistakes can occur at any stage of a survey,

10、when observing, booking, puting or plotting, and they would obviously have a very damaging effect on the results if left uncorrected. However, by following strictly a well-planned observing procedure it is possible to reduce the number that occur and then independent checks at each stage should show

11、 up those that have been made. In practice, none should ever go undetected and uncorrected. 错误经常不准确的理解为粗差。当测量很长一段距离时，读错尺的读数或记录两个简单的数时颠倒它们的位置，这些都是很常见的错误例子。这些类型的误差可以发生在测量任阶段，当观测，记录，计算和绘图，如果不纠正这些错误，他们在结果上显然有一个非常有害的影响。但是，通过格详的观测过程，可能杜绝这些错误的产生，然后在每个阶段应独立检测可以是这些错误显现出来。在实践中，没有不可发现和不可纠正的粗差。Systematic errors

12、系统误差Systematic errors arise from sources which act in a similar manner on observations. The method of measurement, the instruments used and the physical conditions at the time of measurement must all be considered in this respect. Expansion of steel tapes, frequency changes in electromagnetic distan

13、ce measuring (EDM) instruments and collimation in a level are just a few examples of possible sources of systematic errors.系统误差的来源于以一样的观测式。测量时要考虑这些面，测量的法、测量仪器和外界环境。钢尺的膨胀，电磁测距仪的频率变化和水准仪的照准情况都是系统误差的可能来源。These errors are of vital importance in activities which consist of adding together a succession of

14、 individual observations (see sections on leveling and traversing). If all the individual measurements contain the same type of systematic error, which by their nature always act in the same direction, then the total effect is the sum of them all.这些误差在由一系列独立观测参见水准测量和导线测量局部累加在一起组成的测量值中极为重要，如果所有的独立测量包

15、含一样类型的系统误差，且这些系统误差总是表现出一样的性质，那么总影响是所有这些的总和。It must be ensured that measurements are as accurate as required by removing the effects of all factors that, if neglected, would result in a significant error. The errors caused by some factors can be eliminated with the correct observing procedure and oth

16、ers countered by applying corrections. Systematic errors are not revealed by taking the same measurement again with the same instruments. The only way to check adequately for systematic error is to remeasure the quantity by an entirely different method using different instruments.通过消除所有因素的影响确保精度满足要求

17、。如忽略这些因素将会导致重大的错误。通过正确的观测程序以及纠正计算可以消除误差。通过同样的仪器用同样的法测量是检测不出系统误差的。唯一能充分检测系统误差就是重测这些量通过使用完全不同的测量法和测量仪器。Random errorsRandom errors are really all those discrepancies remaining once the blunders and systematic errors have been removed. Even if a quantity is measured many times with the same instrument i

18、n the same way, and if all sources of systematic error have been removed, it is still highly unlikely that all results will be identical. The differences, caused mainly by limitations of instruments and observers, are random errors.随机误差事实上是除去粗差和系统误差后。即使测定数量很屡次以同样的式与一样的仪器，和已被删除，如果所有系统误差的来源，它仍然是极不可能的，

19、所有的结果将是一样的。的差异，主要仪器和观察员的限制造成的，是随机的误差。It is found in practice that these errors, although called random, have the following characteristics:(1) small errors occur more frequently than large ones(2) positive and negative errors are equally likely to occur(3) very large errors seldom occur.在实践中发现，这些误差，

20、虽然称为随机的，具有以下特点：（1） 小误差发生的频率比大2正面和负面的误差发生的可能性一样3非常大的误差很少发生。These characteristics are typical of errors which are normally distributed and it is assumed that we can use the mathematical theory based on the normal distribution to deal with the errors met with in surveying. 正态分布是这些误差典型的特点是，我们可以用基于正态分布的数

21、学理论来处理这些测量中的误差。Understanding the errors that limit the accuracy of the measurement techniques is but one step to ensuring specifications are achieved, as will be seen when the methods of survey are described:了解限定测量法精度的误差仅仅是确保满足测量规的一步，按照如下的测量法进展：(a) The survey area is always totally covered with the

22、simplest possible framework of high quality measurements. If the rest of the survey work is carried out within this control the possible damaging accumulation of errors can be contained. This is often termed working from the whole to the part,（a） 测区总是由高精度的测量框架所覆盖。如果剩下的测量工作在这个控制网进展的话，累积误差就可以得到有效地控制。这

