The GPS Signal - Biases and Solutions - The Framework - Receivers and Methods - Coordinates - Planning a Survey - Observing - Postprocessing - RTK and DGPS.
Although part of nearly all real estate transactions, the land survey is one of the least understood elements in the process. Bringing together experts in commercial real estate law, title insurance, surveying, civil engineering, and lending, this is a clearly written explanation of all aspects of land surveys. Experts share their advice on critical questions to ask when reviewing a survey and address recent development in survey requirements and technology.
Since the last edition of this international bestseller, GPS has grown to become part of a larger international context, the Global Navigation Satellite System (GNSS). Both GPS and GNSS technologies are becoming ever more important in the everyday practice of survey and mappers. With GPS for Land Surveyors, Third Edition, a book written by a land s
The only modern guide to interpreting and writing real property descriptions for surveyors Technical land information is no longer the exclusive domain of professional surveyors. The Internet now houses a multitude of resources that nontechnical professionals—such as attorneys and realtors—access and implement on a daily basis. However, these professionals are trained in aspects of law and commerce that do not provide the proper education and experience to interpret and evaluate their land boundary information discoveries correctly. As a result, their analysis is often erroneous and the data misapplied—ultimately leading to confusion and costly litigation. Professional Surveyors and Real Property Descriptions attempts to bridge the ever-widening gap between the users of land boundary information and the land surveyors who produce it. An expert team of authors integrates the historic and legal background of real property interests with fundamental concepts of the surveying profession in a manner accessible for average readers. These provide the basics for both properly comprehending older descriptions and competently constructing complete and modern real property descriptions that foster better communication. Highlights in this book include: An in-depth exploration of historic descriptions and how to read them Coverage of the widely accepted ALTA/ACSM Land Boundary Survey standards and associated property descriptions A diverse collection of examples and practice scenarios An overview of the latest issues related to the use of GPS and GIS Written in easy-to-understand language, this practical resource assists nontechnical professionals in understanding exactly what a surveyor does and does not do, and serves as a valuable tool for obtaining the most satisfactory, accurate, and complete real property descriptions.
Pulling from his 30+ years of experience running his own engineering and surveying services firm, Ed Bergeron gathers, in concise, practical, and often amusing writing, all the information an engineer or surveyor needs to know to grow their career, expand their business, manage staff and projects, understand the financial and legal aspects of their work, and conduct themselves in a professional and ethical manner when dealing with clients and colleagues. Both the fields of surveying and engineering are making strides towards advancing their stature by increasingly requiring licensure, expanding continuing education offerings, and adding elements of professional practice into all levels of education. This book presents the skills that differentiate the technician from the professional, and will serve as a tool for the advancement of the profession.
Coordinates are integral building tools for GIS, cartography, surveying and are vital to the many applications we use today such as smart phones, car navigation systems and driverless cars. Basic GIS Coordinates, Third Edition grants readers with a solid understanding of coordinates and coordinate systems and how they operate as well as valuable insight into what causes them to malfunction. This practical and comprehensive guide lays out the foundation of a coordinate system and the implications behind building it as it elaborates on heights, two coordinate systems, and the rectangular system.The previous editions described horizontal and vertical datums such as the North American Datum 1983 (NAD 83) and the North American Vertical Datum 1988 (NAVD 88). Both will be replaced in 2022 or thereabouts. The National Geodetic Survey (NGS) plans to replace NAD83 with a new semi-dynamic terrestrial reference frame for North America and a new vertical datum will replace NAVD88. The foundation of the new vertical datum will be a temporally tracked gravimetric geoid. The interim period is intended to smooth the transition to the new paradigm and this new edition explores the changes and provides assistance in understanding them.
Surveying Solved Problems includes more than 900 problems representing a broad range of topics on both the fundamentals of surveying (FS) and professional surveying (PS) exams. Each problem gives you the opportunity to apply your knowledge of theory and equations. The breadth of topics covered and the varied complexities of the problems allow you to assess and strengthen your problem-solving skills. Detailed, step-by-step solutions illustrate efficient problem-solving approaches and link common situations in current surveying practice to background information and history.
The Australian Soil and Land Survey Field Handbook specifies methods and terminology for soil and land surveys. It has been widely used throughout Australia, providing one reference set of definitions for the characterisation of landform, vegetation, land surface, soil and substrate. The book advocates that a comprehensive suite of land and soil attributes be recorded in a uniform manner. This approach is more useful than the allocation of land or soil to preconceived types or classes. The third edition includes revised chapters on location and vegetation as well as some new landform elements. These updates have been guided by the National Committee on Soil and Terrain, a steering committee comprising representatives from key federal, state and territory land resource assessment agencies. Essential reading for all professionals involved in land resource surveys, this book will also be of value to students and educators in soil science, geography, ecology, agriculture, forestry, resource management, planning, landscape architecture and engineering.
The objective of this book is to provide insights into understanding GPS Surveying and positioning concisely in a systematic manner. The book contains six chapters, one annexure followed by bibliography. The first chapter aims at introducing Global Positioning System (GPS) for land surveying. It starts with a brief history of development of NAVSTAR (NAVigational System for Timing And Ranging) GPS followed by advantages of GPS in land surveying and principle of positioning using GPS. The chapter concludes with an overview of elements of GPS in surveying and positioning. The objective of Chapter 2 is to provide basic information about GPS for surveying. It starts with architecture of GPS followed by contents of GPS signal, GPS system time. It discusses the World Geodetic System 1984 (WGS84) explaining its coordinate system, geoid, ellipsoid, earth gravitational model etc followed by its relationships with other geodetic systems. The chapter also discusses on GPS augmentation systems and modernization steps. Chapter 3 aims at providing fundamental information required for GPS surveying. The chapter explains the different methods for GPS surveying, equipments, field operations and quality analysis of GPS observations. The chapter concludes with accuracy standards to be followed for GPS surveying. Aim of chapter 4 is to explain the content of GPS observations. It discusses the GPS observables and fundamental relations to determine unknown positions. It also provides the different errors associated with observations. The chapter concludes with criterion for assessment of quality of GPS Observables. Chapter 5 discusses processing steps involved in determination of positions from GPS observables. It explains the operations involved in pre-processing and positioning followed by criterion for assessment of GPS positions. The chapter concludes with a brief discussion on salient modules of a GPS data processing software. Chapter 6 aims at locating GPS position geo-spatially through network adjustment. It discusses least square network adjustment models and methods, processing strategies, steps for network adjustments and criterion for output quality. The chapter concludes with a worked out example on network adjustment, as detailed theoretically. The book further contains one annexure stating the steps involved for conversion of navigation data to determine satellite positions in ECEF system. Towards the end, the book contains a list of books which have been referred in writing this book. Manuscript has been thoroughly checked through plagiarism software to avoid any copyright violation. However, to make the book more understandable, standard names and symbols have been used from original literatures. To summarize, the book provides a sequence of topics aiming to basic understanding and carrying out land surveying as well as processing for geo-spatial positioning using GPS. The book is meant to serve as an introductory text book on GPS surveying and is expected to be useful for students as well as field surveyors looking for insights into GPS surveying.