• EN

# Department of Applied Informatics

### Lesson01 "Advanced Material Appearance Modeling"

• Lecture schedule
• "Terms and conditions" of this lecture
• Introduction
• Background
• Specialized Material Models:
• Common Themes
• Lecture notes: Julie Dorsey and Holly Rushmeier, Advanced Material Appearance Modeling, SIGGRAPH 2009 Course lesson01.pdf

Assigment 1: Install and read about the luxrender it's a sophisticated physically-based rendering system, originally forked from pbrt. Its goals include physical correctness.

### Lesson02 "Advanced Material Appearance Modeling"

• Natural Materials
• Lecture notes: Julie Dorsey and Holly Rushmeier, Advanced Material Appearance Modeling, SIGGRAPH 2009 Course lesson01.pdf

### Lesson03 "Advanced Material Appearance Modeling"

• Manufactured/Processed Materials
• Aging and Weathering Processes:
• Taxonomy
• Simulation
• Capture Approaches
• Current Trends and Needs
• Lecture notes: Julie Dorsey and Holly Rushmeier, Advanced Material Appearance Modeling, SIGGRAPH 2009 Course lesson01.pdf

### Lesson04 "Rendering Equation"

• Rendering Equation
• Path tracing
• Path Formulation
• Various path tracing algorithms
• Lecture notes: Philip Dutré lesson04.pdf

### Lesson05 "Monte Carlo Integration"

• Blind Monte Carlo Integration
• Intelligent Monte Carlo Integration
• Discrepancy and Basic Quasi Monte-Carlo Sampling
• Direct Lighting Computation
• Lecture notes: Philip Dutré lesson05.pdf

Assigment 2: Assigment2.pdf

### Homeworks

• brdflab: an open source tool to design, fit and render BRDFs. Aplikacia.

## What you Need to Pass

• Attend lessons. All lessons attended is +10 points. One missed +0 points. 2 missed 0 points, 3 missed 0 points, 4 and more is Fx.
• Solve all homework problems (mandatory each one >=30%, 30 points)
• Summary
• Attendance = 0 or -100 (Fx)
• Homework = +100..30 or +30..0 (Fx)