PORTFOLIO INTERIOR ARCHITECTURAL SELECTED WORK 2019-2022 CEPT UNIVERSITY HEER DESAI
EDUCATION Bachelor’s in Interior design, Faculty of Design, Cept University, Ahmedabad, Gujarat
2019 - PRESENT
2019
AISSCE (CBSE) from Kendriya Vidyalaya, ONGC, Mehsana, Gujarat
2017
SSC (CBSE) from Kendriya Vidyalaya, ONGC, Mehsana, Gujarat
C U R R I C U L U M V I TA E PERSONAL PROFILE NAME
Heer Desai
DATE OF BIRTH
24/06/2001
LANGUAGES
Gujarati, Hindi, English
CONTACT
9408971524 heercsm@gmail.com heer.ug190537@cept.ac.in
PERMANENT ADDRESS
16, Krishna society, opp. rotary bhavan, jail road, Mehsana, Gujarat 384002
INTERESTS
Music, reading, badminton, cooking, travelling
EXPERIENCE DETAIL Participated in Tree House 2021 Architecture Compitition hosted by Volume Zero
Participated in summer school Light Infrastructure building a mobile
SKILLS DIGITAL SKILLS
ANALOG SKILLS
Autocad 2d Rhinoceros 3d Sketchup Adobe Photoshop Adobe Illustrator Adobe InDesign Lumion Keyshot
Hand Drafting Sketching Rendering Wood-metal workshop
CONTENTS Space planning Travellers’ Home
Working drawing Exploration of Design: material in focus
Product design Indetail: making is realising
Visualisation Decoding poetics of space
Summer school course Light Infrastructures: Construction as Activism
Miscellaneous
An
S PA C E P L A N N I N G CADENCE : A SYMPHONIC TRANSITION T R AV E L L E R ’ S H O M E
n abode welcoming music professionals and enthusiasts to come together for musical gatherings and interact with each other around the serene valley of Sigiriya, Sri Lanka. The abode aims to provide a soulful journey from outside to inside with arches framing viewpoints. A curve derived by responding to the site creates a symphonic transition from interior spaces opening out towards the stream.
Case Study
Movement, Circulation
The Hameed House, Koswatte Nawala, Sri lanka
Form
The Hameed House, Koswatte Nawala, Sri lanka
Heer Desai
Heer Desai
Site Analysis And User GroupElements Studyor system
Elements or system
The Hameed The Hameed House, Koswatte Nawala, Sri lankaHouse, Koswatte Nawala, Sri lanka
Anusha A sitar player Shy, humble, dedicated
Nisha A classical singer Energetic, nature lover
Dev A writer/poet Observent, confident, prefers seclusion
Nishant Tabla player Extrovert, adventerous, explorer
Iterations With Curves Shaping Into A Space
Heer Desai
Volumetric Explorations
Montage Depicting Interior Elements
Plans
Sections
Section B
Plan At + 4000
Sectional Perspective
Section A Plan At + 5200
3D Rendered Views
Sa
WORKING DRAWING S AT T VA : A R E C Y C L I N G C O . E X P L O R AT I O N O F D E S I G N : M AT E R I A L I N F O C U S
attva is a startup company that aims to achieve a zero-waste construction industry by exploring the potential of various types of plastic waste and recycling it to create bricks, tiles, and other small-scale products. The core idea of the firm is to design products utilizing waste material that can replace the conventional materials used in construction. The characteristics of the products manufactured by the firm that is, the composite nature and modularity are incorporated into the design.
Material Pallet
Recycled plastic brick
Tile made from recycled tile & brick composite
Recycled plastic board
Reused wood pallet
Linoleum sheet
Wood plastic composite board
Recycled plastic acoustic panel
Furniture Layout Plan
Sections
Section AA’
Section BB’
Flooring Plan
Details
Reflected Ceiling Plan
Section CC’
Reception Table Design
Partition Design
C a
PRODUCT DESIGN LOCKING LEDGE I N D E TA I L : M A K I N G I S R E A L I S I N G
Creating geometrical puzzles through different methods for kids. The outcome achieves making of various scale models and prototypes and developing an interlocking joinery for shelving systems. Locking ledge is a versatile interlocking joint that could be mass produced and allows different ways of attaching two joints with each other and allowing variations assembly of the shelving unit. The system provides a multiple variations of display and storage which could be used in retail stores for displaying clothes and other accessories
Geometrical Puzzles
User Manual
steps to follow
tetrasect 1 Join the pieces to the central piece to create tetrahedron.
