Urbani izziv, volume 36, no. 1, 2025
100
UDC: 614.8:351.76:711.5(560.11 Istanbul)
doi:10.5379/urbani-izziv-en-2025-36-01-02
Received: 16 December 2024
Accepted: 5 May 2025
Elifsu ŞAHİN
Eren KÜRKÇÜOĞLU
The effect of urban landmarks on urban safety  
perception: The case of Balat, Istanbul
Cities that have strong landmarks offer users effective 
orientation, comfortable experiences, and a heightened 
sense of safety. This study examines the impact of urban 
landmarks on pedestrian movements and orientations, 
and explores their relationship with perceptions of urban 
safety. The study area of Balat, Istanbul, was selected due 
to its abundance of urban landmarks as well as the pres-
ence of structures and spaces that create a negative per-
ception of safety. Based on a review of literature on urban 
landmarks and spatial safety theories, complemented by 
field observations, a study involving 110 participants was 
conducted to analyse their route selections based on land-
marks and their sense of safety along these routes. The 
findings revealed that streets with a high number of urban 
landmarks and those with higher attraction values play a 
significant role in shaping users’ orientation preferences. 
In addition, a positive correlation was observed between 
the presence of urban landmarks and the perception of 
spatial safety, indicating that areas with more prominent 
landmarks are perceived as safer by users.
 
Keywords: landmarks, spatial orientation, spatial percep-
tion, urban safety, Balat, Istanbul
Urbani izziv, volume 36, no. 1, 2025
101
1 Introduction
Urban spaces convey various environmental stimuli to users, 
either directly or indirectly, through the artificial and natural 
elements they contain. Users perceive these stimuli through 
individual cognitive processes, transform them into mental 
images, and subsequently make decisions within urban space 
(Lynch, 1960; Göregenli, 2018; Cüceloğlu, 2019). Urban el-
ements that encompass one or more social, historical, symbol-
ic, economic, and aesthetic characteristics within urban space 
serve as urban landmarks. They draw the attention of users of 
space and, as a result, influence their perception and spatial 
orientation (Gibson, 1950; Gifford, 2002; Raubal & Winter, 
2002; Santos-Delgado, 2005). Depending on the perception, 
landmarks may also function as elements of the urban image. 
Urban spaces with strong images facilitate navigation, pro-
vide comfortable user experiences, and foster a sense of safety 
(Lang, 1987; Lynch, 1960; Steck & Mallot, 2000; Köseoğlu & 
Önder, 2011). Several theories, including the broken windows 
theory, defensible space theory, rational choice theory, and 
environmental stress theory, have been developed to explain 
the sense of spatial safety, which refers to the feeling of peace 
and safety in the social lives of individuals residing in urban 
areas. According to these theories, spaces that are neglected, 
abandoned, or contain derelict buildings and elements are per-
ceived as unsafe by users because they increase the likelihood 
of criminal activities.
Spatial perception and issues of safety are well-established areas 
of study within both urban planning and psychology. Howev-
er, the relationship between urban images and the perception 
of urban safety has not been extensively explored. Based on 
Lynch’s (1960) assertion that strong urban landmarks within a 
space enhance the sense of spatial safety, this study investigates 
the impact of urban landmarks, explores their influence on 
pedestrian movements and orientations, and examines their 
potential impact on the perception of urban safety. It addresses 
three fundamental research questions: 1) Is there a relationship 
between urban landmarks and pedestrian movement or orien-
tation? 2) Which urban landmarks have a greater impact on 
perception and orientation processes? 3) Is there a relationship 
between urban landmarks and the perception of urban safe-
ty? The hypothesis of the study is that the presence of urban 
landmarks and their attraction power are directly proportional 
to user movements and contribute to an increased perception 
of safety in the city.
2 Spatial perception, behaviour, and 
perception of urban safety
Individuals continuously engage in interactions with their sur-
rounding environment. They interpret the environment they 
inhabit through its physical features, organize it in their minds, 
or, in other words, perceive it. According to Lewin (1951), 
human behaviour is a function of the relationship between the 
individual and the environment. In other words, the way in-
dividuals perceive their environment, influenced by both per-
sonal and environmental characteristics, impacts their spatial 
behaviour. In addition, urban environments and the elements 
they encompass have a profound impact on the perception of 
urban safety. A positive perception of urban safety is crucial 
for enhancing the overall quality of life (Barker, 1968; Koca & 
Erkan, 2019).
2.1 Spatial perception and behaviour
Perception is the process of receiving information from the 
environment through the senses and organizing and interpret-
ing it by categorizing it in the mind (Norberg-Schulz, 1966; 
Rapoport, 1977). There are numerous factors, stemming from 
either the individual or the environment, that influence per-
ception. Factors such as age, sex, education level, occupation, 
knowledge, socioeconomic status, lifestyle, value judgments, 
needs, personality traits, and past experiences are among the 
individual-based elements that influence perception. These 
factors affect perception because they shape an individual’s 
sensory attributes, cognitive processes, values, and priorities, 
which in turn influence how they interpret their environment 
(Broadbent, 1958; Lynch, 1960; Kaplan, 1973; Sayar-Avcıoğlu 
& Akın, 2017; Göregenli, 2018).
