Winter Semester 2020/21
Geodesy and photogrammetry IS-FCEE-00137W
Areas of interest geodesy as a science. Systems of reference geodetic
measurements. Coordinate systems used in geodesy. Elements of
coordinates. The role and the division of geodetic networks. Methods and
equipment for measuring angular and linear. Measurement methods
situational. Methods and equipment for measuring altitude. Maps
situational-height and their use for environmental engineering. Calculation
methods associated with situational-elevation maps. Maps for design
purposes. Methods staking situational and height. Geodetic
measurements related to the implementation and operation of utilities.
Geodetic records of public utilities - design principles and main tasks.
Measurements of displacements and deformations and constructions.
General principles of GPS measurements. General principles of
photogrammetry. Fundamentals of ground, air, underwater and satellite
photogrammetry.
(in Polish) Tryb prowadzenia
Course coordinators
Learning outcomes
T1A_W01 - Graduate has knowledge in the field of mathematics,
including algebra, analysis, probability and elements
of applied mathematics, including mathematical
methods and numerical methods necessary to: - a
description and analysis of the basic physical
phenomena occurring in environmental engineering
and - the description and analysis of the operation of
the systems and technologies used in environmental
engineering
T1A_W07 - Graduate knows the rules of descriptive geometry
and drawing applying to preparation and reading
architectural, civil-engineering, and geodesic
drawings. Graduate also knows rulet of drawings
preparation with CAD software
T1A_U01 - Graduate can obtain information from literature,
databases, and other sources; is able to integrate
obtained information and interpret it, as well as draw
conclusions and formulate and justify opinions
T1A_U02 - Graduate can work individually as well as in a team;
graduate is able to estimate the time needed to fulfill
the given task; graduate is able to develop and
implement a work schedule that ensures meeting
deadlines
T1A_U08, T1A_U09 - Graduate can use properly selected methods and
devices to measure the basic quantities
characterizing systems and technologies used in
environmental engineering.
T1A_U15 - Graduate can assess the suitability of routine
methods and tools for solving simple engineering
tasks typical of systems and technologies used in
environmental engineering and selecting and
applying appropriate methods and tools.
Assessment criteria
Lecture:
The lecture takes place in written form.
The student will receive an individual sheet of work.
About 1/2 of the first page of the spreadsheet - it takes up the content of the task (it can cover at the same time)
some problems to solve). The rest of the sheet - serves to demonstrate
performed the calculations and give the resultant answers.
The scoring of the various stages of work, due to the thematic diversity and
The varied difficulty of the problems is determined separately for each credit term
administered to students before commencement of credit. Positive result from the lecture
It consists in solving the accounting tasks given by the lecturer and obtaining
at least 60% of possible points. The system of granting a specific rating is given
below:
<60% points 2.0 (insufficient)
60% - 74% 3.0 (sufficient)
75% - 79% 3.5 (sufficient plus)
80% - 89% 4.0 (good)
90% - 94% 4.5 (good plus)
95% - 100% points. 5.0 (very good)
Topics in passing the lecture - are cross-sectional and refer to the examination accounting skills and mastering practical applications of known methods (especially in the area of co-ordinate calculations) situational and altitudinal as well as inventory and control measurements, as well as from height measurement by geometric and / or trigonometric grading).
During the course a student should have: writing instruments, scientific calculator, line. You can use your own handwritten notes. Lecturer of engineering geodesy, reserves the right to reduce ½ grade grades, if the work is erratic. Total lack of readability of student work results - results in insufficient assessment.
Specialized workshop:
1. Active participation in the first part of classes together with credit:
• measurement of the horizontal angles with theodolite
• measurement of vertical angles with theodolite
• measurement of surges by means of a leveler
• Angular indentation (integration of angular, linear, computational).
Passing is done on a regular basis, after completion of measurements and calculations - in classes.
2. Positive test of test # 1.
This includes the development of the results of angular, linear or level measurements
Using basic calculation methods (calculation of the most probable series value non-homogeneous observations with an accuracy analysis). Score system and Evaluation - just like on the lecture.
3. Positive test of test # 2.
Test includes basics methods of calculations: coordinates, distances, azimuths, areas of plots, data to field stakeout buildings, fragments of constructions and fragments of a circular arc, with elements of mapping.
4. Individual pickup, defense and discussion of technical operations from the part of "Calculating and analyzing situations" and "Calculating and analyzing pitches". A possible corrective colloquium for those who did not pass the tests or want to improve their assessment.
W. Łupiński, PhD. Eng.
Practical placement
Not expected.