# Introduction ensification has become a widely practiced method to decrease urban land consumption through concentrated development. The dense compact city is argued to leverage a range of social, environmental, and economic benefits leading to sustainable development (Haughey, 2005 & Jenks, 2000). The compact urban form benefits city dwellers by providing services and amenities within walking distance and thereby reducing the need for automobile traffic, reducing GHG emissions, and saving energy (Williams, 2000;Kamal-Chaoui & Robert, 2009). It also fosters community cohesion through increased social interaction. Other co-benefits of high density are linked with urban vitality and diversity of streets promoting safety and security to its residents (Jacobs, 1961;Sung & Lee, 2015). The growing body of literature indicates density as a fundamental constituent of sustainable urban form but its successful application to attain sustainable development is critical. This is partly due to the complexity inherent to the nature of the phenomenon of density itself. As pointed out by Churchman (2009) density encompasses both objective and subjective attributes. The objective aspect is measurable and is generally measured in two ways: population density and dwelling density. The dwelling density can be expressed through measures like net residential density, gross residential density, floor area ratio, and so forth. Nonetheless, the complexity in quantifying density lies not only in its measuring metrics but also in the concepts of mid, low, and high densities subjected to regional and cultural variations. The subjective aspect of density is the perceived density which is defined as an individual's perception of density in a given area where the perception is shaped by a city's age, history, context, culture, geography, policies, attitudes, and economy (Smith, 1984). However, the negative connotation of density is crowding which is created when the perceived density is experienced as too high. Densification operations when undertaken by merely increasing the number of dwellings may not always lead to sustainability. Sustainable urban development through densification can be achieved by addressing the qualitative aspect of density embedded in the social and cultural context. The design of higherdensity development should focus on improving the quality of life through incorporating culturally responsive quality design, higher land use mix, increased accessibility, and greater connectivity to avoid any unintended outcome. Instead of maximizing density planners should focus on optimizing density to keep proceeding in the trajectory of sustainable development. Densification of residential areas in Dhaka started gaining momentum in the mid-1990s in response to the growing population due to natural growth and ruralurban migration. According to the World Population Review since independence in 1971, the population of Dhaka grew from 1,523,000 to over 18 million in 2016. The government responded to the housing crisis by densifying the existing residential areas without a proper diagnostic study of the site condition or projection of any future development scenarios. In the absence of any densification policy urban consolidation commenced in two phases: first by the transformation of the low-rise buildings up to six stories followed by the construction of higher buildings in the next phase with the introduction of Floor Area Ratio (FAR). This ongoing trend not only transformed the urban fabric but has brought significant changes in the spatial quality and living environment of the residential areas of Dhaka. This paper, therefore, intends to investigate the spatial quality of the residential built environment of Dhaka at both the building and block levels. # II. # Methodology The study is an explorative research. To investigate the densification process three residential areas i.e., Uttara (Ward No. 1), Dhanmondi (Ward No. 49), and Luxmi Bazaar (Ward No.78) of varied density, age, and street patterns have been selected as study areas from the inner old city core, middle and peripheral locations of Dhaka. Ward is the smallest municipal administrative unit of Dhaka city under the jurisdiction of the City Corporation. The older settlement of Luxmi Bazaar represents one of the highest densities while the relatively newer residential areas of Dhanmondi and Uttara have medium and low density. The density of the residential areas was taken from the gross density profile of DAP 2010. For a detailed examination of the building densification process, four blocks from each study ward were selected. But as the old residential area of Luxmi Bazaar is characterized by an organically developed street network the physical boundary of any block was difficult to demarcate. Therefore, instead of blocks three lanes with plots flanking on both sides were selected (as shown in Fig 1,2,& 3) to conduct the detailed studies. Fieldwork employed block survey documenting the design characteristics of the built forms in terms of Floor Area Ratio (FAR), land coverage at plot and block level, height, building form, and height, land use pattern, and net residential and population density at block level, provision of natural ventilation, daylight and view, spatial quality of the residential environment. Land coverage values at plot and block levels are calculated from building footprints and land boundaries of individual plots and block boundaries respectively. The trend of densification in the study blocks were studied through analyzing the satellite imagery. Sketches and photographic registration enhanced the qualitative insights. Interviews with government officials provided information on the building by-laws and area redevelopment