كلية الهندسة - جامعة عين شمس, الرئيسية

الرئيسية  >  كلية الهندسة - جامعة عين شمس, الرئيسية

Geodetic Surveying

What Will Learn?

  • Course Aims
    The aim of this course is to provide students with the ability to understand astronomic coordinates and their relation to geodetic coordinates. Also, the understanding of different map projection techniques is one of the aims of this course. By the end of this course, the student will be able to understand the global navigation satellite systems (GNSS) as well as their applications in civil engineering projects.
  • Course Goals
  • Sustainable Cities and Communities

Requirements

Description

  • English Description

    Astronomic coordinates and its relation to geodetic coordinates, The geoid, Different geodetic computational surfaces, Properties of ellipsoid, Reduction of surveying observations, Determination of coordinates of points on the computational surface, Transformations between coordinate systems, Errors in GPS observations, Coordinates determinations using different GPS techniques, GPS operation planning, Applications of GPS in engineering projects.
  • Arabic Description

    Astronomic coordinates and its relation to geodetic coordinates, The geoid, Different geodetic computational surfaces, Properties of ellipsoid, Reduction of surveying observations, Determination of coordinates of points on the computational surface, Transformations between coordinate systems, Errors in GPS observations, Coordinates determinations using different GPS techniques, GPS operation planning, Applications of GPS in engineering projects.
  • قسم
    الأشغال العامة
  • الساعات المعتمدة
    2
  • الدرجات
    الإجمالي ( 100 ) = نصف العام (20) + tr.Student Activities (30 = tr.Industry 5% , tr.Project 0% , tr.Self_learning 5% , tr.Seminar 20% ) + درجة الامتحان (50)
  • الساعات
    ساعات المحاضرة: 2, ساعات التعليم: 1, ساعات المعمل: 0
  • Required SWL
    100
  • Equivalent ECTS
    4
  • Anderson J. M., & Mikhail E. M. (1981). “Surveying Theory and Practice”. McGraw-Hill Companies.
  • El-Rabbany A. (2006). “Surveying Introduction to GPS”. Artech House Publishers.
  • Hofmann-Wellenhof B. & Moritz H. (2005). “Physical Geodesy”. Springer-Verlag Wien.
  • Krakiwsky E. J. (1973). “Conformal Map Projections in Geodesy”. The University of New Brunswick, Canada.
  • Krakiwsky E. J. & Thomson D. B. (1974). “Geodetic Position Computations”. The University of New Brunswick, Canada.
  • Nassar M. M. (1980). “Selected Topics in Geometric Geodesy”. Ain Shams University, Egypt.
  • Nassar M. M. (1989). “Terrestrial and Astronomic Geodetic Surveying”. Ain Shams University, Egypt.
  • Nassar M. M. (1984). “Geodetic Position Computations in Two and Three Dimensions”. Ain Shams University, Egypt.
  • Noureldin A., Karamat T. B. and J. Georgy (2013). “Fundamentals of Inertial Navigation, Satellite-based Positioning and Their Integration”. Springer.
  • Sanz S. J. & Juan Z. J. M. (2017). “GNSS Data Processing Theory”. gAGE Research Group of Astronomy and Geomatics.
  • Thomson D. B. (1981). “Introduction To Geodetic Astronomy”. The University of New Brunswick, Canada. - Anderson J. M., & Mikhail E. M. (1981). Surveying Theory and Practice. McGraw-Hill Companies.