|Abbreviation: B24A04||Load: 30(L)
|Lecturers in charge: ||doc. dr. sc. Dubravko Gajski
Reach the basic knowledges about principles of photogrammetric measuring. Know to choose the optimal methods of aerophotogrammetric measuring. To undestand the technology of aerophotogrammetric instrumentation. To know the procedures of photogrammetric data processing and measuring of images.
Learning outcomes at the level of the programme to which the course contributes
- Understand the role of geodesy, geoinformatics and spatial data in modern world, demonstrate competences in measuring systems, methods and technologies of measurement and spatial data collection.
- Demonstrate competences in theoretical principles, procedures of computing and visualising the surveying data.
- Understand mathematical methods and physical laws applied in geodesy and geoinformatics.
- Apply knowledge of mathematics and physics for the purpose of recognizing, formulating and solving of problems in the field of geodesy and geoinformatics.
- Handle geodetic instruments and appropriate measuring equipment properly, and perform geodetic measurements.
- Solve practical tasks in surveying, spatial data collection, real estate evaluation and management.
- Make plans, maps and related presentations using modern methods and technologies on the basis of measured data and other sources.
- Determine and interpret the size, properties and relations of objects in space on the basis of measured data, spatial databases, plans and maps.
- Maintain topographic, cartographic, maritime and navigation, and land information systems, integrate and visualise spatial information.
- Use information technology in solving geodetic and geoinformation tasks.
- Exercise appropriate judgements on the basis of performed calculation processing and interpretation of data obtained by means of surveying and its results.
- Recognise problems and tasks in the application of geodetic and geoinformation principles and methods, and select proper procedures for their solution.
- Prepare official public documents, reports, graphic and cartographic presentations using the surveying results related to objects in space.
- Communicate the results obtained by means of geodesy and geoinformation to clients and experts of geodetic and other related professions
- Keep pace with and adopt new technological achievements in the field of surveying, geoinformation systems and services based on the position, and the changes in regulations, norms and standards.
- Take responsibility for continuing academic development in the field of geodesy and geoinformatics, or related disciplines, and for the development of interest in lifelong learning and further professional education.
Learning outcomes expected at the level of the course
- compare photogrammetric measuring methods to other surveying measuring methods
- know the relevant features of metric cameras, and classify them according their metric features
- Use the possibilities of digital photographic camera to achieve technical photography.
- Define the coordinate systems in photogrammetry. Transform photogrammetric measurements between different coordinate systems in photogrammetry.
- Evaluate the abilities of the human eye in the photogrammetric survey.
- Interpret photogrammetric image and identify the orientation point.
- measure photogrammetric images at the digital monocomparator.
- Use the principles of stereoscopic vision to measure photogrammetric images.
- Recognise elements of metric images and use them in the photogrammetric survey.
Course content broken down in detail by weekly class schedule (syllabus)
- The content and organization of the course, an introduction, the concept and definition of photogrammetry
- Basics of photography and imaging, parameters and properties of technical photos. Depth of field.
- Cameras and other systems for imaging, metric and non-metric cameras. Digital Camera with area-, line- and point- sensors Technical characteristics and measurement properties
- measuring of images, coordinate systems in photogrammetry, 2D coordinate transformations.
- Terrestrial photogrammetry, accessories, and applications. Producing of documents of cultural heritage.
- Aerial photogrammetry, equipment. Distribution, stabilisation and determination of control points. Flight planning
- Flight plan, imaging geometry in rows and blocks Photosignalization.
- Stereophotogrametry, eye, resolving power of the eye, sensitivity to the color, stereoscopic viewing, subjective model
- Principles of stereo-measurements, analytical and digital systems Digital stereo- and mono- comparators.
- Photogrammetric orientation, the purpose and elements of particular orientation. inner orientation, outer orientation
- The relative orientation, absolute orientation, dangerous surfaces, deformation of the model
- Aerial triangulation in rows and blocks: method of independent models and bundle block adjustement
- Standard photogrammetric products, orthophoto,
- Accuracy of photogrammetric measurements
Screening student work
- Class attendance - 1.5 ECTS
- Tests - 0.5 ECTS
- Oral exam - 0.5 ECTS
- Written exam - 0.5 ECTS
- Project - 2 ECTS
|1. ||Kraus, K.: Fotogrametrija, Knjiga 1., prijevod na hrvatski jezik, Zagreb - Sarajevo 2005.
Materijali objavljeni na e-učenju
|2. ||Internetski izvori, sustav pomoći softvera NOOBEED
Braum, F.: Elementarna fotogrametrija, Sveučilište u Zagrebu 1969.
Braum, F.: Fotogrametrijsko snimanje, Sveučilište u Zagrebu 197.....