APPENDIX 1 FACTORS OF REVERBERATION...
Transcript of APPENDIX 1 FACTORS OF REVERBERATION...
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APPENDIX 1
FACTORS OF REVERBERATION TIME
A1.1 ABSORPTION COEFFICIENT
Sound is the mechanical vibration of particles in a medium such as
air, generated by vibrations at a source. When a source is turned on in a room,
sound waves propagate away from the source, encountering the room’s
bounding surfaces and objects in the room. This frequency-dependent
interaction results in the absorption and reflection of the energy of the sound
waves. If the source is turned off, these interactions lead to the decay of the
sound energy in the room. The latter quantity is the sum of the contributions
of the various absorptive surfaces, absorbent objects, and of the air in the
room. In rooms, chairs, people and their clothing are absorbent objects that
contribute to the sound absorption of the room. Table A1.1 (Wikipedia 2010)
gives an idea of how the different common building materials and finishes
absorb sound at different frequencies.
Table A1.1 Absorption coefficient chart
125Hz 250Hz 500Hz 1000Hz 2000Hz 4000Hz
Carpet 0.01 0.02 0.06 0.15 0.25 0.45
Concrete (unpainted, rough
finish)
0.01 0.02 0.04 0.06 0.08 0.1
Concrete (sealed or painted) 0.01 0.01 0.02 0.02 0.02 0.02
Marble or glazed tile 0.01 0.01 0.01 0.01 0.02 0.02
Vinyl tile or linoleum on
concrete
0.02 0.03 0.03 0.03 0.03 0.02
Wood parquet on concrete 0.04 0.04 0.07 0.06 0.06 0.07
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Table A1.1 (Continued)
125Hz 250Hz 500Hz 1000Hz 2000Hz 4000Hz
Wood flooring on joists 0.15 0.11 0.1 0.07 0.06 0.07
Benches (wooden, empty) 0.1 0.09 0.08 0.08 0.08 0.08
Benches (wooden, 2/3
occupied)
0.37 0.4 0.47 0.53 0.56 0.53
Benches (wooden, fully
occupied)
0.5 0.56 0.66 0.76 0.8 0.76
Benches (cushioned seats and
backs, empty)
0.32 0.4 0.42 0.44 0.43 0.48
Benches (cushioned seats and
backs, 2/3 occupied)
0.44 0.56 0.65 0.72 0.72 0.67
Benches (cushioned seats and
backs, fully occupied)
0.5 0.64 0.76 0.86 0.86 0.76
Theater seats (wood, empty) 0.03 0.04 0.05 0.07 0.08 0.08
Theater seats (wood, 2/3
occupied)
0.34 0.21 0.28 0.53 0.56 0.53
Theater seats (wood, fully
occupied)
0.5 0.3 0.4 0.76 0.8 0.76
Seats (fabric-upholstered,
empty)
0.49 0.66 0.8 0.88 0.82 0.7
Seats (fabric-upholstered,
fully occupied)
0.6 0.74 0.88 0.96 0.93 0.85
Brick (natural) 0.03 0.03 0.03 0.04 0.05 0.07
Brick (painted) 0.01 0.01 0.02 0.02 0.02 0.03
Concrete block (coarse) 0.36 0.44 0.31 0.29 0.39 0.25
Concrete block (painted) 0.1 0.05 0.06 0.07 0.09 0.08
Concrete (poured, rough
finish, unpainted)
0.01 0.02 0.04 0.06 0.08 0.1
Doors (solid wood panels) 0.1 0.07 0.05 0.04 0.04 0.04
Glass (1/4" plate, large pane) 0.18 0.06 0.04 0.03 0.02 0.02
Glass (small pane) 0.04 0.04 0.03 0.03 0.02 0.02
Plasterboard (12mm (1/2")
paneling on studs)
0.29 0.1 0.06 0.05 0.04 0.04
Plaster (gypsum or lime, on
masonry)
0.01 0.02 0.02 0.03 0.04 0.05
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Table A1.1 (Continued)
125Hz 250Hz 500Hz 1000Hz 2000Hz 4000Hz
Plaster (gypsum or lime, on
wood lath)
0.14 0.1 0.06 0.05 0.04 0.04
Plywood (3mm(1/8") paneling
over 31.7mm(1-1/4")
airspace)
0.15 0.25 0.12 0.08 0.08 0.08
Plywood (3mm(1/8") paneling
over 57.1mm( 2-1/4")
airspace)
0.28 0.2 0.1 0.1 0.08 0.08
Plywood (5mm(3/16")
paneling over 50mm(2")
airspace)
0.38 0.24 0.17 0.1 0.08 0.05
Plywood (5mm(3/16") panel,
25mm(1") fiberglass in
50mm(2") airspace)
0.42 0.36 0.19 0.1 0.08 0.05
Plywood (6mm(1/4")
paneling, airspace, light
bracing)
0.3 0.25 0.15 0.1 0.1 0.1
Plywood (10mm(3/8")
paneling, airspace, light
bracing)
0.28 0.22 0.17 0.09 0.1 0.11
Plywood (19mm(3/4")
paneling, airspace, light
bracing)
0.2 0.18 0.15 0.12 0.1 0.1
Drapery (10 oz/yd2, 340
g/m2, flat against wall)
0.04 0.05 0.11 0.18 0.3 0.35
Drapery (14 oz/yd2, 476
g/m2, flat against wall)
0.05 0.07 0.13 0.22 0.32 0.35
Drapery (18 oz/yd2, 612
g/m2, flat against wall)
0.05 0.12 0.35 0.48 0.38 0.36
Drapery (14 oz/yd2, 476
g/m2, pleated 50%)
0.07 0.31 0.49 0.75 0.7 0.6
Drapery (18 oz/yd2, 612
g/m2, pleated 50%)
0.14 0.35 0.53 0.75 0.7 0.6
Fiberglass board (25mm(1")
thick)
0.06 0.2 0.65 0.9 0.95 0.98
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Table A1.1 (Continued)
125Hz 250Hz 500Hz 1000Hz 2000Hz 4000Hz
Fiberglass board (50mm(2")
thick)
0.18 0.76 0.99 0.99 0.99 0.99
Fiberglass board (75mm(3")
thick)
0.53 0.99 0.99 0.99 0.99 0.99
Fiberglass board (100mm(4")
thick)
0.99 0.99 0.99 0.99 0.99 0.97
Open brick pattern over
75mm(3") fiberglass
0.4 0.65 0.85 0.75 0.65 0.6
Pageboard over 25mm(1")
fiberglass board
0.08 0.32 0.99 0.76 0.34 0.12
Pageboard over 50mm(2")
fiberglass board
0.26 0.97 0.99 0.66 0.34 0.14
Pageboard over 75mm(3")
fiberglass board
0.49 0.99 0.99 0.69 0.37 0.15
Performated metal (13% open,
over 50mm(2") fiberglass)
0.25 0.64 0.99 0.97 0.88 0.92
Plasterboard (12mm(1/2") in
suspended ceiling grid)
0.15 0.11 0.04 0.04 0.07 0.08
Underlay in perforated metal
panels (25mm(1") batts)
0.51 0.78 0.57 0.77 0.9 0.79
Metal deck (perforated
channels,25mm(1") batts)
0.19 0.69 0.99 0.88 0.52 0.27
Metal deck (perforated
channels, 75mm(3") batts)
0.73 0.99 0.99 0.89 0.52 0.31
Plaster (gypsum or lime, on
masonary)
0.01 0.02 0.02 0.03 0.04 0.05
Plaster (gypsum or lime,
rough finish or timber lath)
0.14 0.1 0.06 0.05 0.04 0.04
Sprayed cellulose fiber
(16mm(5/8") on solid
backing)
0.05 0.16 0.44 0.79 0.9 0.91
Sprayed cellulose fiber
(25mm(1") on solid backing)
0.08 0.29 0.75 0.98 0.93 0.76
Sprayed cellulose fiber
(25mm(1") on timber lath)
0.47 0.9 1.1 1.03 1.05 1.03
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Table A1.1 (Continued)
125Hz 250Hz 500Hz 1000Hz 2000Hz 4000Hz
Sprayed cellulose fiber
(32mm(1-1/4") on solid
backing)
0.1 0.3 0.73 0.92 0.98 0.98
Sprayed cellulose fiber
(75mm(3") on solid backing)
0.7 0.95 1 0.85 0.85 0.9
Wood tongue-and-groove roof
