Revision 8ea97d2677e61f5062f45eebec15248b0b04e630 (click the page title to view the current version)

Overview

Changes from 8ea97d2677e61f5062f45eebec15248b0b04e630 to current

---
title: Lecture Notes - AIS2204 Maskinsyn
categories: Module
---

# Chapter 1-2. Introduction and 3D Modelling (two weeks)
**Note** The lecture plan as posted at the start of semester is last
year's schedule.  There will not be any revolutionary changes, but
it will be reviewed and amended as we go along.

**Dates** 25-26 August + 1-2 September
# Chapter 1-3. Introduction; 3D geometry and projections

**Dates** 21, 24, 28, and 31 August, and 4 and 7 September

| # | Session Notes | Reading | Keywords | Status |
|---|---------------|-------------------|-----------------------------|-----|
| 1 | [Introduction]()         | Ma 2004:Ch 1 (Ch 2.1 and 2.3) | Practical matters. Software installation. Recap of linear algebra. | OK |
| 2 | [3D Modelling]()         | Ma 2004:Ch 2, App A (SZ 2)   | 3D modelling, motion | OK |
| 3 | [3D Objects in Python]() | Tutorials                    | Homogeneous co-ordinates.  General Rotations. 3D Transformations in Python | OK |
| 4 | [3D Modelling Part II]() |                              | Velocity transformations.  Recap.  Questions. |  To be adapted to class |
| 4 | [Image Formation]()    | Ma 2004:Ch 3-3.3.1 (SZ 6) | (self-study) projection, lens/camera | |
| 5 | [Camera Calibration]() | Ma 2004:Ch 3.3-3.3.3 | (self-study) Calibration, Radial Distortion etc. |
| 6 | [Three-week Recap]()   | Ma 2004:Ch 1-3 | 3D Motion and 2D Projections |  To be adapted to class need|
| 7 | Recap: [Camera Calibration]() | Ma 2004:Ch 3 | | Many students needed more time to get the calibration to work.  |

# Chapter 3. Image Formation (two weeks)
**Note** It could have been useful to do a session on Theorem 2.8, training proof
reading skills.

| # | Topic  | Reading | Keywords |
|---|---------------|-------------------|-----------------------------|
| 5 | [Image Formation]()    | Ma 2004:Ch 3-3.3.1 (SZ 6) | projection, lens/camera |
| 6 | [Camera Calibration]() | Ma 2004:Ch 3.3-3.3.3 | Calibration, Radial Distortion etc. |
| 7 | [More Camera Mathematics]() | Ma 2004:Ch 3.3-3.4 | Radial Distortion, Tangential Distortion |
# Chapter 4. Feature Tracking

**Dates** 8-9 and 15 September
We need to interleave this with material from later blocks to have
project tracker run over midterm.
[Study Technique]() may be a good candidate.

# Chapter 4. Feature Tracking (three weeks)
| # | Topic  | Reading | Keywords | Status |
| -: | :- |  :- |  :- |  :- | 
| 8 (14 Sep) | [Image Filters]() | Convolution.  Filters.  Blurring. | |
| 9 | [Corner Detection]() | Ma 2004:Ch 4.3, 4.A (SZ 4) | Calculate Gradient.  Harris Feature Detector. | |
| 10 (21 Sep) | [Tracking Features]() |  Ma 2004:Ch 4-4.2 | Tracking of Features. Tracking of Edges. | |
| 11 | [SIFT]() | | Feature Matching.  Feature Descriptor. | |
| 12 (28 Sep) | [Edges]() | Ma 2004:Ch 4.4 | Canny, connected components, line fitting | |
| 13 | [Colour]() Models |
| 14 (5 Oct) | [Relative Pose]() | Ma 2004:Ch 5.1 | Triangulation. Relative Pose. Essential Matrix. |
| 15  | [Project Tracker]() | | [Multiscale Detection]() | |
| 16 (12 Oct) | *Self-Study* | Continue with [Tracking Features]() | - | - |
| 17 | Recap      | | Status, review, repetition | |

The material will be as given for this chapter, but it will be rearranged.
# Chapter 5. Projective Reconstruction 

| # | Topic  | Reading | Keywords |
|---|---------------|-------------------|-----------------------------|
| 8 (new) | [Image Filters]() | | Convolution.  Filters.  Blurring. |
| 9 (8) | [Corner Detection]() | Ma 2004:Ch 4.3, 4.A (SZ 4) | Calculate Gradient.  Harris Feature Detector. |
| 10 (9) | [Corner Detection]() continued | | **new** Multi-Scale Detection |
| 11 (10) | [Tracking Features]() |  Ma 2004:Ch 4-4.2 | Tracking of Features. Tracking of Edges. |
| 12 (11) | [Edges]() | Ma 2004:Ch 4.4 | |
| 13-14 | *Self-Study* | Continue with [Tracking Features]() |
| 15 | [Tracking Features 2]() | Recap.  Long project?  |
| 16 | [SIFT]() | | **NB** Feature Matching.  Feature Descriptor. |
| # | Topic  | Reading | Keywords | Status |
|---|---------------|-------------------|-----------------------------| -: |
| 18 (19 Oct) | [Eight-point algorithm]() | Ma 2004:Ch 5.2 | Calculate Essential Matrix | OK |
| 19 | [Study Technique]() | Ma 2004:Ch 5.1 | Proof reading. | OK |
| 20 (26 Oct) | [Planar Scenes]()| Ma 2004:Ch 5.3 | | 
| 21 (30 Oct) | [Epipolar Geometry]()| Ma 2004:Ch 5.1-3 | |
| 22 | self study [3D Reconstruction]()  | Ma 2004:Ch 5.1-2 |  Continuous on 18 [Eight-point algorithm]() using real image data |  OK |