Environmental factors that influence perception include fea-
tures such as colour, size, density, movement, orientation of 
other pedestrians, light and shadow, shape, proximity, depth, 
continuity, repetition, proportion, similarity, variety, topog-
raphy, slope, weather conditions, sound, and smell (Broad-
bent, 1958; Lim, 2000; Kürkçüoğlu & Ocakçı, 2015; Diker 
& Erkan, 2017). Landmarks (Lynch, 1960; Santos-Delgado, 
2005) are significant environmental factors that influence 
perception. The most important characteristic of these is that 
they are physically, functionally, or semantically different from 
other elements in the surrounding environment. Some land-
marks are known by everyone and others are not. They do 
not have to be known or recognized by all. At the neighbour-
hood scale, coffeehouses, local leaders’ offices, grocery stores, 
tombs, fountains, and structures with distinct differences in 
colour, shape, or material can also serve as landmarks (Abu-
Obeid, 1998; Erkan-Biçer, 2002; Köseoğlu & Önder, 2011; 
The effect of urban landmarks on urban safety perception: The case of Balat, Istanbul
Urbani izziv, volume 36, no. 1, 2025
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Zacharias, 2001). Santos-Delgado (2005) classified urban 
landmarks into five groups: social, historical, symbolic, eco-
nomic, and aesthetic landmarks. Social landmarks are places 
that bring people together and facilitate interaction, such as 
places of worship, parks, and schools. Historical landmarks are 
locations with historical significance, having hosted important 
historical events. Monuments, graves, homes of significant in-
dividuals, historic buildings, and squares are examples of his-
torical landmarks. Symbolic landmarks are elements that help 
people establish a connection with space when they see them. 
Economic landmarks are places with economic value, such as 
factories, ports, hotels, and shopping or office units of various 
scales. Aesthetic landmarks are locations that hold aesthetic 
value, distinguished by their architectural and landscape fea-
tures (Lim, 2000; Santos-Delgado, 2005; Köseoğlu & Önder, 
2011; Bratina Jur kovič, 2014).
In addition, environmental factors that influence perception 
can be classified into the following categories: physical, func-
tional, and mobile sources. Physical stimulating sources refer 
to the form, material, colour, texture characteristics, fullness 
versus emptiness ratios of the built environment components 
that constitute space, and their interrelationships. Functional 
stimulating sources are those that create an image for the user 
based on the function of space. Mobile sources are primar-
ily related to the crowd and the direction of its movement, 
which influence the psychology and preferences of the indi-
vidual (Zacharias, 2001). Spatial behaviour is closely linked 
to spatial perception, with the latter serving as the founda-
tion for the former. People move through space according to 
their perceptions. Therefore, factors that influence perception 
also impact spatial movement (Gibson, 1950). According to 
Kitazawa and Batty (2004), pedestrian movements in urban 
spaces and route selection are subject to change and sudden 
decisions. The time factor, physical elements within urban 
space, natural and artificial obstacles, and individuals’ aesthetic 
and value judgments all play a role in these decision chang-
es. In addition to individual-based factors and environmental 
factors that influence people’s perception and behaviour, an-
other factor affecting pedestrian movement and behaviour is 
the time factor, including season, month, week, day, and hour. 
Differences in time zones can alter stimuli and their intensity, 
influencing perceptions and behaviours accordingly (Banerjee 
& Southworth, 1990; Bradshaw, 1993; Carmona et al., 2003; 
Correa, 1983; Marshall, 2005; Massey, 1994; Moughtin & 
Mertens, 2003; Mumford, 1937; Özer, 2006; Relph, 1976; 
Rykwert, 1982).
2.2 Urban safety and spatial safety perception
Safety refers to both material and spiritual safety, as well as the 
absence of danger. It is a feeling and a perception. Moreover, 
safety is a fundamental right for everyone. Similarly, urban 
safety refers to the ability of individuals living in the city to 
feel secure both in fulfilling their needs and in their interper-
sonal relations, while being able to continue their lives in a 
peaceful and secure environment. Spatial safety theories have 
been proposed to explain the feelings of safety or insecurity in 
urban spaces (Akers, 2000; Anselin et al., 2000; Aksoy, 2007; 
Clarke, 1997; Elliott, 1952; Farrington, 2004; Ritts, 2024).
The broken windows theory focuses on how the presence of 
neglected, irregular, and broken structures and elements in an 
area evokes a sense of dereliction, which, in turn, leads to fur-
ther deterioration over time. In this context, neglected or dam-
aged buildings, dysfunctional landscape elements, uncollected 
garbage, and semantically or visually problematic graffiti and 
drawings cause a perception of neglect and insecurity (Welsh 
et al., 2015; Bilen & Büyüklü, 2018; Koca & Erkan, 2019). 
According to the defensible space theory, spaces lacking a clear 
distinction between public, semi-public, semi-private, and pri-
vate areas, as well as crowded high-rise apartment buildings, 
dysfunctional and unused ground floors, blind walls, secluded 
spaces, and deserted areas resulting from planning errors and 
the improper positioning of buildings create a perception of 
insecurity. These conditions reduce the sense of belonging, 
spatial observability, and control, making such areas vulnera-
ble to criminal activity (Koca & Erkan, 2019). According to 
the rational choice theory, crowded areas such as city centres, 
commercial streets that enable criminals to remain anonymous, 
poorly organized public spaces, abandoned areas occupied by 
gangs, and poorly lit, deserted urban spaces all cause an in-
creased sense of insecurity (Cullen & Agnew, 1999). Accord-
ing to the environmental stress theory, environmental stressors 
such as poor quality of the environment and buildings can 
induce stress, tension, anxiety, restlessness, and fear in individ-
uals. All of these cause an increased sense of insecurity. Factors 
such as building quality, noise, crowds, pollution, aging, and 
neglect are critical parameters that affect the quality of urban 
environment. Poor building quality is specifically associated 
with the aging and deterioration of structures (Clarke, 1997; 
Elliott, 1952; Farrington, 2004; Steg et al., 2015).
