Curio-City killed the cat
Curio-City
Selected Works 2017-2020 Ruchika Agrawal
From the
Architect
Contents
Ruchika Agrawal DOB - 7th May 1999 Mail - ruchika.ag09@gmail.com Phone - +91 9015756575 Location - Gurugram, Haryana, India h t t p s : //w w w. b e h a n c e . n e t / ruchikaagrawal1
03
Welcome to Curio-City! On first glance, the imaginary city is like any else - consisting of all of the same elements that would be traditionally found in one. However, with very minute and subtle changes, a feeling of ‘not-right’ or intrigue is introduced in the minds of the viewer. For me, design is about endless possibilities and a discourse of ideas and solutions; bringing about something which seems ‘curious’ at initially until one looks into it at greater depth and gains a higher understanding. I do not have strong ideologies about the field of architecture at this point of my academic career, however, I do carry with me a fair share of curiosity and a certain amount of enthusiasm - to learn more and to do more.
01
About the Architect
04
01
01 The Viridiscent Connect
Vertical Hybrid (Mixed-Use) Gurugram, Haryana
02 Seruatis
Institutional Project Mangar Bani, Haryana
03 Milieu :: Habitat
Group Housing Indore, Madhya Pradesh
04 93 / 72x54
The HOME Competition - Housing of the Future
05 Working Drawings 06 The Vitruvian Triad in the 21st Century Physiological Characteristics of Approach and Entrance in Institutional Buildings Dissertation
07 Beyond Architecture 08 In Search of its Identity
Ongoing Urban Scale Project Gurugram, Haryana
09 Material Study
Contents
02
Curriculum Vitae Education
Internships
Software Skills
Publications
Delhi Public School, Gurgaon 2015// 10th - CGPA 10 2017// 12th - 94.2%
Internship at SNS Group, Delhi 2017// Architectural Intern under Ar. Puneet Sharma
Microsoft Word Microsoft Powerpoint Microsoft Excel
Le Journal de Jeunes - French Newsletter 2015// Editor
Internship at Rethinking Future, Delhi 2020// Editorial Intern
AutoCAD Revit 3DS Max Archicad Adobe Illustrator Adobe InDesign Adobe Photoshop Adobe Premiere Pro Adobe After Effects SketchUp Pro + Vray Rhino + Grasshopper Twinmotion
Inscription - Literary Club IIT Indore 2018// Back Cover 2019// Short Fiction Article
Sushant School of Art Architecture 2017-2022// Bachelors Architecture (Ongoing)
and of
Extra-Curriculars Part of the Indo-French Exchange Programme 2015 Awarded the Gold Medal and Special Prize for Academic Performance Class Representative (2018-present) Internal Quality Assurance Cell 2020// Student Member of the Audit Committee
Languages English Hindi French Japanese (Learning)
03
Curriculum Vitae
the
Courses and Workshops Off-Campus Independent Study 2018// Chennai and Pondicherry 2019// Surat and Mumbai 2020// Singapore Annual NASA Design Convention 2019// Participant at the Cultural Trophy - Fashion Trophy iPAC, SSAA 2019// Workshop Architecture
-
Writing
DigitalFUTURES World 2020 2020// Workshop - Intelligence Z-axis 2020: You and Neighbourhood 2020// Virtual Conference
Your
In Search Of Habitat - Moshe Safdie 2021// Design Lecture
References Himanshu Sanghani Associate Dean at SSAA +91 8447272105// sanghani@ sushantuniversity.edu.in Shikha Doogar Principal Architect at R+D Studio +91 9650199566// shikha@gmail. com
Articles Written at RTF Internship https://www.re-thinkingthefuture. com/author/ruchikaagrawal/ Dissertation - SSAA The Vitruvian Triad in the 21st Century - Physiological Characteristics of the Approach and Entrance of Institutional Buildings Academic Papers Written as part of the Curriculum https: //www.researchgate.net/ prof ile/Ruchika_ Agrawal4/ research The Architecture Essay Competition 2020 - IDHA Labs
Gaurav Sanan Design Principal at Urban Architecture Works +91 9811133044// sanangaurav@ gmail.com
Curriculum Vitae
04
The Viridiscent Connect Semester 6, Year 3 Adaptive Habitats - Architecture of Ecological Performance (Eco-form)
Mixed-Use Project Near Sunset Boulevard, Gurugram, Haryana Mentor: Shikha Doogar In collaboration with Stuti Chandra Located in a prime location, adjacent to the Golf Course Road in Gurgaon, The Viridiscent Connect presents itself as a ‘Vertical Hybrid’ - a building that comprises three diverse functions under a single roof -
25 m
Site Perimeter = 748.19 m Site Area = 27201.51 sq m = 6.7 acres Built-up Area = 35190 sq m Height = 80 m Number of Floors = 25
Retail, Office (Commercial) and Hotel. The project is designed to cater to the needs of the near future as per the analysis of the present through Scenario Planning. The design process follows a program-sensitive approach, focusing primarily on site, program, performance and identity for the building’s form and function.
05
The Viridiscent Connect
The Viridiscent Connect
06
Site Cues - Inferences from Site Analysis (Cues for Placemaking and Form Evolution of the programs in the built)
DINING AND RECREATION
HOTEL
BANQUET ROOMS LOUNGE HALL BUSINESS AND EXECUTIVE
Accessibility and Traffic Analysis
Visual Range of Site (Visual Permeability)
X-FACTOR // EXHIBITION AREA
CO-WORKING OFFICE SPACE
OFFICE
CAFETERIA
CONFERENCE FOOD ROOMS COURTS
Sun and Shadow Analysis
RETAIL Wind Intensity and Temperature
ANCHOR STORES
KIDS’ PLAY AREA
GYM AND HEALTH
SHOPS
Program Distribution and Placement
Program Mapping and Land Use
Building Heights and Open Space Analysis
With the advent of digital connectivity, the need for large single-function buildings are reducing, with concepts like ‘Work from Home’ and Online Shopping decreasing the need to go out. This also decreases the chances of socializing with people. At the same time, with more and more people coming over to live in the cities, the lack of green spaces is a glaring issue, resulting in the loss of connect to nature. As per these cues, the project proposes a high-rise building comprising of three different functions connected under two strategies Trails - Vertical Circulation inside and outside the built, in the form of Ramps and Staircases Greens - Hydroponic panels and columns for Vertical Greens
Sensory Intensity Visual
07
The Viridiscent Connect
Sensory Intensity Noise and Smell
These would be supplemented by cutouts and terraces that would be an extension of the Exhibition Area, as interaction areas and viewpoints.
