Koshel - Spring 2012

OPTI x85 - Spring 2012

Illumination Engineering

Instructor

John Koshel

Office

OSC416 (Old)

Class

F 9.00 to 10.50 (Lecture)

M 2.30 to 3.15 (Mandatory Lab)

Hours: stop by anytime / appointment

M: 3.15 pm – 4.30+ pm

F: 10.50 am - Noon

PROJECT PRESENTATION SCHEDULE

Optics x85 - 2012

Syllabus (Updated 18 January 2012)

Forms:

· FRED registration (updated 23 January 2012)

· LightTools/CodeV Registration (posted 18 January 2012)

· ASAP: send me an email for directions/passwords (posted 26 January 2012)

· ZEMAX: send me an email for directions/passwords (posted 2 February 2012)

Assignments (you will be graded on the best 4 out of 5):

· Homework #1: Assigned 20 January 2012, Due 3 February 2012 (Posted 22 January 2012)

· Homework #2: Assigned 3 February 2012, Due 17 February 2012 (Posted 2 February 2012)

· Homework #3: Assigned 20 February 2012, Due WEDNESDAY 7 March 2012 (Posted 20 February 2012)

· Homework #4: Assigned 27 March 2012, Due 9 April 2012 (Posted 27 March 2012)

· Homework #5: Assigned 17 April 2012, Due 25 April 2012 (Posted 17 April 2012)

Files:

· 2012 Files (in zip format):

o Class LED (FRED 10.100)

o LED file Source (FRED 10.100)

o Class LED and CPC (FRED 10.100)

o Mixer Example (FRED 10.100)

o Camera with Scatter (FRED 10.100)

o Catadioptric Lens (FRED 10.71)

o Coherent Lens (FRED 10.100)

o Optimization Lens (FRED 10.100)

· 2011 Files (these are all in zip format, which forces automatic download):

o Lightpipe (FRED 9.71)

o LED (FRED 9.71)

o Parabola (FRED 9.71)

o Tailored Reflector (FRED 9.71)

o LD CBM360 (FRED 9.71)

o Coherent Lens (FRED 9.71)

o Fresnel (Excel and FRED 9.71)

o Stray Light (FRED 9.71)

o Pillow Lens (FRED 9.71)

o PCS Prism (FRED 9.71)

o Curve Demo (FRED 9.71)

o Partial Coherence (FRED 9.71 + PPT file)

o Gaussian Beam (FRED 9.71)

Lectures:

· Lecture 1: Introduction and basics (Updated 18 January 2012)

1. Paper: Illumination system design in a project-based course: SPIE 2009; overview of the 2009 version of the course.

· Lecture 2: Sampling and lit appearance (Posted 18 January 2012)

1. Paper: Lit appearance modeling of illumination systems: SPIE 2002; an older intro to the field of lit appearance modeling.

2. Paper: Aspects of illumination system optimization: SPIE 2004; discusses some of the sampling issues.

· Lecture 3: Sources (Posted 26 January 2012)

1. Paper: Advanced topics in source modeling: SPIE 2002; accounts for aging, non-uniform emission

2. Paper: How to model sources: SPIE 2002; techniques for modeling the geometry of a source

· Lecture 4: Étendue (Posted 2 February 2012)

1. Paper: Etendue: Applied Optics; 1^st in exchange to define étendue term

2. Paper: Etendue: Applied Optics; 2^nd in exchange to define étendue term

3. Paper: Etendue: Applied Optics; 3^rd in exchange to define étendue term

4. Paper: Etendue: Applied Optics; 4^th in exchange to define étendue term

· Lecture 5: Skewness (Posted 2 February 2012)

· Lecture 6: Nonimaging Optics 1 (Posted 16 February 2012)

1. Paper: Non-edge ray design: Opt. Eng.

· Lecture 8: Lightpipes (Posted 17 February 2012)

1. Paper: Lightpipes: Applied Optics; principal sections

2. Paper: Parameterized lightpipes: SPIE 2005; parameterization of lightpipes

· Lecture 9: Displays 1 (Posted 8 March 2012)

· Lecture 10: Displays 2 (Posted 23 March 2012)

· Lecture 11: Displays 3 (Posted 29 March 2012)

· Lecture 11.5: Fresnel Optics (Posted 29 March 2012) – Monday presentation!