In summary, individuals perceive the elements of the urban 
environment in which they live and develop various behav-
iours and spatial orientations as a result of these perceptions. 
In this context, landmarks – points of attraction with social, 
historical, symbolic, economic, and aesthetic qualities – serve 
as powerful images of urban space and influence spatial behav-
iours and orientations through perception processes (Lynch, 
1960; Santos-Delgado, 2005). Furthermore, spaces with strong 
images contribute to a heightened sense of safety for users. 
Based on this information, the relationship between land-
marks, orientation preferences, and the perception of urban 
safety was examined through a field study.
E. ŞAHİN, E. KÜRKÇÜOĞLU
Urbani izziv, volume 36, no. 1, 2025
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3 Method
Based on Lynch’s (1960) claim that urban landmarks increase 
the sense of spatial safety, the authors examined the impact 
of urban landmarks on pedestrian movement patterns and ur-
ban safety perception, structuring their study into five stages 
(Figure 1).
In the first stage, Balat was chosen as the study area due to its 
numerous and diverse urban landmarks, as well as its inclusion 
of spaces and elements that may create a negative perception 
of safety (Erbey & Erbaş, 2017; Özbilge, 2018).
In the second stage, a detailed built environment analysis of 
the selected study area was conducted, including factors such 
as building condition, number of floors, building type, reg-
istration status, topography, open space, transportation, and 
land use.
In the third stage, an analysis of landmarks and spatial safety 
perceptions was conducted, grounded in literature. The struc-
tures and elements in the study area were analysed separate-
ly based on their economic, aesthetic, social, historical, and 
symbolic characteristics (Stage 3a; Santos-Delgado, 2005). 
Structures and elements with multiple characteristics were as-
signed numbers corresponding to the number of characteristics 
they exhibited, thereby determining their level of attraction. 
Subsequently, the attraction value/power of each street in the 
study area was calculated by summing the attraction of the 
structures and elements located on that street or visible from 
it, even if they were not directly situated on the street. The 
attraction value/power of the streets in the study area was 
mapped accordingly. Balat’s spatial characteristics were cate-
gorized in terms of their economic, aesthetic, social, historical, 
and symbolic features. Cafés, restaurants, vintage shops, craft 
workshops, banks, grocery stores/markets/pharmacies, bou-
tiques, street vendors, hostels, and bazaars possess economic 
value. Building colour and form, building materials, historic 
buildings, ruined buildings, and architectural elements such 
as fountains, as well as natural landscapes, artificial landscapes, 
topography, curvilinearity, openness, street width, views, shad-
ows, and light, may have aesthetic value. Museums, churches, 
mosques, synagogues, baths, schools, hospitals, police stations, 
research centres, sports clubs, graffiti, hanging laundry, and 
film sets possess social value. Historic residential, commercial, 
or religious buildings hold historical value, and structures gen-
erally associated with Balat are considered to have symbolic val-
ue (Erbey & Erbaş, 2017; Lim, 2000; Santos-Delgado, 2005; 
Köseoğlu & Önder, 2011; Özbilge, 2018). In addition, areas 
that could contribute to a negative perception of safety were 
examined based on the four theories presented above, and the 
locations in which these areas are concentrated were identified 
(Stage 3b; Cullen & Agnew, 1999; Koca & Erkan, 2019; Steg 
et al., 2015; Welsh et al., 2015).
In the fourth stage, a field study was conducted with a group of 
110 participants that had not previously experienced the space, 
focusing on the relationship between identifying landmarks, 
selecting routes, and defining urban safety. Each participant 
walked around the study area with a map for one hour. To avoid 
any preconceived orientation, only individuals that had never 
visited Balat before were selected. Participants were free to 
choose their walking routes at each intersection, but the spatial 
configuration of the area naturally led them to traverse both 
highly attractive and less attractive streets in order to navigate 
the area. Therefore, even though route choice was voluntary, 
the continuity of the street network meant that a variety of 
spatial qualities were inevitably experienced. Because it was 
essential for the participants to be able to see and perceive land-
marks and spatial safety parameters, fieldwork was conducted 
during daylight hours. In addition, to ensure comfortable pe-
destrian movements, the study was conducted on days with 
clear, rain-free weather. The study was conducted from August 
to October 2020, taking into account the general suitability 
of weather and the COVID-19 pandemic. These months were 
selected because they corresponded to periods with the lowest 
case numbers, no curfews or closures, and only a mandatory 
medical mask requirement. Because the study was conducted 
outdoors and the participants were required to wear masks, it is 
assumed that the effects of COVID-19 were minimized. Con-
sidering that the participants in the field study were required to 
have sufficient map-reading and marking skills, they included 
individuals age twenty or older. In addition, in light of the risk 
factors associated with the pandemic, the participants selected 
were younger than sixty. The participants were recruited on a 
voluntary basis through public announcements made via so-
cial media platforms and university mailing lists targeting indi-
viduals residing in Istanbul. Among the applicants, those that 
met the age criteria, had never visited Balat before, and were 
available during the study period were selected to participate.
As part of the study (Stage 4b), participants marked the route 
they chose on the provided map and identified the attraction 
factors influencing their orientation preferences at each in-
tersection. They also rated their sense of urban safety at the 
intersection points they passed through using a Likert scale 
from −3 (most insecure) to +3 (most secure). In addition, a 
general pedestrian count was conducted for each street in the 
study area on Saturday afternoon for one hour (Stage 4b) and 
subsequently mapped. Saturday afternoon was chosen due to 
the high pedestrian density, as seen in various studies (Erbey 
& Erbaş, 2017; Özbilge, 2018).