The Viridiscent Connect
08
Algorithm - Trails and Greens
Ideagram
The following iterations show the way Circulation Pathways (Trails) and Hydroponic Facades (Greens) can interact with a single module, to create a consolidated system for the Final Built. 1-2-3 for Trails and 4-5-6 for Greens
Arrangement of Program blocks with Trails and Greens
09
1+5
1+6
3+5
1+4+5
1+5+6
2+5+6
2+3+5
1+3+4
1+3+5
1+4+5+6
1+2+5+6
1+3+4+5
2+3+5+6
The Viridiscent Connect
1+4+6
2+6
1+2+3+5 The Viridiscent Connect
10
Horizontal Floor Circulation
SHOPS
24
RETAIL BAYS
23
SEATING
RECREATIONAL GUEST FOOSBALL LOUNGE
Retail and Office
SNOOKER
GAMES SWIMMING ARCADE POOL
Service
DISCONNECTED PRIVATE OFFICES BULLPEN B U L L P E N
BULLPEN
LIFTS
BULLPEN
PRIVATE
B U L L P E N
BULLPEN
FLOOR 15
O F F I C E S
KITCHEN
PRIVATE
BUFFET
SERVICE ROOMS
R E S T A U R A N T S
FLOOR 4-5
KIDS’ AREA E S C A L A T O R
E S C A L A T O R
KIOSKS RESTAURANT
RESTAURANT B U I L D I N G
ENTRANCE
C R L O OO A M K R E C E P T I O N
F R O N T S I D E R E C E P T I O N
L O B B Y
CAFETERIA LIFTS FLOOR 1 PRE-FUNCTION SPACE S PO I F LF L
B U F F E T
Pedestrian Movement
LIFTS Hotel
SKY LOBBY S E A T I N G
SEATING SPACE
S H O P S
S P A C E
0
TERRACE PARTY LAWN FLOOR 14
The Viridiscent Connect
21
Rooms + Service Rooms + Storage
20 19 18 17
Sky Lobby + Kitchen + Dining
16
Recreational + Guest Lounge
15
Banquet
14
Eateries and Exhibition Centre
13 12
Service Floor
11
Business Centre + Executive Lounge
10
Service Floor Gym + Health Club
9
Food Court + Eateries
8 7
Conference Rooms
6
Shops + Retail Bay
5 4
Co-Working Offices + Service Rooms
3
Anchor Stores + Restaurants
2
Entrance + Kids’ Area
Entrance + Reception Basement Parking
1 -1
Towards Global Foyer and Vipul Limited
Towards The Aralias and Central Park
25
TERRACE
24 23
FLOOR 16 ATRIUM
SERVICE
L ROOM I F T S R
O O M S
STORAGE
R O O M S
FLOOR 17-25
22
Public Observation Decks (Terraces)
0
Floor Circulation and Site Plan As important as the vertical circulation is to the building, the horizontal circulation allows its functioning to be efficient. These diagrams act as a pre-cursor to final drafted plans.
25
Rooms + Service Rooms + Storage
21 20 19 18 17
Sky Lobby + Kitchen + Dining (Buffet and Restaurants)
Recreational + Guest Lounge
16 15
Banquet
14 13
Eateries and Exhibition Centre
12
Service Floor
11
Business Centre + Executive Lounge
10
Service Floor
9
Gym + Health Club
8
Food Court + Eateries
7
Conference Rooms
6 5
Shops + Retail Bay
4
Co-Working Offices + Service Rooms
3
Anchor Stores + Restaurants Entrance + Kids’ Area
2 Entrance + Reception Basement Parking
Towards Indira Gandhi International Airport
11
22
Trails and Greens would be a part of the outer skin treatment of the built.
Landscape Strategy
BANQUET 1
L I F T S
25
Programmatic Section - Transverse
SEATING E S C A L A T O R
SHOPS
O F F I C E S
25
LIFTS
Programmatic Section - Longitudinal
E S C A L A T O R
Building Sections
Site Circulation
Entrance Lobby + Reception + Cafeteria/Mess
1 -1
Towards One Horizon Centre
The Viridiscent Connect
12
Seruatis Semester 5, Year 3 Adaptive Habitats - Architecture of Ecological Performance
Institutional Project (Education + Research) Mangar Bani, Delhi Haryana Border Mentor: Shikha Doogar The site of Mangar Bani is one of the richest biodiversity zones of Haryana. The water catchment area is also a habitat for various varieties of flora and fauna. Due to mining activities, illegal construction practices and the nearby landfill, this site is in danger and has undergone multiple changes in terms of its physical characteristics over the years. The project on this site proposes an Educational and Research institute that is focused on,
100 m
Site Perimeter = Spread around a radius of 159.52 m Site Area = Close to 20 acres Built-up Area = 5287.5 sq m Height = 16 m Number of Floors = 4 (Located at a Height of 13 m from ground - contoured site)
Conservation of Mangar Bani Regaining the original state of the forest area Not disturbing the local population living in the area Creating awareness about the forest among the city people
13
Seruatis
Seruatis
14
Placement of Program Blocks on Site As per the program requirement of the built, area blocks were made (according to percentage breakup) and put on site to test different arrangements.
Road Medium Visibility
This was done on both a physical and a digital model.
Green Cover Extent of Water Wind Flow Wind Flow
Maximum Visibility
Drainage Lines
Zone of Intervention Cliffs
Work 17.02%
Live 2.83%
Event 32.90%
Community 10.59%
Personal 10.21%
Admin/Support 20.56%
Views from Higher Level have High Visibility
Cluster Arrangement
Wind Flow
Radial Arrangement
Linear Arrangement
Site Attributes Parameters Sun Movement and Wind Movement Landforms and Green Cover Physical and Visual Permeability Ecological Intervention - Existing Site Characterisitics and the addition of the Ecological Park
15
Seruatis
Seruatis
16
Form Evolution On placing the different arrangements of Program Blocks on site, it turned out that the Linear Arrangement allows lighting possibilities and optimum views from every part of the building, including the parts located inside the crevice.
Programmatic Prototyping
Study Room (SR) Semi Private
Academic Library (Acad) Semi Public
Reference Library (Ref) Semi Public
A program does not have to be singular enclosure, or room. It can be reimagined as multiple sub-functions,
Individual Study Space (ILS) - Private
Research Library (Res) Semi Public
SR SR
or it can divided into its components as per the level of the privacy required in the space. Congregating the Blocks into a Building Form
Adding the chosen Program Prototype
Programs that are linked with education and academic practices can cater to more than just students, but also to teachers, researchers, and also any visitor who wishes to learn about something new. These prototyping diagrams depict the way certain programs were reworked as part of the project.