decking
0.24 0.19 0.14 0.08 0.13 0.1
People-adults (per 1/10
person)
0.25 0.35 0.42 0.46 0.5 0.5
People-high school students
(per 1/10 person)
0.22 0.3 0.38 0.42 0.45 0.45
People-elementary students
(per 1/10 person)
0.18 0.23 0.28 0.32 0.35 0.35
Ventilating grilles 0.3 0.4 0.5 0.5 0.5 0.4
Water or ice surface 0.008 0.008 0.013 0.015 0.02 0.025
A1.2 DETAILED DESCRIPTION OF CLASSTALK INPUT
The input data for ClassTalk (Hodgson 2009) can be entered in a
Notepad text file and can be edited easily by entering or deleting any data.
The values of the input data is to be entered one below the other. If any
particular input is not applicable for the particular case then the values are
accordingly entered zero. In Table A1.2 the input data for a sample classroom
in Noisy-site is shown as from line 1 to line 143.
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Table A1.2 ClassTalk Input
line 1: LOCATED IN PUBLIC ROADS
line 2: SCHOOL
line 3: CLASS- I A
line 4: Classroom average length (m) 6.750
line 5: Classroom average width (m) 6.650
line 6: Classroom average height (m) 3.000
line 7: Total carpeted-surface area (sq. m) 0.000
line 8: Total hard-surface area (sq. m) 89.775
line 9: Total window area (sq. m) 7.805
line 10: Total paneled-surface area (sq. m) 0.000
line 11: Total porous-absorber area (sq. m) 0.000
line 12: Total Helmholtz-resonator absorber area (sq. m) 0.000
line 13: Total glued-on acoustic tile area (sq. m) 0.000
line 14: Total suspended acoustic ceiling area (sq. m) 0.000
line 15: Total user defined area (sq. m) 72.600
line 16: Number of occupants 50
line 17: Number of seats 55
line 18: Toggle OFF(=0)/ON(=1) upholstered seating 0
line 19: Toggle OFF(=0)/ON(=1) constant background noise 1
line 20: Toggle OFF(=0)/ON(=1) empirical prediction of human
talker power level
0
line 21: Constant background noise level in decibels 64.000
lines 22-28: Occupant absorption areas, 125-8000 Hz (sq. m) 0.080
line 23 0.100
line 24 0.230
line 25 0.460
line 26 0.410
line 27 0.310
line 28 0.320
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Table A1.2 (Continued)
lines 29-35: Carpeted-surface absorption coefficients, 125-8000
Hz
0.0
line 30 0.0
line 31 0.0
line 32 0.0
line 33 0.0
line 34 0.0
line 35 0.0
line lines 36-42: Hard-surface absorption coefficients,
125-8000 Hz
0.010
line 37 0.010
line 38 0.015
line 39 0.020
line 40 0.020
line 41 0.020
line 42 0.020
lines 43-49: Window absorption coefficients, 125-8000 Hz 1.0
line 44 1.0
line 45 1.0
line 46 1.0
line 47 1.0
line 48 1.0
line 49 1.0
lines 50-56: Paneled-surface absorption coefficients,
125-8000 Hz
0.0
line 51 0.0
line 52 0.0
line 53 0.0
line 54 0.0
line 55 0.0
line 56 0.0
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Table A1.2 (Continued)
lines 57-63: Porous-absorber absorption coefficients, 125-8000
Hz
0.0
line 58 0.0
line 59 0.0
line 60 0.0
line 61 0.0
line 62 0.0
line 63 0.0
lines 64-70: Helmholtz-resonator absorption coefficients,
125-8000 Hz
0.0
line 65 0.0
line 66 0.0
line 67 0.0
line 68 0.0
line 69 0.0
line 70 0.0
Lin71es 71-77: Glued-on acoustic tile absorption coefficients,
125-8000 Hz
0.0
line 72 0.0
line 73 0.0
line 74 0.0
line 75 0.0
line 76 0.0
line 77 0.0
lines 78-84: Suspended acoustic ceiling absorption coefficients,
125-8000 Hz
0.0
line 79 0.0
line 80 0.0
line 81 0.0
line 82 0.0
line 83 0.0
line 84 0.0
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Table A1.2 (Continued)
lines 85-91: User defined absorption coefficients, 125-8000 Hz 0.0
line 86 0.0
line 87 0.0
line 88 0.0
line 89 0.0
line90 0.0
line 91 0.0
lines 92-98: Upholstered-seat absorption coefficients, 125-8000
Hz
0.118
line 93 0.093
line 94 0.088
line 95 0.085
line 96 0.081
line 97 0.86
line 98 0.131
lines 99-105: Non-upholstered-seat absorption coefficients, 125-
8000 Hz
0.013
line100 0.015
line 101 0.020
line 102 0.030
line 103 0.040
line 104 0.05
line 105 0.06
line :106 Male talker "Quiet" power level (dB A) 0.0
line 107: Male talker "Normal" power level (dB A) 0.0
line 108: Male talker "Raised" power level (dB A) 0.0
line 109: Male talker "Loud" power level (dB A) 0.0
line 110: Female talker "Quiet" power level (dB A) 71.2
line 111: Female talker "Normal" power level (dB A) 72.4
line 112: Female talker "Raised" power level (dB A) 73.1
line 113: Female talker "Loud" power level (dB A) 74.0
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Table A1.2 (Continued)
line 114: Overhead projector "Quiet" power level (dB A) 0.0
line 115: Overhead projector "Normal" power level (dB A) 0.0
line 116: Overhead projector "Raised" power level (dB A) 0.0
line 117: Overhead projector "Loud" power level (dB A) 0.0
line 118: Slide projector "Quiet" power level (dB A) 0.0
line 119: Slide projector "Normal" power level (dB A) 0.0
line 120: Slide projector "Raised" power level (dB A) 0.0
line 121: Slide projector "Loud" power level (dB A) 0.0
line 122: Digital projector "Quiet" power level (dB A) 0.0
line 123: Digital projector "Normal" power level (dB A) 0.0
line 124: Digital projector "Raised" power level (dB A) 0.0
line 125: Digital projector "Loud" power level (dB A) 0.0
line 126: Ventilation outlet "Quiet" power level (dB A) 0.0
line 127: Ventilation outlet "Normal" power level (dB A) 0.0
line 128: Ventilation outlet "Raised" power level (dB A) 0.0
line 129: Ventilation outlet "Loud" power level (dB A) 0.0
line 130: Number of sources 1
line131 Blank
line132 Source type (0 = Male talker, 1 = Female talker,) 1
line133 Horizontal direction (if Source type = 0, 1 or 2) 0.0
line134 Vertical direction (if Source type = 0, 1 or 2) 0.0
line135 Source x location (m) 0.5
line136 Source y location (m) 3.325
line137 Source z location (m) 1.5
line 138 Toggle OFF(=0)/ON(=1) student activity noise 1
line 139 Source output level (0 = Quiet, 1 = Normal, 2 = Raised, 3
= Loud)
0
line 140 Select quantity to plot (0 = SI, 1 = STI, 2 = SNA,