23、通常被称为“从整体到的局部的工作，(b) Observing procedures are designed so that (i) most mistakes that occur are discovered immediately and (ii) possible sources of systematic errors eliminated. b观测程序设计，大多数误差及时被发现，ii系统误差得到有效地控制。(c) Additional, or redundant, observations are taken so that all data can be checked for

24、the mistakes, systematic errors and random errors that do occur. For example, the three angles of a triangle would be observed although only two are required to define the shape. The third angle could be deduced but, when measured, acts as a check.c多余的观测是用来检测粗差、系统误差、偶然误差的。例如，一个三角形观测中，只要观测两个角就能决定其形状。

25、但第三角度的观测是用来检核的。(d) Many quantities are observed several times. These repeated measurements and the observation of redundant data serve both as checks and to improve on the precision of the final results. d多数据需要屡次观测。重复观测是用来检核并提高最终精度的。Checking the surveyEven with all the checking procedures the survey

26、or employs, errors can still occur in the finished plan and for this reason final independent checks are required. For simple work this would involve inspecting the final plan in the field and paring some measurements scaled off the plan with their equivalents on the ground.虽然测量员按照检核步骤进展检核，但是误差仍然可以出

27、现在最后的平面图中所以最后还需要进展独立检核。对于这项简单的测量工作，需要到野外进展最后的平面图纸的检核和图纸距离放到实地进展比对。Angle and Direction Measurement角度和向测量Horizontaland vertical angles are fundamental measurements in surveying.It is necessary to be familiar withthe meanings of certain basic terms before describing angle and direction measurement. The

28、 terms discussed here have reference to the actual figure of the earth.水平角和竖直角是测量的根本测量工作,在描述角度和向测量之前，有必要熟悉几个根本术语的含义,这里讨论的这些术语与地球的真实形状有关. Basic Terms根本术语A vertical line at any point on the earths surface is the line that follows the direction of gravity at that point. It is the direction that a strin

29、g will assume if a weight is attached at that point and the string is suspended freely at the point. At a given point there is only one vertical line.A horizontal line at a point is any line that is perpendicular to the vertical line at the point. At any point there are an unlimited number of horizo

30、ntal lines.A horizontal plane at a point is the plane that is perpendicular to the vertical line at the point.There is only one horizontal plane through a given point. A vertical plane at a point is any plane that contains the vertical line at the point. There are an unlimited number of vertical pla

31、nes at a given point.地球外表任一点的垂线是指这点上沿着重力的向的线,如果在这点上用线悬挂一个重物，当线自由静止时，这条线所呈现的向即重力向。在给定的一个点上只有一条垂线。一点上的水平线是垂直于过该点的垂线的直线。过任一点的水平线有无数条。过一点的水平面是垂直于过该点的垂线的平面,过给定的一个点只有一个水平面.过一点的竖直面是包含过该点的垂线的任一平面过给定的一点有无数个竖直面. Horizontal Angle and Vertical Angle水平角和竖直角A horizontal angle is the angle formed in a horizontal p

32、lane by two intersecting vertical planes, or a horizontal angle between two lines is the angle between the projections of the lines onto a horizontal plane. For example, observations to different elevation points B and C from A will give the horizontal angle bac which is the angle between the projec

33、tions of two lines (AB and AC) onto the horizontal plane. It follows that,although the points observed are at different elevations, it is always the horizontal angle and not the space angle that is measured .The horizontal angle is used primarily to obtain relative direction to a survey control poin

34、t, or topographic detail points, or points to be set out. A vertical angle is an angle measured in a vertical plane which is referenced to a horizontal line by plus (up) or minus (down) angles, or to a vertical line from the zenith direction. Plus and minus vertical angles are sometimes referred to

35、as elevation or depression angles respectively. A vertical angle thus lies between 0 and 90.Zenith is the term describing points on a celestial sphere that is a sphere of infinitely large radius with its center at the center of the earth. The zenith is an angle measured in a vertical plane downward

36、from an upward directed vertical line through the instrument. It is thus between 0 and .水平角是指在一个水平面由两相交的竖直面形成的角，或者说，两条线之间的水平角是这两条线在水平面上的投影线的夹角.例如，在A点观测不同高度的B和C点，其水平角bac是由AB和AC两条线在水平面上的投影构成的.由此得出结论结论，虽然被观测的点在不同的高度上，测出的总是水平角而不是空间角。水平角主要用来由联测控制点获得相对向，或者地形测量碎部点、或者放样点,竖直角是在一个竖直面参考于水平线的正仰角或负俯角，或者相对于一个天顶向的

