www.linkedin.com/in/armaan-dixit
01 | School of Allied & Public Health Prairie View, TX | 2024 p. 4-11
02 | Mount Meru Space Center Houston, TX | 2024
p. 12-21 p. 22-29
03 | The Bridge Preschool Prairie View, TX | 2022
04 | Nux Theater Master Plan Sugar Land, TX | 2023 p. 30-37
05 | Professional & Freelance Work Internship & Personal Ventures
p. 38-43 p. 44-49
06 | Miscellaneous Work Creative Visualizations and Model-Making
COLLEAGUES - Benjamin Thompson & Alexis Toure CONTRIBUTION - Project Lead | Floor Plans | Graphics | ModelMaking | Renders | Site Plan | Structure COURSE - ARCH 4645 | Architectural Design VII INSTRUCTOR - Huiyi Xu
A community transformed holistically. Rooted in the Prairie View A&M master plan, the project emphasizes the creation of attractive communal spaces that promote physical activity such as walking and biking, as well as areas of respite, revitalizing the health of both users and the site. Responding to existing site conditions, the building’s mass timber structure fosters an indoor-outdoor connection while providing a sustainable framework. Its form dynamically transforms, ascending and descending like stair steps, reflecting the dynamic nature of physical activity and health sciences. Organized around expansive green spaces, the design ensures excellent outdoor views from nearly every part of the building, enhancing community engagement and well-being.
Add to existing communal spaces on campus to promote site engagement.
Create more tree cover at the site to promote walkability towards it.
To create a spacious yet intimate communal area, the design process began with a centrally organized building layout. This approach emphasized key viewpoints and a sense of community whilst connecting the space to the rest of campus.
As the design evolved, key circulation points were strategically placed to promote interaction within the site and the building. To maintain a sense of openness to the surrounding campus, circulation pathways were thoughtfully integrated into both the interior and exterior spaces.
Extend existing bike paths through the project site where pedestrian travel is a major shortfall.
A terraced design was employed to align with the concept’s transformative nature, allowing the elevations to evoke a sense of ‘movement.’ This also maximized sunlight penetration throughout the building and created additional opportunities for dynamic viewpoints.
Integral to the project’s sustainable initiatives, the sawtooth roof was designed to optimize solar energy capture by aligning with the building’s orientation. Additionally, it enhanced interior visuals of both the basketball gym and natatorium.
Embodying the Hindu cosmic axis with a tiered ascent from Earth to the universe. The Mount Meru Space Center is a 45,000-square-foot group A-3 facility dedicated to exploring the wonders of space. It features educational exhibits that trace humanity’s journey from the early history of space exploration to future innovations, while also providing research opportunities focused on space exploration and habitation. Inspired by the cosmic symbolism of Hindu temples, the design draws heavily on principles of Hindu architecture, seamlessly blending them with contemporary building techniques. A striking mass timber structure serves as the foundation, embodying a modern interpretation of traditional Hindu architectural ideals and bringing the vision of the Mount Meru Space Center to life. 02
MOUNT MERU SPACE CENTER HOUSTON, TEXAS, USA | 2024
COURSE - ARCH 3626 | Architectural Design VI
INSTRUCTOR - Dr. Rania Labib
& SITE ANALYSIS
500 Year Floodplain
100 Year Floodplain
500m Radius Project Location
Being within close proximity of Houston’s Buffalo Bayou, flood mitigation took a high priority. As a highlighted point early in the process, it led to the proposed expansive bioswale that sits to the north of the project site.
BAPS SHRI SWAMINARAYAN MANDIR, HOUSTON PLAN ROUGH SKETCH
MOUNT MERU SPACE CENTER PLAN ROUGH SKETCH
Lighting - The orientation of the project required mitigation of southern sunlight. The hierarchical shikhara, a prominent feature of Hindu temples, would simultaneously be used as a shading device with automated solar louvers.
Circulation - Another staple of Hindu temples is circulation towards the cardinal directions. With the shikhara as the centralized feature, flow of traffic and circulation spans out in all directions.
Programming - Drawing inspiration from Angkor Wat, the layout features a centrally organized design with a prominent atrium at its heart. Exhibition spaces surround the atrium enabling a directional flow of traffic.
Form & Massing - Seeking to bridge the new with the old, the shikara’s tiered design draws inspiration from India’s Temple of Steps. Mirroring a Hindu temple, finding ways to seamlessly integrate into the Houston context was integral.
Approach - It is tradition in which Hindu temples have entryways facing the east, an auspicous direction. This can similarly be seen at BAPS Shri Swaminarayan Temple in Houston.
Solar Louvers
Atrium Roof (Shikhara)
5-Ply CLT Ceiling/Floor Panels
Level 02 Glulam Grid
5-Ply CLT Ceiling/Floor Panels
9-Ply CLT/2hr. Fire-Rated Shear Walls
Brie Soleil
Level 01 Glulam Grid
Cross-Bracing
Foundation
Proposed parking with added tree shading and 7 dedicated EV parking stations
Entrance gardens and reflection ponds
COURSE - ARCH 2603 | Architectural Design III
INSTRUCTOR - Dr. Tareef Khan
Bridging the gap between mankind and nature through our upcoming generations. Situated directly in front of Prairie View A&M University, this project draws deep contextual inspiration from Prairie Style architecture, biophilic design, and the Japanese concept of uchigawa-sotogawa (inside-outside). In an era where many children are increasingly disconnected from the beauty and harmony of nature, the school aims to bridge this divide. Nestled in a rural community, the design seeks to seamlessly integrate the outdoors with the indoors, creating natural connections throughout the building that benefit students and faculty alike.
