Sakshi Sharma Portfolio

SAKSHI SHARMA

Master of Architecture, Building Performance Concentration

@ University of Illinois at Urbana-Champaign

Professional Intern 2022 @ Gensler, Phoenix

SAKSHI SHARMA

sakshi4@illinois.edu | (+1) 5646548450

Portfolio link: https://issuu.com/sakshiisharmaaa/docs/sharma_sakshi_portfolio

LinkedIn link: https://www.linkedin.com/in/sakshi-sharma-a29570174/

Education

Master of Architecture & Building Performance Concentration

University of Illinois at Urbana Champaign (GPA- 3.94)

Professional Experience

Architectural Intern at Gensler_Phoenix

June 2022 - August 2022

Worked on large scale commercial projects where my primary role develop sustainable and Performative design using Rhinoceros, Grasshopper and Revit.

Achievements

Graduate Design Excellence Award

Spring 2022

University of Illinois at Urbana Champaign

Graduate Design Excellence Award

Fall 2021

Bachelor of Architecture

University of Mumbai (GPA- 3.3)

Credential ID: CA/2021/134398

LEED GA Aspirant

USA Licensure Aspirant

Skills

Revit, 3D modeling, Rhinoceros, Grasshopper, Maya, Autocad, Photoshop, Illustrator, InDesign, Sketchup, 3DS Max, Lumion, Enscape, VRay, CoveTool, Design builder, EnergyPlus, OpenStudio, Navisworks, PipeFlo, Collaborative team work, effectively communicative, leadership

Design Intern at DGF Architects

November 2020 - April 2021

Worked on National competitions primarily on conceptual development and design development on Rhinoceros, Grasshopper

Design intern at Dk+N Architects.

May 2020 - October 2020

Worked on the design of multiple commercial, residential, institutional and recreational projects and co-ordinated site visits along with measuring drawings.

Design intern at Point to Point Architects.

November 2019 - April 2020

Worked on concept development, facade treatment, 3D modelling, site documentation, using software such as AutoCAD

2D/3D, SketchUp, Lumion, Revit.

University of Illinois at Urbana Champaign

Student Licensing Advisor

Fall 2021 - Spring 2023

American Institute of Architecture Students

Architecture Design Lead

Fall 2021 - Spring 2023

Illinois Solar Decathlon

Graduate Teaching Assistant

Fall 2021 - Spring 2023

University of Illinois at Urbana Champaign

Design & Managerial Lead

Fall 2016 - Spring 2020

National Association of Students of Architecture

Competition Design Lead

Spring 2019

Indian Institue of Technology, Delhi & Kharagpur

ONGOING PROJECTS

URBAN DESIGN STUDIO

Small Vessel Museum in Paris | Individual Project

The project is focused on conceptual development of a site near Eiffel Tower with close proximity to Seine River in Paris. The exploration seeks viewpoints from and to the Eiffel Tower. The inspiration of concept is Futuristic.

University of Illinois at Urbana-Champaign

EXPERIMENTAL ELECTIVE

Façade and Material exploration | Individual Project

The challenge is to go beyond what exists. A blend of unique materials in façades of 2050. Here, tree threads are amalgamated with paper-like fibres for sustainable façade with ample amount of daylight.

University of Illinois at Urbana-Champaign

LANDSCAPE STUDIO

Urban Landscape in Chicago | Individual Exploration

The project is situated in Chicago. The concept exploration was to make the landscape stand-out in the densely packed skyscrapper city. The design explores elements from nature to allow the city to breathe.

University of Illinois at Urbana-Champaign

COMPUTATION ELECTIVE

City in an a·poc·a·lypse | Individual Project Exploration

The project is focused on exploring artificial intelligence where a city is re-imagined in an apocalypse. The experimentation parameters are futuristic, biomimcry, sustainability in a high density urban environment.

