The Role of Vernacular Architecture & Urbanism in Mitigating Heat

Vernacular architecture is often appreciated for the historic aesthetic value that it presents. Preservationists and activists argue on the importance of preserving historic structure from a cultural angle: its unique character, the story that it tells, the memories people associate with a particular building. States and institutions may feel inclined to preserve such structure, to instill a national identity. To frame the nationalist state as an idea and concept much older than it is. Preservation vernacular architecture could also be argued for in economic terms. The Qatari state has begun heavily investing in heritage tourism as an alternate source of revenue. Yet, it is not often that preservation is argued for under an environmental lens.

We view the humanmade, the cultural, as something that is inherently opposed to the natural: but should that be the case? We understand and perceive the urban and urban spaces as something that is not natural. If anything, urban environments are seen as antithetical to the environment. Nature was seen as something to be conquered by humans. Nature was scary. It's home to beasts and fauna that could potentially be hazardous and poisonous. Moreover, nature was something to be exploited. It was through the exploitation of natural resources that man was able to build and create robust economies. This point draws an essential question to our understanding of urban spaces and where they stand in relation to the natural environment and requires a fundamental change in that understanding.

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Dubai, UAE

Dubai has become a poster-child in the region of building with little regards to environmental context.

There is an underlying foundational issue with how urban spaces are being built and manifest themselves in the 21st century in the Persian Gulf, and the Arabian Peninsula more broadly speaking. Does it make sense for architects, engineers, and urbanists to import architectural and urban styles and building methods in a region where the very environment rejects it? Urban heat islands have been written about extensively in academia and the press, how glass towers and wide avenues of asphalt heat our cities are well documented and understood. In a region where the natural climate is already naturally hot, it is vital to mitigate the urban heat island effect as much as possible when designing our cities.

The most critical factor in giving architecture a distinct look and feel is the environment and climate. Legendary architect and scholar Hassan Fathy writes in his book Natural Energy and Vernacular Architecture that "Climate, in particular, produces certain easily observed effects on architectural forms." Whether in the deserts of New Mexico or the deserts of the Arabian Peninsula, architectural principles follow very similar patterns: smaller windows, flat roofs, mud bricks, and projecting wooden spouts to collect water. Despite the geographical distance and the lack of communication modes between the two regions, it is surprising to see how similar these indigenous styles of architecture genuinely are. 

Pueblo de Taos, New Mexico, USA

Pueblo de Taos, New Mexico, USA

Wadi Daw’an, Hadhramaut Governate, Yemen

Wadi Daw’an, Hadhramaut Governate, Yemen

The manners in which we have constructed our buildings, and by extension, our cities are mostly void of these environmental contexts. Architects and preservationists have long made an argument against the "International Style" where it is not suitable for the climate. Hassan Fathy writes on the adoption of the International Style in the tropics:

Changing a single item in a traditional building method will not ensure an improved response to the environment or even an equally satisfactory one. Change is inevitable, and new forms and materials will be used, as has been the case throughout history. Often the convenience of modern forms and materials makes their use attractive in the short term. In the eagerness to become modern, many people in the Tropics have abandoned their traditional age-old solutions to the problems presented by the local climate and instead have adopted what is commonly labeled “international architecture,” based on the use of high-technology materials such as the reinforced-concrete frame and the glass wall. But a 3 x 3-m glass wall in a building exposed to solar radiation on a warm, clear tropical day will let in approximately 2000 kilocalories per hour. To maintain the microclimate of a building thus exposed within the human comfort zone, two tons of refrigeration capacity is required. Any architect who makes a solar furnace of his building and compensates for this by installing a huge cooling machine is approaching the problem inappropriately, and we can measure the inappropriateness of his attempted solution by the excess number of kilocalories he uselessly introduces into the building. Furthermore, the vast majority of the inhabitants of the Tropics are industrially underdeveloped and cannot afford the luxury of high-technology building materials or energy-intensive systems for cooling. Although traditional architecture is always evolving and will continue to absorb new materials and design concepts, the effects of any substitute material or form should be evaluated before it is adopted. Failure to do so can only result in the loss of the very concepts that made the traditional techniques appropriate.
— Hassan Fathy, Natural Energy and Vernacular Architecture