3 = SLA, 4 = BGNA)
1
line 141 Contour line width 1
line 142 Contour interval width 2
line 143 Contour base offset value 2
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APPENDIX 1
NINE PRINCIPLES TO GUIDE PUBLIC POLICY OF
I) THE REGION: METROPOLIS, CITY, AND TOWN
II) THE NEIGHBORHOOD, THE DISTRICT, AND
THE CORRIDOR
III) THE BLOCK, THE STREET, AND THE BUILDING.
I) The region: Metropolis, City, and Town
1. Metropolitan regions are finite places with geographic
boundaries derived from topography, watersheds, coastlines,
farmlands, regional parks, and river basins. The metropolis is
made of multiple centers that are cities, towns, and villages,
each with its own identifiable center and edges.
2. The metropolitan region is a fundamental economic unit of the
contemporary world. Governmental cooperation, public
policy, physical planning, and economic strategies must
reflect this new reality.
3. The metropolis has a necessary and fragile relationship with
its agrarian hinterland and natural landscapes. The relationship
is environmental, economic, and cultural. Farmland and nature
are as important to the metropolis as the garden is to the
house.
4. Development patterns should not blur or eradicate the edges of
the metropolis. Infill development within existing urban areas
conserves environmental resources, economic investment, and
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social fabric, while reclaiming marginal and abandoned areas.
Metropolitan regions should develop strategies to encourage
such infill development over peripheral expansion.
5. Wherever appropriate, new development contiguous to urban
boundaries should be organized as neighborhoods and
districts, and be integrated with the existing urban pattern.
Noncontiguous development should be organized as towns
and villages with their own urban edges, and planned for a job
/ housing balance, not as bedroom suburbs.
6. The development and redevelopment of towns and cities
should respect historical patterns, precedents, and boundaries.
7. Cities and towns should bring into proximity a broad spectrum
of public and private uses to support a regional economy that
benefits people of all incomes. Affordable housing should be
distributed throughout the region to match job opportunities
and to avoid concentrations of poverty.
8. The physical organization of the region should be supported
by a framework of transportation alternatives. Transit,
pedestrian, and bicycle systems should maximize access and
mobility throughout the region while reducing dependence
upon the automobile.
9. Revenues and resources can be shared more cooperatively
among the municipalities and centers within regions to avoid
destructive competition for tax base and to promote rational
coordination of transportation, recreation, public services,
housing, and community institutions.
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II) The Neighborhood, the District, and the Corridor
1. The neighborhood, the district, and the corridor are the
essential elements of development and redevelopment in the
metropolis. They form identifiable areas that encourage citizens
to take the responsibility for their maintenance and evolution.
2. Neighborhoods should be compact, pedestrian-friendly, and
mixed-use. Districts generally emphasize a special single use,
and should follow the principles of neighborhood design
whenever possible. Corridors are regional connectors of
neighborhoods and districts; they range from boulevards and
rail lines to rivers and parkways.
3. Many activities of daily living should occur within walking
distance, allowing independence to those who do not drive,
especially the elderly and the young. Interconnected networks
of streets should be designed to encourage walking, reduce the
number and length of automobile trips, and conserve energy.
4. Within neighborhoods, a broad range of housing types and
price levels can bring people of diverse ages, races, and
incomes into daily interaction, strengthening the personal and
civic bonds essential to an authentic community.
5. Transit corridors, when properly planned and coordinated, can
help organize the metropolitan structure and revitalize urban
centers. In contrast, highway corridors should not displace
investment from existing centers.
6. Appropriate building densities and land uses should be within
walking distance of transit stops, permitting public transit to
become a viable alternative to the automobile.
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7. Concentrations of civic, institutional, and commercial activity
should be embedded in neighborhoods and districts, not isolated
in remote, single-use complexes. Schools should be sized and
located to enable children to walk or bicycle to them.
8. The economic health and harmonious evolution of
neighborhoods, districts, and corridors can be improved through
graphic urban design codes, that serve as predictable guides for
change.
9. A range of parks, from tot-lots and village greens to ball fields
and community gardens, should be distributed within
neighborhoods. Conservation areas and open lands should be
used to define and connect different neighborhoods and districts.
III) The Block, the Street, and the Building
1. A primary task of all urban architecture and landscape design
is the physical definition of streets and public spaces as places
of shared use.
2. Individual architectural projects should be seamlessly linked
to their surroundings. This issue transcends style.
3. The revitalization of urban places depends on safety and
security. The design of streets and buildings should reinforce
safe environments, but not at the expense of accessibility and
openness.
4. In the contemporary metropolis, development must adequately
accommodate automobiles. It should do so in ways that
respect the pedestrian and the form of public space.
