Open Access
E3S Web of Conferences
Volume 3, 2014
Emerging Technology for Sustainable Development Congress (ETSDC 2014)
Article Number 01026
Number of page(s) 6
Published online 14 August 2014
  1. F.Azar, “Investigation on Reasons and Consequences of Climate Changes in International Systems,” World Appl. Sci. J., vol. 25, no. 5, pp. 739–746, 2013.
  2. T.AlKhidir and S.Zailani, “Going green in supply chain towards environmental sustainability,” Glob. J. Environ. Res., vol. 3, no. 3, pp. 246–251, 2009.
  3. A.Sharuddin, M. H.Noorazuan, M. J.Yaakob, A.Kadaruddin, and M. F.Mahamod, “The effects of different land uses on the temperature distribution of a humid tropical urban centre.pdf,” World Appl. Sci. J., no. 13, pp. 63–68, 2011.
  4. V.Puchkal and B.Jurmanov, “Stochastic Model of the Thermal Regime and Heat Consumption of Residential Buildings for Heating,” World Appl. Sci. J., vol. 23, no. 812, pp. 191–196, 2013.
  5. H.Byrd and M.Ramli, Towards a sustainable built environment in Malaysia. Penang: Penerbit USM, 2012.
  6. A.I.J Japan Architectural Institution, “Architecture for a Sustainable Future,” IBEC. 2005.
  7. K.Choi and C.Yu, “Sustainable Design for Asian Housings: Traditional Culture, Lighting and,” Indoor Built Environ., vol. 20, no. 5, pp. 485–487, 2011. [CrossRef]
  8. B.Givoni, Climate considerations in building and urban design. USA: Van Nostrand Reinhold, 1997, p. 109.
  9. W.Lauber, Tropical Architecture: Sustainable and humane building in Africa, Latin America and South-East Asia. New York: Prestel Publishing, 2005.
  10. K.Chauhan and N.Shah, “A study on Sustainable Urban Environment with climatic consideration in Housing Planning,” Glob. J. Environ. Res., vol. 2, no. 1, pp. 12–17, 2008.
  11. L. P.Chung and M. H.Ahmad, “Application of CFD in Prediction of Indoor Building Thermal Performance as an Effective Pre-Design Tool Towards Sustainability Institute Sultan Iskandar of Urban Habitat and Highrise,” World Appl. Sci. J., vol. 30, pp. 269–279, 2014.
  12. L.Kondrat’eva and S.Volkov, “Minimizing the Residential Indoor Spaces for Comfort Living,” World Appl. Sci. J., vol. 23, no. 812, pp. 207–211, 2013.
  13. Z.Zain, M.Taib, and S.Baki, “Hot and humid climate: prospect for thermal comfort in residential building,” Desalination, vol. 209, pp. 261–268, 2007. [CrossRef]
  14. R.Hyde, Climate responsive design - A study of buildings in moderate and hot humid climates. London: E & FN Spon, 2000, p. 57.
  15. I.Rajapaksha, H.Nagai, and M.Okumiya, “Indoor Thermal Modification of a Ventilated Courtyard House in the Tropics,” J. Asian Archit. Build. Eng., vol. 1, no. 1, pp. 87–89, 2002. [CrossRef]
  16. T.Kubota and S.Ahmad, “Wind Environment Evaluation of Neighborhood Areas in Major Towns of Malaysia,” J. Asian Archit. Build. Eng., vol. 5, no. 1, pp. 199–206, 2006. [CrossRef]
  17. T.Uno, S.Hokoi, S. N. N.Ekasiwi, N.Hanita, and A.Majid, “Reduction of Energy Consumption by AC due to Air Tightness and Ventilation Strategy in Residences in Hot and Humid Climates,” no. November, pp. 407–414, 2012.
  18. E.Bostancioglu and B.Telatar, “Effect of Window Size on Residential Buildings’ Energy Costs,” World Appl. Sci. J., vol. 21, no. 4, pp. 631–640, 2013.
  19. H.Yoshino, Y.Yoshino, Q.Zhang, A.Mochida, N.Li, Z.Li, and H.Miyasaka, “Indoor thermal environment and energy saving for urban residential buildings in China,” Energy Build., vol. 38, no. 11, pp. 1308–1319, Nov. 2006. [CrossRef]
  20. A. A.Jamaludin, N.Keumala, A. R.Mohd Ariffin, and H.Hussein, “Satisfaction and perception of residents towards bioclimatic design strategies: Residential college buildings,” Indoor Built Environ., May 2013.
  21. C. A.Sufian and M. S. A.Rashid, “An analysis of the traditional malay architecture as indicators for sustainability: An introduction to its genius loci,” in Proceeding of Arte-Polis 3rd International Conference on Creative Collaboration and the Making of Place, 2009.
  22. N.Ramli, “House Thermal Comfort Design Elements into Modern Building Elements Case Study of Selangor Traditional Malay House & Low Energy Building in Malaysia,” Iran. J. Energy Environ., vol. 3, pp. 19–23, 2012.
  23. P.Gibbs, Y. A.Rahman, and Z.Kassim, Building a Malay House. Singapore.: Oxford University Press, 1987, p. 99.
  24. TajulE. N., H. N.Husin, and K. K.S, “Climatic design feature in the traditional Malay house for ventilation purpose, Proceedings od International Seminar Malay Architecture as Lingua Franca, Jakarta, Indonesia, pp41–48.,” in Proceedings od International Seminar Malay Architecture as Lingua Franca, 2005, pp. 41–48.
  25. J. Y.Lim, The Malay House - Rediscovering Malaysia’s Indigenous Shelter System. Penang, Malaysia. Penang, Malaysia: Institut Masyarakat, 1987.
  26. N.Carslaw, “A new detailed chemical model for indoor air pollution.,” Atmosph. Env., vol. 41, pp. 1164–1179, 2007. [CrossRef]
  27. M. H.Ahmad, “Can climate response become an essential lingua franca for Malay architecture?,” in Seminar, International Architecture, Malay Franca, Lingua, 2005, pp. 1–7.
  28. N.Utaberta, N.Spalie, and N. G.Abdullah, “Design Flexibility of Growing and Transformable House in Malaysia,” Adv. Mater. Res., vol. 168–170, pp. 545–548, Dec. 2010. [CrossRef]
  29. N. a. M.Al-Tamimi and S. F.Syed Fadzil, “Thermal Performance Analysis for Ventilated and Unventilated Glazed Rooms in Malaysia (Comparing Simulated and Field Data),” Indoor Built Environ., vol. 20, no. 5, pp. 534–542, Jul. 2011. [CrossRef]