University of Illinois at Urbana-Champaign

INTERSECTIONALITY

High-Performance Design

Academic Integrative Studio Professor: Yun Kyu, Yi

Collaborator: Wesley Gonsalez, Soham

The project was to design an extension to the Museum of Contemporary Art Chicago Our proposal consisted of the development of parametric algorithms to establish form-finding, building envelope generation, and phenotypic diversification strategies which were supported through the use of Environmental + Daylighting performance tools, Evolutionary Multi-Objective Optimization (EMOO), Artificial Neural Network (ANN), and other AI tools.

Further optimization was done using Climate Studio, LadyBug, Octopus, WallaceiX, and Machine Learning Tool- Teachable Machine to design a High Performance Building for Quantitative and Qualitative Performances.

University of Illinois at Urbana-Champaign

*Second Prize: Graduate Excellence Award

Exterior Circulation

MEASUREMENTS

INTERSECTION

Program Arrangement

(4) Program Arrangement

Access Points

VIEWS RADIATION

OPTIMIZE VOLUME IN (M³) BETWEEN NORTH, SOUTH AND CENTRAL

Contextual Dynamics

(5) Intersection/deformations

DESIGN OBJECTIVES ACTIONS

- BOUNDARY CONSTRAINTS

- GEOMETRY LOCATION

- DIMENSIONS + PROPORTIONS

- MOVE, SCALE, ROTATE, TWIST

ALLOW DAYLIGHT TO GROUND LEVEL. FORCE VOLUMES TO TWIST. PROMOTE VIEWS DIVERSITY FOR PEDESTRIANS.

OPTIMIZE GEOMETRY RADIATION DEPENDING ON DIFFERENT SURFACE CONFIGURATIONS

- INTERSECTION (VOLUME)

- VIEWPOINTS

- MIRROR-CUT-SURFACE

- DECONSTRUCTION + ANALYSIS

OBSERVATIONS AND FUTURE GENERATIONS

The final iteration (#4) integrates both intersection and sky views. Unpredictably, most Pareto Front values exceeded the target value for over 300400% for the intersection variable. However, Sky View optimization was accurate, where the final selected geometry is 100% the target value (which was 25%). Overall, it will be appropriate to run optimization iterations by increasing the intersection value from 500 m2 to 2000 m2 since the aesthetic and intersection of spaces (as shown in this iteration) with that range complies with the inflated volume number the Octopus calculated. Thus, more iterations with similar arrangements will be generated if the intersection volume target value is increased, optimizing the geometry. Lastly, radiation optimization should be further analyzed.

Envelope Panel Design

SURFACE

SYSTEMS INTEGRATION (MORPH BOX)

URBAN COCOON

Multi-functional Space and Urban Vertical Park

Academic Integrative Studio Professor: Botond Bognar

Collaborator: Mike Rivera, Sneha Nallagonda

The project where parametric evolution breaks the monotony of the Shibuya District of Tokyo, Japan. The concept is derived from the contours which enhances the the viewpoints and spatial continuum of spaces.

The main idea is to go back to nature and bring back in the design. Accessibility is a prime concern which can be solved with strategically positioning the curves. The interrelationship between built spaces and open spaces forms the backbone of our concept of Urban Cocoon.

The form has been developed on Grasshopper using plugins such as Metaball, Cocoon, Kangaroo. Further investigations were on Qualitative and Quantitative Performance of the spaces.

University of Illinois at Urbana-Champaign

*First Prize: Graduate Excellence Award

The Process

Daylight Iterations

Section of the building Visual Landmark

SPATIATOIRUM Experiential Space+Learning

Academic Integrative Studio Professor: Kapil Jaiswal

Individual Project

The project was to experience historical events in a space. To eulogize military martyrs, leaders and unsung heroes, appraisal of scientific advancements , declarations of technological achievements and advancements.

Emotion is an actual architectural dimension, co-relating to proportions, light and texture, connection to various sources into a kind of vector matrix that isn’t frontal but is embedded in the lives and the history of the city and its people.

Illusory world that is a complex space. Space is something that folds itself into completely different worlds. Conclusively, the project creates spaces that are pluralistic and vibrant by raising them into completely different expectations yet lacking prosaic activities.

University of Mumbai, India.