+ 8 - 16 September
+ 9-12 - 22-23 and 29-30 September
+ 13-14 - 6-7 October - staff seminar - possibly self-managed work only
+ 20-21 - 13-14 October - midterm - regular teaching
# Chapter X.  Machine Learning

*Note* Last year, session 12 was planned Self-Study due to staff seminar.
Session 13-14 became self-study because of sick leave, and negligible
progress was made this week.
| #  | Topic         | Reading | Keywords |
|----|---------------|-------------------|-----------------------------|
| 23-24 | [Neural Networks]() | Szeliski 2022 Chapter 5 | Training. Testing |
| 25 | [Statistics]() |  | Evaluation, Standard Deviation |
| 26 | [Object Detection]() | Szeliski 2022 Chapter 6 (6.3 in particular) | Object Detection |
| 27 | [Regression]() | | |
| 28 | [Distorted Space]() + Recap  | Ma 2004:Ch 6.1-2 | Questions; Answers; module evalutaiton | 

*Note from last year*
We should have had one session on blurring filters and similar
techniques from image processing before starting on Corner Detection
(Session 8).
This would have made the introduction of signal differentiation smoother.

# Chapter 5.  Projective Reconstruction (two weeks ?)

This plan is tentative and may be shortened as well as rearranged.

| # | Topic  | Reading | Keywords |
|---|---------------|-------------------|-----------------------------|
| 17 | [Relative Pose]() | Ma 2004:Ch 5.1 | Triangulation. Relative Pose. Essential Matrix. |
| 18 | [Eight-point algorithm]() | Ma 2004:Ch 5.2 | Calculate Essential Matrix |
| 19 | [Study Technique]() | Ma 2004:Ch 5.1 | Proof reading. |
| 20 | [Synthetic Experiment]()  | Ma 2004:Ch 5.1-2 |  |
| 21 | [Planar Scenes]()| Ma 2004:Ch 5.3 | |
| 22 | [Epipolar Geometry]()| Ma 2004:Ch 5.1-3 | |

*Notes from last year*

1.  [Synthetic Experiment]() should be merged into 
    [Eight-point algorithm]()
2.  [Study Technique]() should probably be done earlier in the semester
3.  3D modelling took a lot of time.  Many did not realise that they 
    needed to find triangles.
    Rectangles mixed with triangles caused problems.
4.  Generally, the preliminary steps of the exploratory exercises should have been
    premade, to save time for the students.
5.  Algorithm implementation is difficult and require sample solutions

# New.  Machine Learning

TBC

# Chapter 6 and 11.  Projective Reconstruction (many weeks)

This will be shortened and probably based on different sources.

| # | Topic  | Reading | Keywords |
|---|---------------|-------------------|-----------------------------|
| 23 | [Distorted Space]()  | Ma 2004:Ch 6.1-2 |  |
| 24 | [Stratified Reconstruction]() | Ma 2005:Ch 6.3-4  | |
| 25 | [Partial Scene Information]() | Ma 2005:Ch 6.5  | |
| 26 | [Real World Reconstruction]() | Ma 2004:Ch 11 |  |

*Notes from last year*

1. We can skip [Stratified Reconstruction]()
   and [Partial Scene Information]() 
2. [Distorted Space]()  may be interesting as an introduction to
   inner product spaces.
3. What can we make out of [Real World Reconstruction]()?
# Other Material.

+ [Overview of Python Demoes](Python/Overview)
+ The material is under constant review.  
    + Any feedback is welcome.
    + Existing notes for [Review]()

# Closure/Tentative
# Old Material.

| # | Topic  | Reading | Keywords |
|---|---------------|-------------------|-----------------------------|
| 27 | [Continuous Motion]() | Ma 2004:Ch 5.4 | |
| 28 | Tentative Seminar: Applications | TBA | **TBC** - we may decide to move on to feature tracking |
| 24/2021 | [Stratified Reconstruction]() | Ma 2005:Ch 6.3-4  | |
| 25/2021 | [Partial Scene Information]() | Ma 2005:Ch 6.5  | |
| 26/2021 | [Real World Reconstruction]() | Ma 2004:Ch 11 |  |
| 27/2021 | [Continuous Motion]() | Ma 2004:Ch 5.4 | |

1. Ma 2004 Chapter 10.  Partial Scene Knowledge
    - This is referenced as a building block in Chapter 11.
1. Ma 2004 Chapter 11.4.
1. Ma 2004 Chapter 11.5.  **Keywords** texture, visualisation