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5. Streets and squares should be safe, comfortable, and
interesting to the pedestrian. Properly configured, they
encourage walking, and enable neighbours to know each other
and protect their communities.
6. Architecture and landscape design should grow from local
climate, topography, history, and building practice.
7. Civic buildings and public gathering places require important
sites to reinforce community identity and the culture of
democracy. They deserve distinctive form, because their role
is different from that of other buildings and places that
constitute the fabric of the city.
8. All buildings should provide their inhabitants with a clear
sense of location, weather and time. Natural methods of
heating and cooling can be more resource-efficient than
mechanical systems.
9. The preservation and renewal of historic buildings, districts,
and landscapes affirm the continuity and evolution of urban
society.
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APPENDIX 2
COMPARISON OF THE PLANNING TOOL USED, THE CODE PROCESS
ADOPTED AND THE VARIOUS CONTROL REGULATIONS IN DIFFERENT CITIES
Planning Tool Development RegulationsSlNo
City/ TownZoning Transect Hybrid
Code ProcessDR FBC
SMARTCODE
1 Santa Ana, California Neighborhood, District and Corridor
2 Benicia, California Neighborhood
3 Miami, Florida Transect
4 Grass Valley, California Neighborhood Centre –Flex (NC – Flex) & Town centre standards.
5 Leander, Texas Neighborhood Centre
6 Peoria, Illinois Neighborhood centre
7 Sarasota County, Florida District development, street and block standards
8 St. Lucie County, Florida Zoning districts, Lot size and dimensional requirements, permitted landuse, “Core”, “Central” “General” “Edge, “Fringe” and “Rural”Transect Zones. Street Network designs, Regional flow wayregulations approval processes in detail are dealt with.
9 Ventura, California Urban standards, Building types
10 Montgomery, Alabama Traditional Neighborhood Development in Green Field site.
11 Hercules, California Street and building together: public realm standards
12 Chico, California Traditional neighborhood development
13 Petaluma, California Encourage mixed use development
14 Aspen, Colorado Parking and all public amenities
15 Breckenridge, Colorado Rehabilitation of existing buildings and new construction with the townimage for better economy
16 Seaside, Florida New Urbanism concept
17 Core, North Carolina The neighborhood, The mixed use centre, the districts and the corridor
18 City of Raleigh, NC,Arena Small Area Plan
The neighborhood, The centre, the districts and the corridor
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Planning Tool Development RegulationsSlNo
City/ TownZoning Transect Hybrid
Code ProcessDR FBC
SMARTCODE
19 Mooresville,NorthCarolina
Transit Village, Hospital District and Neighborhood
20 Haynie-SirrineNeighbourhod,Greenville,SouthCarolina
New zoning overlay code with standards for the design of buildings,streets, and open spaces, keyed specifically to the master plan.
21 Town centre, Cornelius,North Carolina
Transit Oriented Development
22 Guildford Master Plan New industries and Districts
23 Exeter Master Plan Future should lie in the balanced development.
24 Harlow New TownMaster Plan
Town is designed as a self contained and balanced one.
25 Crawley New TownMaster Plan
Town is designed as a self contained and balanced one with its ownindustries
26 Chandigarh Master Plan The capital well connected to the region & Neighborhood concept
27 Brasilia Master Plan Historical cross road pattern of two major axes interesting at the centredesigned in the Baroque manner of monumental vista and focal points.
28 Dublin City An architecture which is clear, generous, appropriately scaled, positiveto context and well made. Legible, sustainable, build on cities s’strategic assets.
29 Lujiazui, Pudong,Shanghai, People’sRepublic of China
Overall plan contains four special development zones: Finance andtrade zone, Export processing zone, Free trade zone, and High techpark. “Non-judgmental kitsch”
30 Battery park City, NewYork
Planning scheme is translated into voluminous zoning code.
31 Seaside, Florida, USA Emphasis on access to the beach-new urbanism concept of walkablecommunity.
32 Glasgow, UK Design concept of the district is to link all the neighbourhoods and tothe central route. The three dimensional representation of the newdevelopment structure shows an even density of development withpeaks at the neighborhood centers which accommodates mixed use anda marker to give each neighbourhood an identity and a sense ofcentrality
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APPENDIX 3
THE DETAILS OF THE DATA COLLECTED THROUGH THE RECONNAISSANCE SURVEY
ALONG THE MAJOR STREETS OF CHENNAI CITY
Sl
NoRD Name of the Road From To
BLDg
HT_R
( m)
BLDG
HT_L
(m)
TBLDG
NO_R
T BLDG
NO_L
R_WAY
(m)
BL/
FSB (m)
Coverage
%
-DCR
FSI-
DCR
Av
BLDG
HT_R
(m)
Av
BLDG
HT_L
(m)
Seg Rd
Av
BLD HT
(m)
RD SEG
LENGTH
(m)
1 27 Rajeev Gandhi Salai Tairamani By Bass road jn 634.00 584.00 49 47 60.00 6.00 30 2.75 12.94 12.43 12.68 5207.99
2 9 Rajeev Gandhi Salai By Bass road jn Shollinganallur 796.00 568.00 59 46 60.00 6.00 30 2.75 13.49 12.35 12.92 3357.94
3 4 Rajeev Gandhi Salai Shollinganallur Siruseri 120.00 180.00 11 18 60.00 6.00 30 2.75 10.91 10.00 10.45 2298.57
4 24 G.S.T Road Kathipara Thirisulam 160.00 276.00 17 30 45.00 6.00 30 2.75 9.41 9.20 9.31 3175.53
5 1 G.S.T Road Thirisulam pallavaram 136.00 152.00 16 20 45.00 6.00 30 2.75 8.50 7.60 8.05 3630.93
6 0 G.S.T Road pallavaram Tambaram 448.00 264.00 43 32 45.00 6.00 30 2.75 10.42 8.25 9.33 4802.11
7 18 Velachery Road Little mount Vijaya Nagar 644.00 756.00 52 57 45.00 6.00 30 2.75 12.38 13.26 12.82 3545.74
8 6 Velachery Road Vijaya Nagar Pallikaranai 200.00 236.00 15 13 45.00 6.00 30 2.75 13.33 18.15 15.74 3455.70
9 3 Velachery Road Pallikaranai medavakkam 224.00 384.00 20 41 45.00 6.00 30 2.75 11.20 9.37 10.28 1829.46
10 25 Mount road Kathipara Little mount 310.00 532.00 21 30 45.00 6.00 30 2.75 14.76 17.73 16.25 605.69
11 26 Mount road Little mount SIET 440.00 752.00 30 31 45.00 6.00 30 2.75 14.67 24.26 19.46 3842.37
12 41 Mount road SIET Gemini 294.00 492.00 10 15 45.00 6.00 30 2.75 29.40 32.80 31.10 1534.47
13 32 Mount road Gemini Tarapore Towers 473.00 500.00 23 20 45.00 6.00 30 2.75 20.57 25.00 22.78 1803.58