However, it is not enough to adopt these ideas in the architectural context; we must study and understand this ideology on a grander scale. The past 50 years of urban development in the Persian Gulf and the Arabian Peninsula have primarily been motivated by the luxury, spectacle, and above-all: capital. It is not surprising that the lands that were stricken with the harshest levels of poverty and one of the worst qualities of life would want to free themselves from that life and adopt the new and modern. The tradition was a reminder of darker days. The people of the Persian Gulf embraced the new because it brought forth a better quality of life. Knowledge and expertise were outsourced to Europe, in the Khaleeji context, primarily to the British and Americans, who modeled our cities and capitals after their own. The automobile was embraced in the design, and wide avenues had to be built to accommodate more vehicles. Naturally, cities became covered in asphalt. Zoning codes mandated that buildings had to have sufficient parking spots for automobile drivers. Our new urban environment could only be described as an asphalt desert.

The impact asphalt has on the heat island effect is well documented. Dubai, one of the fastest developing cities in the region, has seen a 64.8% change in land cover and a 1.5 degree C rise in land surface temperature. Projects like the Blue Road on Abdullah Bin Jassim Street by Souq Waqif are certainly exciting in that aspect in mitigating this effect. But is this A) Enough? B) Actually helping? While the street has seen a decrease in temperature, it ignores the issue at large: Our urban design does not make sense in our environmental context.

Our forefathers built verandas by mosques and commercial areas, had narrow streets that gave shade to pedestrians, and created a scale in which people felt more comfortable walking. Moreover, despite the propagation of the idea that Khaleeji Urbanism was built with little regard to proper city planning measures is a false notion. A study that compares temporal variations 'organic' and 'structured' urban configurations in Dubai shows that the "organic" historic neighborhood of Al-Bastakiyah was "cooler in summer and autumn" than the 'structured' Orthogonal and Volume Orthogonal configurations. The configuration of the streets contributed to a smoother distribution of temperature throughout the entire site by directing the wind. Street and building orientation were built in terms of wind direction. This shows that a great deal of thought went into planning the streets and sikkak in Khaleeji towns before any colonial planning practices and that the supposed 'organic' structures were far better organized and structured than the modernist principles enforced by British engineering and architectural offices. Additionally, that same study concludes that the Bastakiyah street configuration should be selected as the recommended configuration not only for its thermal behavior, but also for the other sustainability dimensions it promotes.

This type of configuration allows for higher levels of privacy and in other instances increased social interaction. It responds best to the cultural aspect of the society and at the same time to the climatic conditions of the city.
— Dana Taleb & Bassam Abu-Hijleh (2012)
Snapshot of the Al-Bastakiyah Neighborhood in Dubai, UAE

Snapshot of the Al-Bastakiyah Neighborhood in Dubai, UAE

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Perhaps the best example of cooling technology in the Middle Eastern context is the wind catchers or the wind towers, also called barajeel (sing. barjeel), malaqif (sing. milqaf), and badgir. Wind catchers have come in an array of styles across the Middle East and South Asia, including Egypt, the Arab States of the Persian Gulf, Iraq, Iran, Afghanistan, and Pakistan (It very common in the Sindh Province, where it was called Manghu) . A masterpiece of mechanical engineering developed thousands of years ago, architects and engineers were able to bring thermal comfort into their homes through these vertical wind channels. It is based on the principle of cold air suction from higher elevations into buildings. It acts as a natural solution developed in a pre-mechanical air conditioning era in hot desert climates. Residents of these hot climates were forced to adapt to their natural environments, and through that, they were able to innovate. The crucial underlying point here is that this technological innovation was spurred about by necessity, due to its geographic and climatic situation. Towers can vary in design, height, and depending on whether the climate of specific geography is dry or humid, the technology can vary slightly.

