測量學(xué)原理與方法(Surveying Principles and Methods)(英文版)
本書主要研究如何測定和記錄地面點的位置���、高程���,以及如何確定地球的形狀大小。全書分為兩部分:傳統(tǒng)測量學(xué)原理和當(dāng)代測量學(xué)原理���。第一部分論述運用傳統(tǒng)儀器進行測量工作的技術(shù)和手段�;第二部分論述地理信息系統(tǒng)�、全球定位系統(tǒng)、攝影測量等的基本原理����。
形式上,本書全文以英文撰寫�����;內(nèi)容上��,盡量吸收國外同行先進的理念和方法,力求思想的“國際性”�����,但在具體方法的應(yīng)用上又以我國的標(biāo)準(zhǔn)��、規(guī)范為依據(jù)���,以便國內(nèi)讀者的使用��。
本書可供測繪�����、地理��、遙感、土木工程��、地質(zhì)等專業(yè)的高年級本科學(xué)生使用����,亦可作為相關(guān)專業(yè)研究生的教學(xué)參考用書,或供相關(guān)領(lǐng)域的科技工作者參閱�����。
更多科學(xué)出版社服務(wù),請掃碼獲取����。
傳統(tǒng)測量學(xué)原理和當(dāng)代測量學(xué)原理。第一部分論述運用傳統(tǒng)儀器進行測量工作的技術(shù)和手段��;第二部分論述地理 信息系統(tǒng)��、全球定位系統(tǒng)���、攝影測量等的基本原理����。
Contents
Preface
Part 1 Conventional Surveying
Chapter 1 Introductory 3
1.1 Basic concepts of surveying 3
1.2 Basic principles in surveying 7
1.3 Survey references 7
1.4 Methods used in point locations 9
1.5 History of surveying 10
1.6 Exercises 14
Chapter 2 Leveling 15
2.1 Definition and principles of leveling 15
2.2 Elements of the surveyors' level 19
2.3 Types of instruments used in leveling 25
2.4 Methods of leveling 38
2.5 Accuracy in leveling 50
2.6 Mistakes in leveling 51
2.7 Suggestions for instrument and rod work 52
2.8 Exercises 53
Chapter 3 Angles and Directions-Theories 57
3.1 Reference directions for vertical angles 57
3.2 Horizontal angles 58
3.3 Three north directions 59
3.4 Azimuths and bearing 60
3.5 Exercises 66
Chapter 4 Instruments for Angles and Directions Surveying 69
4.1 Theodolites and transits 69
4.2 Magnetic azimuth (bearing) surveying: magnetic compass 98
4.3 True azimuth (bearing) surveying 100
4.4 Exercises 111
Chapter 5 Distance Measurement 114
5.1 Methods for distance determination 114
5.2 Taping 116
5.3 Electromagnetic distance measurement 123
5.4 Summary of distance measurement methods 137
5.5 Exercises 138
Chapter 6 Traverse Surveying 140
6.1 An introductory to traverses 140
6.2 Field work in traverse surveying 141
6.3 0fficc work in traverse surveying 145
6.4 Exercises 157
Chapter 7 Error Theories 159
7.1 Introduction 159
7.2 Relevant definitions 162
7.3 Law of errors propagation 165
7.4 The method of least square and its application 168
7.5 Calculation of standard deviation by true errors 177
7.6 Several examples using the law of errors propagation 180
7.7 Exercises 182
Chapter 8 Topographic Maps 185
8.1 Concepts of map and topographic map 185
8.2 Map scales and scale precisions 186
8.3 Map grids 187
8.4 Gauss-Krüger projection 188
8.5 Subdivisions and numbering of topographic maps 192
8.7 Application of topographic maps 201
8.8 Exercises 220
Chapter 9 Topographic Surveying 223
9.1 Background 223
9.2 Topographic control framework 223
9.3 Methods for detail surveys 225
9.4 Procedures of conventional topographic surveys 231
9.5 Digital mapping techniques 235
9.6 Exercises 237
Part 2 Modern Surveying
Chapter 10 Global Positioning Systems 241
10.1 Introduction 241
10.2 GPS configurations 242
10.3 Work principles of GPS 245
10.4 Geodetic aspects of GPS 252
10.5 GPS in practical surveys 256
10.6 Exercises 263
Chapter 11 Geographic Information Systems 265
11.1 General background of GIS 265
11.2 Activitics and componcnts of a GIS 268
11.3 Data collections of GIS 269
11.4 Data analysis 274
11.5 Practical applications of GIS 284
11.6 Somc important conccpts in GIS 285
11.7 Exercises 287
Chapter 12 Photogrammetry 288
12.1 An introductory background 288
12.2 Acrial photogrammetry 289
12.3 Terrestrial photography 301
12.4 Stereo-photography 304
12.5 Close-range photography 307
12.6 Applications of photography 307
12.7 Exercises 313
Referenced Bibliographies 314
Referenced Internet Resources 315
Appendix: Math Foundation 317
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