Steps To Follow 3. Fold the flaps on the top side of the same triangle to join its edge to the other triangle 1. Fold the highlighted flaps to join one edge of the triangle at the top to the bottom triangle 4. After joining two edges of the first triangle to the other two triangles, a tetrahedron will form without the base. Rotate and fold the base triangle in the direction shown 2. Then fold the flaps on the side of the other triangle to change the direction of the triangle 5. You will get a tetrahedron as the final outcome
Decoding Geometric Principle
Understanding thethe relation between cuboctahedron and and tetrahedron Understanding relation between cuboctahedron tetrahedron
Attributes of the interlock joints joints Attributes of the interlock
tahedron and tetrahedron Attributes of the interlock joints cuboctahedron andand tetrahedron Attributes of the interlock joints een cuboctahedron tetrahedron Attributes of the interlock joints Cuboctahedrron derived from tetrahedron by subtracting n cuboctahedron and tetrahedron Attributes of the interlock joints Attributes Of The Interlock Joints Cuboctahedron is derived from tetrahedron by subtracting tetrahedron to truncated Cuboctahedron is derived from tetrahedron by subtracting tetrahedron to truncated 1. Identical pieces forming negative and positive parts to interlock within each other. tetrahedron to octahedron and finally to cuboctahedron. tetrahedron to -octahedron and finally to cuboctahedron. tetrahedron truncated tetrahedron - octahedron
- cuboctahedron
1. Identical pieces forming negative and positive parts to interlock within each other.
derived from tetrahedron by subtracting tetrahedron to truncated ahedron is derived from tetrahedron by subtracting tetrahedron to truncated boctahedron is derived from tetrahedron by subtracting tetrahedron to truncated 1. Identical1.pieces forming negative and positive parts topositive interlock within each Identical pieces forming negative and positive parts to interlock each other. 1. Identical pieces forming negative and parts interlock within other. 2. Two pieces divided by theto centre ofother. the solid. 2. Two pieces divided by within the centre ofeach the solid. ahedron and finally from to cuboctahedron. tahedron istoderived tetrahedron bycuboctahedron. subtracting tetrahedron to truncated dron to octahedron and finally to cuboctahedron. rahedron octahedron and finally to 1. Identical pieces forming negative and positive parts to interlock within each other. 1. Identical pieces forming positive and negative dron to octahedron and finally to cuboctahedron.
parts to interlock within
3. Each piece haspiece same has number ofnumber faces that is four triangles and 3 spaures. 3. Each same of faces that is four triangles and 3 spaures. 2. Two pieces divided the centre ofby the solid. 2. Two divided by the centre of theofsolid. 2.pieces Two by pieces divided the centre the solid. 2. Two pieces divided by the centre of each the solid. other. It locks 4. It locks4. along onealong axis. one axis. 3. Each piece has same number of faces that is four triangles and spaures. 3. Each piece has same number of faces that isthat fouris triangles and 3and spaures. 3. Each piece has same number of faces four3 triangles 3 spaures. 3. Each piece has same number of faces that ispieces four triangles and spaures. 2. Two divided by3the centre of the solid. 4. It locks along one axis. along 4. It locks along one axis. 4. It locks one axis. 3. Each piece has same number of faces that is four triangles and three 4. It locks along one axis.
squares. 4. It locks along one axis.
Applying the same principle of interlock to other geometries Applying the same principle of interlock to other geometries
Modification in the geometry to develop a locking system in the joint Modification in the geometry to develop a locking system in the joint
Propogation Of Module To Extract AApplying Joinery System the same principle of interlock other Applying the same principle ofto interlock to other geometries Applying theprinciple same principle of interlock to other geometries Applying the same of interlock togeometries other geometries
oint em ininthe g system injoint themodel joint of a propagated form stem joint Making athe frame
Wireframe model of module 1
Extracting the junction module from the system
UnderstandingUnderstanding the relation between cuboctahedron and tetrahedron the relation between cuboctahedron and Form derived at the junction created a cuboctahedron with equal number of sides form was created in the tetrahedron opposite modules. Understanding the relation between cuboctahedron and tetrahedron
Attributes of the in Attrib Attributes of
Cuboctahedron is derived from tetrahedron by subtracting tetrahedron to truncated Cuboctahedron is derived from tetrahedron by subtracting tetrahedron to truncatedpieces forming 1. Iden is derived from tetrahedron by subtracting tetrahedron to truncated1. Identical tetrahedronCuboctahedron to octahedron and finally to cuboctahedron. 1. Identical pieces tetrahedron to octahedron and finally to cuboctahedron. tetrahedron to octahedron and finally to cuboctahedron.
2. Two pieces divided th 2. by Two 2. Two pieces divid
3. Each piece has same nu 3. Each 3. Each piece has
4. It locks along one 4. axis. It loc 4. It locks along on
unction module from the system These forms when made solid created an interlock joinery with identical pieces.