For thousands of years, barajeel provided natural ventilation of air that is free from pollutants and dirt due to the elevated air source. This air flows into the interior spaces of the house, such as a living room or a bedroom of sorts. Regardless of the building's orientation and its relation to the wind direction, the barajeel were still able to cool down buildings. In dryer climates, the airflow can be directed through a water source such as a fountain to increase humidity. It is astonishing today to look at these technologies, as most people today cannot fathom how to live in our environment without mechanical air conditioning, and considering how four of the ten highest countries in electricity consumption are situated in the Persian Gulf, we should consider how to reduce electricity consumption to become environmentally sustainable. Dr. Ayman Alsuliman at the University of Jordan (2014) has written on the merits of wind catchers as an environmentally friendly technology for cooling. He cites that mechanical air conditioning relies on Freon gas, the cooling agent used in most air conditioning systems, extremely harmful to the environment, while wind catchers don't. He also notes that the higher oxygen levels in the air with the guarantee of continuous ridding of CO2 and ensures higher productivity levels. The study also concludes that natural underground ventilation systems result in 60% savings in energy consumption compared to mechanical cooling. Technological innovation and mechanical cooling systems do not call for the riddance of traditional cooling methods; instead, we should embrace and innovate new technologies and build on cooling methods used in vernacular architecture. 

So, what does this mean? Where do we go from here? Should we return to building houses from mud bricks and tear down our roads? Not quite. However, when designing new neighborhoods or retrofitting current suburbs in our cities, we should perhaps embrace traditional building methods and philosophies. Why turn to European expertise and philosophies in our city building when our builders had the right idea for centuries? Earlier in this article, I called for a radical change in our understanding: but these fundamental ideas are not radical. These were ideas that are tried and true, age-old and have worked for years. This idea is not at all revolutionary, it's common-sense. If it responds best to our climactic condition and the cultural elements of society, why should we not adopt it?

This article was inspired by the brilliant Egyptian architect Hassan Fathy. I wholeheartedly recommend reading his books if you are at all interested in vernacular architecture. Both Architecture for the Poor and Natural Energy and Vernacular Architecture, although the latter maybe hard to find.

Articles Referenced:

Alsuliman, A. (2014). Wind Catchers and Sustainable Architecture in the Arab World. Journal of Civil and Environmental Research, 6, 130–136.

Taleb, D., & Abu-Hijleh, B. (2013). Urban Heat Islands: Potential effect of organic and structured urban configurations on temperature variations in Dubai, UAE. Renewable Energy, 50, 747–762. https://doi.org/10.1016/j.renene.2012.07.030

The Islamic Urban Form: Alleyways & Walkability

“Sana'a, Yemen”. Courtesy of Rod Waddington, flickr.com

“Sana'a, Yemen”. Courtesy of Rod Waddington, flickr.com

Architecture is the haven where man’s spirit, soul, and body find refuge and shelter, this quote from the Andalusian judge, Ibn Abdun, perfectly illustrates the way in which architecture and our urban form is a natural expression of our spiritual values and beliefs. Islam and the urban form presents an incredibly interesting relationship to explore because Islam is not only a religion but a phenomenon that influenced every field. The arts, literature, science, maths, and most notably architecture saw massive advances during the height of the Islamic empire. Islam is an innately urban religion, its spiritual experience is integrally linked to the urban form. The religion has its roots in urban environments and during the Islamic expansion, it birthed and altered cities forever. It provided a comprehensive and integrated cultural system that embeds religious practice into daily life, therefore becoming not only a spiritual experience but a social one as well. The behavioral matrix Islam instructs necessitated architectural structures that allow for these social and religious practices. The pedestrian experience in Islamic cities, characterized by narrow alleyways and insular residential clusters, presents a fascinating insight into the ways in which culture and faith can shape and mold urban forms.

