Heritage Buildings’ Façades as Facilitators for Local Sustainable Development: The Case of Cairo’s El Korba Area

: Previous research has highlighted the correlation between the design of the built environment and sustainable development, underscoring how buildings have the potential to accelerate the realization of the SDGs. However, the speciﬁc contribution of built heritage to the SDGs have been seldom studied, and little research has attempted to link built heritage architectural features with sustainable development. This research examines how heritage façades, and the street-level activities they instigate, contribute to local sustainable development. The researchers build on existing knowledge to develop a framework that links façade features with the SDGs. The framework is used to re-examine several case studies in El Korba, located in Heliopolis, Cairo (Egypt). Many researchers have studied this area architecturally, historically, and socially, but no research has studied its possible contribution to local sustainable development. The ﬁndings highlight how those heritage façades serve as a means for sustainable development on the social, economic, and environmental levels. The paper also underscores how the deterioration of this built heritage location risks diluting the architectural features that drive their contribution to the SDGs. The ﬁndings also substantiate several of the connections in the framework, which enables future researchers to link the design features of heritage building façades and the SDGs and document how different built heritage locations support sustainable development.


Introduction
Initially, the notion of cultural heritage only considered "objects of culture" [1], which included historical monuments, groups of buildings, or sites of "outstanding universal value from the point of view of history, art or science" [2]. However, since the 1960s, researchers have been working to institutionalize a more holistic definition of heritage, which combines intangible inheritances [1]. These types of intangible assets are nonphysical by definition and comprise "oral traditions and expressions, including language as a vehicle of the intangible cultural heritage; performing arts; social practices, rituals, and festive events; knowledge and practices concerning nature and the universe; [and] traditional craftsmanship" [2]. "This broader interpretation of heritage marks a shift in the understanding of heritage space" [1]. In this holistic definition, things such as "the everyday" of the people who live in or visit a historical site become part and parcel of the location's heritage. The expanded definition thus combines both the tangible and intangible, rather than separating them into two different categories of heritage.
The developments in the definition and understanding of heritage are critical for studying how built heritage contributes to sustainable development. Understanding that built heritage represents tangible and intangible physical value, and it is through its tangible and visible layers that the built space physically hosts and facilitates the opportunities for maintaining its intangible values. This cyclical understanding is more fit for locations 1.
Variety of goods and services on the block segment; 2.
Number of independent businesses on the block segment; 3.
Degree of permeability of the street front on the block segment; 4.
Degree of personalization of storefront on the block segment; 5.
Number of community places on the block segment; 6.
Percentage of articulation of street front on the block segment; 7.
Number of public seating (noncommercial) on the block segment; 8.
Number of commercial seating (chairs) on the block segment; 9.
Average sidewalk width on the block segment; 10. Percentage shade and shelter from trees and canopies on the block segment; 11. Amount of other street furniture and physical artefacts on the block segment.
Mehta's findings show that street users are concerned to an equal extent with the street's land use, social levels, and physical aspects. The analysis also showed that diversity in seating contributes significantly to the occurrence of stationary and social activities in the street [17]. Furthermore, Mehta and Bosson [17,18] confirmed that street liveliness is correlated with its physical characteristics. Mehta et al.'s results [17,18] revealed that commercial seating, public seating, variety in block functions, independent businesses, and places for community gathering increased the level of social interaction. Hassan et al. [7] also studied the correlation between ground-floor design and activity patterns. They specifically examined the patterns of ground-floor façade design and the occurrence of what is labeled as "staying activities"; these are sitting and standing activities such as "socializing, eating, watching, window-shopping, buying and selling, or talking on the phone" [7]. They extracted several parameters that have an impact on the occurrence of these activities. These parameters are:

1.
Complexity and architectural character: Referring to the "façade articulation, scale, and rhythm, and human-scale . . . this includes texture, size, color, façade irregularity [niches, recesses, etc.] and shape" [7]. This parameter can also relate to one of the 11 physical attributes mentioned in Mehta's research, "Percentage of articulation of street front on the block segment" [17].

2.
Permeability: This refers to physical and visual permeability. Physical permeability allows people to get into and out of the façade threshold. Visual permeability enables people to see the activities beyond the façade threshold. This parameter relates directly to physical attribute number 3 in Mehta's research, which is the "Degree of permeability of street front on the block segment" [17]. 3.
Territoriality and personalization: Referring to the residents and shopkeepers marking their territory and how that causes better surveillance and, therefore, a sense Hassan et al. [7] applied their analysis methodology to a series of streets in Cairo, Egypt. They found that areas of the streets that were highly active and featured more pronounced social activities successfully addressed the six parameters they extracted and highlighted that the less active portions of the streets had one or more of these parameters lacking. Their findings proved the connection between the built environment and the activity levels of a given street and provided a verified framework that can be used to extrapolate potential social interaction levels by analyzing building façade design. Said otherwise, the parameters proposed by Hassan et al. [7] can be used as a framework for understanding how built environment features enable activities on the street and how the presence or absence of the six parameters could result in expected changes to a street's liveliness. Lotfata et al. [19] also shed light on the impact social activity has on urban social sustainability in their study of Bagdat Street in Turkey, where social activities on the street-specifically socio-cultural activities-increase the sense of belonging and, therefore, the level of urban social sustainability in the street.

The SDGs, Built Heritage, and Human Activity
The introduction of the 2030 Agenda and the SDGs in 2015 marked a new era for sustainable development practices and research. The goals established a clear direction for action [21], provided a balanced focus on human, environmental, economic, and governance issues [16], and offered a stable definition supported by global, national, and local commitments [22][23][24][25]. Much of the research that utilizes the SDGs analyzes the links between the goals and the different economic sectors or fields of economic activity [14,15,[26][27][28]. For the built environment, this meant that issues that usually fell beyond the focus of "green" architecture became increasingly relevant for designers to consider and address.
Lynch and Mosbah specifically identify connections to SDG 1 targets that are focused on reducing the exposure to climate-related events, SDG 9 targets that are focused on building infrastructure that is supportive of economic development and human wellbeing, and the different targets of SDG 11 that emphasize the role of cities to be directly related to the construction work in the built environment [29]. Goubran et al. also point to the role of buildings and the construction sector in achieving the renewable energy goals within SDG 7, ensuring sustainable consumption and production targets in SDG 12, and attaining the climate adaptation target of SDG 13 [30]. Di Foggia relates energy efficiency in buildings and construction to SDGs 11 and 13 [28]. Many published reviews highlight that most of the available research focuses on analyzing the relationship between existing practices and the SDGs, rather than exploring the means of integrating the agenda into new standards and methods or using the goals and targets for informing planning decisions [23,[31][32][33]. A smaller group of published works suggested that construction and the building sector can contribute to an array of targets across all the SDGs, with recent works suggesting that creative and interdisciplinary architecture can contribute extensively to all 17 SDGs [12,34].
By studying published work, we draw clear connections between built heritage and the SDGs and highlight appropriate individual links between built heritage and the targets of the 2030 Agenda. Stemming the review of published work on the topic, we extract the following themes linking historical built environments to the SDGs (Table 1 outlines these connections and the relevant sources that justify their linkage): • Heritage and human wellbeing: by controlling urban density, maintaining heritage sites' culturally rich architectural experiences, and reducing the need for new buildings; • Heritage education: by using heritage locations to help individuals gain practical and space-adapted sustainable education, as it links to culture, sustainable economic models, and environmental design techniques; • Heritage and gender: in terms of built environment safety factors as well as the translation of intangible heritage practices into productive economic activities; • Heritage and tourism: the interplay of factors in the built environment with the economic prosperity of the site resulting in a thriving touristic destination; • Heritage and the creation of sustainable communities: The preservation of the historical buildings' architectural value ensures the continuation of locally adapted economic and social models and reduces the demand for new buildings; • Heritage and combating climate change: sustaining local economic activities, preserving green public spaces, and curbing the demand for new buildings (i.e., reducing development and resource consumption). Table 1. Links between built heritage and the SDGs from published literature.