Acad
Ref
Res
Acad
ILS
Ref
Res
ILS
Plan
Plan SR Res
SR Ref
Acad
ILS
Res
Acad
Ref
ILS
Elevation
Elevation
Linear 0.1
Stack 0.1
Res SR
Acad
Ref
Res ILS
SR
ILS
Ref
Acad
Plan
Plan
ILS
ILS Ref
Res
SR
Acad
Acad
SR Ref
Res
Elevation
Elevation
Linear 0.2
Stack 0.2
Classrooms - Private
Plan
Elevation
Between - Labs stacked in middle of Classrooms
Laboratories - Semi Private
Plan
Elevation
Stacked - Labs are above the Classrooms or vice-a versa
Final Massing with Crevices for Lighting
Near - Classrooms and Labs have visual connection
17
Seruatis
Intersect - Paths connecting the Labs and Classrooms meet at a common point
Seruatis
18
Floor Plans Ramp (Ground-Floor 1)
Visitor Entrance
Admin
Foyer Terrace
Ramp (Floor 1-2)
Ramp (Floor 1-2)
Cafeteria 11
12
13
14
15
16
17
18
10 9
20
8
Light Tunnel
2
3
4
5
6
7
19
Retail
1
Pantry
Seating Space
Auditorium
Control Room
Stage Area
Lecture Hall
Backstage Area
Green Room Ramp (GroundFloor 2) Floor Cutout Projection Screen
10 9 11
8
12
7
13
6
14
5
15
4
16
17
23
18
1
19 20
Partition Study Room
Seating
12
14
15
Research Library
20
13
19
11
16
17
18
6
8
10
3
2
1
7
4
9
5
Stacking
20
15
12
14
19 1
13
16
17
18 2
6
5
4
3
8
9
Light Tunnel
7
10
11
Researchers’ Entrance
Research Laboratories
Research Laboratories
Skylight
Staff Offices
Floor 1 Contour Level +13000 N
Floor 2 Contour Level +19000 N
10 9 8 7 6 5
11 12 13 14 15
4
16
3
17
2
18
1
19 20
13
12
Light Tunnel
Auditorium
Double Heighted Conference Room
Indoor Gallery
Conference Room
Light Tunnel
Light Tunnel
Lecture Hall
Lecture Hall Projection Screen
Stacking
Projection Screen
Individual Study Space 10
10
9
9
Academic Library
11
8
11
8
12
7
12
7
13
6
13
6
14
5
14
5
15
4
23
1
Outdoor Gallery
15
4
16
16 17
23
18
1
19
17 18 19
20
20
Reference Library
Stacking
Skylight Seating
Double Heighted
Seating
Physical Model
Reference Library Terrace
Studios
Studios Double Heighted
10 9 8 7 6 5
11 12 13 14 15
4
16
3
17
2
18
1
19 20
Dormitories Skylight
Skylight
Skylight
Floor 3 Contour Level +21000 N
Dormitories Skylight
Floor 4 Contour Level +23000 N
Images of Massing model, taken as part of the process - understanding the placement of built on site.
Floor Cutout
Single Rooms
19
Seruatis
Seruatis
20
Milieu :: Habitat Semester 7, Year 4 Habitat Studio // How much land does a man need?
Group Housing Project Mill Area, Indore, Madhya Pradesh Mentors: Sagar Gupta, Swati Singh, Sobia Ahsan In collaboration with Pratik Abel Thomas Located in a central, prime location in Indore, the project takes cues from aspects of past-presentfuture which the site is benefiting from, or the Spirit of Time. The intervention proposes a higher end living community that would cater to trade and business oriented populace a higher income group that would want a rather peaceful accommodation option near the city but away from its noise (businessmen and industrialists) as well as people who are frequent travellers - aided by the bus and train connectivity of the site (intercity traders and executives).
21
Milieu :: Habitat
10 m
Site Area = 25000 sq m = 6.18 acres FAR = 1.25 + 0.25 (Purchasable) = 1.5 Maximum Ground Coverage = 30% Minimum Setbacks, Front = 12 m Rear = 15 m Sides = 9 m Built-up Area = 37,500 sq m Height = 14 floors of 3 m F-F height Density Achieved: = 301 residents per acre
Milieu :: Habitat
22
Design Narrative Diagrammatic Representation of Context Study and target User Groups
DIGITAL CONNECTIVITY
TECHNOLOGY
MILL AREA
PRESENT
DEVELOPMENT
TEMPORALITY
FUTURE
INDUSTRIAL TECHNOLOGY
LIVE-WORK
PRECINCT
INDUSTRIAL
SMART CITY DEVELOPMENT
ROAD
SITE
PROXIMITY PAST
ACCE SS
₹₹-₹₹₹
STREETS
CULTURE
MARKETS
RAJWADA OLD CITY
COMMUNITY CULTURE
Circulation Businessmen
Industrialists Technology Communication
Exclusive Live
Humans are social animals - they require the company of others! Cultural activites require social interaction - Formation of communities happens through the idea of people coming together and sharing similar values and cultures.
Connect
Networking Digital Connect Innovation
Inter-City Traders
23
Milieu :: Habitat
Home Workspace
Executives
Living in Indore Connectivity to nearby cities to increase trade possibilities Working in Indore Migration to Indore from smaller cities for better livelihoods
Live - Work
Professionals
Circulation paths are not private and allow movement of more than one individual - inculcating social interaction between these people. Social interaction between people can have at any place where they are able to meet one another - especially spaces that allow free movement, spaces that belong to everyone.