The Arab-Islamic city is entirely unique from other urban forms. Traditional and historic Islamic cities often lack monuments such as freestanding religious or public institutions accompanied by large open squares and plazas. The urban form and the architectural fabric is long, uninterrupted, and continuous. Islamic cities from afar tend to look uniform and homogenous but on the pedestrian level, traditional Islamic structures and buildings are highly differentiated. Islamic cities lacked formal institutions, which meant that there was a clear absence in outstanding government buildings. Any and all institutional functions were fulfilled by a Jami’, Friday Mosque. 

The mosque acted as the prime public building, it not only functioned as a place of worship but provided social and political functions. Mosques were embedded in central markets and were typically modest (unless sponsored and commissioned by royalty). This only further pushed the mosque towards the public realm, along with the markets where all commercial activities occurred. Islamic cities compartmentalize their different spaces between the public and private spheres allow for a clear differentiation between the two. Surrounding the markets are a series and system of sprawling dead-end alleyways that would connect a cluster of courtyard houses. Islam qualifies the private sphere of the family as sacred, and therefore forbidden to strangers. This meant that residences had to be completely insular. These residential units are protected from public life and function as inward-oriented autonomous units. Within these courtyards were a series of houses or structures housing multiple nuclear families to compose the tribe or clan, which would open up into a courtyard or garden where members of the family could gather. The large urban plaza was effectively replaced by the private Islamic courtyard in this environment. This contradicts our conceptions of what creates a walkable environment: travel journals on the Middle East and North Africa painted a vivid image of the loud bustling bazaars, filled with the chatter of passersby and the haggling of shopkeepers. The streets of the Arabic-Islamic city were very much alive and walkable while going against the conventions of walkability. 

Diagram of a typical Arab-Islamic city. Courtesy of Stefano Bianca, Urban Form in the Arab World: Past and Present.

Diagram of a typical Arab-Islamic city. Courtesy of Stefano Bianca, Urban Form in the Arab World: Past and Present.

Moreover, the alleyways and courthouses are sacred and protected as needed while the public spaces allowed for a high degree of social interactions (commercial at the market and social, religious, and political at the mosque). The alleyways of Islamic cities illustrate the public-private spectrum and its unique brand of communitarian privacy. These residential clusters were highly autonomous, allowing these clusters to become self-sufficient. Public open space was limited and reduced to an inward-looking corridor system. Beyond religious beliefs, the harsh climate and environments of the Islamic world necessitated these narrow alleyways. A key mark of Islamic architecture is the ways in which it interacts with sunlight, this is reflected in Islamic urban forms as well. Cities are oriented around the sun, and alleyways are often oriented in such a way that it would provide shade for passersby. 

“Dans le souk des dinandiers, médina de Fès el Bali, Fès, Maroc”. Courtesy of Bernard Blanc, flickr.com

“Dans le souk des dinandiers, médina de Fès el Bali, Fès, Maroc”. Courtesy of Bernard Blanc, flickr.com

Storefronts are also a key component of what makes the Arab-Islamic city walkable. As was mentioned earlier, the marketplace (Suq or Bazaar) often acts as the center and heart of Islamic cities, and will often be the area with most pedestrian activity. Thoroughfares within the Arab-Islamic city are often tight and narrow, storefronts usually offer some type of shade for pedestrians, or, the city will be built in such a fashion that shade would be readily available in these spots. Repetitive brick domes are deployed in the ceilings of markets in Isfahan, while in Arab cities such as Fez, a system of bamboos supported on wooden beams is deployed. These can also be found across North Africa and the Arabian Peninsula. 

A Bazaar in Isfahan. Courtesy of David Holt, flickr.com

A Bazaar in Isfahan. Courtesy of David Holt, flickr.com

I write this in the light that we could understand walkability under a more flexible definition. Jeff Speck, the leading scholar on walkability in the United States, has written extensively what makes a city walkable and how we make cities walkable. Jeff Speck boils down the walkable urban fabric into three main components: the variety of buildings, frontages, and open spaces. While there is certainly no denying that these components certainly do make for a walkable city, they neglect the traditional Arab-Islamic form from their definition. Large open spaces and plazas simply do not work given the climate and cultural conditions that these places require. This is troubling in a planning and architecture context, as there is a long and dark history of architects and planners forcing their visions and ideas onto places that simply cannot accommodate them, or do not fit the practices of that place. As planners, we should not think as visionaries: believing that we always know what is best, but to facilitate and allow communities to take charge and build their neighborhoods. 

