1- Ahmed-Ouameur, F & Potvin, A (2007), Microclimates and Thermal Comfort in Outdoor Pedestrian Spaces: A Dynamic Approach Assessing Thermal Transients and Adaptability of the Users, The American Solar Energy Society (ASES), SOLAR, Cleaveland, Ohio . American Solar Energy Society, American Institute of Architects.
2- Setaih Kh, Hamza N, Townshend T (2013). Assessment of outdoor thermal comfort in urban microclimate in hot arid areas, 13th Conference of International Building Performance Simulation Association, Chambéry, France, August 26-28.
3- Middel A, Selover N, Hagen B and Chhetri N 2016 Impact of shade on outdoor thermal comfort — a seasonal field study in Tempe, Arizona Int. J. Biometeorol. 1849,60–61.
4- K Fabbri, J Gaspari,. (2017). A study on the use of outdoor microclimate map to address design solutions for urban regeneration, Energy Procedia 111, 500-509.
5-Gatto, E., Buccolieri, R., Aarrevaara, E., Ippolito, F., Emmanuel, R., Perronace, L., Santiago, JL, (2020) Impact of Urban Vegetation on Outdoor Thermal Comfort: Comparison between a Mediterranean City (Lecce, Italy) and a Northern European City (Lahti, Finland), Forests 2020, 11, 228.
6-Poor Dehmi, Shahram. (1378). Climate Compatible Construction, Sefeh, Volume 9, Number 28.
7-Heidari, Shahin, 2009, In Search of Ilam Urban Identity, Tehran: Urban Planning and Architecture Research Center.
8- Qiabkloo, Zahra. (2003), Shadow movement pattern and site design, Journal of Fine Arts.sh 15 .58-68.
9-Tahabaz, Mansoura. (2007), Shadow Design in Outdoor, Journal of Fine Arts.sh 31 .27-38.
10-Nouri, A.S; Costa, J.P; Santamouris, M & Matzarakis, A 2018), Approaches to Outdoor Thermal Comfort Thresholds through Public Space Design: A Review, Atmosphere, 9 108, pp.1-48.
11--Ali-Toudert, Fazia & Mayer, Helmut (2007), ("Effects of asymmetry, galleries, overhanging facades and vegetation on thermal comfort in urban street canyons"), Solar Energy, 81, 742-754.
12-Krüger, E. L., Minella, F. O., & Rasia, F. (2011). Impact of urban geometry on outdoor thermal comfort and air quality from field measurements in Curitiba, Brazil. Building and Environment, 46 (3), 621-634. doi: https: //doi.org/10.1016/j.buildenv.2010.09.006
13--Taleghani, Mohammad; Kleerekoper, Laura; Tenpierik, van den & Dobbelsteen Andy (2014) ("Outdoor thermal comfort within five different urban forms in the Netherlands"), Building and Environment, 1-14.
14--Mehdinejad, Mohammad Javad, 2015, The role and effect of design on the quality of thermal comfort of urban open spaces (Case study: Design of the sidewalk in Kashan), Quarterly Journal of Art University, Vol. 18, Letter of Architecture and Urbanism, p. 59.
15- Behzadfar, Mostafa, and Monam, Alireza, The effect of sky visibility coefficient on the thermal comfort of urban outdoor users, A study of selected parks in Tehran, Armanshahr, 2010, 23-24
.
16- Mahmoudi, Amir Massoud, Seyedeh Neda, Ghazizadeh, and Monam, Alireza, The effect of design on outdoor thermal comfort of residential complexes) Sample: Phase three of Ekbatan residential complex (Journal of Fine Arts, 2010, 70-59
17-Heidari, Shahin, and Monam, Alireza, Evaluation of Outdoor Thermal Comfort Indices, Journal of Geography and Regional Development, 2013, 196-217
18-Mofidi Shemirani, Seyed Majid, Hosseini, Seyedeh Maryam, Sanayeian, Hanieh, Japolghi, Gholamreza. (1399). Investigation of thermal effect of plants in urban spaces with PMV model (case study of Azgol neighborhood of Tehran). Journal of Urban Studies, 9 (34), 119-130.
http://dx.doi.org/10.34785/J011.2021.363
19- Khoshbakht, Yaser and Madi, Hossein and Azmoudeh, Maryam, 1399, Investigation of the geometry of urban blocks in the amount of outdoor thermal comfort in the warm period of the year (Case study: Hamedan), Journal of Urban Design Studies and Urban Research, 3 (1), 27-39
20-Thorati, Zahra and Latifi, Gholamreza, 1400, Evaluation of the effect of climatic criteria for designing a geographical model of an urban square based on quality and orientation of the prevailing wind in order to achieve thermal comfort - Case study: Nabout Square, East of Tehran, Geographical Information Research Quarterly, Volume 30, Issue 117.
21- Yadegari, Pegah and Sajjadzadeh, Hassan, 1400, The role of spatial pattern and vegetation of local open spaces on the degree of thermal comfort in cold climate, Journal of Urban Studies 10 (40), 15-26
22-Majidi, Fatemeh Sadat, Heidari, Shahin. (1398). Analysis of adaptation signs in thermal comfort of open spaces (case study: selected residential areas of Isfahan. Journal of Fine Arts. Vol. 24 (1), 17-18.
doi: 10.22059 / jfaup.2019.276802.672227
23--Fanger PO (1970). Thermal comfort, Copenhagen, Danish Technical Press.
24-Maaref, Mehdi, Wamir Omidvar. Thermal comfort: calculations and design considerations. Tehran: Yazda.
25-Technical Commission for Standard Development (Mehdi Maaref, Amir Omidvar, Shahin Heidari, Amin Zolfaghari, Seyed Alireza Zolfaghari, Azadeh Sharsan, Rima Fayyaz, Farhang Tahmasebi, Mehrnaz Lankarani, Sara Mehregan). Determination of PMV and PPD thermal comfort indices and local thermal comfort criteria. Tehran: National Standard Organization of Iran.
26-Baharinejad, Mehdi and Mohammad Yaghoubi, 2006, Natural ventilation and cooling in traditional buildings of Iran, Tehran, University Publishing Center.
27-Matzarakis. A, Mayer H and Iziomon M G. (1999). Application of a Universal Thermal Index: Physiological Equivalent Temperature. Int. Biometorology. 43: 43: 78-84.
28- Hou, Tuoyu, Lu, Ming, Fu, Jingwan. (2017), Microclimate perception features of commer
29-Bourbia, F., & Boucheriba, F. (2010). Impact of street design on urban microclimate for semi arid climate (Constantine). Renewable Energy, 35(2), 343-347.