*First Prize: Under-graduate Excellence Award

DESIGN STRATEGY

The aim of the project is to create expressive spaces, spaces that are not mute, exhibit through experiential spaces the relics and records. This futuristic architecture triggers the user’s perceptory senses by breaking the monotony of the context. Each space juxtaposes the ordinary making it an interactive informal public learning space.

TECHNOLOGICALACHIEVEMENTSANDADVANCEMENTS.

EXPERIMENTAL ENVELOPES

Performative Building Skin

Academic Performance Elective Professor: Scott Murray

Individual Project

The main idea is to experiment with various design ideas to create a visionary material which is very unique and innovative. Artificial Intelligence + image processing tool used : Midjourney Ai to develop these renders of innovate building materials.Building skin that inhales carbon dioxide and impurities from the environment and exhales oxygen for a cleaner, perhaps sustainable environment.Carbon dioxide is trapped in organic tissues of biomaterials.

FIBROIDS SKELETON

Fibroids+MicroAlgae - Bio-Integrated Skin derived from fibroid skeleton which is slimy and changes its form based on AI controlled system.

Few characteristics of these facades are:

• environmentally benign, semitranslucent, 100% natural and biodegradable, a relatively low thermal performance.

University of Illinois at Urbana-Champaign

EXPERIMENTAL ENVELOPES

Performative Building Skin

Academic Performance Elective Professor: Scott Murray

Individual Project

The project was divided into 3 phases. The initial stages for optimizing the building envelope (with 30% WWR) began with Whole Building EUI as 45.28 kBTU/sqft/yr. Following the process for optimization of the envelope, first the shading devices were added bringing down the EUI to 42.26 kBTU/sqft/yr. Further modifications in shading device parameters based on research of the IECC codes helped in decreasing the annual energy demand to 41.75 kBTU/sqft/yr. Integration of Solar Panels helped decrease EUI to 9.19 kBTU/sqft/yr which were highly beneficial for the climate zone and geographical location. SDA and ASE remained constant with all the interventions. In order to achieve the 2030 Benchmarking Target, the IECC provided R-Values and U-Values had to be modified even further while working with the covetool. The sole reason behind changing the values was the requirement of the climate zone which asked for lower U-value and higher R-values, which resulted in a relatively lower EUI of 28.41 kBTU/sqft/yr.

SITE A: CHAMPAIGN, ILLINOIS (CLIMATIC ZONE 5)

30% WINDOW WALL RATIO WITH SHADING DEVICE

ALTERING ENVELOPE

South-East

North-West

CHANGING ENVELOPE PROPERTIES ADDING PV PANELS ON

South-East

North-West

EUI reduced from 45.28 to 42.26

SDA reduced from 91% to 87%

ASE reduced from 90% to 88%

South East

North West

PROTOTYPE 1

30% WINDOW WALL RATIO

South-East

North-West

PROTOTYPE 2

60% WINDOW WALL RATIO

South-East

North-West

Wall structure details for the building: 6” Wall

- Plywood 0.625 inch x 2= 0.56 x 2 = 1.12

-Rigid Foam Insulation = R- 5 (show in wall section) 5 * 4.75

- Total R-value of the wall assembly= R- 25.32 (1.12 + 0.45 + 23.75 )

UNITIZED CURTAIN WALL SYSTEM

1. Horizontal fins

2. Anchor joint

3. Horizontal aluminium mullions with thermal break

4. Rigid foam insulation r value - 5 per inch

5. Spandrel box panel

6. Double glazing with 1” panes: uncoated clear | low- e (0.05) With 1/2” argon space Shgc- 0.33, U value - 0.25

7. Plywood 0.625 Inch x 2 r value- 1.12

8. Plywood 2 feet wide curving at 30 degree angle

9. Steel i-section edge beam 700mm deep with fire resistant coating

10.Bolt fixing of column

ENERGY RESEARCH

High Building Performance

Academic Performance Elective Professor: Richard Strand Individual Project

The project comparing strategies of Window to Wall Ratio, Conductivity, Orientation and Lighting and Shading Control of a Office Building on two extreme climatic zones and proposing solutions to minimize Energy and ASE, to maximize Daylight.