Additional Reading:

  • Bianca, Stefano. Urban Form in the Arab World: Past and Present. London ; New York, NY: Thames & Hudson, 2000.

  • Hakim, Besim Selim. Arabic Islamic Cities Rev: Building and Planning Principles. 1 edition. London, UNITED KINGDOM: Routledge, 1986.

The Feasibility of Walkability in Extreme Heat

Courtesy of Kammutty VP, The Peninsula Qatar

Courtesy of Kammutty VP, The Peninsula Qatar

As a student of urban planning in Doha, the question I get asked the most by friends and family at home is: “How do we solve this traffic epidemic we have?” Doha, and by extension Qatar and its neighbors in the GCC, all suffer from the same issues in mobility perpetuated by their auto-centric design, inefficient public transportation modes, and a lack of pedestrian infrastructure. Gulf cities suffer from extreme automobile dependency, there are no alternative means of transportation or movement other than the private automobile. Walking is the forgotten mode of transportation in the Arabian Peninsula. Citizens are already paying the cost of these urban design policies and plans. Not only have the rate of car accidents and traffic increased during recent years compared to the past, but the population of the region has gotten unhealthier. In a 2012 report of the world’s heaviest nations, Kuwait was ranked as the world’s second-heaviest country, while Qatar, the UAE, and Bahrain ranked fourth, sixth and tenth place respectively. Automotive dependency has brought traffic and health consequences in the region.

Cities of the region have followed the American planning model, designed as pedestrian-unfriendly streets following a gridiron layout. The only spaces available to walk are malls, urban and national parks, and promenades. Public transportation in the region is also severely lacking, Riyadh for the longest time lacked a mass-transit system (specifically it's metro), while Dubai’s metro serves tourists primarily. The GCC is undertaking massive steps into becoming more walkable cities and have invested billions of dollars into their public transit infrastructure. The biggest hurdle for cities in the region to overcome is that of its extremely harsh hot climate, what are the current struggles facing cities of the region to become walkable, what strategies and projects are being implemented in an effort to become walkable, and how feasible are they, I.E. can people actually walk in this stupid unbearable heat?

A study published at the King Fahad University and the University of British Columbia assesses the travel conditions and accessibility of walking as well as the willingness to walk within the Doha & Dana districts of Dhahran in Saudi Arabia. The study surveyed 200 respondents on the preferred mode of transportation to carry out certain activities, such as grocery shopping, banking, going to school, etc. The investigation shows 42.5% of residents prefer walking, of which 91.5% typically walk up to 1 km daily. The remaining 8.5% walk between 1-2 km. GIS analysis shows that 77.4% of streets in the two districts have sidewalks or walking trails (82.9 km out of 107 km of street distance). Moreover, existing sidewalk conditions in Doha & Dana are poor, sidewalks are narrow, standing at less than a meter wide, often with street lamps, signage, or date and palm trees erected in the middle, further congesting the walking trails. The study also states that 24% of the sidewalks were seen to be occupied by parked vehicles of the surrounding residents. A further 21% of the sidewalks have permanent constructions including walking ramps and carports. The study found that 60% of the residents walk to their nearest facilities while around 65% walk for recreation and health benefits. Overwhelmingly, the study shows that the most cited reason for not walking is due to the weather, daily average temperatures within the region almost reach 50°C (122°F) with very high humidity levels during the summer, pedestrians surveyed within the study area predominantly walk during the winter season. 