Relevant SDG Specific Links Supporting References
Goal 3. Ensure healthy lives and promote wellbeing for all at all ages.
There is a direct link between the transmission of infectious and non-communicable diseases and active neighborhoods. However, mitigation techniques are possible. In addition, improved quality of life for residents is linked to local materials. The preservation of historic buildings made with local materials and can aid in the achievement of this SDG.
There is a link between the increase in investment in education (and publicity) related to cultural heritage and the overall conservation of said heritage.

Relevant SDG Specific Links Supporting References
Goal 5. Achieve gender equality and empower all women and girls.
Increasing factors of safety and inclusion in the built environment can increase the role of women in said environment. These include, but are not limited to, increase in line of sight, increased lighting, enclosure, diversity of activity in ground-floor usage etc. Acts of occupying public spaces and streets by street vendors strengthen and encourage the presence and participation of women, and leads to the displaying of their products that are the result of ICH practices.
The parallel between World Heritage Sites (WHS) and tourism is demonstrated via the sources presented. Tourism directly impacts multiple factors in the built environment, such as ground-floor usage and promoting economic growth on site. Furthermore, WHS must possess unique architectural value and a personalized social dynamic and atmosphere.
The interplay of the above factors increase tourism and thus promote sustainable economic growth on site.
The hindering of deterioration of the architectural elements present in historical sites can directly increase the cultural heritage value of the place and thus aid in the achievement of this SDG. Creating and preserving sustainable communities that are a derivative of sustainable building materials helps achieve this SDG as it helps protect natural resources.
Preserving historical sites and sustaining their activities (social, economic, and cultural) reduces the demand for new buildings, which helps avoid greenhouse gas emissions. Controlling urban densification creates more room for green spaces and the preservation of trees on site, reducing greenhouse gas emissions.
Omer & Noguchi [15] Maes et al. [44] Further established research studied the built heritage contribution extent in comparison to the 17 SDGs [4]. This study further corroborated the connection between built heritage and the SDGs we drew on in our framework. SDGs 3,4,8,and 11 show up in the study as having a "Very High" contribution level. SDGs 5 and 13 were extracted as having a "High" contribution level. The scale of the contribution levels ranges from "Very High" to "Medium".

Research Gaps
While previous research focused on the links between a street's physical and social attributes, less focus has been given to studying how these tangible and intangible features of heritage sites contribute to and support the realization of the SDGs. To the best of the authors' knowledge, no published works have attempted to connect built heritage's physical, social, and sustainability attributes in a unified framework. Such a framework would help researchers and practitioners in the heritage conservation and renewal field align their efforts with global sustainability goals.

Methodology
To address the highlighted gap, this research aims to connect the physical attributes of heritage buildings' facades with the SDGs, mainly drawing on the social, economic, and environmental impact these attributes had on the streets. This is going to be through a series of key steps: using tools available in the literature to analyze the physical features of the built heritage, and the links heritage spaces have with the SDGs. By connecting these two components, the research proposes a new framework that directly links built heritage, social life on the streets, and the SDGs. Figure 1 illustrates the overarching approach of the article in a summarized and visual way.

Methodology
To address the highlighted gap, this research aims to connect the physical attributes of heritage buildings' facades with the SDGs, mainly drawing on the social, economic, and environmental impact these attributes had on the streets. This is going to be through a series of key steps: using tools available in the literature to analyze the physical features of the built heritage, and the links heritage spaces have with the SDGs. By connecting these two components, the research proposes a new framework that directly links built heritage, social life on the streets, and the SDGs. Figure 1 illustrates the overarching approach of the article in a summarized and visual way.

Framework Proposed
This research builds on Hassan et al.'s [6] by using the six physical parameters they proposed as proxies for the potential social, economic, and cultural activities on the street. The authors further break down the six parameters into elements to systematize the analysis further. The proposed breakdown is as follows: 1. Complexity and architectural character are studied in terms of (1) ornamentation (types and frequency of occurrence) and (2) shapes (diversity and frequency of occurrence); 2. Permeability is studied in terms of opening (types and number, and the existence of depth behind openings or lack thereof); 3. Territoriality and personalization are studied in terms of the interventions made (i.e., technique diversity, compatibility with the façade, and discretion); 4. Enclosure is studied in terms of (1) the enclosure ratio (between buildings and the street width) and (2) the occurrence of trees (as soft barriers to enhance the enclosure ratio); 5. Ground-floor use is studied in terms of the occurrence of the most popular functions; 6. Physical comfort is studied in terms of (1) environmental comfort (shading and greenery) and (2) seating options (with regards to diversity, safety, and quality).
Beyond the simple study of existing connections and links between the SDGs and the built environment, such as those presented in Table 1, it is essential to integrate the 2030 Agenda into new analytical frameworks that can be used to analyze the built environment more holistically, with the intent to utilize the full transformative potential of the SDGs [45]. While contradictions and trade-offs between the agenda's targets and goals have been reported [21,23,[46][47][48][49][50], analysis frameworks for buildings and the built environment should consider the connections between observable parameters and the SDGs while leaving the direction of these connections to the specific case of application. In applying the analysis frameworks, critical judgment becomes key in determining the strength and direction of connection between different parameters and the SDGs [51].
The synergetic versus trade-off analogy is taken from a previously studied framework that established a way to study the correlations between energy and the SDGs [52].