scheme. Secondary data includes maps, land use plans, and government records collected from Dhaka North City Corporation and Dhaka South City Corporation, as well as newspaper articles, journals, and relevant published literature. Analysis was carried out through simple descriptive statistics tools (frequency distribution) to assemble or reconstruct the data in a meaningful and comprehensive manner and was presented in the form of tables, charts, graphs, etc. contributing to a better understanding of the trend of densification taking place in the residential areas. Later expansion took place on the far west with new sectors (Uttara Residential Area (3rd Phase). The grid iron street pattern has divided the western part of Uttara into rectilinear blocks with more than 44 plots per block arranged in two rows. However, the oblong blocks of eastern part has relatively larger plots. In response to the growing demand the initial narrow commercial strip on the primary road was later expanded by assigning the commercial land use in the road front blocks on both side of Dhaka-Mymensingh Road. In addition, the plots along the secondary roads of Jashimuddin Avenue and Sonargaon Janapath were later assigned for commercial ribbon development. Though the commercial activities on the secondary road of Ravindra Sharani are intensifying it is still not declared as commercial zone. Source: Field Survey, 2016 ii. Changing landscape of building heights in Uttara Most of the allotters belonged to the affluent class, government officials and offshore residents who had kept their allotted land vacant for over a decade for land speculation and construction of post-retirement homes. As a result, more than half of the plots remained vacant till the late 1970s. During that time the density of Uttar was very low. Only the sectors 1 to 9 were inhabited with dispersedly located tin shade row houses and single-story houses. With the completion of road network and access to utility services by 1984-85 the construction of 2 storied buildings exacerbated in all the sectors. However, up until the end of the 1980s the area was still sparsely inhabited and predominated with 1-2 story houses. Higher building construction activity initiated from the 1990s by real estate developers with profit maximizing agenda. The plot owners opted to construct multi-storied buildings in collaboration with private developers for monetary benefits. Although the height restriction of civil aviation authority did not allow buildings above 6 story the emergence of this trend diminished the construction of single and two storied buildings and by 2001 about 67% of the vacant plots were occupied with 6 storied buildings. A second wave of transformation started from the onset of 2014 with the promulgation of Building Construction Rule (MINB2008) that eliminated the height restriction with the introduction of FAR. This rule stimulated rapid redevelopment activity with taller buildings reaching up to 12 to 14 stories, mostly in the vacant plots and in plots adjacent to the secondary roads both permitted and unpermitted for commercial activities. This development trend contributes to a generation of isolated vertical habitats (7-14 storied) developed amidst clusters of low-rise and 5-6 storied buildings in Uttara (Table 1). In the four blocks where detailed studies were conducted, the number of 6 and above 6 story houses were 5, 2,7 and 0 in Block 1, 2, 3 and 4 respectively in 2004 which turned to 5,3,16 and 11 in 2010 and 8, 7, 30 and 31 in 2016. The vacant plots of the study blocks gradually started filling up from 2004 while the low-rise houses were replaced by 6 and above 6 storied buildings (Table 1). However, the vacant plots of peripheral blocks like Block 4 is subjected to construction of high rise buildings from 2010 and onwards. Overall, the number of vacant plots ranges from 1-13 in about 18% blocks of Uttara at present. The large number of vacancies in the peripheral blocks until 2008 indicates that densification started relatively at a later phase in Uttara i.e. after 2014. 1 1 2 3 4 2 2 - - - - - 4 2 1 2 2 3 4 2 2 2 2 - - - 3 3 3 2 2 3 3 - - - 1 1 1 4 - 1 1 1 2 1 1 1 1 - -1 iii. Floor Area Ratio (FAR) The maximum floor area ratio for older buildings observed in Block 1, 2, 3, 4 ranges from 0.3 to 5.6 while in Block 3 the highest FAR observed for new buildings was 9. The approved ratio of older buildings ranges from 4.2-4.8. This indicates violation of the allowable limit set by the Building Construction Rules 1996 (BCR). On the other hand, the newly constructed buildings have a floor area ratio ranging in between 4.8 to 5.9 which shows a slight deviation from the permissible range of MINB 2008. Out of 112 surveyed in Uttara 55 mid-and high-rise buildings are built according to the new FAR rule, where 6 are commercial and the rest are residential buildings. iv. Plot coverage Field work results from Uttara indicate that most of the plots with 6 storied buildings had higher plot coverage of 75%-80% which is above the recommended setback of BCR 1996. While the recommended maximum ground coverage was 70 percent, field observations showed that out of 112 surveyed plots, 27 of the older buildings had 81 to 90 %, 47 new buildings had 71-80% percent and the rest had 61 to 70 percent coverage. In general, the plot coverage of 40% of the surveyed buildings are beyond the recommended limit of BCR 1996 and MINB 2008. The high coverage is mostly evident in 60% of plots where buildings were constructed before the introduction of FAR. Even 10% of the buildings currently undergoing construction are still following the former setback rule as their plan had been approved before the promulgation of MINB 2008. According to the guidelines