Welcome to RBE/CS549 course at WPI. The official name of the course is Computer Vision but a more apt title would be Classical and Deep Learning Approaches for Geometric Computer Vision since it is more descriptive of what the course has to offer. This course is taught by Prof. Nitin J. Sanket. Please sign up for Piazza if you haven't done so already.

All the class announcements will be made through Piazza. Please use Piazza to contact TAs. Please do NOT contact the TA's or the Instructor via email unless it's an emergency, and do NOT contact the TA's on any social media platform such as Facebook or WhatsApp (please respect their privacy) regarding course content. If you want to have a chat about our research, feel free to reach out to Prof. Sanket after class.

All the student reports will be released publicly online to enable better learning experience for others. We will be also announce top three submissions for each announcement on the wesbite. All the projects and homeworks are to be submitted using Canvas. If you find any errors/typo in the course github website, please edit the markdown '.md' file and send a 'pull request'. If you don't know how to use pull request, please check out this tutorial, alternatively post on Piazza.

The previous course materials of this course can be found here and expect this offering to be of a similar content and difficulty.



Homework 0 (HW0) has been released on Jan 03, 2023 and is due on Jan 18, 2023. The knowledge from HW0 is a pre-requisite for the class.

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What is this course about?


This is an advanced course on graduate computer vision and computational photography. This course will explore image formation, image features, image segmentation, image stitching, image recognition, motion estimation, 3D point clouds and will touch upon basics of augmented reality. This course is designed to showcase how to model classical 3D geometry problems using Deep Learning.


Team

Prof. Nitin J. Sanket

Instructor
he/him/his

Sai Ramana Kiran

Teaching Assistant
he/him/his

Pre-requisities


Programming proficiency in Python 3, experience with Linux and completion of HW0 is a hard pre-requisite. We assume that the students are proficient with basic Linear Algebra, calculus and machine learning to the level of an undergraduate class.


Office Hours



Expectations


This course is fast-paced and has high-expectations of time and effort commitment from students. The students are expected to complete assignments on time since the concepts build on top of each other and it is very easy to fall behind in this course. Please understand the concepts well, ask questions, use Piazza heavily and come to office hours. Help your peers out, but do not plagiarize.


Software Environment


We will use Python 3 as the programming platform throughout this course along with packages from OpenCV, PyTorch, Numpy, Scikit and Matplotlib. We officially support the server/cluster only. Feel free to use VirtualMachine if you have a Mac/Windows system. For most assignments, there will be a starter code released in PyTorch.


Assignments


All the projects are to be done in groups of TWO whereas homeworks should be done INDIVIDUALLY. However, we encourage you to discuss with your peers and not cheat. The Midterm exams are to be done INDIVIDUALLY and NO discussion is allowed. For clarifications, post a private post on Piazza. For further details, read the Collaboration Policy and Honor Code below.

Assignment Name With Link Deadline Grade Percentage Student Outputs
HW0: Alohomora Wednesday, Jan 18, 2023 at 11:59:59 PM (Individual Submissions) 5 HW0
P1: My AutoPano Thursday, Feb 02, 2023 at 11:59:59 PM (Group Submissions) 12 P1
HW1: AutoCalib Friday, Feb 10, 2023 at 11:59:59 PM (Individual Submissions) 5 HW1
P2: Building Built In Minutes: SfM and NeRF Sunday, Mar 12, 2023 at 11:59:59 PM (Group Submissions) 20 P2
Midterm Exam 1 (On Canvas) Tuesday, Mar 14, 2023 at 11:59:59 PM (Individual Submissions) 10 NA
P3: Einstein Vision Saturday, Apr 01, 2023 at 11:59:59 PM (Group Submissions) 16 P3
P4: Deep and Un-Deep VIO Friday, Apr 28, 2023 at 11:59:59 PM (Group Submissions) 18 P4Ph1
P4Ph2
Midterm Exam 2 (On Canvas) Monday, May 01, 2023 at 11:59:59 PM (Individual Submissions) 14 NA



Class Slides


Class Number Class Date Slides/Resources Class Topic(s)
1 Jan 10 2023 Slides, Video: Introduction and Logistics
2 Jan 12 2023 Slides, Video: What is a Robot? And Interpreting Color
3 Jan 19 2023 Slides, Video: More Color And Image Filtering (Space)
4 Jan 23 2023 Slides, Video: Image Filters in Frequency Domain And Features
5 Jan 26 2023 Slides, Video: Image Features and Descriptors
6 Jan 30 2023 Slides, Video: Advanced Features
7 Feb 02 2023 Slides, Video: Image Stitching And Deep Feature Matching
8 Feb 06 2023 Slides, Video: Camera Models
9 Feb 09 2023 Slides, Video: Depth From Monocular Single View
10 Feb 13 2023 Slides, Video: Epipolar Geometry and Two-View Stereo
11 Feb 16 2023 Slides, Video: Triangulation and PnP
12.1 Feb 20 2023 Slides, Video: Depth From Moving Monocular Camera (Bundle Adjustment)
12.2 Feb 20 2023 Slides, Video: Factor Graphs And TagSLAM
13 Feb 27 2023 Slides, Video: Neural Rendering
14 Mar 02 2023 Slides, Video: More NeRFs And Depth From Stereo
15 Mar 13 2023 Slides, Video: Deep Learning and Neural Networks
16 Mar 16 2023 Slides, Video: NN Tuning, GANs, Bayesian NNs
17 Mar 20 2023 Slides, Video: Image Segmentation And Instance Segmentation
18 Mar 23 2023 Slides, Video: Object Detection
19 Mar 27 2023 Slides, Video: Learned Monocular Depth And Visual Inertial Odometry Basics
20 Mar 30 2023 Slides, Video: Visual Inertial Odometry Details
21 Apr 03 2023 Slides, Video: Optical Flow and Velocities
22 Apr 06 2023 Slides, Video: LIDAR Depth Fusion
23 Apr 10 2023 Slides, Video: Learned Stereo Depth And Flow
24 Apr 13 2023 Slides, Video: Event Cameras
25 Apr 20 2023 Slides, Video: Motion Segmentation
26 Apr 24 2023 Slides, Video: Depth From Focus And Defocus
27 Apr 27 2023 Slides, Video: Fancy Deep Learning
28 May 01 2023 Slides, Video: Summary, Recap and Conclusions