22 module from the system unction
22UG190537 Various wireframe modules were made to extract a function. Different repetitive members were tried to reduce in the modules. UG190537
Locking Ledge Locking Ledge
Propogation Ofgeometry Module To Extract A Joinery System ModificationModification in the geometry develop a locking in the joint Modification in the tosystem asystem locking in thetogeometry to develop adevelop locking in system the jointin the joint ction created a cuboctahedron with equal number of sides form was created in the opposite modules.
Locking Ledge Ledge Locking Ledge LockingLocking Ledge Changing surface angles of the form to get multiple variations for various functional uses.
ction created a cuboctahedron with equal number of sides form was created in the opposite modules.
0
G190537
Locking Ledge
Exp Decodin
Exploring Attrib
3D printed joinery 1:1 mockup model ApplyingApplying the samethe principle Applyin same
Decoding Geometry/Principl Decoding Geometry/Prin Decoding Geometry Decoding Geometry/Principle Exploring Attributes of Module & System
Attributes of & Module &S Exploring Attributes of Modul ExploringExploring Attributes of Module System Decoding Geometry/Principle Module Making
e solid created an interlock joinery with identical pieces.
e solid created an interlock joinery with identical pieces.
For checking the locking system of different pe linear member can attach to the joint.
model was tried, where a threaded bolt coming out of the linear member
MS steel junction detail 1:1 mockup model
Mockup prototypes
model
MS steel junction detail 1:1 mockup model
This method could increase the assembly time.
46
UG190537
berdifferent with the joint was 3d printed, which worked similar to lock and Another method to connect the joinery to the linear member was tried, where a threaded bolt coming out of the linea of permutations of the joinery and developing different ways by which the shelf and e slot of the joint and rotated 90 degrees to lock it. The junction into the joint by rotating the sleeve them. This method could increase the assembly time. bolt co joint. method to connect thebetween joinery to the linear member was tried, where a threaded different permutations of the joinery and developing different ways by which the shelf andis insertedAnother
Joinery Details
Junction between linear member and the joint
oint.
is inserted into the joint by rotating the sleeve between them. This method could increase the asse
Junction between linear member the joint Design Decision Makingand process
Junctionbetween betweenlinear linearmember memberand andthe thejoint joint Junction
Design Iteration Mockup Making
e can be multiple variations for rew to use it as a hanger rod.
To attach the joint with other linear members, a slot is provided in the joint where a pin from the linear member is inserted in the slot of the joint and rotated 90 degrees to lock it.
Front elvevation
tested using 3d printed joinery. the shelf between a 5mm slot given in A more Junction between linear member and Junction bracing and theefficient joint junction detail of connecting the linear member with the joint was 3d printed, which worked similar to Bracing attachment detailTo attach the joint
and locking ar member andsystem the jointwas
Theinterlocking interlocking joinery has sloton onone oneside side for for shelf shelf to to attach attach or or to to attach attach another another piece. for The joinery has aaslot piece. There There can can be be multiple multiple variations for a pin from the linear member is inserted in the slot of the joint and rotated 90 degrees to lock it. The ju hold the weight of the shelf. key variations system where Front elvevation attaching the joints in different directions. The holes on the side are to fix a linear member by a screw to use it as a hanger rod. attaching the joints in different directions. The holes on the side are to fix a linear member by a screw to use it as a hanger rod. will have a spring to clamp the the pin. To joint where aa pin from the linear memb Toattach attach thejoint jointwith withother otherlinear linearmembers, members,aaslot slotis isprovided providedininthe the joint where pin from the linear mem slot slotof ofthe thejoint jointand androtated rotated90 90degrees degreestotolock lockit.it.
nd locking system was tested using 3d printed joinery. To attach the shelf a 5mm slot given in old the weight of the shelf.
Locking Ledge
A more efficient junction detail of connecting the linear member with the joint was 3d printed, whi key system Bracing where aattachment pin from detail the linear member is inserted in the slot of the joint and rotated 90 de Bracingattachment detail will have a spring to clamp the pin.
Design Decision Making
Design Iteration Mock
Design D
Locking Ledge
Desi
A similar mechanism has been given to fix the bracing with the joinery.
other linear members, a slot is provided in the joint where a pin from the linear member is inserted in the ed 90 degrees to lock it.
tail
1. 1. Attaching Attaching the the shelf shelf in in the the joint joint slots. slots.
Assembly Manual
34
UG190537
Locking Ledge
34
5. 5 In
2. 2. Fixing Fixing other other setset of of joints joints in in the the direction direction shown. shown. Plan
Loc
Joinery details
Plan
A similar mechanism has been given to fix the bracing with the joinery.
