Course Detail


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IMPORTANT DATES Dates currently being confirmed; check back.

	2022
Call for Papers Announced	2 May
Journal-first (JIST/JPI) Submissions
∙ Submission site Opens	2 May
∙ Journal-first (JIST/JPI) Submissions Due	1 Aug
∙ Final Journal-first manuscripts due	28 Oct
Conference Papers Submissions
∙ Abstract Submission Opens	1 June
∙ Priority Decision Submission Ends	15 July
∙ Extended Submission Ends	19 Sept
∙ FastTrack Conference Proceedings Manuscripts Due	25 Dec
∙ All Outstanding Proceedings Manuscripts Due	6 Feb 2023
Registration Opens	1 Dec
Demonstration Applications Due	19 Dec
Early Registration Ends	18 Dec
	2023
Hotel Reservation Deadline	6 Jan
Symposium begins	15 Jan

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3D Imaging

SC04

3D Imaging
Instructor: Gady Agam, Illinois Institute of Technology
Level: Introductory
Duration: 4 Hours
Course Date/Time: Sunday 15 January 08:00 - 12:15

Benefits:
This course enables the attendee to:

Describe fundamental concepts in 3D imaging.
Develop algorithms for 3D model reconstruction from 2D images.
Incorporate camera calibration into your reconstructions.
Classify the limitations of reconstruction techniques.
Use industry standard tools for developing 3D imaging applications.

Course Description:
The purpose of this course is to introduce algorithms for 3D structure inference from 2D images. In many applications, inferring 3D structure from 2D images can provide crucial sensing information. The course begins by reviewing geometric image formation and mathematical concepts that are used to describe it, and then discusses algorithms for 3D model reconstruction.

The problem of 3D model reconstruction is an inverse problem in which we need to infer 3D information based on incomplete (2D) observations. We discuss reconstruction algorithms, which utilize information from multiple views. Reconstruction requires the knowledge of some intrinsic and extrinsic camera parameters, and the establishment of correspondence between views. We discuss algorithms for determining camera parameters (camera calibration) and for obtaining correspondence using epipolar constraints between views. The course also introduces relevant 3D imaging software components available through the industry standard OpenCV library.

Intended Audience:
Engineers, researchers, and software developers who develop imaging applications and/or use camera sensors for inspection, control, and analysis. The course assumes a basic working knowledge concerning matrices and vectors.

Gady Agam is an associate professor of computer science at the Illinois Institute of Technology. He is the director of the Visual Computing Lab at IIT which focuses on imaging, geometric modeling, and graphics applications. He received his PhD from Ben-Gurion University (1999).

	Until 25 December	Starting 26 December
Member	$ 305	$ 355
Non-member	$ 330	$ 380
Student	$ 95	$ 120

Discounts given for multiple classes. See Registration Page for details to register.

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