construction work should commence within 3 years of plan approval otherwise new approval is required. But the delayed construction of these earlier approved buildings indicates another violation of the law. v. Ground Coverage at block level Overall, the blocks of Uttara show a modest ground coverage because some blocks still have a few numbers of single and double storied dwellings with less footprint while a significant number of plots in many blocks are still vacant which reduces the overall land coverage at block level. However, blocks with greater number of mid-rise buildings (e.g., Blocks 1&2) have a block coverage of around 76% as the mid-rise buildings have plot coverage of 80% which is beyond the set limit of 70% according to BCR 1996. Block 2 has a greater number of commercial and mixed-use buildings (10 out of 19) as it is located along Ravindra Sharani Road. Most of the older midand high-rise buildings have a plot coverage (90%) exceeding the ratios recommended in the former setback rule of 1996. The zoning ordinance along the secondary street of Ravindra Sharani is not permitted for commercial use yet. But due to the paucity of designated commercial plots in the Master Plan, many of the influential plot owners had acquired the permit of converting their residential plot to commercial use on basis of public demand or through exerting political influence on the local authority. The findings indicate a flexibility and non-compliance in adherence of the Master Plan and BCR rules by the developers and plot owners. However, Block 2 has one of the lowest net residential densities (97 units/ hectare) due to the increased number of commercial and mixed-use buildings. In Block 3 out of 44 plots (6 kathas) 22 plots are occupied with 6-7 storied buildings, 12 plots have buildings of older construction while 9 plots are still vacant. The plot coverage is around 65%-70% in the MINB 2008 abiding buildings and a highest of 80% -90% in the older buildings exceeding the prescribed level. The peripheral Block 4 of Sector 12 has 54 plots with 13 vacant plots and is occupied by 6-7 storied residential buildings forming a continuous skyline. Around 97% of the buildings have two units per floor making the net residential density relatively higher i.e., 316 units per hectare than the other study blocks. The buildings cast shadow on the adjacent access roads and causing dark alleys even in the afternoon. The plots are the smallest (3.25 kathas or 2340 sq.ft.) available in Uttara and permissible of higher plot coverage around 80% according to FAR. Since high-rise buildings above 7 stories are not feasible for smaller lots the buildings are of 6-7 storied with plot coverage of 70%-80%. Six plots have a maximum coverage ranging from 83% to 85% which is a violation of the law. Only 14 buildings out of 41 complied with MINB 2008 properly while others slightly violated by raising the height of the front porch and guard room. In addition, the dark narrow setback space between the buildings cannot provide any meaningful use. Much of the development activity in this block started after 2011 for its peripheral location and for the late completion of the secondary road of Sonargaon Janapath. Overall, the linear plot configuration of the elongated blocks as well as the close juxtaposition of similar height buildings does not offer adequate provision for solar access, airflow and privacy contributing to a cramped situation. The emerging spatial growth pattern of Uttara depicts that the residential area is heading towards a compact settlement pattern with varying height, size, and plot coverage. Around 10% of plots are still vacant and another 10%-15% with 1-2 storied dwellings. The similar height buildings juxtaposed to each other is resulting in poor spatial qualities of the indoor living environment in most of the blocks. The problem is further intensified in the longer blocks having more than 20 plots in a row. This type of block layout reduces the plot frontage likely to create cramped development. Since development is taking place plot by plot basis two types of skylines seems to be emerging where blocks along the primary roadside are forming an informally broken skyline pierced by 10-14 storied towers at irregular intervals and the inner blocks having a uniform skyline formed by rows of 6-7 storied residential buildings. Overall, such a spatial development pattern causes jagged skyline. In addition, the tower blocks are casting shadow on the adjacent buildings and streets creating dark corridors and hampering privacy of the adjacent low and mid-rise buildings. Densification is still in its infancy stage in the sector 5, 10, 12 and 14 but in the rest of the 11 sectors it had reached the 'optimum stage' for the proliferation of commercial activities acting as catalyst to the densification process. By that time Dhanmondi could be characterized as a low-density settlement predominated by evenly dispersed single storied dwellings. The only multi storied building was the 3 storied Polish Embassy during this period. Other than the residential use 9.2% of the entire area was designated for open space and playground, 9.2% for water body, 0.9% for mosque and 0.9% for school making it a posh picturesque neighborhood. Dhanmondi Boys High School was the only school in the area. Commercial land use was restricted ensuring security of the diplomatic zone. President Ata-ur-Rahman first flouted the law in 1985 by building the Garden Market in Dhanmondi on Road no. 7 altering the rule by sanctioning 20 feet depth from the road front for commercial uses (Ahmed et.al, 2009). This encouraged the construction of more commercial establishments in the area. From 1985 onwards commercial activities of varied scale and type started