Loc
UG190537 A similar mechanism has been given to fix the bracing with the joinery.
36 36 UG190537
Locking Ledge Locking Ledge
UG190537
Attaching the shelf the joint slots. been given to fixthe the bracing with the joinery. 1. 1. Attaching shelf in in the joint slots. 1. Attaching shelf in the joint slots. 1. Attaching thethe shelf in the joint slots.
1. Attaching the shelf in the joinery slots.
Fixing other joints the direction shown. 2. 2. Fixing other setset of of joints in in the direction shown. 2. Fixing other of joints in the direction shown. 2. Fixing other setset of joints in the direction shown.
2. Fixing the other set of joints in the diretion shown. Joinery details
5. Inserting linear member into joint. 5. Inserting thethe linear member into thethe slotslot of of thethe joint. 3. 3. Attaching Attaching horizontal horizontal member member on on the the sides sides of of the the joints. joints. 5. Inserting linear member of the joint. 5. Inserting thethe linear member intointo thethe slotslot of the joint.
3. Attaching the horizontal member in the sides the joints.
6. Rotating linear member degrees lock it with 6. Rotating thethe linear member 90 90 degrees to to lock it with thethe joint. joint. 4. 4. Rotating Rotating the the horizontal horizontal member member 90 90 degrees degrees to to lock lock it with it with the the 6. Rotating linear member degrees to lock it with 6. Rotating thethe linear member 90 90 degrees to lock it with thethe joint. joint. joint. joint. of 4. Rotating the horizontal member 90 degrees to
lock it with the joint.
4242
Locking Locking Led Le
UG190537 UG190537
5. Inserting the linear member into the slot ofof the joint. 6.4. Rotating the linear member degrees lock it lock with the 5. Inserting the linear member into the slot of the joint. 6.4.Rotating the linear member 90 90 degrees to to lock with 7. To attach a rod forfor hanging clothes, both pieces areare 3. 3. Attaching horizontal member on the sides of the joints. Rotating the horizontal member 9090 degrees toitto lock itthe with thethe 8. Fixing next joint to to further add another shelf. Rotating the horizontal member degrees it with 8. Fixing next joint further add another shelf. 7. To attach a rod hanging clothes, both pieces Attaching horizontal member on the sides the joints. 7. To a shown rod for hanging clothes, both pieces are 3.Inserting Attaching horizontal member sides of the joints. 4.Rotating Rotating horizontal member degrees to lock it with 8. Fixing next joint to further add another shelf.add To attach a as rod for hanging clothes, are 3. horizontal member on on thethe sides ofthe the joints. 4.6. Rotating thethe horizontal member 90 90 degrees to lock it with thethe 7.attached joint to further add another shelf. joint. 5.Attaching the linear member into slot of the joint. the linear member 90 degrees to lock 7. Toattach attach a rod for clothes, both pieces8. Fixing 8. next Fixing the next joints to further as shown and a screw is fitted topieces hold the rod. joint. joint. attached and ahanging screw is both fitted to hold the rod. attached shown and a screw is fitted to hold rod. joint. attached as as shown and a screw is fitted to hold thethe rod. joint.
joint.
4242 4242
UG190537 UG190537 UG190537 UG190537
it with the joint.
are attached as shown and screw is fitted to hold the rod
Locking Ledge Locking Ledge Locking Ledge Locking Ledge
7. 7 atta
more shelves
User manual User manual User manual User manual
s
V I S U A L I S AT I O N D I A P H A N O U S V O YA G E R D E C O D I N G T H E P O E T I C S O F S PA C E
The diaphanous house floating in the vast blue sea is a dream house evolved from a brief study of the given topographical content that is high seas, developing metaphors from the oneiric feeling of a house and developing the spirit of geometry of the dwelling by taking inspiration from dwellings of creature inhabiting high sea. The book ‘Poetics of space’ by Gaston Bachelard has been a mentor throughout the project helping to construct a poetic dream house.
Emulating An Intimate Space Of Home
Animal Architecture Study Studying ways of building a dwelling in high seas by various creatures and its attributes.
Infographic Panel Of The Dwelling
Graphic Novel
t
I N S TA L L AT I O N SUMMER SCHOOL COURSE LIGHT INFRASTUCTURES: CONSTRUCTION AS ACTIVISM
The course aimed to focus on the theory of activism in relation to design to a process of 1:1 scale construction of a transportable small-scale transit housing module that can accomodate diverse activities while addressing infrastructural lacking in transit settlements.
MISCELLANEOUS Digital Works
Sketches
Model Making
THANK YOU
heercsm@gmail.com h e e r. u g 1 9 0 5 3 7 @ c e p t . a c . i n +91 9408971524