ACTIVITIES | PERCENTAGES |
---|---|
Class participation and homework | 30% |
In-class quiz | 20% |
Design project | 50% |
Help support MIT OpenCourseWare by shopping at Amazon.com! MIT OpenCourseWare offers direct links to Amazon.com to purchase the books cited in this course. Click on the Amazon logo to the left of any citation and purchase the book from Amazon.com, and MIT OpenCourseWare will receive up to 10% of all purchases you make. Your support will enable MIT to continue offering open access to MIT courses. |
This course aims at providing the tools necessary for an efficient integration of daylighting issues in the overall design process of a building. Through an optimized use of daylight in buildings and an adequate combination with electric lighting, a building's environmental impact can be reduced significantly while improving the well-being and visual comfort of the inhabitants.
Fundamentals of daylighting will be introduced and their relevance to design decisions emphasized: The benefits and availability of daylight, the sun course, solar radiation and protection, photometry and the physics of light propagation, visual and color perception, daylighting metrics, visual and thermal comfort, electric lighting and primary daylighting strategies.
More advanced lighting design topics will also be presented and practiced, both through a design project and the class lectures and homework assignments, such as advanced lighting design strategies (innovative glazing and shading technologies, advanced control), and design and assessment tools for lighting management (experimental approaches, computer-based design tools).
By getting familiar with the factors and quantities involved in a given (day)lighting situation, students will be able to assess it in different ways (visual assessment, experimental survey, calculations or computer simulations) and to propose advanced (day)lighting strategies to improve it.
ACTIVITIES | PERCENTAGES |
---|---|
Class participation and homework | 30% |
In-class quiz | 20% |
Design project | 50% |
Homework assignments will include problem sets and field studies. The design project will be organised in three parts: Lighting diagnostic of an existing building, concept for improving the lighting conditions, proposal for an optimized lighting strategy. Each group of students (2-3 per group) will be giving a short presentation of their project and submit a written report at the end of the term. There will be no final exam.
Reading in conjunction with the course will be from the following (and others):
Lechner, Norbert. Heating, Cooling, Lighting: Design Methods for Architects. New York, NY: John Wiley & Sons, 2000. ISBN: 9780471241430.
Baker, Nick, and Koen Steemers. Daylight Design of Buildings. London, UK: James & James, 2002. ISBN: 9781873936887.
Rea, Mark Stanley. The IESNA Lighting Handbook. New York, NY: Illuminating Engineering Society of North America, 2000. ISBN: 9780879951504.
Guzowski, Mary. Daylighting for Sustainable Design. New York, NY: McGraw-Hill, 1999. ISBN: 9780070254398.
Fontoynont, Marc. Daylight Performance of Buildings. London, UK: James & James, 1999. ISBN: 9781873936870.
For any use or distribution of these materials, please cite as follows:
Marilyne Andersen, course materials for 4.430 Daylighting, Fall 2006. MIT OpenCourseWare (http://ocw.mit.edu), Massachusetts Institute of Technology. Downloaded on [DD Month YYYY].