Syllabus


Singular Value Decomposition, Linear Least Squares, Random Sample Consensus, Image Acquisition, Color Spaces, Gaussians, Color Segmentation, Expectation Maximization, Gaussian Mixture Model, Convolution, Filtering in images, Corner and Edge Detection, Projective Geometry, Camera Model, Feature Matching, Homography, Classifiers, Optical Flow, Fundamental and Essential Matrix, Epipolar Geometry, Perspective-n-points, Bundle Adjustment, Fiducial markers, Factor graphs, Pose Graph Optimization, Visual Odometry, Structure from Motion, RGB-D reconstruction, perceptron, backpropagation, convolutional neural networks, deep learning.


Piazza and ELMS


If you haven't done so already, register yourself on Piazza with your wpi email. We'll be using Piazza for all announcements and discussions. Please use Piazza to contact the instructor/TAs (Feel free to use private posts on Piazza to contact me/TAs). Please do NOT contact the instructor/TAs via email unless it's an emergency, and do NOT contact the instructor/TAs on any social media platform such as Facebook or WhatsApp (please respect our privacy) regarding course content. If you want to have a chat about research, chat with Prof. Sanket after class.

All the assignments will be released on this website page.

All the assignments are to be submitted using Canvas. If you find any errors/typo in the course github website, please edit the required markdown '.md' file and send a 'pull request'. If you don't know how to use pull request, please check out this tutorial.


Submission Policy


The submissions are made through Canvas (unless otherwise specified) with the name HWk_DirID.zip (for homeworks, Pk_DirID.zip for projects) (where k is the assignment number, for e.g., for homework 0, this would be HW0_DirID.pdf). Here, DirID is your directory ID, i.e., the first part of your wpi email address. For e.g., if your wpi email address is ABCD@wpi.edu, then your DirID is ABCD. Keep your submissions professional, grammatically correct without spelling mistakes. Do not use slangs and chat shorthands on your submissions. You'll get 25% grade penalty for not following the submission guidelines.


Late Submission Policy


This course moves quickly, and concepts will build on top of each other. Therefore it's very important to keep up with the material. To encourage this, late assignments are penalized for 25% per day after the due date. But life is unpredictable; we all need a break sometimes. So, we allow you seven late days, to spend on any assignment(s) except the midterm exams and the final project (P4). You may submit an assignment late (after the due date) using a late day without any penalty. Think of a late day as pushing the deadline back by a day. So, to get full credit on a 2-days-late assignment, you'd need to use two late days. Late days can only be spent as full days (i.e., you can't use only half a late day for an assignment you submit 12 hrs late). If you are using a late day, mention it in the title of your submission as "USING X LATE DAY(S)" and post a comment on Canvas about the usage of a late day. We expect you to keep track of number of late days you have remaining and notify us of usage of one or more late days. We will default for penalty if we don't see the mention of late day usage as a comment on ELMS on that particular assignment. Again, If you are using a late day, mention it in the title of your submission as "USING X LATE DAY(S)". Also, there will be NO extensions provided to any of the assignments.


Collaboration Policy and Honor Code


Collaboration is encouraged, but one should know the difference between collaboration and cheating. Cheating is prohibited and will carry serious consequences. Cheating may be defined as using or attempting to use unauthorized assistance, material, or study aids in academic work or examinations. Some examples of cheating are: collaborating on an take-home exam or homework unless explicitly allowed; copying homework; handing in someone else's work as your own; and plagiarism. You are welcome to collaborate with your peers on Piazza and in person. However it's important that the work you submit is an expression of your understanding, and not merely something you copied from a peer. So, we place strict limits on collaboration: Firstly, you must clearly cite your collaborators by name at the top of your report. This includes Piazza posts reference. You may not share or copy each other's code. You can discuss how your code works, and the concepts it implements, but you can't just show someone your code. You may use free and publicly available sources, such as books, journal and conference publications, and web pages, as research material for your answers. (You will not lose points for using external sources.) You may not use any service that involves payment, and you must clearly and explicitly cite all outside sources and materials that you made use of. We consider the use of uncited external sources as portraying someone else's work as your own, and as such it is a violation of the University's policies on academic dishonesty. Instances will be dealt with harshly and typically result in a failing course grade. Unless otherwise specified, you should assume that that the WPI Code of Academic Integrity applies. Unless otherwise specified, you should assume that that the WPI Code of Academic Integrity applies.


Reference Books


All concepts will be covered in class lecture, and in the lecture notes. However, we also recommend the following books as good references: Furthermore, refer to the slides from courses in the acknowledgement section.

Acknowledgements


This course is developed by being inspired by adapting some of the best parts of each of the courses at multiple universities and these resources are linked below and you are encouraged to look at their content to learn from them as well. The goal of this course is to be the best computer vision and robotics perception course in the world.


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