to develop in Dhanmondi in a haphazard manner. These include retail shops, small groceries, Chinese restaurants etc. The diplomatic status of the area contributed to a price hike in the land value of Dhanmondi. The accessibility and connectivity of Dhanmondi being along a major transport corridor was favorable for further development activities but the high land price was holding back the middle class from investing till the late-1980s. Therefore, considering the development potential and its locational advantage, the diplomatic zone was moved to a peripheral location by the 1990s. This decision rapidly transformed the spatial landscape of Dhanmondi with a construction boom of 6 storied buildings in the following decade owing to the decrease in land value and developers' involvement in the housing sector encouraged by the neo-liberal policy model of the government. In absence of a redevelopment framework, the zoning, height ceiling was determined by using Government Notices, Orders and Circulars issued by the PWD and Ministry of Housing and Public Works during the period of 1995 to 1996. The bye law for subdivision of the plots laid out for Dhanmondi further accelerated the construction of 6 storied buildings. As the government does not allow subdivision of plots below 5katha (335 sq.m.) the second and third generation landowners of Dhanmondi had to either sell or construct multi-storied buildings with apartments distributed among the beneficiaries. In addition, the current landowners (successors of the original owner), who are economically obsolete find agreement with the developers to be an easy solution for redevelopment (Afrin et al., 2012). The PWD Circular of 1 st May 1996 allowed commercial activities compatible to neighborhood scale on all the plots on both sides of Mirpur Road, Satmasjid Road and Road No. 16(old 27) with 15% "Conversion Fee". The establishment of modern shopping malls and hospitals like Rapa Plaza and Ganoshasto Bhaban further drove the development of commercial activities along Mirpur Road. The height limitation of 6 stories with no restriction on the number of flats was allowed according to the decision taken by the Jahiruddin Committee in 1996 and notified through a circular. Consequently, the overall density increased 3-fold times than the initial density with higher density gradients towards the primary roads. The proportion of single-story houses diminished to 42% and further down to 65% in 2000 and 2004 respectively (Author's calculation from satellite imagery). In response to the growing demand and weak enforcement of guidelines the commercial activities of varied scale and nature started infiltrating into the inner blocks illegally. This type of commercial invasion started degrading the neighborhood livability by generating traffic concentrations. In 2008 with the introduction of FAR and elimination of height restriction further increased the density. Another phase of transformation is currently underway where the 6 storied buildings are increasingly being replaced by 12 to 14 storied mixed-use towers. ii. Changing landscape of building height in Dhanmondi During the 1970s the posh residential area was predominantly a low-rise low-density settlement surrounded by green spaces and water body. Most of the plots had 1-2 storied house form with ample space in the front and backyard for gardening. The pattern started changing from late the 1980s and rapid transformation took place in the following one and half decades forming a matrix of 6 storied buildings in the regular blocks formed by the grid iron pattern road network. From 2008 the uniform continuous skyline of 6storied buildings started breaking haphazardly with 12 to 14 storied isolated towers of mixed use and commercial functions particularly along the primary and secondary roads of the area. Similar trend also emerged on the access roads (18-24 feet) of some inner blocks. iii. Floor Area Ratio (FAR) 0.1 -0.5 - 1 - 4 0.5 -1.0 2 - - - 1.0 -1.5 1 3 - - 1.5 -2.0 2 1 - - 2.0 -2.5 1 2 - 1 2.5 -3.0 - 2 - - 3.0 -3.5 1 - 1 - 3.5 -4.0 2 3 - 1 4.0 -4.5 - 14 The Floor Area Ratio (FAR) was found ranging from 2.50 to 6.25 in the surveyed blocks. For plot area above 5-6 katha the recommended maximum Floor Area Ratio for residential buildings is 3.75 and 3.50 for residential cum commercial uses according to MINB 2008. And for larger plots (Above 9-10 katha) the maximum recommended FAR is 4.00 and 6.00 for residential and commercial buildings respectively. One 6 storied building on the corner plot of Block 3 had a Floor Area Ratio of 6.3. Though the building is constructed before 2008 but still the higher horizontal expansion is a violation of the allowable setback of BCR1996. Further observations in the areas zoned for mixed land use revealed an average Floor Area Ratio that ranged between 4.8 to 9.1 in the newly constructed buildings indicating the lack of monitoring to ensure the compliance of the recommended FAR (Table 4 iv. Plot coverage Results from field observation revealed that around 52.4% of the plots have plot coverage ranging between 71-90% while 17.9% plots with low rise dwellings have modest coverage of less than 50% to 60%. The new buildings maintained the mandatory open space with 25% soak able ground. Only a few plots with buildings constructed before 2007 had higher coverage ranging from 91 to 100 percent. This indicates the tendency of the landowners and developers to illegally extend the plot coverage driven by profit maximization agenda. v. Ground Coverage at block level Blocks 1 and 2 indicates modest ground coverage of about 65.2 and 63 percent respectively. However, the average block coverage is found to be 72.6%. This is partly due to the significant number of the remaining 