37、垂线的角.正负竖直角有时分别被称为仰角或俯角.Obviously the zenith angle is equal to 90 minus the vertical angles. Vertical angles or zeniths are used in the correction of slope distance to the horizontal or in height determined. For the most part, the instrument used in the measurement of angles is called a transit or th

38、eodolite, although angles can be measured with clinometers, sextants (hydrographic surveys), or passes. The theodolite contains a horizontal and vertical circles of either glass or silver. The horizontal and vertical circles of theodolite can be linked to circular protractors graduated from 0 to 360

39、 in a clockwise manner set in horizontal and vertical plane. The horizontal circle is used when measuring or laying off horizontal angles and the vertical circle is used to measure or lay off vertical angles or zenith angles. Usually the units of angular measurement employed in practice are degrees,

40、 minutes, and seconds, the sexagesimal system. 竖直角位于090度之间.天顶向是一个术语，用来描述在天球上的点，天球是一个半径无限大的球，其中心在地球中心。天顶距是一个在竖直面从一个过仪器的被定向为向上的竖直向线向下测量的角。它的围是从0到180度。显然，天顶距等于90度减去竖直角.竖直角或天顶距用于斜距化平距的改正或者高程的测量.在极大程度上，用来测角的工具被称为经纬仪，虽然角度可以用倾斜仪、六分仪、或罗盘仪来测，经纬仪有一个玻璃的或镀银的水平度盘和竖直度盘.经纬仪的水平度盘和竖直度盘与顺时针刻了0到360度刻划的圆分度器相连。测或拨水平角时用水

41、平度盘，测或拨竖直角或天顶距时用竖直度盘，通常角度测量法使用的单位是六十进制的度、分、秒。Angle Measurement角度测量A horizontal angle in surveying has a direction or sense; that is, it is measured or designed to the right or to the left, or it is considered clockwise or counterclockwise. In the above figure, the angle at A from B to C is clockwise

42、 and the angle from C to B is counterclockwise. With the theodolite set up, centered, and leveled over at station A, then a simple horizontal angle measurement between surveying point B, A and C would be taken as follows:在测的水平角有向，就是说它是向左测还是向右测，或者是说，顺时针测还是逆时针测.如上图所示，在A点由B到C就是顺时针角，而从C到B就是逆时针角，经纬仪在A点安置

43、、对中、整平后，在B、A和C测量点间的简单的水平角测量可以按以下步骤进展：mencing on , say, “face left, the target set at survey point B is carefully bisected and the reading on horizontal scale is 25.The upper plate clamp is released and telescope is turned clockwise to survey point C. The reading on horizontal circle is 75The horizon

44、tal angle is then the difference of the two directions, i.e. (75-25) =50说示意，“盘左，将B点的目标仔细分中，水平度盘读数为25度水平度盘制动螺旋松开，顺时针转动望远镜至C点，水平度盘读数75度水平角就是两个向值的差值，即， (75-25) =50Change face and observe point C on “face right, and note the reading=255Release upper plate and swing counterclockwise to point B and note t

45、he reading =205The reading or the direction must be subtracted in the same order as 255-205=50The mean of two values would be accepted if they are in acceptable agreement.换度盘向至盘右并照准C点，记下读数为255度松开水平度盘，逆时针旋转至B点并记下读数为205度读数或者说是向值按同样的法那么相减，255-205=50如果两个减出来的值的一致性是可承受的，取两个值的平均值。Modern electronic digital

46、theodolites contain circular encoders that sense the rotations of the spindles and the telescope, convert these rotations into horizontal and vertical (or zenith) angles electronically, and display the value of the angles on liquid crystal displays (LCDs) or light-emitting diode displays (LEDs). The

47、se readouts can be recorded in a conventional field book or can be stored in a data collector for future printout or putation. The instrument contains a pendulum pensator or some other provision for indexing the vertical circle readings to an absolute vertical direction.The circle can be set to zero

48、 readings by a simple press of a button or initialized to any value on the instrument. Azimuth is the horizontal angle measured in a clockwise direction from the plane of the meridian, which is a line on the mean surface of the earth joining the north and south poles. Azimuth ranges in magnitude from 0 to 360, values in excess of 360, which are sometimes encountered in putations, are simply reduced by 360 before final listing. Bearing is the traditional way of stating the orientation of the line. It is actual