Bahrain has taken initiative to increase activity levels and walkability through built environment measures like the national network of public recreation areas, encompassing parks, walkways, and corniches. Outdoor walking facilities are built in new residential areas and are being developed in older residential quarters. Pursuing physical activity in Bahrain is limited by weather conditions like other nations within the region suffering from extreme heat. However, citizens can be found walking outdoors in purpose-built and vacant areas around sunrise and sunset, even during the hot season. This suggests that willingness to walk during the summer season should be a subject of further investigation. Responders of the previous study showed that weather was the biggest concern, but the case study of Bahrain suggests that given the proper infrastructure, citizens can make the choice to walk in that weather. While the weather is a factor in why people choose not to walk, a lack of proper infrastructure acts as a barrier that does not allow for walking. 

Courtesy of tai_mab, Flickr.com.

Courtesy of tai_mab, Flickr.com.

An article published by Qatar University in the Case Studies on Transport Policy compares pedestrian behavior during the summer and winter seasons in the Al-Sadd district of Doha. Al-Sadd is one of Doha’s most popular and livable neighborhoods, it's also known for its mixed land uses and high density. Overall, almost double the people were observed walking during the winter season versus the summer season. It is worth noting, however, that the same number of pedestrians were observed during the weekend and weekdays during the summer season, while during the winter more people walked during the weekday. Observations in the study cite that more pedestrians were recorded holding bags during the winter season, showing that small trips for shopping on foot are more favorable during the winter. A separate study from Qatar University looks at the Al-Markhiya district in Doha. Al-Markhiya offered a great deal of potential to be a self-sustaining neighborhood in Doha, with commercial frontage on Khalifa Street. Khalifa Street connects the C-Ring and D-Ring roads, and congestion issues are quite prominent on this road as commuters use this arterial road to travel from Al-Dafna to Education City. However, due to a lack of land use management and sidewalk design, this community did not realize its potential. The streets of the district are designed for the automobile, and not for pedestrians. The scale is inappropriate for pedestrians, and there is a lack of shading and street furniture discourages walking as a mode of transport. 

Abu Dhabi, like Riyadh, Baghdad, and Islamabad, feature large wide arterial roads connecting in a grid pattern to define a superblock. These superblocks were to be evenly spaced creating rectangular blocks of 900 by 600 meters. Each superblock was designed to be easily navigated through direct routes, and each would function as largely independent communities with facilities and services such as schools, mosques, and small commercial developments where you could fulfill your daily necessities. Fast non-local traffic was kept on arterial roads that defined the superblock, whereas inner roads were calm to ensure a safe and protected environment for pedesterians and slower local automobiles. While Abu Dhabi largely erased any trace of its historical organic settlement pattern for the superblock system, it adopted the system of sikkak (sing. sikka). Sikkak are a system of narrow alleyways connecting the main road or city center to the surrounding residential clusters, they are very common in Arab cities throughout history and today are most prominent in historic cores of Arab cities. In Abu Dhabi, sikkak work as pass-through spaces, connecting secluded spaces of an area. A study published by Masdar Institute shows that this system of sikkak contributes tremendously to the efficiency and directness of routes, encouraging walkability within these superblocks. 

Figure on the left showing the components of the superblock. Figure on the right showing the aggregation of superblocks forming a large district/neighborhood. Courtesy of M. Scoppa et al.

Figure on the left showing the components of the superblock. Figure on the right showing the aggregation of superblocks forming a large district/neighborhood. Courtesy of M. Scoppa et al.

Additionally, using clever street orientation relative to the sun path, sikkak and streets can be used to create a pedestrian microclimate that would provide thermal comfort. Sikkak were designed with walls in mind to provide shade to pedestrians. Streets with a high aspect ratio (building height/street width), similar to older Arab city centers, provide a more comfortable microclimate. A study looking at thermal comfort and walkability in the Mega Kuningan Superblock in Jakarta concluded that in a hot-humid environment it is imperative that architects and city planners provide shade either from surrounding buildings or through trees. While the desert climate may discourage gardening and planting trees for shading, trees native to the Arabian Peninsula such as Samr; Sidr; Ghaf; Sind (Gum Arabic tree); Date Palms; and many more. These trees offer shade while still being able to live and prosper in the harsh desert climate. 