The effect of urban landmarks on urban safety perception: The case of Balat, Istanbul
Urbani izziv, volume 36, no. 1, 2025
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In the fifth stage, the maps of all participants were overlapped 
to determine and map the number of participants passing 
through each street in the study area (Stage 5a). The attrac-
tion factors identified by participants at each intersection were 
categorized (5b). To avoid any influence, participants were not 
provided with any keywords, and the grouping was based on 
the keywords they wrote themselves. Because an element can 
possess more than one characteristic (economic, aesthetic, so-
cial, historical, or symbolic), participants’ keywords were first 
categorized into five groups: architectural elements, physical 
environment, landscape and topography features, social and 
cultural characteristics, and commercial aspects. Architectural 
elements, physical environment, and landscape and topogra-
phy features were associated with aesthetic value, social and 
cultural characteristics with social value, and commercial as-
pects with economic value. Historic buildings possess histor-
ical value, and the Fener Greek School, Naftalin Café, and 
houses on Merdivenli Yokuş Street hold symbolic value. In this 
context, a statistical analysis was conducted based on the key-
words provided by the participants regarding the landmarks. 
Thus, the landmarks that had the greatest influence on route 
selection were identified.
The sense of safety was established (Stage 5c) by calculating 
and mapping the mean and median values of the safety scores 
provided by participants on each street, ranging from −3 to +3. 
These values were then overlapped, and streets with a score of 
2 or higher were mapped. Because the sense of safety can vary 
from person to person and is thus a subjective assessment, the 
use of the median in addition to the mean helps mitigate ex-
ceptional cases. All spatial maps obtained (general pedestrian 
count, participant count, participant safety perception, attrac-
tion value/power of streets) were overlaid and compared. The 
results of the analysis and mapping conducted based on urban 
safety theories in Stage 3b were used to verify the participants’ 
urban safety perception scores. In addition, the relationships 
between the general pedestrian count and the number of par-
ticipants on individual streets (5a), as well as those between the 
participant number (5a), participant safety perception (5c), 
and street attraction value, along with the urban landmarks 
identified by the participants, were statistically analysed using 
Python (Figure 1).
4 Results
The Balat neighbourhood is located in the Fatih district, 
between the Fener and Ayvansaray neighbourhoods, on the 
European side of Istanbul. In the course of history, Balat has 
been home to Jews, Greeks, Armenians, and Turks. It houses 
numerous Byzantine and Ottoman-era structures and carries 
traces of three major religions (Ülke, 1957; Deleon, 1991; 
Türkoğlu, 2002; Önem & Kılınçarslan, 2005; Şenyapılı, 2009; 
Özbilge, 2018). The boundaries of the study area were deter-
mined based on the presence of landmarks and spatial elements 
such as old and dilapidated buildings, poor lighting, and nar-
row or dead-end streets, which create a negative perception 
of safety (Figure 2).
4.1 Physical structure analysis
The area features a hybrid street layout, dominated by a grid 
pattern. A large portion of the buildings in the area are in av-
erage condition. Most buildings in good condition are restored 
structures. Buildings in poor condition generally feature aging, 
dilapidated, and damaged walls and structural elements, with 
most of them still inhabited. Ruined buildings, on the other 
hand, have walls or portions of walls collapsed, lack structural 
elements, and are uninhabitable. Three- and four-story build-
ings predominate. Most structures are masonry buildings, with 
some wooden and other types of buildings present as well. 
Buildings of historical and cultural significance in the area are 
protected, with approximately one-third of them being regis-
tered. Among these registered buildings, a significant number 
are examples of residential architecture. The slope follows the 
shoreline of the Golden Horn, with areas near the Golden 
Horn being relatively flat and gradually increasing in incline 
toward the inner parts of the study area. There is no large green 
space within the study area, except for the Cantemir Palace 
garden, which is enclosed by high walls. The area features nu-
merous trees and ivy, and stairways, reflecting the slope, can 
be found in various locations throughout the area. The main 
pedestrian street of Balat and the study area is Vodina Street, 
which hosts food, beverage, and shopping establishments. 
Other key pedestrian corridors include Kürkçü Çeşmesi Street, 
Yıldırım Street, Ayan Street, and Lavanta Street. According 
to the ground floor use distribution, the area consists of three 
main categories: housing (79.3%), commercial areas (18.4%), 
and social infrastructure (2.3%; Table 1, Figure 3).
4.1.1 Analysis of urban landmarks
Landmarks in the study area were analysed based on their eco-
nomic, aesthetic, social, historical, and symbolic characteris-
tics, and their concentrations were determined and mapped. 
In this context, eight mosques, five churches, three synagogues, 
two baths, and two schools were categorized as historical land-
marks. A total of 241 cafés and restaurants; eight antique 
shops; four workshops; four post offices and bank branches; 
thirty-six grocery stores, markets, and pharmacies; four bou-
tiques; two gyms and yoga studios; and six accommodation 
facilities were identified as economic landmarks. Furthermore, 
four museums, five churches, nine mosques, three synagogues, 
two Turkish baths, two primary schools, two middle schools, 
E. ŞAHİN, E. KÜRKÇÜOĞLU
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105
Figure 1: Method of the study (illustration: authors).
The effect of urban landmarks on urban safety perception: The case of Balat, Istanbul
Urbani izziv, volume 36, no. 1, 2025
106
two high schools, one police station, one research centre, and 
six accommodation facilities were recognized as social land-
marks. The Fener Greek School, some residential architecture 
structures, and Naftalin Café were categorized as symbolic 
landmarks. Buildings with aesthetic value, such as those with 
distinctive architectural and landscaping features – stone walls, 
plane trees, vines, lighting, colourful lights from cafés and res-
taurants spilling onto the street, furniture, coloured stairs, a 
variety of artificial landscape elements, and fountains – were 
considered aesthetic landmarks.