14 42 Mount road Tarapore towers Island grounds 108.00 112.00 8 7 45.00 6.00 30 2.75 13.50 16.00 14.75 2656.67
15 35 Poonamalled High Road GH Junction Dr.Nair road Jun 700.00 288.00 41 22 30.00 4.50 30 2.75 17.07 13.09 15.08 2700.39
16 43 Poonamalled High Road Dr.Nair road Jun Mc Nicholas Rd Jn 676.00 460.00 42 23 30.00 4.50 30 2.75 16.10 20.00 18.05 1717.56
17 34 Poonamalled High Road Mc Nicholas Rd Jun Nelson manickam rd 348.00 472.00 23 33 30.00 4.50 30 2.75 15.13 14.30 14.72 2150.09
18 33 Poonamalled High Road Nelson manickam rd IRR Jun 272.00 336.00 25 27 30.00 4.50 30 2.75 10.88 12.44 11.66 2473.95
19 8 Poonamalled High Road IRR Jun By Bass road jn 312.00 332.00 29 29 30.00 4.50 30 2.75 10.76 11.45 11.10 8618.41
20 23 Mount Poonamallee Road Kathipara Ramapuram 412.00 210.00 30 22 30.00 4.50 30 2.75 13.73 9.55 11.64 3025.09
21 22 Mount Poonamallee Road Ramapuram Porur 264.00 380.00 23 31 30.00 4.50 30 2.75 11.48 12.26 11.87 3107.94
22 7 Mount Poonamallee Road Porur SRMC 128.00 160.00 12 14 30.00 4.50 30 2.75 10.67 11.43 11.05 1144.91
23 2 Mount Poonamallee Road SRMC PH Road Junc 184.00 124.00 17 14 30.00 4.50 30 2.75 10.82 8.86 9.84 2455.70
24 38 East Coast Road Thirvanmaiyur Pallavakam 414.00 379.00 33 30 30.00 4.50 30 2.75 12.55 12.63 12.59 3545.79
270
Sl
NoRD Name of the Road From To
BLDg
HT_R
( m)
BLDG
HT_L
(m)
TBLDG
NO_R
T BLDG
NO_L
R_WAY
(m)
BL/
FSB (m)
Coverage
%
-DCR
FSI-
DCR
Av
BLDG
HT_R
(m)
Av
BLDG
HT_L
(m)
Seg Rd
Av
BLD HT
(m)
RD SEG
LENGTH
(m)
25 5 East Coast Road Pallavakkam V.G.P 258.00 443.00 41 60 30.00 4.50 30 2.75 6.29 7.38 6.84 5798.19
26 11 Cathedral Road Gemini T.T.K rd jn 288.00 272.00 16 19 30.00 4.50 30 2.75 18.00 14.32 16.16 1313.86
27 10 Cathedral Road T.T.K rd jn Rajaji road jun 526.00 716.00 27 36 30.00 4.50 30 2.75 19.48 19.89 19.69 2157.77
28 12 Inner Ring Road Kathipara Ashok Pillar 430.00 370.00 35 30 30.00 4.50 30 2.75 12.29 12.33 12.31 3231.13
29 13 Inner Ring Road Ashok Pillar Arcot Road 476.00 452.00 37 33 30.00 4.50 30 2.75 12.86 13.70 13.28 1866.72
30 16 Inner Ring Road Arcot Road Koyambedu 486.00 464.00 37 30 30.00 4.50 30 2.75 13.14 15.47 14.30 1225.21
31 17 Inner Ring Road Koyambedu Ambattur 122.00 148.00 11 16 30.00 4.50 30 2.75 11.09 9.25 10.17 4450.98
32 15 Inner Ring Road Ambattur Redhills 192.00 396.00 20 29 30.00 4.50 30 2.75 9.60 13.66 11.63 7696.88
33 14 GNT Road Royapuram Redhills 280.00 300.00 24 26 30.00 4.50 30 2.75 11.67 11.54 11.60 9386.75
34 19 Sardar Patel Road Little mount Adayar 594.00 516.00 39 40 30.00 4.50 30 2.75 15.23 12.90 14.07 3746.10
35 20 Arcot Road IRR Jun Porur 908.00 700.00 54 49 30.00 4.50 30 2.75 16.81 14.29 15.55 5950.93
36 21 Kodambakkam Road NHR IRR Jun 756.00 600.00 51 38 30.00 4.50 30 2.75 14.82 15.79 15.31 4185.28
37 28 Durgabai Deshkmuh Road R.K.Mutt Road Adayar 173.00 232.00 17 16 30.00 4.50 30 2.75 10.18 14.50 12.34 1117.11
38 29 kamarajar Salar War Memorial Light House 172.00 556.00 11 29 30.00 4.50 30 2.75 15.64 19.17 17.40 3475.67
39 30 Santthome High Road Light House Mandaveli 130.00 449.00 11 39 30.00 4.50 30 2.75 11.82 11.51 11.67 1136.87
40 40 Santthome High Road Mandaveli R.K.Mutt Road 340.00 628.00 30 51 30.00 4.50 30 2.75 11.33 12.31 11.82 3066.12
41 44 Nungambakkom High Road Gemini VHR Jn 300.00 516.00 16 28 30.00 4.50 30 2.75 18.75 18.43 18.59 1811.03
42 31 Nungambakkom High Road VHR Jn Dr.Nair road Jun 84.00 424.00 8 16 30.00 4.50 30 2.75 10.50 26.50 18.50 1349.52
43 36 Rajaji Salai Royaptteah War Memorial 191.00 331.00 14 28 30.00 4.50 30 2.75 13.64 11.82 12.73 1859.40
44 37 Suriya narayana Road Tollgate Royapuram 200.00 291.00 26 30 30.00 4.50 30 2.75 7.69 9.70 8.70 443.74
45 39 L B Road Adayar Thiruvanmiyur 723.00 398.00 46 33 30.00 4.50 30 2.75 15.72 12.06 13.89 1807.56
46 45 Thrivottiyur High Road Thiruvottiyur Tollgate 246.00 376.00 29 41 30.00 4.50 30 2.75 8.48 9.17 8.83 3219.66
BLDG HT_R ( m) Total Building Height in the Right side of the Street in metersBLDG HT_L (m) Total Building Height in the Left side of the Street in meters
TBLDG NO_R Total number of Buildings in the Right side of the Street
T BLDG NO_L Total number of Buildings in the Left side of the Street
R_WAY (m) Right of Way of the Street in meters
BL/ FSB (m) Building Line/ Front Set Back as per the DR
Coverage % -DCR Building Coverage in percentage as per the DR
FSI-DCR Floor Space Index- as per the DR
Av BLDG HT_R (m) Average Building Height in the Right side of the Street in meters
Av BLDG HT_L (m) Average Building Height in the Left side of the Street in meters
Seg Rd Av BLD HT (m) Average Building Height in the segment of the Street in meters
RD SEG LENGTH (m) Length of the Street Segment in meters
271
APPENDIX 4
THE DIFFERENT IMAGEABILITY PARAMETER ADDRESSED IN EACH CITY WITH THE
METHOD OF FORMULATION OF STANDARDS AND THE GUIDELINE PRINCIPLES
A. City/ Area: Downtown Halifax, Halifax Regional Municipality Guide line Principles are:1. Street Wall Height (M)To ensure a comfortable human-scaled street enclosure, street walls should be no less than 35’ and generally no greater than a heightproportional (1:1) to the width of the street as measured from one building face to the opposite building face. Along heritage streetscapes,the maximum street wall height should be consistent with the prevailing heights of the heritage buildings. Along the Waterfront, frontingbuilding walls are not to exceed 40’ to maintain a low-rise interface. Street wall placements are categorized according to setback standards.All retail frontages should be encouraged to reinforce the ‘main street’ qualities associated with the historic downtown, including:
Narrow shop fronts, high levels of transparency and frequent entries.Protecting pedestrians from the elements with awnings will be encouraged.Patios and other spill-out activity will be permitted and encouraged.A “street wall” is formed when buildings consistently line or front onto a street with consistent setbacks. The following qualitative
design aspects of the street wall should be considered:Design of the Street wallBuilding Orientation and PlacementRetail UsesResidential UsesSloping ConditionsMaterialsEntrancesRoof Line
272
2. Building Height ( M)
The most important part of the design of a building is the first three to four storeys, as that part of the building and the
established street wall affect the pedestrian experience.
