| TSBB65 | Images och Graphics, 6 ECTS credits. /Bilder och grafik/ |
||
Prel. scheduled
hours: 64 |
|||
|
Area of Education: Technology Subject area: Electrical Engineering/Computer Engineering |
|||
| Advancement level
(A-D): C
|
|||
| Aim: To provide an introduction to the disciplines of image processing, image analysis, image compression, image reconstruction and computer graphics, and present five well-defined applied problems within these disciplines. |
|||
| Prerequisites: (valid for students admitted to programmes within which the course is offered) TSDT25 Signals and systems (D program), or TSDT78 Signals and systems (I,Ii, Y program). Note: Admission requirements for non-programme students usually also include admission requirements for the programme and threshhold requirements for progression within the programme, or corresponding. |
|||
| Supplementary courses: TSBB35 Multidimensional signalanalysis, TSBB52 Image analysis, TSBB02 Computer Vision, TSBK02 Image and audio coding, TBMI26 Classification, Learning and Neural Nets, TBMT45 Medical imaging, TSBK05 Computer graphics, TSBB50 Image processing project course, TFSB05 Image reconstruktion och computer tomography |
|||
| Organisation: The course consists of a basic part (part 1) with 14h lectures, 6h classroom lectures, 8h computer exercises, and one applied part (part 2) divided into 5 applications with 4h lectures and 4h computer exercises each. |
|||
| Course contents: Part 1. Concepts and definitions. From 1D to 2D Fourier transform. The sampling theorem, convolution, resampling, interpolation, filtering, translation, scaling, rotation, correlation, and other linear operations on digital images. Part 2. Problem 1, Image input: From a 3D world to an image in the computer. Problem 2, Computer Vision, the stereo problem: How can distance be calculated from a pair of stereo images? Problem 3, Ray-tracing: How can an image be generated by ray-tracing? Problem 4, Image coding, the compression problem: How can the number of bits which represent an image be reduced? Problem 5, Tomography, the reconstruction problem: How can an image be reconstructed from its projections? |
|||
| Course literature: A compendium |
|||
| Examination: | |||
| A written examination Laboratory assignments |
2,5 p 1,5 p |
||
Course language is Swedish. Department offering the course: ISY. Director of Studies: Klas Nordberg Examiner: Maria Magnusson Seger Course Syllabus in Swedish |
|||
|
|
 |
|||||
| ||||||