Framework Proposed
This research builds on Hassan et al.'s [6] by using the six physical parameters they proposed as proxies for the potential social, economic, and cultural activities on the street. The authors further break down the six parameters into elements to systematize the analysis further. The proposed breakdown is as follows:

1.
Complexity and architectural character are studied in terms of (1) ornamentation (types and frequency of occurrence) and (2) shapes (diversity and frequency of occurrence); 2.
Permeability is studied in terms of opening (types and number, and the existence of depth behind openings or lack thereof); 3.
Territoriality and personalization are studied in terms of the interventions made (i.e., technique diversity, compatibility with the façade, and discretion); 4.
Enclosure is studied in terms of (1) the enclosure ratio (between buildings and the street width) and (2) the occurrence of trees (as soft barriers to enhance the enclosure ratio); 5.
Ground-floor use is studied in terms of the occurrence of the most popular functions; 6.
Physical comfort is studied in terms of (1) environmental comfort (shading and greenery) and (2) seating options (with regards to diversity, safety, and quality).
Beyond the simple study of existing connections and links between the SDGs and the built environment, such as those presented in Table 1, it is essential to integrate the 2030 Agenda into new analytical frameworks that can be used to analyze the built environment more holistically, with the intent to utilize the full transformative potential of the SDGs [45]. While contradictions and trade-offs between the agenda's targets and goals have been reported [21,23,[46][47][48][49][50], analysis frameworks for buildings and the built environment should consider the connections between observable parameters and the SDGs while leaving the direction of these connections to the specific case of application. In applying the analysis frameworks, critical judgment becomes key in determining the strength and direction of connection between different parameters and the SDGs [51].
The synergetic versus trade-off analogy is taken from a previously studied framework that established a way to study the correlations between energy and the SDGs [52]. After cross-examining the SDG links and the built heritage with the physical parameters identified above, it was noted that all the relationships found were synergetic. Thus, the proposed framework draws connections between the six physical parameters of heritage façades and the SDGs based on available research. Table 2 presents the relation between  the SDGs and their targets, with the physical parameters identified above, and includes  brief reasoning of synergy based on sources shown in Table 1.
Through the links drawn and presented in Table 2, we produce a general framework and analysis process, illustrated in Figure 2. In this framework, the six proposed parameters, which tie activity levels to the built environment and heritage attributes, are directly connected with sustainable development challenges. The outcome is a new analytical framework that can be used to now study the contribution of built heritage to the SDGs.

P3. Territoriality and personalization
Territoriality and personalization: The unique interventions of the locals in their physical surroundings, whether tangibly through street vending and other forms of self-expression or intangibly through teaching of crafts, is a manner of carrying on knowledge. The preservation of these forms of self-expression, as well as the built environment containing it, is the preservation of this cultural education and leads to publicity for the area; thus, it has a synergetic effect on this SDG. [36]  Permeability and Enclosure: There is a direct link between increasing variables such as the line of sight and the presence of multiple routes for escape and an increase in women's feelings of safety. A site with increased permeability and enclosure will promote said feelings of safety. This makes this relationship synergetic with promoting the participation of women in the context's public spaces and decreases incidents of violence against them.
The promotion of facades with the above-mentioned features becomes a major contributor to target 5.2. [37,38] Target 5.5: Ensure women's full and effective participation and equal opportunities for leadership at all levels of decision-making in political, economic, and public life.
P2. Permeability P4. Enclosure Permeability and Enclosure: There is a direct link between increasing variables such as the line of sight and the presence of multiple routes for escape and an increase in women's feelings of safety. This makes this relationship synergetic with promoting the participation of women in the area's economic life.
Target 5.a: Undertake reforms to give women equal rights to economic resources, as well as access to ownership and control over land and other forms of property, financial services, inheritance, and natural resources, in accordance with national laws.

P5. Ground-floor use
Ground-floor use: The presence of diverse ground-floor activities promotes feelings of safety for women passing by and thus increases their economic participation in the area. In addition, the phenomenon of women street vendors is a direct enhancement to SDG 5.
[ [37][38][39] Goal 8. Promote sustained, inclusive, and sustainable economic growth, full and productive employment, and decent work for all. Target 8.3: Promote development-oriented policies that support productive activities, decent job creation, entrepreneurship, creativity, and innovation, and encourage the formalization and growth of micro-, small-, and medium-sized enterprises, including through access to financial services. Target 8.9: By 2030, devise and implement policies to promote sustainable tourism that creates jobs and promotes local culture and products.
P5. Ground-floor use P3. Territoriality and personalization P1. Complexity and architectural character The interplay of the following three parameters, ground-floor use, territoriality andpersonalization, and complexity and architectural character, result in a synergetic link with tourism. Tourism is a significant economic generator in WHS and is increased by authentic ornamentation and shapes, diverse functions in ground-floor shops, and unique interventions from the locals. The protection of this built environment is a major contributor in the sustenance of SDG 8 s achievement in the context. [40][41][42] Goal 11. Make cities and human settlements inclusive, safe, resilient, and sustainable.
Target 11.3: By 2030, enhance inclusive and sustainable urbanization and capacity for participatory, integrated, and sustainable human settlement planning and management in all countries. Target 11.4: Strengthen efforts to protect and safeguard the world's cultural and natural heritage.

P1. Complexity and architectural character
Complexity and architectural character: The synergetic link between SDG 11 and this parameter lies in two points. Firstly, safeguarding historic architectural elements increases its cultural value, which aligns directly with target 11.4. Secondly, as stated previously, the preservation of locally made ornamentations improves the quality of life for locals and makes the built environment more resilient. [15,43]  Complexity and architectural character: The preservation of the unique architectural identity of historic sites helps curb the demand for new buildings which helps with climate change-related crises, making it synergetic with this SDG.

P6. Physical comfort
Physical comfort: The protection of trees on site aids in combating climate change while providing shade and physical comfort to the users, making the preservation of this parameter synergetic with SDG 13. [15,44] ral heritage. and makes the built environment more resilient. [15,43] Goal 13. Take urgent action to combat climate change and its impacts. Complexity and architectural character: The preservation of the unique architectural identity of historic sites helps curb the demand for new buildings which helps with climate change-related crises, making it synergetic with this SDG.

P6. Physical comfort
Physical comfort: The protection of trees on site aids in combating climate change while providing shade and physical comfort to the users, making the preservation of this parameter synergetic with SDG 13. [15,44] Through the links drawn and presented in Table 2, we produce a general framework and analysis process, illustrated in Figure 2. In this framework, the six proposed parameters, which tie activity levels to the built environment and heritage attributes, are directly connected with sustainable development challenges. The outcome is a new analytical framework that can be used to now study the contribution of built heritage to the SDGs.

Analysis Procedure
The research focuses on the area of El Korba, Heliopolis, in Cairo. As illustrated in Figure 2, and following the proposed analysis process, the physical parameters of the façades are assessed to extract their effects on their correlated SDGs, based on the connections presented in Table 2. Two analyses are conducted: (1) In the first analysis, we evaluate the current condition of the area based on site visits conducted in the years 2021 and 2022 (documented in photos). (2) In the second, we compare the current state to the area's original condition based on images taken in the early 1900s. This second analysis aims to extract the patterns of deterioration and their consequences on the continued contribution of El Korba to SDGs.
In the analysis, which is mainly presented visually in the article, specific locations in case study figures have been enlarged and labeled separately with a numbering system based on the relevant parameter (referring to the list presented in Section 3.1). For example, P1.1 indicates that this is the first relevant enlargement for parameter 1, P1.2 indicates the second relevant enlargement for parameter 1, and so on. These enlarged points in the diagram are then referred to in the analysis text and tables as evidence of the presence of the respective parameters.