1-2 storied dwellings and the new high-rise buildings following the MINB 2008 properly. Block 1 provides a glimpse of the changing trend in terms of building function. This block had initially 18 plots (20 kathas) which were later sub divided into 24 plots. As being located along the secondary road (Road No. 27old/16new) Block 1 had been rezoned for commercial land use in 1996 through government circular and about 54.5% of its buildings had been transformed from residential to mixed uses since then. Out of 24 plots 14 plots are occupied with high and mid-rise while the rest have 1-2 storied dwellings. The high-rise commercial buildings overlooking the adjacent low-rise buildings intrude on the privacy of these dwellings. Most of the new high-rise buildings comply with FAR rules by having a plot coverage ranging from 60 to 70 percent while the older constructions had violated the BCR 1996 rules. In Block 2 the original nine (20 kathas) plots have sub divided into 18 plots. Out of 18 plots 15 are occupied with mid-and high-rise buildings, and the rest of the 3 plots with low rise buildings. In terms of plot coverage Block 2 indicates a pattern with a highest 78%-80% which is causing encroachment of privacy and blockage of ventilation and sunlight in the interior rooms. The block has a 4 storied school, karate training center and a heritage site (Shahi Eid Gah and 6 storied mosque). The school is housed in a residential building Volume XXIII Issue IV Version I and is not permissible land use here. The access roads around this block are 18-20 feet wide, which is sufficient for the traffic caused by the school during peak hours. Furthermore, a significant portion of the effective of width of the access roads around the school serves as parking spaces for the school buses which even worsens the situation. The emerging spatial growth pattern in Dhanmondi depicts a compact form of settlement with uniform height pierced by a continuous belt of high-rise towers creating a buffer zone between the major transport arteries and the inner residential blocks. The trend of vertical expansion with mixed land use is relatively faster in the peripheral blocks along the primary (Mirpur Road) and secondary roads (Satmasjid Road, Road No. 27 and Road No. 2) than the inner blocks. Most of the commercial activities accommodated in these towers are not compatible with neighborhood scale. The weak enforcement of the law is leading to the illegal infiltration of commercial activities across the residential area causing negative externalities like increased traffic concentration, air, and noise pollution particularly intense at the peak hours. # c) Luxmi Bazaar Residential Area (Ward No. 78) i. Land use and Building Guidelines for Luxmi Bazaar Luxmi Bazaar of Ward No. 72 is one of the oldest residential settlements which predates to the Mughal period. The area can be characterized with a complex organically evolved pattern of narrow winding street network forming the boundaries of different neighbourhoods or mohallas. The organic street pattern of Luxmi Bazaar results in a mosaic of plots with a rich diversity of irregular shapes and sizes. However, the settlement has no open spaces. The only open space in the vicinity is the poorly maintained historic Victoria Park. The area is a highly compact settlement predominated by high rise buildings ranging from 5-10 stories. In old Dhaka many structures constructed before partition of India, have been demolished and replaced with new buildings augmented both horizontally and vertically. Most of the buildings have been non-adherent to the Building Codes. However, the area still possesses some historic dwellings conforming to distinct architectural style from the Colonial Period and which are in a vulnerable state for lack of proper maintenance and preservation. Source: DSCC, 2014 In the Colonial period the settlement was predominantly occupied by 1-2 storied houses. From the mid-1970s to 1990s, around 35% of the houses were extended up to 3-4 stories. Due to the proximity to the Old CBD and educational facilities, this area has always been a preferable location for rental accommodation. From the late nineties high rise buildings of 6-8 stories with mixed function started to emerge. At present approximately 80% of the area is covered with high rise buildings out of which 30% are 10-12 stories high. Some of the irregular narrow plots created some very slender high-rise buildings which are highly vulnerable to earthquake. The existing road widths are less than 60 feet wide making the prevailing FAR guidelines inapplicable for this area. Survey shows that 77.6% plots have plot coverage ranging from 81% to 90% while 9.6% plots have ground coverage of 91%-100%. Many of these plots face roads which are 10-12 feet wide. The Floor Area Ratio of the blocks surveyed in Luxmi Bazaar was observed to be ranging from 0.9 to 5.7 in older buildings while the new buildings have FAR ranging from 5.4 to 8. Both the former and recent constructions are violating the recommended FAR to a greater extent. Around 90% of buildings are found not abiding the setback rule. Even high-rise buildings were found with shared external walls in Nobodip Bashak Lane. v. Ground Coverage at block level Results from the survey indicate that Luxmi Bazaar has the highest block coverage (89.4%) among the study areas. This implies that almost 90% of the dwellings employed the highest possible ground coverage forming an exceptionally dense settlement pattern. From the reconnaissance survey it was found that the spatial pattern of Luxmi Bazaar had inter woven tree like road networks with cul de sacs contributing to no defined block boundary. Instead of blocks the area is identified through the name of its lanes