Early 20s-30s Bachelors
Trade in Indore
Connectivity to Main City (Smart City Area or Rajwada) For Work Purposes - Less Travel
Milieu :: Habitat
24
Site Plan - Design and Circulation
Tower Design - Voids
Site and Towers have been designed in the form of a grid, as shown
All types of Units have been designed and arranged in an alternate way Unit Type 3 Iteration to create Double Heighted Voids
Individual Towers
Unit Design and Stacking
Tower 7 Internal Corridors
Tower 4
Tower 5 Tower Entrance Tower 8
Open Plazas Tower 6
Site Level Circulation - Pathways
Unit Type 1
Unit Type 2
Unit Type 3
Unit Type 4 Greens
Sports Courts
Unit Type 4
Green Plazas
Site Entrance
Formation of Voids Greens
Access Road Community Deck
Unit Type 5 Ramps to Basement
Riverfront Service Road
Unit Type 6+7 Greens
25
Milieu :: Habitat
SCALE
0 5 10
20
50m
N
Milieu :: Habitat
26
Final Built
Tower 4 Tower 7
Tower 8
Tower 1
Site Entrance
Tower 5 Tower 6 Tower 3
Tower 2 Access Road Service Road
27
Milieu :: Habitat
Pedestrian Streets
Basement Cutouts
Site Boundary
Formation of Voids
Sky Bridges
Riverfront
Milieu :: Habitat
28
93 / 72x54 The HOME Competition ‘What do you believe will be the future of home?’
Housing of the Future In collaboration with Akanksha Bajaj, Kripa Gulati and Venika Sikka As an alternative to these, the project focuses on using the concept of co-housing to create a balance between the isolation and privacy of individuals in urban cities A ‘home’ is not perceived or designed as a singular module, but rather as a collection of private and public, inside and outside spaces, where a cluster of intermingling units corresponding to different functions is repeated to create a unified building.
No defined Site Intervention in Urban Cities
Building Dimensions = 72 x 54 m Height = 81 m Number of Floors = 27 Number of Units = 9 in one cluster, spread across three floors
The tower attempts to use circulation spaces not just as a functional element, but also as a medium of interaction using an intertwining system of exterior and interior ramps and corridors. This allows the interconnections to be more dynamic, inculcating a strong social culture within the tower.
29
93 / 72x54
93 / 72x54
30
Building - Views
Isometric View of the Cluster A cluster is formed by three floors of functional units and internal ramps that can be used to move around within the cluster
Movement Corridors
Green Spaces
External Ramps Building located in an unknown city - the circulation system is also supported by two building cores, consisting of lifts and staircases, which unlike the ramps are located in the interior of the complex.
Internal Ramps
Cluster divided into Housing and Public Units
Circulation Core
Shared Public Spaces Interior Views from the Building to the outside
31
93 / 72x54
93 / 72x54
32
NOTES
Working Drawings
ALL DIMENSIONS ARE IN MM. ALL DIMENSIONS ARE TO BE CLARIFIED BEFORE COMMENCEMENT OF THE WORK. ROAD LEVEL = +0 SITE LEVEL = +450
C
D
G
J
H
L
K
C
D
G E
H
J
L
K
F
A B 1
C1
2
C
C1
3 C3
E
A
F
D'
E'
C2
4
C3
C1
5 6
C5
C4 7
F'
8
C7
C7
9 C6
C8
G'
10 C10
2505
B
660
5175
3680
2780
7920
9315
7960
10900
C12
109
3920
00
B1
13
DETAILS
°
COLUMN SCHEDULE (1:1) B3
12
C3
13
7105
+900 +850
0
C2
B1
B2
C2
C3
B2
C1
5
B2
B2 B1
L1
C7 3665
C10
B1
B1
L2
B1 = PRIMARY BEAM B2 = SECONDARY BEAM B3 = TERTIARY BEAM (SIZES AS PROVIDED BY STRUCTURAL ENGINEER)
F'
C7
B1
B2
S2
ST1
+900 +850
B2
50
C7
C6
CUTOUT SCHEDULE
B1
B2
81
B2
C8
G'
B2 B2
B1
B1 B3
B3
10
S7
C10
B2
5240 3220
11
+900 +850
B2
B2
C9
B1
C7
C11
+900 +850
B2
8015
B1
S5
2605 2500
15
Semester 5-6, Year 3 Building Construction Mentors: Prashansa, Dheeraj Jha, Madhur Prakash Preetha Ravisree Sajin, Monisha Sharma Working Drawings
STAIRCASE
5600 X 3400
ST2
STAIRCASE
6000 X 4800
L1 - L2
LIFT
1500 X 1500
S1
PLUMBING SHAFT
2000 X 3500
S2
ELECTRICAL SHAFT
2500 X 1000
S3 - S4
AIR HANDLING UNITS
3000 X 1000
S5 - S6
HVAC SHAFTS
600 X 600
S7
LOW VOLTAGE SHAFT
600 X 600
SIZE
12
1°
B1
+900 +850
B3
B2
C7
C7
B1
B1
B3
B3
B1
C7
B1
B3
C7
REVISIONS
B3
B1
PROJECT NAME : SERUATIS B2
14
CUTOUT
ST1
B1
B1
C12
13
NAME
B1
12
33
C11
C5
B3
B2
5460
C12
25
C4
C9 C8
B1
+900 +850
C6
C5
C7
25
12
2330
B3
°
2100 1670
72
23
2265
C4
B1
B1
E'
B1
B3
C3
C1
D'
B2
9
C7
KEY PLAN COLUMN GRID
B1
B3
8
C7 C7
C'
C1
B2
7
C7
C7
15
B1
5
C7
C7
14
3
6
C7
13
B3
4
C11
S3
2
C7
12
5
C1
1
10590
C9
11
B2
S6
B2
B1
B3
C7 B1
C7
TITLE :
+900 +850
ST2
B3
FRAMING PLAN (GROUND FLOOR)
B1
B3
B1
C7 B1
S4
C7 RUCHIKA AGRAWAL 3-A 170BARCHI154 BUILDING CONSTRUCTION WORKING DRAWINGS SSAA
SCALE :
DWG NO. :
1:100
3
UNITS : mm DATE :
SIGN :
Working Drawings
34
NOTES ALL DIMENSIONS ARE IN MM.