A structure or element can embody multiple values. For ex-
ample, the Fener Greek School stands out as the strongest 
landmark due to its historical, social, symbolic, and aesthetic 
values. Religious buildings with historical, social, and aesthetic 
value follow the Fener Greek School in terms of attraction. 
There are numerous registered buildings with aesthetic value 
scattered throughout the study area, some of which also serve 
commercial purposes and thus possess commercial value as 
well, contributing to their higher attraction power. Streets with 
attraction power values greater than average (plus standard de-
viation) were classified as high-attraction streets and mapped. 
The streets and avenues with high attraction value are generally 
the commercially dense (economically valuable) axes parallel 
to the Golden Horn at the entrance to the study area, and, at 
certain points, the lines that cut across these axes perpendic-
ularly and extend inward, highlighting historical, aesthetic, or 
social values (Figure 4).
4.1.2 Urban safety analysis
The spaces and structures that contribute to a sense of inse-
curity are concentrated in the western, southern, southwest-
ern, and southeastern parts of the study area (Figure 5). In 
the southwestern part, there is a noticeable concentration of 
poor-quality buildings and poor-quality environments, which 
are the key criteria under the environmental stress theory.
Figure 2: Location and boundaries of the study area (illustration: authors; base map: courtesy of the Istanbul Metropolitan Municipality De-
partment of Zoning).
E. ŞAHİN, E. KÜRKÇÜOĞLU
Urbani izziv, volume 36, no. 1, 2025
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Table 1: Analysis of buildings and ground floor use in the study area.
Category Unit count Percentage
Condition of buildings
Good 35 2.2
Average 1,328 85.2
Poor 181 11.2
Ruined 23 1.4
Number of stories
One 92 6.0
Two 215 14.0
Three 462 30.2
Four 481 31.4
Five 225 14.7
Six 51 3.3
Seven 4 0.3
Eight 2 0.1
Type of construction
Masonry 1,375 84.8
Wooden 17 1.0
Reinforced concrete 191 11.8
Other 38 2.3
Registration status
Registered official building 2 0.2
Registered monument 33 2.0
Registered residential building 459 28.3
Unregistered building 1,127 69.5
Ground floor use
Housing 1,288 79.3
Café or restaurant 241 80.6
Vintage or antique shop 8 2.7
Workshop 4 1.3
Post office or bank 4 1.3
Boutique store 4 1.3
Gym or yoga studio 2 0.7
Museum 4 10.9
Church 5 13.5
Mosque 9 24.3
Synagogue 3 8.1
Baths 2 5.4
Primary school 2 5.4
Middle school 2 5.4
High school 2 5.4
Police station 1 2.7
Research centre 1 2.7
Accommodation 6 16.2
Source: authors, data courtesy of the Istanbul Metropolitan Municipality Department of Zoning.
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4.2 Analysis of pedestrian movements, urban 
landmarks, and safety perception
Table 2 provides information on the participants’ sex, age, and 
education. They entered the study area through one of three 
entrances accessible from the shoreline. These entrances are the 
gates of the historical walls that largely disappeared over time 
(Özbilge, 2018). Participants selected the gate (G1, G2, or G3; 
Figure 6) based entirely on their preferences. Participants were 
then given a base map of the study area, on which they could 
mark their path. The base map displayed all roads, stairs, and 
connection elements in a partially abstract and linear format, 
with intersection points marked as circles. Participants stopped 
at each intersection and selected the street they wished to pro-
ceed on, thus forming their routes. Along the route, partici-
pants identified the landmarks influencing their preferences 
at each intersection and rated their sense of urban safety on 
a Likert scale. The study lasted one hour for each participant.
Figure 3: Physical structure analysis of the study area (illustration: authors; base map: courtesy of the Istanbul Metropolitan Municipality 
Department of Zoning).
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4.2.1 General pedestrian and participant counts
The base maps provided by the participants were superim-
posed, and the number of participants passing through each 
street was calculated. Bidirectional crossings were counted sep-
arately. A maximum of forty-nine participants passed through 
a single street, and some streets were not passed through by any 
participant. Vodina Street, which runs parallel to the Golden 
Horn and serves as the main street of both the study area and 
Balat, was the most crowded street. In addition to calculating 
the number of participants, general pedestrian counts were also 
conducted in the study area. They were conducted concur-
rently with the participants’ field studies between August and 
October 2020, on Saturdays between 2 pm and 5 pm to ensure 
comparability. Pedestrian flows in both directions were manu-
ally recorded by observers stationed at key points throughout 
the study area. Each street segment was continuously observed 
for one hour. During the general pedestrian counts, pedestrian 
flows of between 1,000 and 1,200 individuals were recorded 
on certain street segments. Based on the counts, it can be con-
cluded that the number of pedestrians is high on the bazaar 
(Vodina Street) and Fener sides (east-southeast), and that it 
Figure 4: Superposition of landmarks and streets with high attraction value (illustration; authors; base map: courtesy of the Istanbul Metro-
politan Municipality Department of Zoning).
Table 2: Participants’ demographic characteristics.
Characteristic n Percentage
Sex
Women 52 47.0
Men 58 53.0
Education level
Primary school 17 15.5
High school 35 31.8
Bachelor’s 46 41.8
Master’s or doctorate 12 10.9
Age (years)
20–29 35 31.8
30–39 22 20.0
40–49 30 27.3
50–59 23 20.9
Source: authors.