The main idea is to research on a office building in Burkina Faso, Africa and Chicago, IL to optimize its Energy Use Intensity (EUI), Spatial Daylight Autonomy (sDA), Useful Daylight Illuminance (UDI).

The study includes research on two different climatic zone and proposing design strategies that respond to the weather conditions of the location based on Building Performance.

SUMMER SOLSTICE @ 2 PM [WITHOUT FINS]

Covers 0% of the window in elevation (i.e. does not block any visual transmittance)

DAYLIGHT STRATEGIES

University of Illinois at Urbana-Champaign

increasing SDA by adding one more window and reduction in ASE from 52% to 5% by providing shade.

CHICAGO, ILLINOIS DESIGN STRATEGIES:

• For passive solar heating, most of the glass area are aligned to the South to maximize winter sun exposure, but design overhangs to fully shade in summer.

• Provide double pane High Performance Glazing (Low-E) on west, north and east but clear on south for maximum passive solar gain.

• Extra insulation will increase occupant comfort by keeping indoor temperatures more uniform.

• Floor organization in a way that winter sun penetrates daytime use spaces with specific functions that coincide with solar orientation

• Insulting blinds, operable window shutters willhelp reduce winter night time heat loses.

• Trees are positioned at 45 degree angle and are not blocking passive solar windows

PRESSURE PERFORMANCE ANALYSIS

• Trees are positioned at 45 degree angle

SPATIAL DAYLIGHT AUTONOMY

BURKINA FASO DESIGN STRATEGIES:

• Well shaded courtyard to provide for hot windy dry climates as a design strategy.

• Minimize or eliminate west facing glazing to reduce summer and fall heat gain.

• Flat roofs might work well in Hot Dry Climate like Burkina Faso.

• Mass construction - thick walls with small recessed shading openings

• Use of colored building material with high emissivity to minimize conducted heat gain

• Provide double pane High Performance Glazing (Low-E) on all orientation

• In this climate, air conditioning will always be needed, but can be greatly reduced if building design minimizes.

Overall though few strategies were not recommended after the results were not satisfying, the simulation process is a good exercise in studying the performance of the building.

Facade Moss Wall: Bio Wall several advantages such as cooling effect, energy provision, clean air and ventilation

Weather Analysis: For detail study of strategies to implement

Conclusively, after running the simulations to ameliorate the Energy Performance of the Building, the first calibrated initial strategies found the loopholes likely Harsh Sunlight, Excessive Energy Consumption, Electricity usage. Design strategies were implemented them to improvise the lighting, air pressure, temperature conditions including electricity and energy consumption.

After applying the Design Strategies imporvised the values in Daylight factor, Illuminance, and reduction in electricity consumption and reduced the load on HVAC. Additionally, after running the CFD (Computer Fluid Dynamics) for external part of the building there was a successful result in control in Air Pressure and Wind speed / Air Velocity.

LEED Certification points were the baseline of the project and this project earned a credit of 1 point after implementing design startegies

To propose the most efficient project management plan.

SINGLE

FAMILY HOUSING Construction Management

Academic Professor: Khaled A El-Rayes Collaborative Project

The project was divided into several phases. The goal of the project was to manage and control project constraints by ensuring project plans are implemented on schedule, within scope, and budget.

The milestones were the Activity List, Cost Estimation, Job Logic, Time-Cost Tradeoff and Cost Control

The outcome showcases the understanding of construction project planning and control as well as optimizing schedule and budget.

Project Type: Single-Family Home

Location: Champaign, IL

Floor Area: 3275 sq. ft.