EL4
ALL DIMENSIONS ARE TO BE CLARIFIED BEFORE COMMENCEMENT OF THE WORK. ROAD LEVEL = +0 SITE LEVEL = +450
C
D
G
J
H
L
K
C
D
G E
H
J
L
K
F
A B 1
C1
2
C
C1
3 C3
E
F
E'
C2
4
C3
C1
5 6
SC1
A
D'
C5
C4 7
F'
8
C7
C7
9 C6
C8
G'
10 C10
2505
B
660
7920
9315
7960
10900
C7 C11
12 C12
C7
C7
C7
C7
C7 C7
15
109
00
OPEN TO SKY
KEY PLAN COLUMN GRID
C'
C1 13
3920
C7
C7
14
DETAILS
°
COLUMN SCHEDULE (1:1)
12
C3
SC3
3 13
C2
0
7105
60
C12 C10
C11
87
1500 -3
300
-1
300
-2
300
300
300
DN TO BASEMENT
+900 +850
6
5
4
3
2
1
300
300
300
300
300
300
300
300
300
ST1 W = 1500 T = 300 R = 150
UP TO FF LEVEL
9
7
300
8
300
15
0
2500
WHITEWASH PAINT
PAINT
1960
12 MM VITRIFIED TILES
PAINT
WHITEWASH PAINT
85
29
S8 10 0
10
860
755
WC
0 0
00
W2
1925
2290
45
0
95
0
90
95
0
0
10
0 SIN 90 BA 00 36 WASH
M
0
45
0 10 65
OO
HR
AS
'S W
DETAIL TOILET
V1
0 50
0
75
15
36
15
00 16
2100
0
16 00
0
10
0
00
11
22 10
15
12
11
STUDIOS
12 MM VITRIFIED TILES
PAINT
WHITEWASH PAINT
W2
2000
2360
C7
12 MM OPEN AMPHITHEATRE VITRIFIED TILES
10
LS
INA
0
SC4
C7
10
35 12
0
47
3115
C12
10
WC
MEN
UR
C7
1540
1485
865 W2
600
W2
2100
1800
2100
1300
2500
W2
3000
1300
2500
SC4
-3
-5
C7
TITLE :
-6
-7
ST2
CHWR S6
-8 -9
-10
W = 1500 T = 300 R = 150
-11 -12
MASONRY PLAN (GROUND FLOOR)
-13
-14 -15 -16
300
300
300
300
-17
-18
300
-19
300
-20
9
300
8
UP TO FF LEVEL
300
4
300
7
2630
5
C7
2360
6
W2
3
1
3340
PROJECT NAME : SERUATIS
-2
-4
2
SC3
WHITEWASH PAINT
2380
C7
CERAMIC TILES
+900 +850 600
1870 600
SC1
CHWS 600 S5
12 MM VITRIFIED TILES
-
500 1200
REVISIONS
DN TO BASEMENT
WASHROOM
750
V1 W1
WHITEWASH PAINT
PAINT
-1
SC
LINTEL
W2
2000
0
WC
00
WC
47
8015
2500
-
WC 10
16
0
1065
W2
00
0
79
OO
HR
AS
'S W
95
0
95
M
0
0
10
0
10
16
0
30
60
0
0
95
10
65 0 10
10
0
WA
70
12
10
65 0 10 10 0
10 11
0 D3
0
45
0 SIN 90 00 SH BA 36 0
90 45
2605
SILL -
900
0
65 0 10
10
0
D3
D2
2500
WIDTH 1200
D2
42
80
D3
D2
90
1500
C7
OPEN TO SKY S4
15
OPENING D1
D3
12
1°
D3
16
41
0
55
60
12
xx
No. xx
S1
00
5
3220
D3
D2
W1
14
600 X 600
V1
70
63
25
62
C11
10
D3
WOM
W1
13
600 X 600
LOW VOLTAGE SHAFT
D3
10
D3
10
0
10
90
22
675
EN
2
HVAC SHAFTS
S7
00 20
600
3000 X 1000
S5 - S6
0
C7
2500 X 1000
AIR HANDLING UNITS
45
1890
0 10 65 10
0
10
35 15
W2
0
D1 600
60
0
26
W2
0
30
D1
0
1200
10
0
95
00 16
60
C9
0
0 10 65
95
WC
W1
2000 X 3500
ELECTRICAL SHAFT
S3 - S4
0
00
W1
PLUMBING SHAFT
S2
00 0
95
16
1000
6000 X 4800 1500 X 1500
16
0
WC
16
W2
0
1000
10
755
STAIRCASE LIFT
WC
0
10
0
60
2450
W1
5600 X 3400
ST2 L1 - L2
OPENINGS SCHEDULE
C10
0
60
60
63
SIZE
0
LV 90
+900 +850
STAIRCASE
60
24
20
0
53
60
+900 +850
INDIVIDUAL STUDY SPACE
EL3
G'
960
85
0
60
30
27
2
SC
C8 D1
CUTOUT
ST1
S1
D3
D1
31
12 MM VITRIFIED TILES
REFERENCE LIBRARY
ELECTRICAL PANEL ROOM
NAME
4020
470
3545
-16
-14
300
S2
1500
-9
-5
-7
-8
300
-4
-6
-11
-12
-10
-13
300
STAIRWELL -17
600
75
300
LIFT LOBBY
10700
15
60
5240
300
F'
C7
50
0
60
C7
5
W1
11
300
L2
4300
1500
1 83
W1
W1
10
D1
8
D1
300
1500
L1
+2850 +2800
3600
5 37
W1
300
1500
81
+900 +850
85
40
36
10
25
W1
300
105
D1
-15
WHITEWASH PAINT
5970
90 26
PAINT
60
600
3665
10
12 MM VITRIFIED TILES
0
W1
CONFERENCE ROOM
486
10
0
0
D1
60
7045
95 11
0
C6
EL2
CUTOUT SCHEDULE
C7
60
306
90
No. xx
5
W1
0
38
9
xx
DETAIL ST1
10020
55
1000
C5
85
39
48
3545
5
2495
11
97
D1
1500
11
27
25
65
2100 1570
0
5
2330
30
25
C4
10
W1
5460
C9 C8
53
D1
+900 +850
D1
25
C3
29
2265
WHITEWASH PAINT
431
7
12 MM VITRIFIED TILES
WOODEN PANELS
C6
C5
C7
12
6
AUDITORIUM
C4
72
11
40
E'
° 23
C1
5
C3
C1
D'
C2
4
8
2830
3675
13
S3
2
5175
5
C1
1
10590
C9
11
C7 RUCHIKA AGRAWAL 3-A 170BARCHI154 BUILDING CONSTRUCTION WORKING DRAWINGS SSAA
SCALE :
DWG NO. :
1:100
8
UNITS : EL1
mm DATE :
35
Working Drawings
SIGN :
Working Drawings
36
NOTES
E
D
F 3675
3665
E
D
ALL DIMENSIONS ARE TO BE CLARIFIED BEFORE COMMENCEMENT OF THE WORK.
3675
5175
2100
ALL DIMENSIONS ARE IN MM.