Case Study Description: El Korba, Heliopolis, Cairo (Egypt)
As Figure 3 shows, Heliopolis was initially designed in 1906 as two "oases" that were to be connected by a big avenue. The first oasis (where El Korba is now) was a residential area for high-income residents, including foreigners, while the second oasis, much farther from Cairo, was designed to house lower-income groups [53]. Later, during the 1950s and 1960s, the old part of Heliopolis became its center, which is now known as El Korba. El Korba has continuously been recognized for its distinctive social life, stimulated by its unique architectural character, which is apparent in Figure 4. This is because El Korba has several exceptional urban design features and elaborate building façade designs that are not present in other locations in Cairo.
In the analysis, which is mainly presented visually in the article, specific locations in case study figures have been enlarged and labeled separately with a numbering system based on the relevant parameter (referring to the list presented in Section 3.1). For example, P1.1 indicates that this is the first relevant enlargement for parameter 1, P1.2 indicates the second relevant enlargement for parameter 1, and so on. These enlarged points in the diagram are then referred to in the analysis text and tables as evidence of the presence of the respective parameters.

Case Study Description: El Korba, Heliopolis, Cairo (Egypt)
As Figure 3 shows, Heliopolis was initially designed in 1906 as two "oases" that were to be connected by a big avenue. The first oasis (where El Korba is now) was a residential area for high-income residents, including foreigners, while the second oasis, much farther from Cairo, was designed to house lower-income groups [53]. Later, during the 1950s and 1960s, the old part of Heliopolis became its center, which is now known as El Korba. El Korba has continuously been recognized for its distinctive social life, stimulated by its unique architectural character, which is apparent in Figure 4. This is because El Korba has several exceptional urban design features and elaborate building façade designs that are not present in other locations in Cairo.   Later, specifically during the Infitah (globalization) era of the 1970s and 1980s, Heliopolis went through uncontrollable changes and expansions that resulted in shifts, and even deterioration, in the area's urban character and façade designs [53], as could be seen from Figure 5. While El Korba continued to include many commercial and mixed-use functions, the newly developed buildings in the area were mainly residential [53]. As Figure 6 shows, despite losing some of its appeal, nowadays El Korba remains one of Cairo's most popular social gathering places [55,56]. In her study [56], Caroline Nassif asked peo- Later, specifically during the Infitah (globalization) era of the 1970s and 1980s, Heliopolis went through uncontrollable changes and expansions that resulted in shifts, and even deterioration, in the area's urban character and façade designs [53], as could be seen from Figure 5. While El Korba continued to include many commercial and mixed-use functions, the newly developed buildings in the area were mainly residential [53]. As Figure 6 shows, despite losing some of its appeal, nowadays El Korba remains one of Cairo's most popular social gathering places [55,56]. In her study [56], Caroline Nassif asked people about the public spaces they enjoyed being in the most, and among the first listings was El Korba. Another study by Muhammed Eldaidamony et al. [56] confirms this success in stimulating social activity by noting that the locations of commercial activities were mainly intense, either close to or inside Heliopolis's maintained buildings as opposed to the newer buildings. With this, researchers agree that while the El Korba district is still one of the most diverse districts commercially and socially, it is in danger of actual deterioration due to the lack of consideration for the users' needs in a planned and regulated way [55,56]. Later, specifically during the Infitah (globalization) era of the 1970s and 1980s, Heliopolis went through uncontrollable changes and expansions that resulted in shifts, and even deterioration, in the area's urban character and façade designs [53], as could be seen from Figure 5. While El Korba continued to include many commercial and mixed-use functions, the newly developed buildings in the area were mainly residential [53]. As Figure 6 shows, despite losing some of its appeal, nowadays El Korba remains one of Cairo's most popular social gathering places [55,56]. In her study [56], Caroline Nassif asked people about the public spaces they enjoyed being in the most, and among the first listings was El Korba. Another study by Muhammed Eldaidamony et al. [56] confirms this success in stimulating social activity by noting that the locations of commercial activities were mainly intense, either close to or inside Heliopolis's maintained buildings as opposed to the newer buildings. With this, researchers agree that while the El Korba district is still one of the most diverse districts commercially and socially, it is in danger of actual deterioration due to the lack of consideration for the users' needs in a planned and regulated way [55,56].  El Korba's historical background is key to conducting a successful case study for testing the framework proposed in this study. Depending on the original images taken from El Korba after its construction in the early 1900s, the study can highlight how alterations and deterioration in the building façades have impacted its potential continued contribution to local sustainable development and the SDGs. Therefore, we will be stressing the effects of these façade alterations in the analysis and discussion. The changes include, but are not limited to: the addition of outdoor air-conditioning units following the proliferation of HVAC; the prominence of billboards, advertisements, and signs because of the infitah; and finally, the inclusion of diverse modern materials and eclectic colors that do not respect the local identity of the El Korba area [53].
To analyze the case studies, the researchers have conducted a series of site visits. The intent of these visits was to document façade features, street activities, study the relationship between the building features and the street activities (i.e., documenting how people interact with the building façades on the ground floor and upper floors), and to study the environmental characteristics of the façades (i.e., by visiting the locations at different times during the day). The research team recorded these observations using pictures, maps, and El Korba's historical background is key to conducting a successful case study for testing the framework proposed in this study. Depending on the original images taken from El Korba after its construction in the early 1900s, the study can highlight how alterations and deterioration in the building façades have impacted its potential continued contribution to local sustainable development and the SDGs. Therefore, we will be stressing the effects of these façade alterations in the analysis and discussion. The changes include, but are not limited to: the addition of outdoor air-conditioning units following the proliferation of HVAC; the prominence of billboards, advertisements, and signs because of the infitah; and finally, the inclusion of diverse modern materials and eclectic colors that do not respect the local identity of the El Korba area [53].
To analyze the case studies, the researchers have conducted a series of site visits. The intent of these visits was to document façade features, street activities, study the relationship between the building features and the street activities (i.e., documenting how people interact with the building façades on the ground floor and upper floors), and to study the environmental characteristics of the façades (i.e., by visiting the locations at different times during the day). The research team recorded these observations using pictures, maps, and sketches, complemented with written notes. The research team also recorded visible deterioration in the façades and their features, as well as alterations or changes made to the façade which were visible from the street. To transfer the knowledge gained by this site visit to the reader, the researchers selected some images and annotated them with the different features and information recorded. This approach helped condense information in a format that is easy to read. A series of photos from these visits is shown in Figures 7-14 to give the reader a better understanding of the architectural character of the El Korba area. and deterioration in the building façades have impacted its potential continued contribu-tion to local sustainable development and the SDGs. Therefore, we will be stressing the effects of these façade alterations in the analysis and discussion. The changes include, but are not limited to: the addition of outdoor air-conditioning units following the proliferation of HVAC; the prominence of billboards, advertisements, and signs because of the infitah; and finally, the inclusion of diverse modern materials and eclectic colors that do not respect the local identity of the El Korba area [53].
To analyze the case studies, the researchers have conducted a series of site visits. The intent of these visits was to document façade features, street activities, study the relationship between the building features and the street activities (i.e., documenting how people interact with the building façades on the ground floor and upper floors), and to study the environmental characteristics of the façades (i.e., by visiting the locations at different times during the day). The research team recorded these observations using pictures, maps, and sketches, complemented with written notes. The research team also recorded visible deterioration in the façades and their features, as well as alterations or changes made to the façade which were visible from the street. To transfer the knowledge gained by this site visit to the reader, the researchers selected some images and annotated them with the different features and information recorded. This approach helped condense information in a format that is easy to read. A series of photos from these visits is shown in Figures 7-14 to give the reader a better understanding of the architectural character of the El Korba area.                    Depending primarily on visible inspection and observations posed some limitations. These include only recording the range of activities that happened during the visits, limiting the observations of façade features and their deterioration to those only visible from the street level, and only recording environmental characteristics that could be seen or sensed by the common space user. The researchers are aware that some of these limitations could have been avoided if more advanced sensing technologies were used. However, given that the aim of the article is studying how the building façades, a tangible dimension of heritage, facilitates intangible components of heritage, including sustainable development, the interest was to capture the user experience and perception of the façades. Thus, while a more advanced analysis could have revealed more features or insights, they would have exceeded the general user's experience of the space. Furthermore, and while the images used in the paper do not capture the full details, they serve as a communication tool for the manuscript.
The analysis of the case studies from El Korba is broken down into three levels. The first is the street level analysis, which analyzes three streets in the El Korba area (Baghdad, Ibrahim El-Lakkani, and Al-Ahram Streets) with regards to the parameters present in each street. The second level is the building level analysis, where certain buildings were chosen from each of the streets to be examined further. Lastly, the third level is the comparison analysis between the original design of Baghdad Street and its current state. For this, we depend on available images retrieved from archives.
The images of each of the streets, buildings, as well as the comparison images, are annotated by marking (in the reference images) the certain elements that highlight the presence of each parameter, respectively. Then, after each reference image in each of the levels, the elements for each parameter in that level is zoomed in for a closer analysis. This analysis is presented in a table that summarizes the details of each of the marked elements and the SDGs that are consequently present, based on the framework. Afterwards, a written summary discusses the reasoning for the presence of each element. At the end of each level (street, building, and comparison) there is a brief discussion of the most prominent SDGs that are present in each of the levels. Figure 15 presents this structure more clearly. Depending primarily on visible inspection and observations posed some limitations. These include only recording the range of activities that happened during the visits, limiting the observations of façade features and their deterioration to those only visible from the street level, and only recording environmental characteristics that could be seen or sensed by the common space user. The researchers are aware that some of these limitations could have been avoided if more advanced sensing technologies were used. However, given that the aim of the article is studying how the building façades, a tangible dimension of heritage, facilitates intangible components of heritage, including sustainable development, the interest was to capture the user experience and perception of the façades. Thus, while a more advanced analysis could have revealed more features or insights, they would have exceeded the general user's experience of the space. Furthermore, and while the images used in the paper do not capture the full details, they serve as a communication tool for the manuscript.
The analysis of the case studies from El Korba is broken down into three levels. The first is the street level analysis, which analyzes three streets in the El Korba area (Baghdad, Ibrahim El-Lakkani, and Al-Ahram Streets) with regards to the parameters present in each street. The second level is the building level analysis, where certain buildings were chosen from each of the streets to be examined further. Lastly, the third level is the comparison analysis between the original design of Baghdad Street and its current state. For this, we depend on available images retrieved from archives.
The images of each of the streets, buildings, as well as the comparison images, are annotated by marking (in the reference images) the certain elements that highlight the presence of each parameter, respectively. Then, after each reference image in each of the levels, the elements for each parameter in that level is zoomed in for a closer analysis. This analysis is presented in a table that summarizes the details of each of the marked elements and the SDGs that are consequently present, based on the framework. Afterwards, a written summary discusses the reasoning for the presence of each element. At the end of each level (street, building, and comparison) there is a brief discussion of the most prominent SDGs that are present in each of the levels. Figure 15 presents this structure more clearly.