3. Special Features
The articulation of a building is often what gives it a human scale and a sense of quality, through attention to detail.
Articulation implies a three-dimensional facade, where windows and other elements have depth, creating a dynamic play
of light and shadows. Typically the articulation will indicate the transition between floors and interior spaces, giving a
human scale to the facade. This articulation can also include changes in materials, or material treatments.
·To encourage continuity in the streetscape and to ensure vertical ‘breaks’ in the façade, buildings should be designed to
reinforce the following key elements through the use of setbacks, extrusions, textures, materials and/or detailing:
Base – Within the first four storeys, a base should be clearly defined and positively contribute to the quality of the
pedestrian environment through animation, transparency, articulation and material quality.
Middle – The body of the building above the base should contribute to the physical and visual quality of the overall
streetscape.
Top - The roof condition should be distinguished from the rest of the building and designed to contribute to the visual
quality of the skyline.
Buildings should contribute to a mix and variety of high quality architecture, while remaining respectful of downtown’s
context and tradition. To provide architectural variety and visual interest, other opportunities to articulate the massing should
be encouraged, including vertical and horizontal recesses or projections, datum lines, and changes in material, texture or
colour. Street facing facades should have the highest design quality; however, all publicly viewed facades at the side and rear
should have a consistent design expression.
273
Typically, street wall heights are determined by using a1:1 ratio with the street width from the base of one building to another.
Heritage buildings in need of repair can often be saved from demolition by integrating them with new developments.
Infill development on Street will help form a continuous street wall, improving the pedestrian experience.
B. City/ Area: High Land Square Business District, Akron, Ohio Guide line Principles are:
1. Street Enclosure
Require the development of all new buildings and infill development up to the street edge/property line to establish a solid
edge to the street along the building line. For retail buildings, the setback rule is straightforward: don’t have one.
Traditional retail, to be successful, must pull directly up to the sidewalk, so that people can see the merchandise in the
window. Parking lots in front are of course forbidden: there is little that is more destructive to pedestrian life.
2. Cross Section of the Street
Buildings should be at least two storeys in height to establish a sense of street enclosure.
The relationship between the height of the buildings and the width of the street is important when maintaining a pedestrian
oriented environment. A two-storeyed building (approximately 27 feet high) will give a height to width ratio of 1:3. A
three- storeyed building) approximately 40 feet high) will give a height to width ratio of 1:2. If buildings are too high
in relation to the width of the street, a canyon like effect can be created; if too low, there is no sense of enclosure.
The height to width ratio should be not less than 1:2.5 if a sense of enclosure is to be achieved
274
3. Promote mixed-use
Development throughout the district and particularly discourage single storey, single use development in the district.
Encourage a variety and intensity of street activity. Promote a continuous retail edge at the property line. Re -establish
street level retail continuity by infilling vacant sites. Develop a continuous retail edge on all new buildings, that connects
to existing retail buildings. Promote a continuous retail use at the pedestrian level with office or residential uses on the
upper floors.
4. Special Features
Street activities should include on-street parking. This brings people into the area at all times of the day and night, and
provides another level of activity and accessibility. Encourage local cafes in the district. Build the front of the café so that
a set of tables can extend the café out onto the street. Promote a sense of urban activity within the retail district that is
“unique”.
Vehicular and Pedestrian Access
Reinforce both vehicular and pedestrian access to the retail district. Off street parking should be convenient for customers
and visitors, but its visual impact should be minimized. Provide clear pedestrian links from the parking area to the street
and retail establishments. Parking should be provided behind the building and accessible from either adjacent street.
Parking on the street edge between buildings and the street drastically reduces a favorable height –to- width proportion on
the street.
Buffer the surrounding residential neighborhood from retail business uses. All service areas and trash containers must be
screened from view through the use of evergreen plant materials, masonry screens or similar solid structures compatible
with the building design.
Street Facades
Major facades and entrances to buildings should face West Market Street. Access to service bays and parking should be
275
from the cross street. The architectural composition of building elevations should express a base, middle, and top
articulation on all street facades.
Storefronts
At least 60% of the total area of the first floor façade facing West Market Street and the public square at Highland Avenue
should be windows display. Walls exposed to side streets must have doors, windows or fixed glazing areas of at least 30%
of the total surface area of the wall facing the street.
Building Signs
Exterior signs should be located within the base of the building with concern for the appropriateness of location, size,
color, and lighting
Parking lot- behind the building
276
C. City/ Area: Loughborough Town centre Guide line Principles are:
1. Principles of Continuity and Enclosure:
Development should be in the form of secure perimeter blocks, which clearly distinguish between public fronts and private
backs, and follow a coherent building line.
Projections and occasional set-backs from the building line can be used to add emphasis, but the function of any space created
must be clearly defined.