F
SC1
5175
7
8
9
1500
1500
L1
L2
1500
1500
2100
7
LIFT MACHINE ROOM LEVEL +17300
C7
ROAD LEVEL = +0 SITE LEVEL = +450 BASEMENT LEVEL = -3600 GF LEVEL = +900
MUMTY LEVEL +15300
8
C
D
G E
H
J
L
K
F
300
300
300
300
300
300
300
300
C3 D'
300
300
300
300
300
300
300
300
47 SC1
3545
2495
L2
1500
L1
43
44
45
46
300
300
300
55
54
53
52
51
50
49
48
47
300
300
300
300
300
300
300
300
300
300
300
7
300
300
300
EXT ROAD LEVEL + 0
300
300
300
300
300
300
300
300
24
25
26
27
28
29
30
31 300
300
ST1 W = 1500 T = 300 R = 150
UP TO SF LEVEL
300
32
11 300
10
12
13
3545
300
01
No. xx
7
DETAIL
02
No. xx
RAFT FOUNDATION -5300
LIFT WELL -6200
1500
L1
L2
1500
1500
2100
SECTION SC1 1500
STAIRCASE
SIZE 5600 X 3400
ST2
STAIRCASE
6000 X 4800
L1 - L2
LIFT
1500 X 1500
PLUMBING SHAFT
2000 X 3500
S2
ELECTRICAL SHAFT
2500 X 1000
S3 - S4
AIR HANDLING UNITS
3000 X 1000
S5 - S6
HVAC SHAFTS
600 X 600
S7
FIRE HOSE CABINET
1000 X 600
S8
LOW VOLTAGE SHAFT
600 X 600
OPENINGS SCHEDULE
SC1
FIRST FLOOR LEVEL
CUTOUT
ST1
BASEMENT LEVEL -3600
ELECTRICAL PANEL ROOM
D3
C11
NAME
S1 MIDLANDING LEVEL -1200
SC2
D1
SC1
C7
2495
470
3665
STAIRWELL 4300
1500
9
DETAIL
S2
+4500 +4450
C10
CUTOUT SCHEDULE
L2
1000
23
22
21
20 300
C9
C12
ELECTRICAL PANEL ROOM
300
19
18
17 300
C6
C5
C7
LINTEL LEVEL +3000 MIDLANDING LEVEL +2850
SITE LEVEL +450
3545
300
DN TO GF LEVEL
300
16
15
14 300
C4
C8
C7
+6450 +6400
C3
MIDLANDING LEVEL +6450
GF LEVEL +900
LIFT LOBBY
COLUMN SCHEDULE (1:1) C2
1500
1500
L1
1500
2100
1500
C7
KEY PLAN COLUMN GRID
FF LEVEL +4500
SC1
SECOND FLOOR LEVEL
C7
C1
SC2
ELECTRICAL PANEL ROOM
D3
D1
SC1
C7
2495
ST1 W = 1500 T = 300 R = 150
UP TO TERRACE
34
300
33
35
36
3545
1500
S2
+8100 +8050
STAIRWELL
C7
C7
DETAILS
ELECTRICAL PANEL ROOM
42
300
C7
C7
C7
MIDLANDING LEVEL +10050
ELECTRICAL PANEL ROOM
41
300
LIFT SHAFT
40
300
LIFT LOBBY
C7
13
15
SF LEVEL +8100
1000
39
300
C11
14
3545
38
300
G'
C7
C12
TERRACE LEVEL +11850
SC1
1500
DN TO FF LEVEL
37
300
470
3665
300
C8
C10
ELECTRICAL PANEL ROOM
D3
1500
4300
SC2
F' C7
C7
C9
12
SC2
C7
8
C5
C4
C6
D1
1500
2100
7
9
C3
C1
5 6
9
300
TERRACE LEVEL
SC2
C2
4
10
ELECTRICAL PANEL ROOM
300
C7
+10050 +10000
E'
7
48
49
50
51
52
53
54
55
57
56
58
59
3545
300
300
8
C
C1
3
11
UP 1500
9
C1
2
8
470
3665
+11700 +11650
ST1 W = 1500 T = 300 R = 150
STAIRWELL 4300
SC2
B 1
S2
1000
69
67
68
66
65
64
63
62 300
+10050 +10000
DN TO SF LEVEL
300
61
60
A
LIFT LOBBY
SECTION SC2
OPENING
WIDTH
SILL
D1
1200
-
2500
D2
900
-
2100
6
D3
750
-
2100
11
LINTEL
NO. 4
V1
500
1800
2100
0
W1
1200
1300
2500
9
W2
3000
1300
2500
9
300
300
300
300
300
300
300
9
300
300
300
300
300
300
300
300
300
1
2
3
4
5
6
7
8
9
-16 300
300
2495
ST1 W = 1500 T = 300 R = 150
UP TO FF LEVEL
300
-17
-15
-14
3545
4300
1500
SS HANDRAIL (50)
STAIRWELL
470
3665
+2850 +2800
SC2
1000
-1
-3 300
-2
-4
-5
-6
-7
-8 300
S2
+900 +850
SS HANDRAIL (50) ELECTRICAL PANEL ROOM
D3
TITLE :
5 MM THICK GLASS PANEL
BALUSTER (20 MM WIDTH SS)
D1
SC1
C7
STAIRCASE DETAILS
NOSING (STONE TILE) KOTA STONE (20) PROTECTION LAYER (10)
SS BRACKET
PCC MORTAR (20)
SC1
7
SKIRTING (100) 1500
L1
L2
1500
1500
2100
5 MM THICK GLASS PANEL 1500
8 300
300
300
300
300
300
300
300
300
470
300
300
300
300
300
300
300
C7
BASEMENT LEVEL
Working Drawings
300
300
300
300
-29
-28
-26 300
-27
-25
-24
-23 300
300
UP TO GF LEVEL
300
SC1
1500
-22
-20
3545
4300
-21
3665
STAIRWELL
SC2
ST1 W = 1500 T = 300 R = 150
D1
RUCHIKA AGRAWAL 3-A 170BARCHI154 BUILDING CONSTRUCTION WORKING DRAWINGS SSAA
1000
S2
-3600 -3550
300
15 MM THICK SS DIVIDER NOSING (STONE TILE)
3545
300
2495
300
KOTA STONE (20)
SAND BED (600)
LIFT LOBBY
300
-1200 -1150
PCC MORTAR (20)
5 MM THICK GLASS PANEL
C7
37
15 MM THICK SS DIVIDER
SC2
BALUSTER (20 MM WIDTH SS)
GROUND FLOOR LEVEL
9
PROJECT NAME : SERUATIS
3545
300
-9
-11 300
REVISIONS
LIFT LOBBY
DN TO BASEMENT
300
-10
-13 300
-12
C7
8
D3
RAFT FOUNDATION SLAB
KOTA STONE (20)
SC2
ELECTRICAL PANEL ROOM
PCC SLAB (100)
PCC MORTAR (20)
WATERPROOFING LAYER (5)
DWG NO. : 16
UNITS : mm
STEP DETAIL 1 BALUSTRADE DETAIL 1:10
PROTECTION LAYER (25)
SCALE : 1:50
DETAIL 2 BASEMENT FLOOR AND STEP DETAIL 1:5
DATE :
SIGN :
Working Drawings
38
NOTES ALL DIMENSIONS ARE IN MM.