Street Level Analysis
Firstly, an analysis is provided for three prominent streets in the area: Baghdad, Ib rahim El-Lakkani, and Al-Ahram Streets. The analysis is presented visually in Figures 16-24, which highlight the occurrence of the six parameters, and Tables 3-8, which discuss the elements for each parameter marked and the SDGs present according to the method ological framework presented earlier in this research.

Street Level Analysis
Firstly, an analysis is provided for three prominent streets in the area: Baghdad, Ibrahim El-Lakkani, and Al-Ahram Streets. The analysis is presented visually in Figures 16-24, which highlight the occurrence of the six parameters, and Tables 3-8, which discuss the elements for each parameter marked and the SDGs present according to the methodological framework presented earlier in this research.                                     Ornamentations (types and frequency): There is a great diversity in ornamentations as seen in the case studies. In Baghdad Street (Figure 16), stucco decorations can be seen in P1.5 in the spandrels of the arch, as well as the decorations in the balcony's parapet. Furthermore, in P1.8, similar stucco decorations are found in the spandrels of the arch. In Ibrahim El-Lakkani Street (Figure 17), ornamentations can be found in the parapet of the tower in P1.3, and in P1.4, stucco ornamentation is found in the spandrels of the arch. There is also an intricate wooden canopy around one of the towers, as seen in P1. 6. In Al-Ahram Street (Figure 18), ornamentations can also be found in P1.3 in the windows below the church's dome, and other similar windows can be found below the bigger dome in P1.4. Moreover, in P1.5, a decorative element is found around the main entrance's arch. Lastly, in P1.7, a stucco medallion is found in the spandrel of the arch. These ornamentations also appear frequently throughout the building facades. Shapes (types and frequency): There is also a diversity of shapes that is apparent, as seen in Figures 2-4. In Baghdad Street (Figure 16

Permeability (P2)
Openings (types, frequency, and depth): Throughout all the streets there is an evident presence of permeability. In Baghdad Street (Figure 16), there is a frequent presence of a diverse range of openings such as windows, arches, as well as other openings for terraces.
In Ibrahim El-Lakkani Street (Figure 17), there is permeability, mainly through the presence of the arcade on the ground floor (P1.2) with glass storefronts for the users to see the goods on display inside, and through windows on the consecutive floors above (P2.3) until the roof (P2.1).
In Al-Ahram Street (Figure 18), there is permeability in the presence of an arcade at the entrance of the church (P2.1), and in the terrace openings such as those in P2.2. Overall, Al-Ahram Street shows the least permeability of the three case studies.
Unfortunately, many of the present openings in the three streets have been blocked by the users, thus removing the depth factor behind them, as will be explained in the third section of the results: Comparison Between Original and Current Design.

Territoriality and Personalization (P3)
Intervention (technique diversity, compatibility, size, and discretion): The main technique used to express territoriality and personalization is the use of signs for the stores in the streets. This can be seen in Baghdad Street ( Figure 16) in P3.1 and P3.2, and Ibrahim El-Lakkani Street (Figure 17) in P3.1. In Al-Ahram street (Figure 18), however, another technique appears, which is the use of canopies to create a shared space underneath for users to interact within (P3.1). Moreover, in Ibrahim El-Lakkani Street (Figure 17), store owners use the technique of displaying their merchandise outdoors as a way of marking this part of the sidewalk as theirs and to attract walkers into their stores. The use of arcades is the last technique found (P3.3) in Baghdad Street ( Figure 16); this technique also applies in Ibrahim El-Lakkani Street (Figure 17).