The primary access to buildings should be directly from the street.
Developments including large stores and other ‘big box’ units, such as multi-storeyed car parks, can create exposed ‘dead’
frontages (the Bridge Street frontage to the Rushes is a local example). Careful design will be required in any future
developments of this nature to ensure the retention/creation of active and attractive street frontages, which are compatible with
the fine-grain of the Town Centre.
2. Building use:
All new development will be expected to consider the opportunity to encourage a mix of uses that contribute to the economic
and social ‘health’ of the area. Complementary uses can be mixed horizontally (side by side) or vertically (on different floors
of the same building).
Large development proposals should provide a mix of housing type, form and tenure. A compatible mix of uses should include
live/work units.
3. Special Features
A high quality design will be sought using layout, form, scale, massing, detailing and materials in the design of buildings and
external spaces appropriate to the character of the street, place and Town Centre in general. Design inspiration should be
sought from the particular local materials, building forms and features of character within the Town Centre.
New development should respect the historic street patterns, intricate grain, and vertical and horizontal rhythms (e.g. the
building widths, the proportion and scale of windows and doors etc.) of the Town Centre. Opportunities to repair street pattern
and grain where this has been lost, should be exploited.
Create a skyline which adds visual interest and conveys particular activities and concentration of uses.
277
• The main entrances to public and other major buildings should be emphasized through carefully designed streets, lighting,
signage and paving.
Existing important views and vistas should not be blocked or compromised by new development. In new development, the
opportunity to create new views and vistas that will contribute to the legibility of the Town Centre, should be considered.
• Development at strategic corners should emphasis their importance through the use of
building height, prominent entrances and other architectural features
•
Close attention to the detailing and quality of materials should be provided especially at ground floor and building entrances
that are very visible to pedestrians.
278
D. City/ Area: NOTTINGHAM CITY Guide line Principles are:
1. Building Height: 17 m to 26 m
2. Street Enclosure:
This unity of character comes from the consistency of street enclosure ratio in the centre of the city. The enclosure ratio is a
measure of the profile of the street. It relates the height of the buildings to the width of the street (expressed in this guide with
the height of the building first). In a street with a 1:1 enclosure ratio (such as Lister Gate), the height of the buildings is the
same as the width of the street. If the enclosure ratio is 1:2 (for example Mansfield Road), the height of the buildings is half
the width of the street. An enclosure ratio of 1:0.5 (for example Kings Walk), means that the buildings are twice as high as the
width of the street.
The main streets tend to have a 1:1 enclosure ratio, meaning that the predominant building height is the same as the
width of the street. This ratio increases on secondary streets that are narrower. Enclosure for diff roads should ensure
that the maximum heights of buildings do not overwhelm the Character of key streets.
a. Arterial routes 1:2
b. The Ring Road 1:1.5
c. High Streets 1:1
d. Secondary Streets 1:0.75
e. Minor Streets 1:0.75
f. Alleyways 1:0.5
The beauty of the city comes from its streets and public squares, and these would be nothing without the buildings that enclose
these spaces. The way, in which buildings enclose the streets, alleyways, parks and public squares of the city is known as its
urban form.
The most beautiful city in the world is nothing if its streets don’t throng with life and its buildings glow with activity. The
activity in a city is, therefore, at least as important as its design. This relates to the mix of different uses that bring people into
the city centre at different times of the day. It relates to the intensity of activity and the density of office and residential uses,
279
that determine how many people there are about. It also relates to the design of buildings and the extent to which they animate
the surrounding streets as well as the design of those streets, and the way they encourage vitality.
The strategy to maintain and increase activity in the city centre is based on three strands; increasing the density of
development around the fringes of the city centre, promoting a greater mix of uses, and ensuring that buildings spill their
activity out onto the street.
Arterial routes 1:2
Urban form relates to the way that buildings are positioned and designed to enclose public spaces, streets and squares.
E. City/ Area: Islington, London Guide line Principles are:
The height of street frontages should normally be in proportion to the width of the street
1. Street Enclosure:
Height also needs to be considered in terms of its proportion in relation to the size of the space it defines / encloses. The height
of a street frontage should provide sufficient sense of enclosure, natural surveillance and maximize the potential development
opportunity of a site. Most of Islington’s Victorian residential terraced streets have a height- to -width ratio of between 0.5: 1
to 0.7: 1.
280
Streets with a ratio of between 0.5:1 to 1:1 normally provide a well proportioned street frontage which provides a good
sense of enclosure. Anything less than a 0.3:1 height-to-width ratio can result in streets, which suffer from too little
enclosure where the buildings appear divorced from the street.
2. Special Features
Foot way design, Design of Street Furniture, Trees, and Accessibility for all. Nevertheless a
building that stands out can sometimes contribute positively to the urban environment by:
Becoming a focal point
Providing an element of surprise or contrast.
Reinforcing a sense of place
Highlighting the importance of a public building
The scale of a building is also determined by its bulk and width, and the manner in which
the façade is articulated. Historically, most of Islington’s street frontages are characterized
by narrow plot widths, where terraces are sub divided into plots, where the height is greater
than the width of the building.
The vertical proportions are expressed both in the overall dimensions and the individual
elements, especially the fenestration, and the manner in which they are composed within the frontage. The repeated pattern of
narrow street frontages of Islington’s streets creates a rhythm, harmony, and coherence.
Rooflines should normally respond to the articulation of the rest of the façade. It should normally be possible to read the width
of the plot divisions from the bottom to the top of the building. The roofline should reflect the rhythm, harmony and scale of
the longer street frontage. Stepped or sculptured rooflines can appear monolithic, particularly where the shape of the roof does
not pick up the sub division of the façade.
281
Window Shape, Position and Sizes
The windows are a key component of the façade, that help define a building’s character and provide underlying order as well
as its overall proportions. Care needs to be taken to ensure that the windows are of an appropriate scale to the façade, and that
each window in the façade has some relationship with the other. Key to this is identifying the appropriate shape, position and
size of the windows. Some elevations can be unduly monotonous, because of the number of repeated windows. The risk of this
is greatest in large façades, particularly when small windows are used, where they can appear lost within the elevation. Too
many different types of windows, particularly if they appear to have no apparent relationship to one another, can result in an
untidy façade.
Use of Materials
The use of materials needs to be considered both in terms of the relationship with the surrounding built form as well as the
articulation of a façade. Use of different materials can help to articulate and add interest to a façade. Facades can be further
articulated by employing recesses and projections that can animate a façade.