or streets. Therefore, for detailed study instead of blocks three lanes with the first row of plots along both sides of them had been selected. The aggregate plot areas is considered as the block area for this study. The result of the empirical observation indicates that Nobodip Bashak Lane has one of the highest ground coverages of 91.2% at block level followed by 89.2 and 87.8% in Nandolal Dutta Lane and Panch Bhai Ghat Lane respectively. Nobodip Bashak lane is characterized by a labyrinth of meandering narrow lanes 5-8 feet spreading out in various directions. Starting from the primary road (Shubas Bose Road) the lane is 16 feet wide at its entry point and 4.5 feet in its narrowest part. Both sides of the lane are flanked with 5-6 storied buildings with a maximum 1.5 feet setback space between buildings. In some cases, the distance of the balconies between facing buildings is less than 1.5 feet while two adjacent high-rise buildings are often found sharing the same external wall. The alleys are extremely narrow, often 4 feet wide with open drains on both sides. These alleys are only used as pedestrian pathways with 5-6 storied buildings overshadowing them. Various occupational groups reside here but a significant portion of them are service holders. There are a couple of mixed-use buildings in the entry point and a 4 storied mosque in the middle of the lane. The plot coverage ranges between 80 to 90 percent, in some cases even higher. With the highest plot and block coverage the high-rise dwelling of this dense neighborhood receives minimal solar access and natural ventilation. Panch Bhai Ghat Lane is dominated by mid and high-rise buildings throughout its length. There is a 6 storied mosque and 2 storied government primary school (Rokonpur Primary School) in this lane. With plot coverage ranging from 81%-87% the buildings of this neighborhood are also devoid of adequate sunlight and privacy. # vi. Spatial growth pattern in Luxmi Bazaar The plots of Luxmi Bazaar show a wider range of variation in terms of plot sizes and shapes since the area developed organically. In addition, the plots were subdivided without any planning by-laws and largely guided by Muslim inheritance law. The unguided redevelopment of Luxmi Bazaar with its relatively smaller plot size, has led to crammed housing with highly compromising condition in terms of sunlight, natural ventilation, and privacy. The settlement has already reached the saturation stage with tall buildings forming a densely packed maze-like urban fabric. And if this trend continues unchecked the livability condition will further deteriorate. The means of access for fire rescue operation prescribed in Bangladesh National Building Code (BNBC) should not be less than 4.8m or 14.74 feet. But in many places the width of the narrow lane of Luxmi Bazaar is below standard which makes the settlement more vulnerable in case of fire hazard. The lack of open space and narrow evacuation routes is likely to cause a massive proportion of casualties in case of natural catastrophes like earthquakes. # III. Discussion Overall, the densification process in Dhaka took place in three phases: firstly, by augmenting the low rise (1-2 storied) buildings with additional 1or 2 floors, secondly by infilling the vacant plots and replacing the low-rise buildings with mid-rise (6 stories) buildings and high-rise (above 6 stories) buildings and thirdly by encroaching wetlands for building high-rise residential complexes. The study areas revealed that, around the late 90s redevelopment activity in the existing low-rise buildings used to take place through horizontal expansion and construction of additional floors but in the later phase was done by replacing the low-rise dwellings with high rise buildings or filling up the vacant plots. By 2005 buildings above 7 stories were rampant across the city (STP 2005). In addition, the infiltration of commercial activities in the residential areas intensified the densification process by constructing mixed-use towers. The density gradient was found high along the arterial roads and receding in the inner blocks. Though the inner blocks of New Dhaka have moderate number of high-rise buildings (Chart 1) but if this trend continues unchecked it would deteriorate the spatial quality of both indoor and outdoor environment of the residential areas. # IV. Conclusion and Recommendation Unguided densification may adversely affect the spatial environment which is evident in this study. In the absence of any densification policy, the residential areas of Dhaka were densified with a single building type (high-rise building above six floors with a small footprint) which tends to decrease natural ventilation, solar exposure, visual and acoustic privacy, and obstruction of views. This further increased the need for artificial to be explored. A mix of high, medium, and low-rise buildings with high densities can be achieved through appropriate zoning policies which would decrease the cramped feeling. Plots of higher values may be combined to get the benefit of a higher Floor Area Ratio (FAR). Nonetheless, contextual density zoning for the residential areas of the city needs to be formulated to achieve the desired outcomes of densification. ![; Jenks & Dempsey, 2005; Owen, 2009; Urban Task 2 C.T. Boyko, R. Cooper/ Progress in Planning 76 (2011) 1-61 Force, 1999, 2005; Williams, Burton,](image-2.png "") 2![Fig. 2: Location of study blocks, Dhanmondi](image-3.png "Fig. 2 :") 13![Fig. 1: Location of study blocks, Uttara](image-4.png "Fig. 1 :Fig. 3 :") 54![Figure 5: Land use map of Uttara](image-5.png "Figure 5 :BFig. 4 :") 7![Figure 7: Jagged skyline of Uttara](image-6.png "Figure 7 :") 6![Figure 6: Emerging high rise commercial buildings along the secondary street of Uttara](image-7.png "Figure 6 :") !