Enclosure (P4)
Enclosure ratio: The ratios of building height and street width for Ibrahim El-Lakkani Street and Baghdad Street ( Figure 16) are quite good. The buildings on Ibrahim El-Lakkani Street ( Figure 17) are 3-story buildings (including the enclosed roofs), making a height of around 11m, with attached towers that are around 14 m (which will serve as the total building height). This makes an enclosure ratio of 1:1.7, as the street width is 25 m. According to Alkhresheh's research, this lies within the ideal range of enclosure [20]. The buildings on Baghdad Street ( Figure 16) are 4-story buildings (including the enclosed roofs), making a height of around 14m, with attached towers that are around 17m (which will serve as the building's total height). This makes an enclosure ratio of 1:1.4. This is so far the best ratio, and, according to Alkhresheh's research, lies within the ideal range of enclosure [20].
Trees: The presence of trees near the buildings on all three streets helps reduce the usable street width, making the enclosure ratio better. This can be seen in the overall picture for all three streets in Figures 16-18. The presence of trees also helps in another way. In Baghdad Street (Figure 16), the street is divided into two by a very thin island in the middle with planted trees. This cuts the ratio of 1:1.4 in half, making it 1:0.7. In some cases, this might be considered claustrophobic [20]; however, in this case, it is not for a few reasons. The first is that the barrier used to divide the street is a soft barrier (greenery) as opposed to solid barriers. The second is that it is a much shorter barrier than the surrounding building heights. Lastly, the barrier is not continuous, strictly speaking, because the trees are planted with about 1.5-2 m in between. Seating options (diversity, safety, and quality): There are several seating options on all three streets. Behind the arcades on Baghdad Street (Figure 16), there are often chairs in front of stores where store owners sit to contemplate the street and welcome people willing to come in. However, there is no seating outside the arcades for the lack of shading devices to protect these seats from the sun. On Ibrahim El-Lakkani Street (Figure 17), there is the same style of seating as on Baghdad Street (behind the arcades), and not on the street itself. On Al-Ahram Street (Figure 18), there are no arcades, but there is outdoor seating for the restaurants (P6.1), because they are protected from the sun by the big canopies that shade them.
As seen from the street-level analysis results, some SDG links stood out and were irrefutably corroborated using the case studies. Some parameters were more definitive in their connections with the proposed SDG links and required no further testing or evidence. Others are intuitively relevant but require further qualitative corroboration. To start, P1 (complexity and architectural character) is strongly linked with SDG 11 as it advances its targets related to safeguarding the world's cultural heritage and creating sustainable human settlements. For P3 (territoriality and personalization), SDG 8 is evidently linked in 2 out of the 3 case studies as the personalized store signalization adds to the economic value of the street. SDG 8 is also linked to P5 (ground-floor use) effortlessly as it is a parameter that focuses on diverse economic functions, strengthening the SDG targets. P4 (enclosure) and P6 (physical comfort) are linked to SDG 13 in case studies where trees were present, adding to the methods of combating climate change.

Building-Level Analysis
Secondly, an analysis is provided for one distinct building in each of the chosen streets in the street-level analysis. These can be found in Figures 25-33, which highlight the occurrence of the six parameters, and Tables 9-14, which discuss the elements for each parameter marked and the SDGs present according to the methodological framework presented earlier in this research. Following this, a write-up discusses in more detail the analysis, and why each parameter was marked as present in these buildings' designs.
sustainable human settlements. For P3 (territoriality and personalization), SDG 8 is evidently linked in 2 out of the 3 case studies as the personalized store signalization adds to the economic value of the street. SDG 8 is also linked to P5 (ground-floor use) effortlessly as it is a parameter that focuses on diverse economic functions, strengthening the SDG targets. P4 (enclosure) and P6 (physical comfort) are linked to SDG 13 in case studies where trees were present, adding to the methods of combating climate change.

Building-Level Analysis
Secondly, an analysis is provided for one distinct building in each of the chosen streets in the street-level analysis. These can be found in Figures 25-33, which highlight the occurrence of the six parameters, and Tables 9-14, which discuss the elements for each parameter marked and the SDGs present according to the methodological framework presented earlier in this research. Following this, a write-up discusses in more detail the analysis, and why each parameter was marked as present in these buildings' designs. sustainable human settlements. For P3 (territoriality and personalization), SDG 8 is evidently linked in 2 out of the 3 case studies as the personalized store signalization adds to the economic value of the street. SDG 8 is also linked to P5 (ground-floor use) effortlessly as it is a parameter that focuses on diverse economic functions, strengthening the SDG targets. P4 (enclosure) and P6 (physical comfort) are linked to SDG 13 in case studies where trees were present, adding to the methods of combating climate change.

Building-Level Analysis
Secondly, an analysis is provided for one distinct building in each of the chosen streets in the street-level analysis. These can be found in Figures 25-33, which highlight the occurrence of the six parameters, and Tables 9-14, which discuss the elements for each parameter marked and the SDGs present according to the methodological framework presented earlier in this research. Following this, a write-up discusses in more detail the analysis, and why each parameter was marked as present in these buildings' designs.                                   Ornamentations (types and frequency): On the building level, the intricate ornamentations appear more clearly up close, in the different stucco designs on the façade features. For instance, on the building on Baghdad Street (Figure 25), there are stucco ornamentations on the paneled parapet wall in P1.1, another ornamentation design for the parapet in P1.3, and more stucco ornamentations on the building's facade in P1.6, P1.7, and P1.8.
On the building on Ibrahim El-Lakkani Street (Figure 26), there is ornamentation on the wooden shading device in P1.1. There are also other ornamentation designs below balconies (P1. On the building on Ibrahim El-Lakkani Street (Figure 6), the shapes that appear are many as well. There is an onion dome (P1.1), a horizontal wooden shading device with a unique shape of crenellations (P1.2), and several arch shapes that include triangular (P1.6), 4-centered (P1.7), and flat (P1.8).
On the building on Al-Ahram Street (Figure 27) there is a very interesting phenomenon that appears, which is the combination of several arch shapes in one. This can be seen in P1.5 and P1.8 where the arches combine between the triangular arch and the shouldered arch. There are also round trefoil arches (P1.3), 3-pointed arches (P1.6), and round arches (P1.7) for the different balconies of the building.

Permeability (P2)
Openings (types, frequency, and depth): Frequent permeability is met in all three buildings with windows, arcades, balconies, and terraces. On the building on Baghdad Street (Figure 25), there are terrace openings on the roof (P2.1), arched terrace openings in P2.2 and P2.3, and an arcade on the ground floor (P2.4).
There is, however, a problem with the depth behind these openings, as many are blocked, as can be seen in the overall picture in Figure 4 of the building on Baghdad Street, on the first floor. This can also be seen in the overall picture in Figure 5 of the building on Ibrahim El-Lakkani Street, on the second floor.