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110
is significantly lower in the western and southern parts. Both 
counts showed that the number of pedestrians was high on 
streets with a high concentration of commercial units and 
places of worship. Furthermore, Pearson’s correlation coeffi-
cient between the general pedestrian count and the participant 
count was 0.92 (Figure 6).
4.2.2 Urban landmarks and orientation preferences
According to the data obtained from the field study, the fac-
tors most influencing participants’ orientation preferences 
were primarily architectural landmarks. These were followed 
by commercial landmarks, the physical environment, landscape 
and topography, and, finally, social and cultural landmarks.
When evaluating landmarks based on architectural features, 
the historical buildings were the most influential architectural 
elements affecting orientation preferences. Building colour and 
form were also important factors, whereas building height and 
fountains were among the architectural elements least affect-
ing orientation preferences in the study area. When evaluating 
landmarks related to the physical environment, landscape, and 
Figure 5: Spaces inducing a feeling of insecurity according to spatial safety theories (illustration: authors; base map: courtesy of the Istanbul 
Metropolitan Municipality Department of Zoning).
E. ŞAHİN, E. KÜRKÇÜOĞLU
Urbani izziv, volume 36, no. 1, 2025
111
topography, the most influential factor was natural landscape. 
Artificial landscapes and topography were also significant 
factors within this category that notably affected orientation 
preferences. Street width and scenery had a lesser impact on 
determining orientation preferences, and factors such as cur-
vilinearity, openness, shadow, and light had minimal influence.
In terms of landmarks related to social and cultural elements, 
the Fener Greek School, which stands out as one of the most 
magnificent and prominent structures of the Golden Horn 
due to its colour, size, and architectural style, had the greatest 
impact on orientation preferences. This was followed by graf-
fiti, mosques, and churches within the study area. The school, 
police station, research centre, and sports club had a minimal 
effect on orientation preferences. Although there is no large 
hospital in the study area, outpatient clinics and dental offices 
were also included in this category. However, these did not sig-
nificantly influence the participants’ orientation preferences.
In terms of landmarks related to commercial activities, cafés 
and restaurants were preferred by participants, with a signifi-
cant difference compared to other commercial activities. This 
can be attributed to the number of cafés and restaurants in the 
study area, their locations (density and cohesion), concepts, 
colourful tables and chairs, awnings, lighting, stairs, and graf-
fiti. In addition, the participants’ orientation preferences were 
also influenced by grocery stores, markets, pharmacies, vintage 
or antique shops, workshops, and boutiques in the area. How-
ever, the small-scale market in the Ayvansaray area in the west, 
where food and clothing are sold, had no effect on orientation 
preferences at all (Figure 7).
4.2.3 Perception of safety
After calculating and mapping the mean and median of the 
safety perception scores obtained from participants, both were 
overlapped, and streets with a score of 2 or more in both were 
identified and mapped. To prevent exceptional situations that 
might arise during the study, both the mean and median were 
used together to eliminate outliers in the dataset, and streets 
with a low number of participants were excluded from the eval-
uation. The streets with high urban safety perception scores 
(marked green in Figure 8) according to participants were com-
pared with areas in which negative safety perceptions may arise 
according to urban safety theories due to the concentration of 
certain structures and elements (red circles). This comparison 
is important for evaluating the accuracy of subjective safety 
perception (Figure 8).
The streets with a high perception of safety according to par-
ticipants were largely located outside the red circles in Figure 8. 
Most of the streets within the circles have a mean and median 
value below 2. In this regard, the analysis of the study area 
based on the urban safety theories aligns with the participants’ 
safety perceptions, with participants feeling insecure in areas 
that could lead to a negative safety perception. Even though 
most streets with a high safety perception score are located 
outside the circles, some streets remain inside. This situation 
can be explained by the influence of individual factors and 
certain landmarks (Figure 8).
Figure 6: Participant count, general pedestrian count, and their Pearson’s correlation coefficient (illustration: authors; base map: courtesy of 
the Istanbul Metropolitan Municipality Department of Zoning).
The effect of urban landmarks on urban safety perception: The case of Balat, Istanbul
Urbani izziv, volume 36, no. 1, 2025
112
Figure 7: Number of landmarks selected (illustration and photo: authors).
E. ŞAHİN, E. KÜRKÇÜOĞLU
Urbani izziv, volume 36, no. 1, 2025
113
4.2.4 Evaluation of participant numbers, perceived 
safety, and landmarks
Streets with a high concentration of participants, high num-
ber of pedestrians, high perceptions of safety, and a strong 
attraction power largely overlap. These include Vodina Street, 
Yıldırım Street, Ayan Street, Leblebiciler Street, Lavanta 
Street, Kürkçü Çeşmesi Street, Hızır Çavuş Köprübaşı Street, 
Akgül Street, Çimen Street, Sancaktar Hill, and Mesnevihane 
Street. Therefore, pedestrian numbers and movement prefer-
ences are correlated with the presence, strength, and density of 
urban landmarks that determine the street’s attraction power 
and contribute to a strong sense of safety (Figure 9).
The findings of the study were analysed statistically. When 
examining the relationship between the attraction power and 
the number of participants passing through a street, the average 
attraction power across all streets was 8.22, with a standard 
deviation of 6.39. The distribution of attraction power ap-
proximately follows a symmetric normal distribution. Streets 
with attraction power values ranging from 0 to average mi-
nus standard deviation were classified as low-attraction streets. 
Figure 8: Areas with a high and low perception of safety (illustration: authors; base map: courtesy of the Istanbul Metropolitan Municipality 
Department of Zoning).
The effect of urban landmarks on urban safety perception: The case of Balat, Istanbul
Urbani izziv, volume 36, no. 1, 2025
114
Table 3: Classification of streets based on their attraction power and the corresponding average number of participants passing through them.
