Week |
Subject |
Related Preparation |
1) |
General structure of mechanical theodolites |
Lecture Notes |
2) |
Theodolites (theodolite and tachymeters), theodolites' axes, angle reading devices |
Lecture Notes |
3) |
Binoculars and observation lines, spherical and cylindrical scales, angle section lighting fixtures |
Lecture Notes |
4) |
General structure of digital theodolites, axes, angle and inclination reading devices, binocular structure and observation lines, spherical and cylindrical levels |
Lecture Notes |
5) |
Electronic length gauges and total stations (classical and robotic total stations), general structure, axes, angle, length and height difference reading principles |
Lecture Notes |
6) |
Binocular structures and observation lines, levels, operating modes |
Lecture Notes |
7) |
Programs, recording and transferring features to the computer, the equipment of these devices (prism and hand recording units). |
Lecture Notes |
8) |
Midterm Exam |
|
9) |
Mechanical structure, general structure of compensating (automatic) levels, axes, binoculars and observation lines |
Lecture Notes |
10) |
Digital nivos, general structure of digital levels, axes, binoculars and observation lines, measurement and recording units, internal ready programs, harmonics and barcoded legacies |
Lecture Notes |
11) |
Laser levels, general structure of laser levels, axes, properties of laser beams, level and auxiliary equipment. |
Lecture Notes |
12) |
General features of GNSS receivers, recording unit, internal and external modems, antennas, data transfer to computer, data processing and balancing programs |
Lecture Notes |
13) |
Construction machinery control tools, Deformation determination tools (Geodetic and Geotechnical / GNSS, Extensometer and Inclinometer etc.), Laser Scanners and Numerical Planimeter |
Lecture Notes |
14) |
Construction machinery control tools, Deformation determination tools (Geodetic and Geotechnical / GNSS, Extensometer and Inclinometer etc.), Laser Scanners and Numerical Planimeter |
Lecture Notes |
15) |
Final Exam |
|
16) |
Final Exam |
|
|
Program Outcomes |
Level of Contribution |
1) |
He/she knows main topics about profession with also has knowledge and awareness about social resposibility, ethical values and princibles of profession. |
2 |
2) |
He/she has knowledge about basic mathematichal computing and problem solving about the issues of profession. |
4 |
3) |
He/ she has knowledge about algorithm, basic programming, data structures and types, database management systems spatial database for operation of the software which are required by profession. |
2 |
4) |
He/she has knowledge about all measurement, calculation, and exercising in the fields of survey and cadastre. |
5 |
5) |
He/she has knowledge about legislation, ability of follow the changes and has command of the process in the fields of survey and cadastre. |
2 |
6) |
He/she has ability to use technological tools and programs, know working and scientific principles of these technology that existed in profession area |
5 |
7) |
He/she knows main topics, expertising, legislation and urban reneval issues about real estate. |
2 |
8) |
He/she has command of application all kinds of engineering project to area. |
5 |