Under Graduate >> Subjects of Graduation Thesis

 

DIVISION OF GEODESY

 

• Adjustment of 1D, 2D and 3D Geodetic Networks and Outlier Analysis

• Trigonometric Levelling Network Adjustment and Outlier Analysis

• Determining Position, Time and Azimuth Using Astronomical Observations

• Adjustment of Fundamental Geodetic Networks and Outlier Analysis

• Transforming GNSS Coordinates to National Coordinates

• Reference Coordinate Systems (ITRF, ICRF) and Transformation of These Systems to Each Other

• Determining Crustal Movements Using GNSS

• Determining Orthometric Heights Using GNSS

• Adjustment of GNSS Observations Together With Terrestrial Observations

• Determining the Jeoid Using GNSS Levelling

• Different Approaches to Combination of GNSS Observations in National System

• Evaluation and Combination of GNSS Observations

• Deformation Analysis via GNSS Measurements

• Analysing GNSS Observations Using Several Processing Softwares

• Determining The Error Sources in GNSS Observations and Evaluations

• Network Densification Using GNSS

 

 

DIVISION OF PHOTOGRAMMETRY

 

• Aerial Photogrammetry

• Terrestrial Photogrammetry

• Medical Photogrammetry

• Remote Sensing

• Image Processing

• Laser Scanning and Projects

• 3 dimensional modeling

• Geographic ınformation systems and Projects

• Spatial Databases and Projects

• Spatial Databases and information Systems

 

 

DIVISION OF SURVEYING TECHNIQUE

 

• Deformation Measurement

• Control and Calibration of EDM Instruments

• Special measurements methods in engineering structures

• Examination of Laser and Digital Levelling Instruments

• Using Laser Scanner Instruments in Engineering Surveys

• Modern depth measurements methods

• Stake out

• Height Determination methods

• Highway project

• Determining of Ortometric heights using GNSS instruments

• Processing of GNSS and terrestrial measurements together

• Transformation of GNSS networks to local datum

• Polygon measurements using GNSS

• Vessel Navigation using GNSS and data collecting for GIS 

• Local geoit model design by GNSS and levelling measurements

• Examine of GNSS, levelling and the other height determination methods

• Using of Kinematic GNSS method in Engineering Surveying

 

 

DIVISION OF CARTOGRAPHY

 

• Topographic Cartography

• Thematic Cartography

• Geographic Information Systems (GIS)

• Spatial Databases

• Generalization and Multi-Scale Spatial Modeling

• Digital Elevation Models (DEM), Digital Terrain Models (DTM)

• Spatial Analysis and Modelling, Spatial Data Mining, Geocomputation

• Geovisualization and Virtual Reality, Geovisual Analytics

• Web Cartography and Geographic Information Systems, Spatial Interoperability, Spatial Semantic Web

• Mobile Cartography and Geographic Information Systems, Location Based Services

• Spatial Data Infrastructure, Standards and Quality

• Multi-Dimensional GIS

• Mathematical Cartography (Map Projections and Map Coordinate Systems)

 

 

DIVISION OF LAND MANAGEMENT

 

• Urban land readjustment

• Land consolidation

• Real estate’s law

• Real estate’s investments

• Real estate’s finance

• Land valuation

• Structure formation and controlling

• Development (plan) implementation

• Urban information system

• Rural area development

• Technical infrastructure planning

• Expropriation