CIVIL SURVEYOR EXPERIENCED BASED COURSE IN MUZAFFARABAD BAGH IN BAGH
Civil Surveyor Experienced Based Course in Muzaffarabad Bagh,Civil Surveyor Experienced Based Course in Rawalpindi Dubai Lahore,international college of technical education in rawalpindi dubai lahore pakistan,best civil surveyor course in rawalpindi dubai,professional civil surveyor course in rawalpindi punjab pakistan,This is an introductory course to plane surveying as related to the construction industry. Emphasis is placed on obtaining field skills in linear measurement and the operation of levels, transits, theodolites and total stations. Elevations, horizontal, vertical, and spiral curves are explored.Principles of measurements of distances, elevation and angles. Basic error theory in measurement and calculations. Basic principles of surveying and map making.From fundamental theory to practical application and advanced technologies, this class covers all aspects of GPS needed to understand and use GPS as a land surveyor including the basics of GPS technology, common hardware, surveying methods, survey design, planning and observing, real-time kinematics and DGPS.Covers all major areas of real property law, including the nature of real property, types of ownership, real estate contracts, title and insurance, financing, landlord and tenant, land use, environmental law and regulation. An understanding of real property law is fundamental to understanding boundary law.Surveying or land surveying is the technique, profession, and science of determining the terrestrial or three-dimensional positions of points and the distances and angles between them. A land surveying professional is called a land surveyor. These points are usually on the surface of the Earth, and they are often used to establish maps and boundaries for ownership, locations, such as building corners or the surface location of subsurface features, or other purposes required by government or civil law, such as property sales.Surveying has been an element in the development of the human environment since the beginning of recorded history. The planning and execution of most forms of construction require it. It is also used in transport, communications, mapping, and the definition of legal boundaries for land ownership. It is an important tool for research in many other scientific disciplines.
Surveying in relation to engineering and construction
Implementing survey data management (I.E. GIS, BIM) techniques
Generating survey contracts and recording keeping
Basics of geodesy, including performing calculations using angles, distances, and trigonometry
Least squares adjustments uses, theory, calculations, basic closure computations
Leveling and total station calculations including calculating percent grades
Construction surveying calculations for radial construction stakeout, area computations, earthwork, and volume computations
Horizontal and vertical curve computations
Basics of geodesy and calculating 2D, 3D, horizontal and vertical positions with respect to appropriate geodetic datums
Basic calculations for coordinate transformations using latitude and longitude
Learning to differentiate between various map projections
Learning to establish control for a given survey
Recognizing available satellite systems (GNSS)
Explain and plan for a terrestrial laser scanning survey, a mobile laser scanning and mapping survey, hydrography, and an aerial laser scanning photogrammetry survey
Recognize the equipment and field-to-finish software used for a terrestrial laser scanning survey, a mobile laser scanning and mapping survey, and an aerial laser scanning and photogrammetry survey
Surveying in relation to engineering and construction
Implementing survey data management (I.E. GIS, BIM) techniques
Generating survey contracts and recording keeping
Basics of geodesy, including performing calculations using angles, distances, and trigonometry
Least squares adjustments uses, theory, calculations, basic closure computations
Leveling and total station calculations including calculating percent grades
Construction surveying calculations for radial construction stakeout, area computations, earthwork, and volume computations
Horizontal and vertical curve computations
Basics of geodesy and calculating 2D, 3D, horizontal and vertical positions with respect to appropriate geodetic datums
Basic calculations for coordinate transformations using latitude and longitude
Learning to differentiate between various map projections
Learning to establish control for a given survey
Recognizing available satellite systems (GNSS)
Explain and plan for a terrestrial laser scanning survey, a mobile laser scanning and mapping survey, hydrography, and an aerial laser scanning photogrammetry survey
Recognize the equipment and field-to-finish software used for a terrestrial laser scanning survey, a mobile laser scanning and mapping survey, and an aerial laser scanning and photogrammetry survey
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