· Lecture 12: Optimization (Posted 5 April 2012)

1. Paper: Illumination optimization: Optics Letters; modified simplex method

2. Paper: Fractional optimization: SPIE 2008; design of a hybrid optic

3. Paper: Lightpipe design: IODC 2006; optimization with lightpipe parameterization

· Lecture 13: Tolerancing (Posted 12 April 2012)

· Lecture 14: Stray Light (Posted 19 April 2012)

· Lecture 14.5: Review (Posted 23 April 2012)

2011 Version of OPTI x85 – Note that this area will be updated someday

Optics x85

Syllabus (Posted 13 January 2011)

Calendars (Posted 13 January 2011):

· January

· February

· March

· April

· May

Software:

· FRED:

o Contact the Professor: including DL students (updated 21 March 2011)

o Contact the Professor (updated 21 March 2011)

· LightTools and Code V:

o Arizona directions (posted 20 January 2011)

o Rochester directions: visit Hopkins lab and/or contact Prof. Jannick Rolland

o Arizona Distance Learning (contacted Synopsys/ORA)

· ASAP:

o Contact the professor (updated 21 March 2011)

· TracePro:

o Not going to use it this year, next year

· Files (these are all in zip format, which forces automatic download):

o Lightpipe (FRED 9.71)

o LED (FRED 9.71)

o Parabola (FRED 9.71)

o Tailored Reflector (FRED 9.71)

o LD CBM360 (FRED 9.71)

o Coherent Lens (FRED 9.71)

o Fresnel (Excel and FRED 9.71)

o Stray Light (FRED 9.71)

o Pillow Lens (FRED 9.71)

o PCS Prism (FRED 9.71)

o Curve Demo (FRED 9.71)

o Partial Coherence (FRED 9.71 + PPT file)

o Gaussian Beam (FRED 9.71)

Lectures:

· Lecture 1: Introduction and basics (Posted 13 January 2011)

2. Paper: Illumination system design in a project-based course: SPIE 2009; overview of the 2009 version of the course.

· Lecture 2: Sampling and lit appearance (Posted 20 January 2011)

3. Paper: Lit appearance modeling of illumination systems: SPIE 2002; an older intro to the field of lit appearance modeling.

4. Paper: Aspects of illumination system optimization: SPIE 2004; discusses some of the sampling issues.

· Lecture 3: Sources (Posted 27 January 2011)

1. Paper: Advanced topics in source modeling: SPIE 2002; accounts for aging, non-uniform emission

2. Paper: How to model sources: SPIE 2002; techniques for modeling the geometry of a source

· Lecture 4: Etendue (Posted 27 January 2011)

1. Paper: Etendue: Applied Optics; 1^st in exchange to define etendue term

2. Paper: Etendue: Applied Optics; 2^nd in exchange to define etendue term

3. Paper: Etendue: Applied Optics; 3^rd in exchange to define etendue term

4. Paper: Etendue: Applied Optics; 4^th in exchange to define etendue term

· Lecture 5: Skewness (Updated 21 February 2011)

· Lecture 6: Nonimaging Optics 1 (Posted 17 February 2011)

1. Paper: Non-edge ray design: Opt. Eng.

· Lecture 7: Nonimaging Optics 2 (Posted 24 February 2011)

1. Paper: Tailoring: JOSA A 10

2. Paper: Tailoring: JOSA A 11

3. Paper: Tailoring: JOSA A 13

· Lecture 8: Lightpipes (Posted 3 March 2011)

1. Paper: Lightpipes: Applied Optics; principal sections

2. Paper: Parameterized lightpipes: SPIE 2005; parameterization of lightpipes

· Lecture 9: Displays 1 (Posted 10 March 2011)

· Lecture 10: Displays 2 (Posted 24 March 2011)

· Lecture 11: Displays 3 (Posted 31 March 2011)

· Lecture 12: Fresnel Optics (Posted 8 April 2011)

· Lecture 13: Optimization (Posted 14 April 2011)

1. Paper: Illumination optimization: Optics Letters; modified simplex method

2. Paper: Fractional optimization: SPIE 2008; design of a hybrid optic

3. Paper: Lightpipe design: IODC 2006; optimization with lightpipe parameterization

· Lecture 14: Tolerancing (Posted 21 April 2011)

· Lecture 15: Course Review (Posted 28 April 2011)

Assignments (you will be graded on the best 4 out of 5):

· Homework #1: Assigned 21 January 2011, Due 7 February 2011 (Posted 21 January 2011)

· Homework #2: Assigned 7 February 2011, Due 18 February 2011 (Posted 7 February 2011)

· Homework #3: Assigned 21 February 2011, Due 21 March 2011 (Revised 9 March 2011)

· Homework #4: Assigned 4 April 2011, Due 18 April 2011 (Posted 5 April 2011)

· Homework #5: Assigned 18 April 2011, Due 29 April 2011 (Posted 18 April 2011)

· Presentation signup (Posted 19 April 2011)

· Presentation schedule (Posted 28 April 2011)

Other courses:

· OPTIx85: 2010 version of the course

· OPTI400: Radiometry in 2006 (Note: I have to update all the links on this page)

Last Update: 4/23/2012 12:57:53 PM