Attraction power range Street attraction Percentage Average participants
0 to mean minus SD Low 16 7
Mean minus SD to mean Low to moderate 34 8
Mean to mean plus SD Moderate to high 34 11
> Mean plus SD High 16 13
Source: authors.
Figure 9: Superposition of streets with a high pedestrian number, high safety perceptions, and a high concentration of landmarks (illustration: 
authors, base map: courtesy of the Istanbul Metropolitan Municipality Department of Zoning).
These streets constituted approximately 16% of all streets. 
Streets with values ranging from average minus standard de-
viation to average were classified as low-to-moderate–attrac-
tion streets. These streets constituted approximately 34% of 
all streets. Streets with attraction power values ranging from 
average to average plus standard deviation were classified as 
moderate-to-high–attraction streets. These streets accounted 
for approximately 34% of all streets. Streets with attraction 
power values greater than average plus standard deviation were 
classified as high-attraction streets. There were approximately 
16% of such streets. The average number of participants in 
each class is displayed in a bar chart in Figure 10a. The aver-
age number of participants is approximately seven for low-at-
traction streets, eight for low-to-moderate–attraction streets, 
eleven for moderate-to-high–attraction streets, and thirteen 
for high-attraction streets. Therefore, as the street’s attraction 
power increases, the average number of participants on it also 
increases (Figure 10a and Table 3).
E. ŞAHİN, E. KÜRKÇÜOĞLU
Urbani izziv, volume 36, no. 1, 2025
115
When examining the relationship between perceived safety 
and the number of participants passing through a street, the 
median value of safety perception, scored between −3 and +3, 
was calculated for all streets, with decimal values rounded up. 
The average number of participants on streets in relation to 
their safety perception is displayed in a bar chart in Figure 
10b, which shows that, as the street’s safety perception value 
increases, the average number of participants also increases. 
When examining the relationship between perceived safety 
and attraction power, the average attraction power of streets 
with a high sense of safety was 10.28, and the average attrac-
tion power of streets with a low sense of safety was 3.33. This 
indicates that streets with high attraction power, on which 
urban landmarks are dense and strong, tend to have a higher 
sense of safety (Figure 10c).
5 Discussion
In relation to the first research question, the findings of the 
field study conducted indicate that streets with higher levels 
of attraction power tend to exhibit higher pedestrian density. 
Streets with high pedestrian density largely overlap with streets 
that have high attraction power (Figure 9). Moreover, statis-
tical analyses revealed a meaningful increase in the average 
number of pedestrians as the attraction power of the street 
increases. For instance, whereas streets with low attraction 
power hosted an average of seven pedestrians, this number 
rose to thirteen on streets with high attraction power. These 
results confirm the influence of spatial attraction power on 
pedestrian movement and demonstrate that user behaviour is 
shaped by spatial variability (Figure 10a).
These findings are consistent with the theory of urban image 
proposed by Lynch (1960), who argued that individuals de-
velop orientation based on the relationship they form with en-
vironmental elements. Similarly, Zacharias (2001) emphasized 
that pedestrian behaviour in urban areas is shaped by interac-
tions with the physical environment and that certain spatial 
focal points play a determining role in directional choices. In 
addition, the pedestrian behaviour model developed by Kitaza-
wa and Batty (2004) highlights a strong correlation between 
environmental stimuli and user preferences. In this context, 
the strong correlation values and orientation data obtained in 
this study show significant alignment with both theoretical 
and empirical findings in the literature. Overall, these results 
confirm the critical importance of high-attraction urban are-
as in influencing user mobility, reinforcing their relevance in 
urban planning and design practices.
With regard to the second research question, the study showed 
that architectural features are the most influential landmarks 
affecting users’ spatial perception and orientation preferences. 
These are followed by commercial landmarks and those related 
to the physical environment, landscape, and topography. Social 
and cultural landmarks, on the other hand, appear to have 
the least impact on users’ spatial perception and orientation 
preferences. Key elements influencing participants’ orientation 
decisions included historic buildings, cafés and restaurants, 
building colours and forms, natural and artificial landscape 
elements, topographical features, and religious buildings.
These findings support Lynch’s (1960) theory of urban im-
age, which emphasizes that visually distinctive and functionally 
meaningful urban elements guide users in their wayfinding 
Figure 10: Relationships between street attraction power, perceived safety, and participant number: a) participant number according to 
attraction power classification; b) participant number according to perceived safety levels; c) attraction power according to perceived safety 
levels (source: authors).
The effect of urban landmarks on urban safety perception: The case of Balat, Istanbul
Urbani izziv, volume 36, no. 1, 2025
116
processes. The Fener Greek School, due to its historical, sym-
bolic, aesthetic, and social qualities, emerges as a particularly 
significant focal point and spatial reference. Similarly, the clas-
sification of landmarks developed by Santos-Delgado (2005) 
also emphasizes the role of aesthetic, economic, social, his-
torical, and symbolic values in shaping spatial perception. 
Norberg-Schulz (1966) argued that spatial identity, shaped 
by symbolic and aesthetic environmental elements, enhances 
the legibility of urban spaces – an approach that directly aligns 
with our study, in which the Fener Greek School emerges as 
a prominent orientation reference. Furthermore, Bratina Jurk-
ovič (2014) demonstrated that aesthetically rich public spaces 
enhance user interaction and positively influence orientation 
tendencies. This finding agrees with our study, in which build-
ing colour, form, and landscaping characteristics were found 
to have a strong impact on users’ spatial orientation. In this 
regard, its findings are consistent with earlier findings in the 
literature (Köseoğlu & Önder, 2011; Zacharias, 2001). In con-
clusion, landmarks with high aesthetic and economic value 
play a critical role in directing users’ spatial decision-making 
processes. This effect is closely related to orientation behav-
iours based on perception and environmental cues (Figure 7).