Territoriality and Personalization (P3)
Intervention (technique diversity, compatibility, size, and discretion): There are several techniques used to create territoriality and personalization that appear in the building-level analysis that were not apparent in the street-level analysis. For example, on the building on Baghdad Street (Figure 25), there appear to be plants growing on the roof (P3.1). This indicates that someone tends to them regularly, subtly marking this zone as theirs. Moreover, the arcade on the ground floor (P3.2) allows the store owners to express territoriality and personalization without compromising the façade's character, as will be seen in the other cases.
On the building on Ibrahim EL-Lakkani Street (Figure 26), there is territoriality in the use of shading canopies (P3.1) to allow owners of this space to mark it as belonging to their territory. On the ground floor, there is also an outdoor display of goods (P3.2), which is a very strong way to mark territory and express personalization or identity, but it compromises the character of the building, as seen from the sidewalk. Finally, there are store signs (P3.3), which is the most popular technique of expressing personalization but also harms the character of the building.
On the building on Al-Ahram Street (Figure 27), the main expression of territoriality and personalization is through the huge store signs on the building's ground floor façade (P3.1), which completely ruins the building's character.

Enclosure (P4)
Enclosure ratio: On the building level, the enclosure is met mainly with arcades on the ground floors of the buildings. This is the case for the buildings on Baghdad and Ibrahim El-Lakkani Streets (Figures 25 and 26, respectively). Considering an approximate height of 4 m for the ground floors of these buildings, and an approximate width of 3 m between the storefronts and the arcade, the enclosure ratio would be around 1:1.3. This is within the ideal range according to Alkhresheh's research [20]. It can be seen on the building on Baghdad Street (Figure 25

Physical Comfort (P6)
Shading and greenery: There are several aspects of shading and greenery that can be seen and experienced on all three streets. By the building on Baghdad Street (Figure 25), the use of trees provides physical comfort through shading for the users. Added with the arcade on the ground floor, which provides strong shading, this allows them to interact freely with the building's ground-floor functions. This can be seen in P6.1, P6.2, and P6.3.
By the buildings on Ibrahim El-Lakkani and Al-Ahram Streets (Figures 25 and 26, respectively), there is one tree (Figure 26, P6.1, and Figure 27, P6.1) that provides shading, but there are not enough trees across the buildings' sidewalks. However, by the building on Ibrahim El-Lakkani Street (Figure 26), the arcade (overall picture) provides strong and sufficient shading, and in the building on Al-Ahram Street (Figure 27), the recessed zone (P6.2) provides some shade for the users in that zone.
Seating options (diversity, safety, and quality): The seating options on the building level are lacking for all three streets. Behind the arcades of the buildings on Baghdad and Ibrahim El-Lakkani Streets (Figures 25 and 26, respectively), there are occasional chairs for shop owners, but other than that, there are not many outdoor seating options for the buildings chosen for the case studies, for lack of safety in any other zone besides inside the arcades.
There were also SDGs in the building-level analysis that were evidently linked to the physical parameters through the case studies. For instance, P1 (complexity and architectural character) is directly aiding in SDG 11 by affecting the status of preservation of world cultural heritage. As for P3 (territoriality and personalization), it is affecting SDG 8 through the driving of economic activity through personalized store frontages. In addition, P5 (ground-floor use) is naturally linked to SDG 8 due to the economic nature of the parameter in the context analyzed. Finally, P6 (physical comfort) is linked to SDG 13 due to the presence of trees in the context of the case studies.

Comparison Analysis
Lastly, we compare Baghdad Street's original and current design as a third and final analysis. This analysis aims to prove that the historical attributes of the design in this area give it the potential to achieve sustainable goals. In this analysis, the performance of the parameters will be assessed in a comparison table to see the effect of their change in the respective SDGs that each parameter corresponds to.
These can be found in Figures 34-41, which highlight the occurrence of the six parameters, and Tables 3-20 discuss the elements for each parameter marked and the SDGs present according to the methodological framework presented earlier in this research. Following this, a write-up will discuss the analysis in more detail and why each parameter was marked as present in these buildings' designs.

Comparison Analysis
Lastly, we compare Baghdad Street's original and current design as a third and final analysis. This analysis aims to prove that the historical attributes of the design in this area give it the potential to achieve sustainable goals. In this analysis, the performance of the parameters will be assessed in a comparison table to see the effect of their change in the respective SDGs that each parameter corresponds to.
These can be found in Figures 34-41, which highlight the occurrence of the six parameters, and Tables 3-20 discuss the elements for each parameter marked and the SDGs present according to the methodological framework presented earlier in this research. Following this, a write-up will discuss the analysis in more detail and why each parameter was marked as present in these buildings' designs.  Reference image for the elements present in each parameter at the junction between Baghdad and Ibrahim Street in El Korba area in the 1920s [57] (annotated by authors). (Annotation Explanation: numbers in the following-colored bubbles indicate the number of the element detected for each of the respective parameters: pink bubbles = P1 Complexity and Architectural Character; blue bubbles = P2 Permeability; green bubbles = P3 Territoriality and Personalization; orange bubbles = P4 Enclosure; yellow bubbles = P5 Ground Floor Use; and gray = P6 Physical Comfort)

Complexity and Architectural Character (P1)
Ornamentations (types and frequency): In comparison with the original design (Figure 34), the faults of the current design (or state) of the buildings appear more clearly. For example, in the current design (Figure 35), the effects of the passing of time and environmental factors clearly appear in the deterioration of the paint and even plaster in some cases (P1.8, P1.11, and P1.12), and in the destruction of some parts, as can be seen in P1.5, where the ornamentation on top of the tower is partially destroyed. In the original design, however, the ornamentations appear much more clearly, and the design is complete with no missing or destroyed pieces.

Permeability (P2)
Openings (types, frequency, and depth): There has been deterioration in this parameter as well, because of the lack of both physical and visual permeability. In the original design ( Figure 34), permeability is evident via the use of several opening types that include terrace balconies (P2.1), terrace openings (P2.2), and arcades (P2.3). All these features in the façade design allowed for physical permeability and visual permeability. This cannot, however, be said for the current design ( Figure 35). In P2.1, there is a wooden board that blocks access to the street users of that zone of the building's ground floor. Another phenomenon also appears that blocks visual permeability, which is advertisements; this can be seen in P2.2 and P2.3. In P2.4 and P2.5 is the last and most common reason of decreased permeability in the current design: blocked terrace openings. Users have been blocking many of the terrace openings in these buildings (whether residential or not) to create more space inside. This deletes the zone between the opening and the actual façade on the upper floors of the buildings, which dramatically decreases visual permeability and harms the building's architectural character.

Territoriality and Personalization (P3)
Intervention (technique diversity, compatibility, size, and discretion): There Intervention (technique diversity, compatibility, size, and discretion): The parameter of territoriality has also been harmed, or more accurately misused, over the years. In the original design (Figure 34), besides the use of arcades to provide flexibility for users to express territoriality and personalization without harming the building's architectural character, there is also the use of canopies to mark the space to which the canopy extends as theirs. Because these canopies are simple and are not vibrant or distracting, they do not compromise the building's architectural character. In the current design ( Figure 35), however, territoriality is expressed forcibly in the enclosure of spaces and blockage of openings. This is not only a forceful manner to express territoriality, but it also compromises the building's architectural character.
The parameter of territoriality has also been harmed, or more accurately, misused, over the years. In the original design (Figure 34), besides the use of arcades to provide flexibility for users to express territoriality and personalization without harming the building's architectural character, there is also the use of canopies to mark the space to which the canopy extends to as theirs. Because these canopies are simple and are not vibrant or distracting, they do not compromise the building's architectural character. In the current design, however (Figure 35), territoriality is expressed forcibly in the enclosure of spaces and blockage of openings. This is not only a forceful manner to express territoriality, but it also compromises the building's architectural character.