['s calculation; Field survey January 2016](image-8.png "") 8![Figure 8: Dark alley between buildings](image-9.png "Figure 8 :B") 911202313![Figure 9: Block 1, Uttara Figure 10: Block 2, Uttara](image-10.png "Figure 9 :Figure 11 : 2023 BFigure 13 :") 14![Figure 14: Closely juxtaposed buildings forming uniform skyline.](image-11.png "Figure 14 :") 15![Figure 15: Mandatory open space is covered with roof of the extended porticos.](image-12.png "Figure 15 :B") 16![Figure 16: Land Use Map of Dhanmondi](image-13.png "Figure 16 :B") 17![Figure 17: Dhanmondi](image-14.png "Figure 17 :") !['s calculation, Field survey January 2016](image-15.png "") 18![Figure18: Shadowing of the buildings and the adjacent roads, Dhanmondi Block 3 is located in between the primary (Mirpur Road) and secondary road (Green Road). The block had 12 blocks initially, but later subdivision resulted into a total of 19 plots. Out of the 19 plots, 8 plots have land coverage between 80 to 90 percent housing 4 to 10 storied buildings. The other 3 plots are undergoing the construction of 10-13 storied high-rise buildings complying with MINB 2008 while the older buildings did not adhere to the setback rules of BCR1996 with a land coverage ranging between 80 to 90 percent. Block 4 has one of the highest levels of densification with 80% of its plots occupied with 4-13 storied buildings. In terms of land coverage Block 4 indicates 76.3% with individual plot coverage ranging between 30-85%. Out of 29 plots 13 earlier constructed 4-6 storied buildings have higher plot coverage around 85% and 4 of the newly constructed buildings have plot coverage ranging from 68% to 75%. This indicates a violation of both old and new law. The subsequent subdivision had created three rows of buildings in 30%](image-16.png "Figure 18 :B") 20![Figure 20: Block 1; Dhanmondi Figure 21: Block 2; Dhanmondi](image-17.png "Figure 20 :B") 19![Figure 19: Requisite side setbacks maintained according to FAR between newly built high rise buildings blocks, Block-4, Dhanmondi](image-18.png "Figure 19 :") 24![Figure 24: Land use map of Luxmi Bazaar](image-19.png "Figure 24 :") ![Figure 26: Streetscape of Luxmi Bazaar (Shubose Bose Road) Figure 27: The emerging buildings of Luxmi Bazaar](image-20.png "") 25![Figure 25: Emergent high-rise buildings in Luxmi Bazaar](image-21.png "Figure 25 :") !['s calculation, Field Survey, 2016 ](image-22.png "FAR") 28![Figure 28: Shadowing of the buildings and adjacent alleys, Luxmi BazaarNandolal Dutta Lane was inhabited by the elite class back in 1950s when this narrow lane was flanked with single and double storied colonial style courtyard houses. The lane has varying width where the highest width is 20 feet and lowest is 15 feet. A significant portion of its residents were wealthy Muslim refugees who migrated from India during partition and purchased property here through exchange system. Most of these Muslim residents were well educated and employed in public and private service (interview of a local resident, November 7, 2015). The residential density of the area increased substantially with the 2 nd and 3 rd generation of these inhabitants during the decades of the 1970s and 1980s. With the increase in the number of family members people were retrofitting their single-story dwellings with additional floor or rooms. By the end of 1980s a couple of low-rise dwellings were replaced by 5-6 storied mid-rise buildings. With the advent of the fourth generation during the 1990s the redevelopment activity exacerbated with mid-and high-rise buildings. By the end of 1990s around 80% of the single and double storied houses were diminished. At present only 2% of the single and double storied houses are remaining and high-rise buildings of 8-10 are under construction in some of the plots. Most of the new highrise buildings have plot coverage above 80% whereas the older 4-6 storied buildings have plot coverage ranging from 88% to 89%.](image-23.png "Figure 28 :") 29![Figure 29: Nandolal Dutta Lane Figure 30: Nobodip Bashak Lane Figure 31: Panch Bhai Ghat Lane](image-24.png "Figure 29 :") 32![Figure 32: Narrow 4 feet wide alleys of Nobodip Bashak lane](image-25.png "Figure 32 :FigureB") ![lighting and air conditioning, thus increasing energy consumption. Based on the observations the following recommendations are suggested. A comprehensive densification plan based on the site-specific projected density, site potential, land use mix, connectivity, and socio-cultural context needs to be formulated before any densification operation. Instead of sticking to high-rise buildings other housing types preferably mid-rise with high built-up densities suitable for tropical climates need © 2023 Global Journa ls Volume XXIII Issue IV Version I An Investigation of the Densification Process of the Residential Areas of Dhaka](image-26.png "B") 1No. ofBlock 1Block 2Block 3Block 4Stories2004 2010 2016 2FARBlock 1Block 2Block 3Block 4 3Plot coverage (%)Number of PlotsPercentage50 or less32.6151-6064.2161-703227.871-804740.881-902723.491-100--Total112100.0Source: Field Survey, 2016 4BlockTotal area (sq.ft)Total built up area (sq.ft.)Land coverage per block (%)Average Block coverage1792006048076.3236000273607667.9%31263607792261.64648004806057.8 Source: Field Survey, 2016 5Uttara 6Land UseArea (acre)Area (%)Total residential area (plot)298.361.4Roads89.618.4Water body44.69.2Park and playground44.79.2Mosque4.70.9School (public and provided in the original plan)4.40.9Total Area485.9100Source: Public Works Department, 1958 7No. ofBlock 1Block 2Block 3Block 4Stories20042010201620042010201620042010201620042010201611056---521544248312242264333221132413114---11-1121115---111--144464461911566610117111----11---8-----------19and-46--1-15-24aboveTotal2224246818171719252429Source: Field survey January 2016 and satellite imageryNote: Total No. of Plots in Block 1 =18(initial) and 24(present) 24, Block 2 = 9 (initial) and 18(present), Block 3 = 12(initial) and19(present), and Block 4 =17 (initial) and 29 (present) 8FARBlock 1Block 2Block 3Block 40.1 -0. 