1 |
Al-Kodmany, K. (2017). Understanding Tall Buildings: A Theory of Placemaking. Routledge.
|
2 |
Al-Kodmany, K., & Ali, M. M. (2013). The future of the city: Tall buildings and urban design, WIT press.
|
3 |
Ali, M. M., & Al-Kodmany, K. (2012). Tall Buildings and Urban Habitat of the 21st Century: A Global Perspective. Buildings, 2, 384-423.
DOI
|
4 |
Attoe, W. (1981). Skylines: understanding and molding urban silhouettes, John Wiley & Sons.
|
5 |
Bell, C., Croce, B., Fry, R., & Sklovskij, V. B. (1994). The aesthetic hypothesis. Inst. for estetik, Uppsala univ.
|
6 |
Bell, S. (2013). Elements of visual design in the landscape, Routledge.
|
7 |
Bulut, Z., & Yilmaz, H. (2009). Determination of waterscape beauties through visual quality assessment method. Environmental monitoring and assessment, 154, 459.
DOI
|
8 |
Burmil, S., Daniel, T. C., & Hetherington, J. D. (1999). Human values and perceptions of water in arid landscapes. Landscape and Urban Planning, 44, 99-109.
DOI
|
9 |
Al-Kodmany, K. (2012). Guidelines for tall buildings development. Int. J. High-Rise Build, 1, 255-269.
DOI
|
10 |
Ching, F. D. (2011). A visual dictionary of architecture, John Wiley & Sons.
|
11 |
Ford, L. R. (1976). The urban skyline as a city classification system. Journal of Geography, 75, 154-164.
DOI
|
12 |
Goncalves, J. C. S. (2010). The environmental performance of tall buildings, Routledge.
|
13 |
Heath, T., Smith, S. G., & Lim, B. (2000). Tall buildings and the urban skyline: The effect of visual complexity on preferences. Environment and behavior, 32, 541-556.
DOI
|
14 |
Kostof, S. (1991). The city shaped: urban patterns and meanings through history.
|
15 |
Lim, B., & Heath, T. (1994). What is a skyline: A quantitative approach. Architectural Science Review, 37, 163-170.
DOI
|
16 |
Nasar, J. L., Imeokparia, T., & Tiwari, R. (2002). Skyline entropy, order and preference. 33rd Annual Conference of the Environmental Design Research Association Conference, Philadelphia, PA, May, 22-26.
|
17 |
Sakici, C. (2015). Assessing landscape perceptions of urban waterscapes. The Anthropologist, 21, 182-196.
DOI
|
18 |
Samavatekbatan, A., Gholami, S. & Karimimoshaver, M. (2015). Assessing the visual impact of physical features of tall buildings: Height, top, color. Environmental Impact Assessment Review, 57, 53-62.
DOI
|
19 |
Shach-Pinsly, D., Fisher-Gewirtzman, D., & Burt, M. (2011). Visual exposure and visual openness: an integrated approach and comparative evaluation." Journal of Urban Design, 16, 233-256.
DOI
|
20 |
Shrestha, B. K., & Shrestha, S. (2008). Urban waterfront development patterns: water as a structuring element of urbanity. Water and urban development paradigms. Towards an integration of engineering, design and management approaches. CRC Press, London p, 105-113.
|
21 |
Smardon, R. C., Palmer, J. F., & Felleman, J. P. (1986). Foundations for visual project analysis, Wiley New York.
|
22 |
Spreiregen, P. D. (1965). Urban design: The architecture of towns and cities, McGraw-Hill.
|
23 |
Stamps, A. E. (2002). Fractals, skylines, nature and beauty. Landscape and urban planning, 60, 163-184.
DOI
|
24 |
Stamps III, A., Nasar, J. L., & Hanyu, K. (2005). Using pre-construction validation to regulate urban skylines. Journal of the American Planning Association, 71, 73-91.
DOI
|
25 |
Svobodova, K., Sklenicka, P., & Vojar, J. (2015). How does the representation rate of features in a landscape affect visual preferences? A case study from a post-mining landscape. International Journal of Mining, Reclamation and Environment, 29, 266-276.
DOI
|