Yes, the Arabian Peninsula is hot, unbearably hot, so hot that at times I question whether or not civilization belongs in this part of the world, but the fact of the matter is: people have lived in these areas for centuries under these difficult weather conditions. People of the peninsula relied on their feet to get around their cities and townships. Cities were dense, sikkak provided shading and additional spaces for walking, marketplaces provided shade for customers and passersby. People built malaqif (sing. Milqaf, windtowers) to cool their houses and mosques. Today, with science and technological advancements, using proper street orientation, a system of sikkak, and providing shading with trees native to the region, it is possible to repopulate our cities with pedestrians despite the heat. While the heat and weather certainly make walking less comfortable and less of an appealing option to navigate the city, the lack of infrastructure and pedestrian-oriented design bars people from walking in the city. Municipalities within the region need focus on planning at a microscale, focusing on small districts and neighborhoods, ensuring the scale of planning is that of the pedestrian such that a safe and comfortable environment can be ensured. The region is suffering from a health crisis. Obesity rates are at the highest they have historically been, cardiovascular diseases are on the rise, all of which is further stimulated by the unhealthy automobile-dependent lifestyle that the Khaleeji urban form has perpetuated. The world is suffering from an environmental crisis, countries of the GCC top the world’s lists in carbon footprint per capita, of which transportation by private automobile is one of its biggest contributors. Walking, along with public transit, should be as effective, if not more effective than the automobile if we want to make it a more competitive and attractive alternative option for transportation. 

On a final note, it’s really only unbearably hot between May and September, while the weather is surprisingly nice for the rest of the year.

Additional Reading:

Harb, D F. “Walk-ability Potential in The Built Environment of Doha City,” n.d., 15.

Kamel, Mohamed Atef Elhamy. “Encouraging Walkability in GCC Cities: Smart Urban Solutions.” Smart and Sustainable Built Environment; Bingley 2, no. 3 (2013): 288–310. https://doi.org/10.1108/SASBE-03-2013-0015.

Koerniawan, Mochamad Donny, and Weijun Gao. “Thermal Comfort and Walkability In Open Spaces of Mega Kuningan Superblock in Jakarta.” In ResearchGate, Vol. 3. Venice, Italy, 2014. https://doi.org/10.13140/2.1.4388.5766.

Rahman, Muhammad Tauhidur, and Kh Md Nahiduzzaman. “Examining the Walking Accessibility, Willingness, and Travel Conditions of Residents in Saudi Cities.” International Journal of Environmental Research and Public Health 16, no. 4 (14 2019). https://doi.org/10.3390/ijerph16040545.

Scoppa, Martin, Khawla Bawazir, and Khaled Alawadi. “Walking the Superblocks: Street Layout Efficiency and the Sikkak System in Abu Dhabi.” Sustainable Cities and Society 38 (April 1, 2018): 359–69. https://doi.org/10.1016/j.scs.2018.01.004.

Shaaban, Khaled, and Deepti Muley. “Investigation of Weather Impacts on Pedestrian Volumes.” Transportation Research Procedia, Transport Research Arena TRA2016, 14 (January 1, 2016): 115–22. https://doi.org/10.1016/j.trpro.2016.05.047.

Shaaban, Khaled, Deepti Muley, and Dina Elnashar. “Evaluating the Effect of Seasonal Variations on Walking Behaviour in a Hot Weather Country Using Logistic Regression.” International Journal of Urban Sciences 22, no. 3 (July 3, 2018): 382–91. https://doi.org/10.1080/12265934.2017.1403363.

Silva, Joao Pinelo, and Aamal Z. Akleh. “Investigating the Relationships between the Built Environment, the Climate, Walkability and Physical Activity in the Arabian Peninsula: The Case of Bahrain.” Edited by Silvio Caputo. Cogent Social Sciences 4, no. 1 (January 1, 2018): 1502907. https://doi.org/10.1080/23311886.2018.1502907.