CSE 668 Spring 2007 Final Exam Solution Set Answer all three questions in the bluebook provided. 60 min, open book/notes.
May 9 2007
1. The polyhedron shown in Fig 1. has vertices at (x,y) = cfw_(0,0)
CSE 668 Spring 2008
Final Exam Solutions
May 1 2008
1. Consider the "parking lot surveillance problem," where a computer vision system is used to watch a large parking lot overnight and set off an ala
CSE 668 Spring 2008
Midterm Exam
March 5, 2008
2. The diagram below shows the crossection in the xz plane of a three dimensional scene. The Lambertian object in the center has a square crossection whi
CSE 668 Spring 2009
Final Exam Solution Set
May 6 2009
Instructions: Answer all three questions in the bluebook provided. 75 min, closed book/notes.
1.
(a) Construct a polyhedral volumetric representa
CSE 668 Spring 2009
Final Exam
May 5 2009
Instructions: Answer all three questions in the bluebook provided. 75 min, closed book/notes.
1.
(a) Construct a polyhedral volumetric representation for the
CSE 668 Spring 2009 Midterm Exam Solution Set
March 2, 2009
Instructions: 50 min closed book, notes. Answer all questions in the bluebook provided.
1. (a) Explain how computation of an epipolar line f
CSE 668 Spring 2009 Midterm Exam
March 2, 2009
Instructions: 50 min closed book, notes. Answer all questions in the bluebook provided.
1. (a) Explain how computation of an epipolar line facilitates st
CSE 668 Spring 2011 Midterm Exam
March 8, 2011
Instructions: Answer all 4 questions in the bluebook provided. 75 min closed book/notes.
1. A stereoscopic camera system has a 10cm baseline. When the th
CSE 668 Spring 2011 Midterm Exam
March 8, 2011
Instructions: Answer all 4 questions in the bluebook provided. 75 min closed book/notes.
1. A stereoscopic camera system has a 10 cm baseline. When the t