282
APPENDIX 5
SAMPLE DATA SHEET USED FOR DATA COLLECTION FROM THE IDENTIFIED STREETS
FOR DETAILED SURVEY TO EVALUATE AND FORMULATE FBC
Street NameSl No NAME OF THE
BUILDING
SIDE BUID_TYP CON_BUIL TREES STYLE USE MASSING ORIENT BH COLOUR MATERIAL FENEST
RA
PARK
ING
SIGNS
Coding DetailsBuilding Side
North Side/ East side- 1South Side/ West side- 2
Building TypeBuilding Type IB- 1Building Type CBA- 2
Condition of BuildingPucca- 1Semi Pucca- 2
Kutcha- 3
Presence of treesYes-1No- 2
Style of the BuildingBuilding Style (Before 1950) -1Building (1950-1990) -2Building (1990- 2010) -3
Building UseCommercial-1Office-2Community-3Mixed Use -4Institution-5Information Technology-6Residential-7
Building MassingRectanguloid-1Rectanguloid+Fin-2Others-3Rectanguloid+Balcony-4
OrientationSquare-1Perpendicular to the street-2
Parallel to the Street-3Others-4
Building HeightBuilding Height Low (G & G+1) - 1Medium Ht (G+2 to G+3/ Stilt+4) - 2High rise (G+3 up to G+20) – 3Skyscraper (above G+20) - 4
External Building Colour
Light Colour-1Dark colour-2
External Building Material FinishSmooth plastered finish- 1Glass & Aluminium- 2Rough finish- 3Other Smooth finish- 4
Fenestrations in the Facade
Big Window -1Small window -2Provision of ParkingYes -1No -2Provision of Sign BoardsYes -1No -2
283
APPENDIX 6
LIST OF TREES / PLANTS SUITABLE IN CHENNAI ACCORDING TO THE
STREET WIDTH FOR THE AVENUE, MEDIAN AND VEGETATION WHICH
CAN BE INTEGRATED IN TO THE BUILDING FACADES AND BALCONIES
Type of Streets
Type of Trees / Plants
Arterial Road
(40 to 60m wide) -
Anna Salai
Sub Arterial Road
(30 to 40m wide) -
Kamarajar Salai
Local Street
(10 to 20m wide) -
Mada Streets around Kapaleeshwar Temple, Mylapore
Avenue Trees Shade Giving and Vertical form1. Sterculia Foetida2. Enthrina Indica3. Mimusgn Elenji4. Lannea Coromandelica5. Terminalia Arjuna
Large Trees and Monumental1. Samania Saman2. Kigelia Pinnata3. Cochlospermum Religiosum4. Aegle Marmelos5. Thespesia Populnea6. Tabebia Angentia7. Mimusops Elengi
Seasonal and Flowering1. Adenanthera Pavonica2. Aegle Marmelos3. Albizia Amara4. Azadirachta Indica5. Calophyllum Inophyllum6. Cassia Fistula7. Cochlospermum Religiosum
8. Hibiscus Tiliaceus9. Mimusops Elengi10. Phyllanthus Emblica11. Pongamia Pinnata12. Pterocarpus Santalinus13. Syzygium Cumini14. Terminalia Arjuna15. Terminalia Catappa
16. Thespesia Populnea
Trees for the Median 1. Aralia Spp2. Rhoeo Spathaceae3. Ixora Singaporensis4. Tabernaemontana Coronaria5. Nerium Oleander6. Pedibuther Spp7. Phoenix Sylvestris
Vegetation that shall be
promoted in Balconies and
Building Facades
1. Potted Plants2. Areca Palm3. Alternenthera Panoria4. Agloenena Spp5. Dieffenbachia Spp6. Cholorophytum Comosum(Basket Plant)
Source: Nizalkal, NGO, Chennai and courtesy to landscape architect Rukmani, SAP, Anna University.
284
APPENDIX 7
GENERIC DESIGN CODE (GDC) FOR MULTI STORIED BUILDINGS (MSB)
Planning Parameters
Special
Regulations for
MSB for Different Streets
Min Plot
Extent (sq.
m)
Min Plot
Width/
Frontage
(m)
Min Plot
Depth
(m)
Maxi Coverage
In % (Ground Floor Area
in Sq. m))Maxi FSI
Maxi Built Up
Area
(Sq. m)
Max No of
Floors/ Maxi
Bldg
Height (m)*
Front Set
back (m)
Side Set
back (m)
Rear Set
back (m)
1500 30 50
50% ( 750 Sq. m )(When we are leaving the
7m setbacks all around the
maximum possible coverage
is 38.4%, which is
576 Sq. m)
2( This is not
possible for
Min Plot
extent)
3000 Sq. m( This is not
possible for
Min Plot
extent)
4 Floors /
14.4 m( This is not
possible for
Min Plot
extent)
1500 30 50
40% ( 600 Sq. m )(When we are leaving the
7m setbacks all around the
maximum possible coverage
is 38.4%, which is
576 Sq. m)
2. 25( This is not
possible for
Min Plot
extent)
3375 Sq. m( This is not
possible for
Min Plot
extent)
6 Floors /
21.6 m( This is not
possible for
Min Plot
extent)
7 ( For every increase in height of 6 m or
part thereof above 30.5 m, minimum
extent of setback space to be left
additionally shall be one metre).
45 m wide Anna Salai
(40 m to 60 m wide road- Arterial Road)
30 m wide Kamarajar Road
( 30 m to 40 m wide road- Sub-Arterial
Road)
All Streets around Kapaleeshwar Temple-
North, South, East Mada and West street,
(Ramakrishna Mutt Road).
(10 m to 20 m wide road-
Urban Local Street)
1500 30 50 30% (450 Sq. m)
2 .5(Possible for
Min Plot
extent)
3750 Sq. m(Possible for
Min Plot
extent)
8 Floors /
28.8 m
(Possible for
Min Plot
extent)
7 ( For every increase in height of 6 m or
part thereof above 30.5 m, minimum
extent of setback space to be left
additionally shall be one metre).
New Code For Plot Extent More than 1500 >1500 30 50 20% (300 Sq. m) 2 .75(Possible for
Min Plot
extent)
4125 Sq. m(Possible for
Min Plot
extent)
14 Floors/
50.4 m(Possible for
Min Plot
extent)
7 ( For every increase in height of 6 m or
part thereof above 30.5 m, minimum
extent of setback space to be left
additionally shall be one metre)- Not
Possible to leave extra setback for Min
Plot extent.
NOT POSSIBLE FOR MINIMUM PLOT EXTENT OF 1500 Sq. m
POSSIBLE FOR MINIMUM PLOT EXTENT OF 1500 Sq. m
*AVERAGE FLOOR HEIGHT IS TAKEN AS 3.6 M
ENCLOSURE RATIO Arterial Road- 1:1
Sub Arterial Road- 1:1.25 Urban Local Street- 1:1.5 NEW REGULATIONS FOR PLOT EXTENT MORE THAN 1500 Sq. m