Engineering-Geodetic Surveys
BASIC DATA
course listing
A - main register
course code
ETG5400
course title in Estonian
Insener-tehnilised geodeesiatööd
course title in English
Engineering-Geodetic Surveys
course volume CP
-
ECTS credits
6.00
to be declared
yes
assessment form
Graded assessment
teaching semester
autumn
language of instruction
Estonian
English
Prerequisite(s)
Prerequisite 1
Construction Surveying II (ETG5112)Study programmes that contain the course
Structural units teaching the course
EA - Department of Civil Engineering and Architecture
Timetable link
Version:
VERSION SPECIFIC DATA
course aims in Estonian
Anda ülevaade spetsiifilistest insener-tehnilistest geodeesiatöödest, nende seostamine teiste ehitusala valdkondadega. Insener-tehniliste geodeesiatööde metoodikate tundmaõppimine.
course aims in English
To provide a review on specialized engineering-geodetic surveys, their relation with other fields of civil engineering. Familiarizing with methodics of the engineering-geodetic surveys.
learning outcomes in the course in Est.
1. Teab insener-tehniliste geodeesiatööde eesmärke
2. Tunneb insener-tehniliste geodeesiatööde metoodikaid, oskab eri olukordades valida neist õigeid.
3. Suudab sooritada mõõtmis- ja arvutustöid vastavalt järgmistele enamlevinumatele meetoditele: kõrgtäpne nivelleerimine, põiknivelleerimine, laserskaneerimine.
2. Tunneb insener-tehniliste geodeesiatööde metoodikaid, oskab eri olukordades valida neist õigeid.
3. Suudab sooritada mõõtmis- ja arvutustöid vastavalt järgmistele enamlevinumatele meetoditele: kõrgtäpne nivelleerimine, põiknivelleerimine, laserskaneerimine.
learning outcomes in the course in Eng.
1. Knows the tasks and purpose of engineering-geodetic surveys;
2. Knows the engineering-geodetic surveys methods and is able to determine appropriate methods in different situations.
3. Performs the following common methods for engineering-geodetic surveys: high precision leveling, “horizontal leveling”, laser scanning etc.
2. Knows the engineering-geodetic surveys methods and is able to determine appropriate methods in different situations.
3. Performs the following common methods for engineering-geodetic surveys: high precision leveling, “horizontal leveling”, laser scanning etc.
brief description of the course in Estonian
Insener-tehnilised geodeesiatööd liigid ja üldised põhimõtted ning seosed sidusvaldkondadega.
Mittestandardsete rajatiste mõõdistamine. Ehitiste deformatsioonide mõõdistamine. Eri iseloomuga ehitiste deformatsioonide tekkepõhjused, iseloom ja sümptomid. Deformatsioonide kindlaksmääramise meetodid, sh vajalikud mõõtmis- ja arvutustööd. Deformatsiooniprotsesside insenergeodeetiline modelleerimine. Deformatsioonide uurimistöö aruanne. Materjalimahtude mõõdistamine ja arvutamine. Spetsiifiliste rajatiste (mahutid, kraanateed, muud rööbasteed) kalibreerimine ja pasportiseerimine
Praktikumid:
1. Deformeerunud ehitise ülevaatus
2. Mõõdistustööd polügoonil: kõrgtäpne nivelleerimine, põiknivelleerimine
3. Arvutustööd: Mõõdistustulemused ja nende põhjal deformatsioonide arvutamine
4. Deformatsioonide graafiline kujutamine, uurimistöö aruande koostamine
Mittestandardsete rajatiste mõõdistamine. Ehitiste deformatsioonide mõõdistamine. Eri iseloomuga ehitiste deformatsioonide tekkepõhjused, iseloom ja sümptomid. Deformatsioonide kindlaksmääramise meetodid, sh vajalikud mõõtmis- ja arvutustööd. Deformatsiooniprotsesside insenergeodeetiline modelleerimine. Deformatsioonide uurimistöö aruanne. Materjalimahtude mõõdistamine ja arvutamine. Spetsiifiliste rajatiste (mahutid, kraanateed, muud rööbasteed) kalibreerimine ja pasportiseerimine
Praktikumid:
1. Deformeerunud ehitise ülevaatus
2. Mõõdistustööd polügoonil: kõrgtäpne nivelleerimine, põiknivelleerimine
3. Arvutustööd: Mõõdistustulemused ja nende põhjal deformatsioonide arvutamine
4. Deformatsioonide graafiline kujutamine, uurimistöö aruande koostamine
brief description of the course in English
Types and principles of engineering-geodetic surves, their relevance to related subjects. Surveys of non-standard engineering constructions. Fundamentals of deformation monitoring.
Reasons, characteristics and symptoms of deformations of different types of buildings.
Methods of determining deformations, incl. necessary measurements and calculations.
Geodetic evaluation models for deformation processes. Requirements for the technical report on the performed engineering-geodetic surveys. Quantity surveys. Calibration and certification of specific engineering structures (such as crane rails, reservoirs, railways, etc).
Practical assignments:
1. Inspection of a building with deformations
2. Measurements on a survey site: high accuracy leveling, “horizontal" leveling
3. Computations of results, calculating the range of deformations.
4. Graphical representation of deformations, assembling the technical report on the surveys performed.
Reasons, characteristics and symptoms of deformations of different types of buildings.
Methods of determining deformations, incl. necessary measurements and calculations.
Geodetic evaluation models for deformation processes. Requirements for the technical report on the performed engineering-geodetic surveys. Quantity surveys. Calibration and certification of specific engineering structures (such as crane rails, reservoirs, railways, etc).
Practical assignments:
1. Inspection of a building with deformations
2. Measurements on a survey site: high accuracy leveling, “horizontal" leveling
3. Computations of results, calculating the range of deformations.
4. Graphical representation of deformations, assembling the technical report on the surveys performed.
type of assessment in Estonian
Hindeline arvestus koosneb teoreetilistest küsimustest ja praktilistest ülesannetest. Hinne (0 kuni 5) oleneb vastuse põhjalikkusest ja täpsusest.
type of assessment in English
Passing of the home and practical assignments is the prerequisite for the graded assessment. The written final assessment comprises of practical computations and theoretical questions. The grade (0 to 5) of the assessment depends on the adequacy of the answers.
independent study in Estonian
Iseseisev töö on vajalik igaks loenguks ning praktikumiks valmistumisel, aga ka koduste tööde tegemisel ning arvestuseks valmistumisel. Praktikumide koondaruanne koostatakse täienisti iseseisvalt.
independent study in English
Independent study is requred for participation in lectures and laboratory classes, also for completing home assignments and preparing for the final assessment. Assembling of the technical report on practical assignments is entirely based on independent study/work.
study literature
Vello Kala: ”Ehitusgeodeesia”, TTÜ 2008:
Veebimaterjalid
Veebimaterjalid
study forms and load
daytime study: weekly hours
4.0
session-based study work load (in a semester):
lectures
2.0
lectures
-
practices
0.0
practices
-
exercises
2.0
exercises
-
lecturer in charge
-
LECTURER SYLLABUS INFO
semester of studies
teaching lecturer / unit
language of instruction
Extended syllabus
2025/2026 autumn
Mairolt Kakko, EA - Department of Civil Engineering and Architecture
Estonian