G'
10
G'
10
C10
G'
ROAD LEVEL = +0 SITE LEVEL = +450 BASEMENT LEVEL = -3600 GF LEVEL = +900
10
C10
0 10
4
C10 4
4
SC
ALL DIMENSIONS ARE TO BE CLARIFIED BEFORE COMMENCEMENT OF THE WORK.
SC
SC
C
0
3 SC
0
C3
C1
5
1 SC
6
C5
C4 7
F'
8
C7
C7
9 C6
0
C8
G'
10
A
C10
C9
11
FLOOR TRAP
C7 C11
12 C12
D3
C7
C7
C7
C7
C7
A C7
C7
14
65
10
C7
15
55
11
50 0
00
10
W
05
12
55
11
11
FT
S1 SHA ING
MB
PLU
65
11
00
5
SC
0 75
WC
47
5
0
75 0
00
10
0
55
11
5
47
OM
RO
SH
WA
N'S
ME
0 75
0
35
N'S
ME
0 75
10
LEDGE WALL
C3
C2
WC
C12
75
47
65
11
OM
RO
SH
WA
C1
C12
WC WC
C4
C6
C5
A
10
1
00
COLUMN SCHEDULE (1:1) WC
12
5 83
0
10
55
11
0 75
00
0 10
C12
05
12
5
12
2000
10
12
47
0 11
DETAILS
6
SC
D2
5
00
00
WC 0
LS INA
22 10
12
D2
11
C9
C7
00
UR
OM
RO
SH
WA
WC
A
79
00
N'S
ME
WC
16
W
0
90 0
45
0
95
0 95 16
0 SIN 90 BA 00 36 ASH
0
95
1
65 0 10
10
0
10 0
10
16
0
D3
0
45
0
90
SC
16
0 30
60
12
10
65 10 00 1 00
10
0
D3
SC
D2
4
SC
6
55
11
55
11
11
D2
4
SC
70
12
FLOOR TILE 300 x 300 5
SC
0
73
55
65 0 10
10
SC
6
0
42
80
D3
KEY PLAN COLUMN GRID
FT
S1 SHA ING
MB
PLU
5
11
D3
16
0
55
OM
RO
SH
WA
A
15
41
D2
4
SC
N'S
ME
WO
A
25
36
00
15
10
V1
0 50
0
PLU
OM
RO
SH
WA
0 75
75
W
N'S
E OM
A
35
11
S1 SHA ING MB
5 73
00
70
63
A
D3
FT
D2
2 SC
75
55
11
20
OM
RO
SH
WA
15
N'S
E OM
C2
4
H
A
WC
5
47
0
00
0
45
WC
WC
E'
13
0
10
H
47
D'
5 0
45
16
0
90
1
0
10
0 SIN 90 BA 00 36 WASH
L
K
C
C1
A
47
85
D3
00
J
C1
2
C3
5
0
00
0
90
11
1
0
95
75
16 00
1 SC
00
0 10
0 60
0 30
4
0 10 65 10
9
V1
D3
10
1
3
2 SC
16
1 SC
50
H
0
10
0 10 65
0
10
H
F
B
WC
5
47
00 0
95
0
95 50
G E
75
75
16
0
2 SC
10
WC
WC
WC
D
A
3 SC
0
10
3 SC
WC
SC 3
3 SC
0 60
3
SC
15
C8
0
47
2 SC
5
SC
2 SC
5
SC
2 SC
5
SC
1
6
6
SC
SC
LAYOUT PLAN
FLOOR FINISH
FILLING (250)
RCC SUNKEN SLAB (150) MEN'S WASHROOM
BRICK WALL
MEN'S WASHROOM
TILE LAYOUT PLAN
BRICK WALL
PLUMBING SHAFT WOMEN'S WASHROOM
PARTITION WALL D2
PARTITION WALL D2
2500
2500
D2
FILLING (250)
BRICK WALL
PLUMBING SHAFT
2500
WOMEN'S WASHROOM
RCC SUNKEN SLAB (150) FALSE CEILING (300)
MEN'S WASHROOM
WOMEN'S WASHROOM
NAME
CUTOUT
ST1
STAIRCASE
SIZE 5600 X 3400
ST2
STAIRCASE
6000 X 4800
L1 - L2
LIFT
1500 X 1500
S1
FLOOR FINISH
FILLING (250)
FALSE CEILING (300)
C11
CUTOUT SCHEDULE
2500
FLOOR FINISH
FALSE CEILING (300) PLUMBING SHAFT
C10
REFLECTED CEILING PLAN
RCC SUNKEN SLAB (150)
C12
SC
1 SC
1
SC
6
SC
PLUMBING SHAFT
2000 X 3500
S2
ELECTRICAL SHAFT
2500 X 1000
S3 - S4
AIR HANDLING UNITS
3000 X 1000
S5 - S6
HVAC SHAFTS
600 X 600
S7
FIRE HOSE CABINET
1000 X 600
S8
LOW VOLTAGE SHAFT
600 X 600
LEDGE WALL
URINAL WASH BASIN COUNTER 450
PARTITION FLOOR FINISH RCC SUNKEN SLAB (150)
FLOOR FINISH
FILLING (250)
RCC SUNKEN SLAB (150)
SECTION SC1
FLOOR FINISH
FILLING (250)
RCC SUNKEN SLAB (150)
SECTION SC2
FLOOR FINISH RCC SUNKEN SLAB (150)
FLOOR FINISH
FILLING (250)
RCC SUNKEN SLAB (150)
MEN'S WASHROOM
BRICK WALL
750
D2
FLOOR FINISH
FILLING (250)
RCC SUNKEN SLAB (150)
FALSE CEILING (300)
FALSE CEILING (300)
BRICK WALL
BRICK WALL
FILLING (250)
D3
D3
D3
RCC SUNKEN SLAB (150)
RCC SUNKEN SLAB (150)
RCC SUNKEN SLAB (150)
A
A
A
FLOOR FINISH RCC SUNKEN SLAB (150)
A
450
450
450
450
600
FLOOR FINISH RCC SUNKEN SLAB (150)
FLOOR FINISH
FILLING (250)
RCC SUNKEN SLAB (150)
FALSE CEILING (300)
MEN'S WASHROOM
BRICK WALL
A
A
A
2100
6
D3
750
-
2100
11
LINTEL
NO. 4
V1
500
1800
2100
0
W1
1200
1300
2500
9
W2
3000
1300
2500
9
REVISIONS
FILLING (250)
TOILET DETAILS
SECTION SC6
FILLING (250)
FALSE CEILING (300)
WOMEN'S WASHROOM
2500
-
WALL MOUNTED WC
FILLING (250)
SECTION SC5
FLOOR FINISH
A
600
850
FLOOR FINISH
FILLING (250)
SECTION SC4
SILL -
900
TITLE :
WASH BASIN COUNTER 600
450
450
450
450
850
FLOOR FINISH
WIDTH 1200
D2
D3
URINAL WASH BASIN COUNTER WALL MOUNTED WC
OPENING D1
PROJECT NAME : SERUATIS
MIRROR 750
MIRROR
FILLING (250)
SECTION SC3
FALSE CEILING (300) WOMEN'S WASHROOM
OPENINGS SCHEDULE
WALL MOUNTED WC
450
850
850
850
850
2100
URINAL WASH BASIN COUNTER
FALSE CEILING (300)
BRICK WALL
A
A
FILLING (250)
A
A
A
A
A
A
BRICK WALL
RUCHIKA AGRAWAL 3-A 170BARCHI154 BUILDING CONSTRUCTION WORKING DRAWINGS SSAA
WALL TILE 450 x 450 WALL TILE 450 x 450 D3
D3 A
RCC SUNKEN SLAB (150)
SECTION SC4 - TILE LAYOUT
A
URINAL
A
A
FLOOR FINISH
FILLING (250)
RCC SUNKEN SLAB (150)
SECTION SC5 - TILE LAYOUT
450
450
450
450
600
WASH BASIN COUNTER 600
WASH BASIN COUNTER WALL MOUNTED WC
600
450
450
450
450
D3
A
FLOOR FINISH
Working Drawings
D3
850
A
WALL TILE 450 x 450
MIRROR 750
750
A
