I. Finish:
- Chapter 3: Proposed method
- around 8400 words, 61 pages
II. Start writing:
- Chapter 4: Experimental results
- Have plans and structure about how to write this section
Thursday, 21 August 2014
Tuesday, 19 August 2014
Draft Master Thesis (7) & (8)
* This is the memo of 18/08/2014 to today.
I. The parts of writing which is done as following:
- Around 60% of Chapter 3 (Proposed Method) is done.
- Modifying and adding more paragraphs in Chapter 2 (Introduction and literature review)
- Inserting relevant pictures in Chapter 2 and Chapter 3
- Collecting pictures to help to illustrate all ideas in Chapter 2 and Chapter 3
- 38 pages, 5077 words in total now
- 38 pages, 5077 words in total now
II. Planning about how to organize Chapter 4 (Experimental Results) and Chapter 5 (discussion)
Sunday, 17 August 2014
Estimate Homography to do 2D to 3D integration (21): Extract known points in pairs automatically
I. Generating another experimental results of zoom, tilt, viewpoint_change and rotation by using webcam:
- This results will be a demonstration to illustrate following 4 points:
1. How are we doing and validating our proposed system, before adapting the eye-tracker
2. Why we try to use BW segmentation to improve the result of Particle Filtering in next step
3. Why we would like to increase the size of color markers
4. What's the differences and issues while we choose the eye-tracker instead of using the webcam
- The videos, graphs, precision, and accuracy can be downloaded via: https://db.tt/kSwzkZ6e
II. Debugging and editing my code in doing "3D Rendering":
- Dealing with the problem that my proposed method is not able to show fixations in World Coordinate without overlap across frames, while the system is automatically running
- Changing the color and type of marker in order to make the markers become more clear
- The updating videos, graphs can be downloaded via: https://db.tt/eUmPKGKH
(... the original results can be found via: https://db.tt/2sRENfGC)
- This results will be a demonstration to illustrate following 4 points:
1. How are we doing and validating our proposed system, before adapting the eye-tracker
2. Why we try to use BW segmentation to improve the result of Particle Filtering in next step
3. Why we would like to increase the size of color markers
4. What's the differences and issues while we choose the eye-tracker instead of using the webcam
- The videos, graphs, precision, and accuracy can be downloaded via: https://db.tt/kSwzkZ6e
II. Debugging and editing my code in doing "3D Rendering":
- Dealing with the problem that my proposed method is not able to show fixations in World Coordinate without overlap across frames, while the system is automatically running
- Changing the color and type of marker in order to make the markers become more clear
- The updating videos, graphs can be downloaded via: https://db.tt/eUmPKGKH
(... the original results can be found via: https://db.tt/2sRENfGC)
Friday, 15 August 2014
Estimate Homography to do 2D to 3D integration (20): Extract known points in pairs automatically
I. The results of 3D rendering:
* Haven't give a function to let user play around with these 2 demos. Currently, users only can watch these demo, after I collect the extracted frames and combine together into video streams.
* The Viewing Angle is set by me... each demo chooses 3 viewing angles
* Each video shows the view from Kinect camera in the World Coordinate System, also, shows the 4 fixations by using "yellow cross (ground truth)" and "red cross (the result of our proposed method)"
* Here is the download link in order to see more clear demos... shows those 8 crosses: 3D rendering videos
- Demo 1:
- Demo 2:
* Haven't give a function to let user play around with these 2 demos. Currently, users only can watch these demo, after I collect the extracted frames and combine together into video streams.
* The Viewing Angle is set by me... each demo chooses 3 viewing angles
* Each video shows the view from Kinect camera in the World Coordinate System, also, shows the 4 fixations by using "yellow cross (ground truth)" and "red cross (the result of our proposed method)"
* Here is the download link in order to see more clear demos... shows those 8 crosses: 3D rendering videos
- Demo 1:
Draft Master Thesis (6)
I. Focus on writing the "Implementation" part, which will mention...:
- Introducing all components of our proposed system
- Describing the way to implement
- Collecting support images and graphs
- Gathering all materials used in my implementation while I work on it
- Surveying related reference, website, toolbox
II. Use sometime to write a bit of "Results" part:
- Introducing all components of our proposed system
- Describing the way to implement
- Collecting support images and graphs
- Gathering all materials used in my implementation while I work on it
- Surveying related reference, website, toolbox
II. Use sometime to write a bit of "Results" part:
Thursday, 14 August 2014
Estimate Homography to do 2D to 3D integration (19): Extract known points in pairs automatically
I. Studying for "how to make 3D rendering":
- Coding
- Find suitable source as a demonstration
II. Modifying the graphs of (x, y, t), (X, Y, Z):
- (x, y, y)
- (X, Y, Z)
- Coding
- Find suitable source as a demonstration
II. Modifying the graphs of (x, y, t), (X, Y, Z):
- (x, y, y)
Wednesday, 13 August 2014
Summary of Weekly Meeting - (20)
I. Make a demo of 3D rendering:
- This demo should look like this: https://www.youtube.com/watch?v=r26fmr0UpBs
II. Possible additional experiments to do in order to expand the content of the chapter of "experiment results":
1. Comparing the results of proposed system via automatically locate fixation points and manually mark those fixation points
2. Discussion the goodness parts and the illness parts
3. Do some validation of each component... (minor)
III. Need to well-organized the results of precision, accuracy, graphs and extracted frames:
- Shows title, unit in the graphs of (x,y,t) and (x,y,z)
- Makes clear table to demonstrate the statistics of precision and accuracy
- This demo should look like this: https://www.youtube.com/watch?v=r26fmr0UpBs
II. Possible additional experiments to do in order to expand the content of the chapter of "experiment results":
1. Comparing the results of proposed system via automatically locate fixation points and manually mark those fixation points
2. Discussion the goodness parts and the illness parts
3. Do some validation of each component... (minor)
III. Need to well-organized the results of precision, accuracy, graphs and extracted frames:
- Shows title, unit in the graphs of (x,y,t) and (x,y,z)
- Makes clear table to demonstrate the statistics of precision and accuracy
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