PLEA 2016 Los Angeles, United States of America, pp. 941-947. · 2020-07-27 · shading in terms of...

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This may be the author’s version of a work that was submitted/accepted for publication in the following source: Wagdy Mohamed Ibrahim, Ayman, Fathy, Fatma, & Altomonte, Sergio (2016) Evaluating the daylighting performance of dynamic facades by using new annual climate-based metrics. In Schiler, M & La Roche, P (Eds.) PLEA 2016 - Cities, Buildings, People: Towards Regenerative Environments, Proceedings of the 32nd Interna- tional Conference on Passive and Low Energy Architecture, Volume 2. PLEA 2016 Los Angeles, United States of America, pp. 941-947. This file was downloaded from: https://eprints.qut.edu.au/103389/ c c Copyright: PLEA 2016 Los Angeles Portions of this proceedings may be reproduced only with proper credit to the authors and the conference proceedings. Notice: Please note that this document may not be the Version of Record (i.e. published version) of the work. Author manuscript versions (as Sub- mitted for peer review or as Accepted for publication after peer review) can be identified by an absence of publisher branding and/or typeset appear- ance. If there is any doubt, please refer to the published source. http:// plea2016.org/ index.html

Transcript of PLEA 2016 Los Angeles, United States of America, pp. 941-947. · 2020-07-27 · shading in terms of...

Page 1: PLEA 2016 Los Angeles, United States of America, pp. 941-947. · 2020-07-27 · shading in terms of energy consumption and daylight availability, showing that dynamic solutions outperformed

This may be the author’s version of a work that was submitted/acceptedfor publication in the following source:

Wagdy Mohamed Ibrahim, Ayman, Fathy, Fatma, & Altomonte, Sergio(2016)Evaluating the daylighting performance of dynamic facades by using newannual climate-based metrics.In Schiler, M & La Roche, P (Eds.) PLEA 2016 - Cities, Buildings, People:Towards Regenerative Environments, Proceedings of the 32nd Interna-tional Conference on Passive and Low Energy Architecture, Volume 2.PLEA 2016 Los Angeles, United States of America, pp. 941-947.

This file was downloaded from: https://eprints.qut.edu.au/103389/

c© c© Copyright: PLEA 2016 Los Angeles

Portions of this proceedings may be reproduced only with proper credit tothe authors and the conference proceedings.

Notice: Please note that this document may not be the Version of Record(i.e. published version) of the work. Author manuscript versions (as Sub-mitted for peer review or as Accepted for publication after peer review) canbe identified by an absence of publisher branding and/or typeset appear-ance. If there is any doubt, please refer to the published source.

http:// plea2016.org/ index.html

Page 2: PLEA 2016 Los Angeles, United States of America, pp. 941-947. · 2020-07-27 · shading in terms of energy consumption and daylight availability, showing that dynamic solutions outperformed
Page 3: PLEA 2016 Los Angeles, United States of America, pp. 941-947. · 2020-07-27 · shading in terms of energy consumption and daylight availability, showing that dynamic solutions outperformed
Page 4: PLEA 2016 Los Angeles, United States of America, pp. 941-947. · 2020-07-27 · shading in terms of energy consumption and daylight availability, showing that dynamic solutions outperformed
Page 5: PLEA 2016 Los Angeles, United States of America, pp. 941-947. · 2020-07-27 · shading in terms of energy consumption and daylight availability, showing that dynamic solutions outperformed
Page 6: PLEA 2016 Los Angeles, United States of America, pp. 941-947. · 2020-07-27 · shading in terms of energy consumption and daylight availability, showing that dynamic solutions outperformed
Page 7: PLEA 2016 Los Angeles, United States of America, pp. 941-947. · 2020-07-27 · shading in terms of energy consumption and daylight availability, showing that dynamic solutions outperformed