850
A
39
D2
MIRROR
WALL MOUNTED WC FLOOR FINISH
FILLING (250)
RCC SUNKEN SLAB (150)
SECTION SC6 - TILE LAYOUT
SCALE :
DWG NO. :
1:50
17
UNITS : FILLING (250)
mm DATE :
SIGN :
Working Drawings
40
The Vitruvian Triad in the 21st Century Physiological Characteristics of Approach and Entrance of Institutional Buildings Semester 7, Year 4 Dissertation Mentor: Rahat Varma
Aim and Objectives: This study aims to re-establish the relevance of the Vitruvian Triad as parameters for judgment of spaces and buildings and to understand the physical characteristics and spatial qualities of the approach and entrance of institutional buildings.
Scope and Limitations: While the theory has applications in different media, the study will look at its understanding in terms of built architecture only. The Vitruvian Triad in its originality will be studied and reinterpreted. The scope is limited to approach and entrance spaces in isolation of a singular typology – institutional buildings as visited by the writer and are based entirely on their perception as a user and an architecture student.
41
Dissertation
The Vitruvian Triad Firmitas Utilitas Venustas
Research Question: What is the relevance of the Vitruvian theories in the understanding of space in the present day? How is the role of entry affected by its physiological characteristics?
Methodology: The Vitruvian Triad Vitruvius’ Principles and Departments Reinterpretation of the Triad Relevance of the Triad over the years Decoding the Triad Institutional Buildings What are Institutional Buildings? What are the types of Institutional Buildings? Why has this Specific Typology been chosen for Research? Approach and Entrance - Characteristics of Approach and Entrance Contemporary Examples - Case Studies Perception of Built Conclusion (Modern Day Understanding of the Triad, Recommendations) Dissertation
42
Beyond Architecture Artwork I like the tonality of monochromatic and neutral art compositions. While I have dabbled with multiple mediums and colour schemes, I find myself the most comfortable with a pencil, or a fineliner. A certain amount of freedom is achieved and the art focuses on lines, textures and the intricacy of the content of the art piece.
43
Beyond Architecture
Beyond Architecture
44
Photographic Expression I think of photography as composition, a form of expression where something that seems appealing to me becomes my perception, or as a form of my artwork.
45
Beyond Architecture
Beyond Architecture
46
In Search of its Identity
Atmosphere
Environmental Historical Socio-Cultural Functional and Spatial
Semester 8, Year 4 Urban RE:SET - Permanence
Built Environment Image of Place
Urban Scale Project Gurugram, Haryana Mentors: Gaurav Sanan, Sobia Ahsan, Aruna Bhardwaj In collaboration with Stuti Chandra and Venika Sikka As the cities around the world are becoming globalized and standardized with the pace at which industrialization and urbanization, the ‘identity’ of a place is crucial to the place’s individuality. This identity needs to be something that is able to reflect the qualities and characteristics of the space and of the people living in them promoting the city and its culture.
Identity Experience Intuition Connectedness Involvement 500 m
Radius of Study Area = 2500 m from Epicentre (approx) Epicentre = AIT Chowk, Sector 55, Gurugram
Natural Environment Identity of Urban Space Human Circulation Networks
47
In Search of its Identity
Sense of Place Sense of Community Self-Identity
Vision for Gurgaon Livability as Identity
Gurgaon has been projected as a city for work opportunities and economic growth despite having all basic amenities and world class facilities. The shift in the identity proposes to bring a change in this mindset by proposing the concept of a livable city.
Factors Affecting Urban Space - Urban Values
Objectives Safety and Accessibility Stability and Inclusivity
Urban Space
Intervention Scale City Sector Neighbourhood Street
In Search of its Identity
48
and
Paper Folding - Cave
Acrylic Cutting Heating - Waves
Wood work - Design Construction of a Jaali
POP Carving - Contours
Material Study
and
Model Making - Process and Design Models in different Materials
Glass Cutting and Soldering - Flames
49
Material Study
Material Study
50
Architecture Portfolio
Curiosity killed the cat... but satisfaction brought it back