Theses most similar to Time-varied daylighting performance to enable a goal-driven design process (Kleindienst, Siân A. (Siân Alexandra); 2010) read it
Experience of light : the use of an inverse method and a genetic algorithm in daylight design
Chutarat, Acharawan (2001)
- Advisor: Leslie K. Norford
- Department of Architecture
Improving the daylighting conditions of existing buildings : the benefits and limitations of integrating anidolic daylighting systems using the American classroom as a model
Kleindienst, Siân A. (Siân Alexandra) (2006)
- Advisor: Marilyne Andersen
- Department of Architecture
Development of a light detection system for bidirectional measurements over the solar spectrum and sun course simulations with scale models
Browne, Courtney, 1982- (2006)
- Advisor: Marilyne Andersen
- Department of Mechanical Engineering
Development of two heliodon systems at MIT and recommendations for their use
Osser, Roselin E. (Roselin Emily) (2007)
- Advisors: Leslie Norford; Marilyne Andersen
- Department of Architecture
A new approach in data visualization to integrate time and space variability of daylighting in the design process
Yi, Lu (2008)
- Advisors: Marilyne Andersen; Takehiko Nagakura
- Department of Architecture
Measuring photometric and spectral radiometric bi-directional transmission and reflection in a video-goniospectrometer
Stokes, Eleanor (Eleanor Catherine) (2008)
- Advisor: Marilyne Andersen
- Department of Mechanical Engineering
An interactive performance-based expert system for daylighting in architectural design
Gagne, Jaime M. L. (Jaime Michelle Lee) (2011)
- Advisors: Leslie K. Norford; Marilyne Andersen
- Department of Architecture
- Advisors: Marilyne Andersen; Terry Knight
- Department of Architecture
- Advisor: Christoph F. Reinhart
- Department of Architecture
Comprehensive performance metrics for Complex Fenestration Systems using a relative approach
Dave, Shreya H (2012)
- Advisors: Leon Glicksman; Marilyne Andersen
- Department of Mechanical Engineering; Engineering Systems Division; Technology and Policy Program