9Plot coverage (%)Number of PlotsPercentage50 or less711.451-6046.561-701626.271-801829.581-901422.991-10023.27Total61100Source: Field Survey, 2016 10BlockTotal area (sq.ft)Total built up area (sq.ft.)Land coverage per block (%)Average Block coverage179200051660065.22115200550806372.6%318440015876086.1423040017584076.3Source: Field Survey, 2016 11BlockNet Residential Density (NRD) units /hectareNet Residential Population Density (NRPD) persons /hectare172331210092431647574165763Source: Field Survey, 2016 12No. of Stories2004Lane 1 201020162004Lane 2 201020162004Lane 3 2010201611177141166542776954874377623254544532231345667113-336435-451367222-131118-13---1119 and above--1------Total413840282726242728 13Plot coverage (%)Number of PlotsPercentage50 or less--51-60--61-7044.271-8088.581-907377.691-10099.6Total94100Source: Field Survey, 2016iv. Floor Area Ratio (FAR) 14 15LaneTotal area (sq.ft)Total built up area (sq.ft.)Land coverage per block (%)Average Block coverageNandolal Dutta Lane14029611262989.2Panch Bhai Ghat Lane1019378950087.889.4%Nobodip Bashak Lane900648213891.2Source: Field Survey, 2016 16Luxmi BazaarLaneNet Residential Density units /hectareNet Residential Population Density persons /hectareNandolal Dutta Lane128643Panch Bhai Ghat Lane140701Nobodip Bashak Lane2201104Source: Field Survey, 2016Source: Field Survey, 2016 17Density IssuesUttaraDhanmondiLuxmi BazaarEmerging ConcernsBuildingAbsenceofanyAbsenceofanyThere was no policyInNewDhakadensificationdensificationdensificationguidelinesfordeveloperswereguidelinesguidelineguidelinedensificationviolating guidelineson coverage andBCR 1996, MINBBCR 1996, MINBFAR2008andGovt.2008andGovt.circulars guide thecirculars guide theWeak enforcementsetback, height, FARsetback, height, FARof zoning ordinanceandzoningandzoningresulted in infiltrationmodifications.modifications.ofcommercialactivities all over thesettlement.In Old Dhaka no setbackandlandcoverage rule isfollowed.FARcannot be appliedhere for inadequateroad width.ChangingurbanRapid transformationRapid transformationRapid transformationViolationoffabricstarted from 2009started in 2009.started in 2005.recommendedstandardsbyDensificationhasDensificationhasDensificationhasdevelopersforreached'optimumreached'maturedreached'saturationmaximizing profit.stage'insectorstage'stage'2,4,6,8, 9,7,11 and 13but densification isstill in its infancystage in sectors 5,10, 12, 14Observed FAR 6.0-Observed FAR 4.8 -Observed FAR 5.4-8Floor Area Ratio7.0 and maximum9.1 and maximumand maximum height(FAR)height 14 storiesheight 16 stories.12 stories.Plot CoverageObserved maximumObserved maximumObserved maximumViolationofcoverage in oldercoverage in oldercoverage in olderrecommendedbuildings was 81%buildings was 85%buildings was 100%standardsbyinsteadofinsteadofdevelopersforrecommendedrecommendedmaximizing profit.maximumplotmaximumplotcoverage 70% (BCRcoverage 70% (BCR1996)1996)Observed maximumObserved maximumObserved maximumplot coverage in newplot coverage in newplot coverage in newbuildings was 78%buildings was 82%buildings wasinsteadofinsteadof90% in absence ofrecommended50-recommended50-anyapplicable60% (MINB 2008)60% (MINB 2008)guideline * A Case Study of the Morphological Change of Four Wards of Dhaka City over the Last 60 Years (1947-2007) BAhmed RHasan SAhmad 2008 Dhaka Department of Urban and Regional Planning, Bangladesh University of Engineering and Technology (BUET unpublished Bachelor's Thesis * Transformation of Dhanmondi Residential Area-Causes, Effects and Proposal to Rejuvenate SAfrin IZerin SSharmin KMMorshed Asian Journal of Applied Science and Engineering 1 2 31 2009. 2012 * Bangladesh National Building Code Bnbc 1993 Government of Bangladesh (GoB) * Disentangling the concept of density AChurchman Journal of Planning Literature 13 4 1999 * High-density development: Myth and fact RMHaughey 2005 Urban Land Institute Washington, DC * The Death and Life of Great American Cities JJacobs 1961 Random House New York * The language and meaning of density MJenks NDempsey Future forms and design for sustainable cities MJenks NDempsey Oxford Architectural Press 2005 * Competitive cities and climate change (OECD regional development working paper 2 Kamal-Chaoui L., & Robert, A. 2009 OECD Paris * Mohanagar Imarat Nirman Bidhimala, Building Construction Rules Minb 2008 Government of Bangladesh (GoB) * Urban life and use of Public Space Study of responsive public open spaces for supporting urban life in Dhaka City FNilufar 2013 Asiatic Society of Bangladesh Dhaka Working Paper * Green metropolis: Why living smaller, living closer, and driving less are the keys to sustainability DOwen 2009 Riverhead Books New York * Mass transport for high-rise high-density living WSSmith Journal of Transportation Engineering 110 6 1984 * Residential built environment and walking activity: Empirical evidence of Jane Jacobs' urban vitality HyungunSung SugieLee 41.318-329.10.1016/j.trd.2015.09.009 Transportation Research Part D: Transport and Environment 2015 * Strategic Transport Plan for Dhaka Stp 2005 Government of Bangladesh (GoB) * Towards an urban renaissance 1999 HMSO London * Towards a strong urban renaissance 2005 HMSO London * Achieving sustainable urban form KWilliams EBurton Jenks, M. 2000 E & FN Spon London * Does intensifying cities make them more sustainable KWilliams Achieving sustainable urban form KWilliams EBurton MJenks London E & FN Spon 2000