Enclosure (P4)
Enclosure Ratio: The enclosure ratio has not changed much between the original design in Figure 34 and the current design in Figure 35. The only change that indirectly contributes to the enclosure is the increase in vehicles in the street, whereas before it was a tramway and the street was used mostly on foot. However, the enclosure behind the arcades has not changed at all.
Trees: The presence of trees has increased over the years. More trees have been planted near buildings to enhance the sense of enclosure on the sidewalks by the buildings.
The enclosure ratio has not changed much between the original design in Figure 34 and the current design in Figure 35. The only change that indirectly contributes to the enclosure is the increase in vehicles in the street, whereas before, it was a tramway, and the street was used mostly on foot. However, the enclosure behind the arcades has not changed at all. Seating options (diversity, safety, and quality): The seating options have not changed over the years between the original design ( Figure 34) and the current design ( Figure 35).
Comparatively analyzing the streets allowed us to not only identify which SDGs were corroborated by the case studies, but which were also enhanced or deteriorated based on the case studies' selected parameters. The results were as follows: 1.
The deterioration of the ornamentations in P1 (complexity and architectural character) negatively affects SDG 11 by slowing down its advancement. In turn, preserving such elements will aid in advancing said SDG and should be encouraged.

2.
The deterioration in elements of P3 (territoriality and personalization) slows down the progress of SDG 8 related to economic activity. Thus, the encouragement of selfexpression and unique store identities should be maintained for the progression of SDG 8.

3.
The increase in trees in P4 (enclosure) aids in the progression of SDG 13 and should be further encouraged.
Other SDGs discussed in previous sections, which were proven to be effective, were unaffected by time through our case studies and analysis in this specific context.

Discussion and Conclusions
The analysis of the different streets and buildings, and the comparison between the original and current conditions of the area, all produced a unique set of results by which parameters were studied and linked to the possible SDGs they affect. The results of this research point to several specific parameters that have a more significant impact than others on the SDGs and, therefore, on the 2030 Agenda. For instance, it came through the analysis of the case studies that the first parameter (complexity and architectural character) has the most impact on the SDGs. Having a strong local architectural identity that is unique and original helps all of the following SDGs: good health and wellbeing (SDG 3) [35], decent work and economic growth (SDG 8) [40][41][42], sustainable cities and communities (SDG 11) [15,43], and finally, climate action (SDG 13) [15,44]. This points directly to the fact that the historical aspect of the buildings primarily drives their contribution to the achievement of local sustainability. This stems from the multiple roles these elements play in promoting the SDGs through different benefits, including through sustainable building materials, combating environmental problems, enhancing tourism, enhancing cultural value, promoting wellness and health, and many more. Unlike the other parameters with urban dimensions, the complexity and architectural character parameter focuses first and foremost on the buildings' historic design. This explains why, in the comparison study done between the original and current conditions of El Korba, so many SDGs were only affected due to the deterioration of the ornamentations over the years.
The results also highlighted the multi-faceted and interlinked connections between heritage locations and the SDGs. Thus, while SDG 11 (target 11.4) is the only time the preservation of WHS is clearly stated in the UN's 2030 Agenda, the preservation of heritage sites can contribute to a larger array of goals and targets. Based on the framework and analysis, SDGs 5 and 8 were the most likely to be further enhanced by preserving historical buildings and environments such as those in El Korba. This is because they are linked to 3 parameters each, making them essential focal points for this study. The synergetic links between SDG 5 and permeability, enclosure, and ground-floor use demonstrate the multiple ways in which gender-related issues may be addressed in the context of El Korba district. Similarly, SDG 8 was linked to complexity and architectural character, territoriality, personalization, and ground-floor use. This synergetic demonstration stresses the importance of an economically driven context and the multiple ways in which that can be achieved. This importance stems from an interlinkage of the above parameters, which give rise to a thriving touristic destination, a key economic activity in heritage-built environments.
Finally, the findings demonstrated how SDG 13 could be achieved in different ways. Combating climate change is one of the main challenges facing humanity. It is essential to note that heritage sites' effects on combating climate change takes different forms, including preserving and promoting sustainable practices, locally sourced materials, vernacular approaches, methods of living, and preserving trees and greenery. This goes to demonstrate the importance of the preservation of such sites for their environmental benefits. In Figure 42, a summary of the framework of connections is presented which highlights the connections found and supported by previous literature, as well as the connections that were validated and substantiated by the analyses conducted in the case studies.
note that heritage sites' effects on combating climate change takes different forms, including preserving and promoting sustainable practices, locally sourced materials, vernacular approaches, methods of living, and preserving trees and greenery. This goes to demonstrate the importance of the preservation of such sites for their environmental benefits. In Figure 42, a summary of the framework of connections is presented which highlights the connections found and supported by previous literature, as well as the connections that were validated and substantiated by the analyses conducted in the case studies.

Limitations and Future Research Recommendations
One of the main limitations of this research is the fact that the investigations were based mainly on human inspection from the site. This subjects the findings from the case studies to several possible types of errors, some of which could be the limited angles of the camera, the lack of precise perception of distance from the photos, and simple errors of the human eye. Therefore, a recommendation for future research could be to address these issues by making use of the recent advancements in certain programs that allow for more accurate computer-vision-based building inspection.
Furthermore, based on the presented summary in Figure 42 above, there are a few different directions for recommendations for future research. The first recommendation stems from the consideration that not all the sustainability dimensions were directly addressed in the six chosen parameters. Since the scope of this research was to draw connections between the SDGs and already-existing parameters from previous research, a

Limitations and Future Research Recommendations
One of the main limitations of this research is the fact that the investigations were based mainly on human inspection from the site. This subjects the findings from the case studies to several possible types of errors, some of which could be the limited angles of the camera, the lack of precise perception of distance from the photos, and simple errors of the human eye. Therefore, a recommendation for future research could be to address these issues by making use of the recent advancements in certain programs that allow for more accurate computer-vision-based building inspection.
Furthermore, based on the presented summary in Figure 42 above, there are a few different directions for recommendations for future research. The first recommendation stems from the consideration that not all the sustainability dimensions were directly addressed in the six chosen parameters. Since the scope of this research was to draw connections between the SDGs and already-existing parameters from previous research, a possible recommendation for future research could be to follow the same logic used in this paper to come up with more physical parameters that have an impact on the SDGs. Another direction for future research recommendations is finding more SDGs that connect with the built environment.
Finally, all the substantiated connections in summary have a positive correlation with the SDGs, because the parameters chosen were all parameters that have a positive impact on the SDGs. However, based on previous research in this field [21,23,[46][47][48][49][50]52], it could be reasonably claimed that the parameters also negatively correlate with the SDGs. Studying those as well would be very helpful in avoiding harmful design practices. Therefore, future researchers could study more case studies to substantiate and identify the direction of the correlation for more connections, either from the framework presented in this research or from more parameters and SDG connections found.