Start: August 1st , 2023

End: December 23rd,2023 (Expected)

Features: 5 bed / 3.5 bath

Resource profile for labourers after performing resource allocation with effect on project duration

Excavation

Forms in place for footings

Reinforcing in place for footings

Structural steel columns

Project Management plan for the construction of a Real-Life

Pouring concrete for footings

Masonry accessories, vent boxes at foundation

Vapor retarders (polyethylene vapor barrier)

Forms in place for footings

Backfill

Reinforcing in place for footings

Form in place for slab on grade

Structural steel columns

Framing, wood floor beam

Pouring concrete for footings

Framing, floor joists

Masonry accessories, vent boxes at foundation

Slab reinforcement (welded wire fabric)

Vapor retarders (polyethylene vapor barrier)

Backfill

Pouring concrete for slab

Wood framing, bridging

Form in place for slab on grade

Sheathing, subfloor plywood

Framing, wood floor beam

"Wall framing, columnsColumns 4" x 6"

Framing, floor joists

"Wall framing, columnsColumns 6" x 6"

Slab reinforcement (welded wire fabric)

Pouring concrete for slab

"Wood framing, external wallsStuds 2" x 6" studs

"Wood framing, external wallsHeaders 2" x 6"

Wood framing, bridging

"Wood framing, external wallsHeaders 2" x 8"

Sheathing, subfloor plywood

Wood framing, external walls

"Wall framing, columnsColumns 4" x 6"

"Wood framing, interior wallsStuds 2" x 4"

"Wall framing, columnsColumns 6" x 6"

"Wood framing, interior wallsHeaders 2" x 12"

"Wood framing, external wallsStuds 2" x 6" studs

"Structural steel members W 12"x 26 "

"Wood framing, external wallsHeaders 2" x 6"

"Structural steel members W 16" x 40 "

"Wood framing, external wallsHeaders 2" x 8"

Prefabricated structural wood for wood trusses

Wood framing, external walls

Sheathing, plywood for soffit

"Wood framing, interior wallsStuds 2" x 4"

Sheathing, plywood pneumatic nailed for roof

"Wood framing, interior wallsHeaders 2" x 12"

Sheathing, plywood for exterior wall

"Structural steel members W 12"x 26 "

Place asphalt shingles, felt underlayment

"Structural steel members W 16" x 40 "

Stucco for exterior

Prefabricated structural wood for wood trusses

Masonry anchor and reinforcement, wall ties

Sheathing, plywood for soffit

Sheathing, plywood pneumatic nailed for roof

Sheathing, plywood for exterior wall

Place asphalt shingles for roof

Brick veneer

Place asphalt shingles, felt underlayment

Stucco for exterior

Masonry anchor and reinforcement, wall ties

Place asphalt shingles for roof

Brick veneer

Assuming the presence of material at site at least one day prior to the scheduled installation date, the delivery date and the order dates are derived by back calculating with the collected information on lead times from industry procurement database.

• RS Means 2021 Utilized

• Total indirect cost is 15%

• 10% Overhead costs

• 5% general, office and administrative

• 5% increase in labor wage on November

• 5% increase in labor wage = $627

• 5% Interest rate

• Project Duration = 87 work-days

Total value including overhead and profit: $1,297,361

Total cost (direct + indirect): $1,235,582

Total profit after project completion: $36,632

Crowd segregation

FRE-QUINTE

Merging African-American Jazz

Academic Integrative Studio Professor: Thomas Leslie

Collaborator: Sparsh Rastogi

The site is located in Chicago’s Wabash district. The location is premium and attracts incredible views near Lake Michigan and skyline of the Loop. The final form serves as an icon for the city’s skyline having public interactive spaces at its base. Chicago’s huge Auditorium for Jazz follows the top floor with a pattern of experiential journey. It encourages view cones to facilitate social interaction from inside to outside. The form encourages folks to enter the space due to unique characteristics.

Summer Solstice

Winter Solstice

University of Illinois at Urbana-Champaign

The main concept of Frequinte is FREquency of Jazz music merged with Unity in harmony which is deep rooted in America’s history with R&B music. Frequinte is a space for all.

Selected Work Samples, 2019-22. Thank you for viewing this portfolio.

sakshi4@illinois.edu

linkedin.com/in/sakshi-sharma-a29570174

Please contact me for collaboration. I would love to work with you and hope to see you again. Contact: Illinois, USA.