In reference to the third research question, the study revealed 
a significant and statistically strong correlation between urban 
landmarks and the perception of urban safety. Streets with high 
attraction values largely coincide with those that received high 
safety perception scores from participants. The maps produced 
by combining the mean and median values of the safety ratings 
assigned by participants clearly show that streets perceived as 
safer overlap considerably with those with a high attraction 
value (Figure 9). Statistical data further support this correla-
tion. The average attraction score for streets perceived as safe 
by participants was 10.28, whereas it was only 3.33 for those 
perceived as unsafe. This difference – over threefold – demon-
strates that, as the intensity and quality of landmarks increase, 
the perception of safety significantly rises as well (Figure 10c). 
Accordingly, it can be concluded that landmarks not only in-
fluence orientation and pedestrian movement but also have 
a direct effect on the perception of safety within the urban 
environment.
These findings are also highly consistent with theoretical ap-
proaches. Lynch (1960) stated that distinct and functional 
urban elements help users with orientation while simultane-
ously enhancing their sense of safety. Similarly, Santos-Del-
gado (2005) argued that landmarks carry social, symbolic, 
and aesthetic values, which help reduce spatial ambiguity and 
thereby foster a greater sense of safety among users. In the same 
vein, theories such as the broken windows theory (Wilson & 
Kelling, 1982), defensible space theory (Newman, 1972), and 
environmental stress theory (Steg et al., 2015) emphasize that 
environmental qualities such as aesthetic appearance, legibility, 
clarity, and order directly influence the perception of safety. 
Within this framework, landmarks contribute to a stronger 
sense of safety by creating an environment that is aestheti-
cally appealing, orderly, well defined, and of high quality. In 
conclusion, the findings of the study confirm a strong and 
direct relationship between the presence and quality of ur-
ban landmarks and individuals’ perception of safety in urban 
spaces. This underlines the importance of landmarks not only 
for visual appeal or wayfinding but also for fostering a psy-
chological sense of safety in the context of urban design and 
planning processes.
Based on all the above, the hypothesis of the study can be 
confirmed. This means there is an interconnected and directly 
proportional relationship between landmarks within the ur-
ban space, pedestrian movements/orientations, and the sense 
of urban safety.
An important methodological limitation of this study is that 
the participant group consisted solely of individuals that had 
never visited the study area before. Although this approach 
helped eliminate prior knowledge bias and allowed a clearer 
focus on the impact of visual and spatial cues, it also limits 
the interpretation of the findings to first-time users. Individ-
uals that are familiar with the area may perceive, navigate, 
and evaluate landmarks and safety differently based on pri-
or experiences, cognitive maps, or habitual routes. Therefore, 
the results should be interpreted with caution, particularly in 
terms of their generalizability to frequent users or residents 
of the area. Furthermore, it should be acknowledged that 
participants’ map-reading and marking skills, as well as their 
perceptions of landmarks and safety, are shaped by individual 
characteristics such as spatial cognition, attention levels, and 
environmental sensitivity. Therefore, a different group of par-
ticipants may yield different outcomes. In addition, temporal 
and environmental conditions during data collection can influ-
ence pedestrian density and spatial perception. Variations such 
as weekdays versus weekends, morning versus evening hours, 
seasonal differences (e.g., winter months), or weather condi-
tions (e.g., rainy or foggy days) may significantly affect how 
landmarks and safety are perceived. Although the study was 
conducted during a relatively relaxed phase of COVID-19 re-
strictions, residual social distancing behaviour may have influ-
enced participants’ movement patterns and route preferences. 
Consequently, the findings of this study should be interpreted 
within the context of these limitations, and future research is 
encouraged to include a wider range of participant profiles 
and environmental conditions to further validate and expand 
upon the current results.
E. ŞAHİN, E. KÜRKÇÜOĞLU
Urbani izziv, volume 36, no. 1, 2025
117
6 Conclusion
This study contributes significantly to the interdisciplinary di-
alogue between urban planning, urban design, and environ-
mental psychology by emphasizing the pivotal role of urban 
landmarks in shaping users’ spatial behaviour and perception 
of safety. One of the primary objectives of urban planning 
and design is to create inclusive, high-quality public spaces, in 
which users can feel safe, oriented, and engaged. According to 
the data obtained, landmarks serve not only as visual and func-
tional cues that guide spatial behaviour but also as elements 
that reinforce the psychological perception of safety. Therefore, 
the presence, intensity, and quality of urban landmarks should 
be considered a critical design parameter in planning safer, 
more legible, and user-oriented urban environments. Given the 
growing complexity of urban spaces and the rising importance 
of human-centred design, the integration of safety-enhancing 
attraction elements is a suitable direction for future spatial 
interventions and policy-making processes.
Elifsu Şahin, Istanbul University, Faculty of Architecture, Department 
of City and Regional Planning, Istanbul, Turkey
E-mail: elifsu.sahin@istanbul.edu.tr
Eren Kürkçüoğlu, Istanbul Technical University, Faculty of Architec-
ture, Department of Urban and Regional Planning, Istanbul, Turkey
E-mail: ekurkcuoglu@itu.edu.tr
Acknowledgments
This article is based on the master’s thesis The Effect of Physical and 
Functional Landmarks on Urban Safety Perception: The Case of Balat, 
Istanbul, written by the principal author under the supervision of the 
coauthor and defended in January 2022.
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