The design emphasizes a seamless interplay between indoor and outdoor architecture. Throughout the building, the use of natural materials and expansive views of serene green spaces were essential, fostering a constant connection with nature for both faculty and students.
The multipurpose and indoor playrooms stand out with their distinctive basin-like roofs. These innovative designs channel rainwater into a central column within the spaces, efficiently directing it to an underground cistern for collection and storage.
The gardens on both the north and south sides of the preschool serve as peaceful retreats and scenic viewpoints. Positioned strategically on the south, these gardens also help mitigate excessive heat gain.
COURSE - ARCH 2604 | Architectural Design IV
INSTRUCTOR - Dr. Tareef Khan
Entertainment is the heartbeat of society. Spanning over 300,000 square feet, the NUX Theater anchors the site with its nature-inspired design. The name “Nux,” from the Latin word for nut-bearing trees, reflects the surrounding pecan trees that influence circulation and spatial organization. Drawing parallels to the human circulatory system, the theater, as the site’s “heart,” guides pathways and activity. Thoughtful planning addressed the site’s expansive, flood-prone terrain, balancing circulation, green space preservation, and flood mitigation to create a purposeful and engaging environment on an incredibly expansive site.
Maximizing the potential of a large, linear site presented a key design challenge. With NUX Theater as the central focal point, the human circulatory system inspired the site’s circulation, ensuring seamless connectivity to every corner. The expansive retention pond symbolizes the aorta, the largest blood vessel, reinforcing the concept of vital pathways branching out from a central source.
NATIVE PLANT SPECIES
1. Galvanized Steel Gabion Retaining Wall - Mitigate erosion between pond and greenspace.
- Mitigate rainwater runoff and flooding whilst using natural materials.
5. Bioswale & Retention Pond - Reduce rainwater runoff, mitigate flooding, and increase biodiversity.
SUSTAINABLE FEATURES
2. Complete Streets - Additional Shading to promote walkability and reduce noise pollution.
4. Winding Walking Paths - Evoking natural woodland trails.
6. Xeriscaping - Native flora to mitigate overuse of water resources and promote local ecosystem.
Circulation
Green Space
Retention Pond Roadways
SITE AXONOMETRIC
Long Gardens
Retention Pond
Gazebo
Underground Parking
Underground Parking Green Roof
Radha’s Garden
Drop-Off Roundabout
NUX Theater
Loading Dock & Waste Collection
Tranquility Forest
Ebb & Flow Jazz Bar
Typical day to day operation is an underground parking facility. The reservoir stays near empty, and the street level green space is usable/traversable. This minimizes the need to terraform the field that lies there at present, and minimizes the cons of hardscape.
The parking ramp still maintains accessibility while the garage rises. The reservoir slowly fills with water, bringing the garage level with the entrance. This leads to a green roof effect with green space above but still maintains full usage of the garage in rain events.
In heavy rainfall events, the reservoir would fill till it reaches maximum capacity. Bottom levels would stay below surface to maintain buoyancy of the parking facility. Local weather events such as Hurricane Harvey necessitate adaptive structures such as this.
PHYSICAL SITE MODEL
PROFESSIONAL & FREELANCE WORK INTERNSHIP & PERSONAL VENTURES
Professional and freelance projects: Contributions from internships and independent endeavors
PGAL: UH DOWNTOWN - GATOR EXPANSION
PROJECT - UH Downtown - Gator Expansion (SD phase)
COLLEAGUES - Jeanette Dicorcia | Ryan Horton | Ba Reum Son
CONTRIBUTION - Axonometrics | Elevations | Floor Plans | Modelling | Renderings YEAR - 2024
This project involved the renovation and expansion of UH Downtown’s Girard Street Building. Collaborating with RDLR Architects, the PGAL team focused on the 4th-floor expansion, featuring a prominent roof visible from I-10 inspired by the school’s mascot, the gator. The team worked extensively on interior programming while further refining the intricate design of the gator-shaped roof structure during the schematic design phase.
PROJECT - PVAMU Memorial Student Center Game Room Renovations
CONTRIBUTION - Interior Design & Rendering YEAR - 2021
PROJECT - Restaurant
CONTRIBUTION - Rendering YEAR - 2022
PROJECT - 2024 ACSA Mass Timber Competition
CONTRIBUTION - Interior Design | Modelling | Rendering YEAR - 2024
Exploring models and visual works: A collection from studio projects, coursework, and personal endeavors 06
MISCELLANEOUS WORK CREATIVE VISUALIZATIONS & MODEL-MAKING
PROJECT - San Siro & Zlatan Ibrahimovic | Milan, Italy
YEAR - 2023
PROJECT - La Malcontenta | Venice, Italy
COURSE - ARCH 1302 | Architectural History II
INSTRUCTOR - William Batson YEAR - 2023
PROJECT - Kinkakuji | Kyoto, Japan
COURSE - ARCH 1301 | Architectural History I
INSTRUCTOR - William Batson
YEAR - 2022
PROJECT - “Oak Tree in the Garden” Koan
COURSE - ARCH 1301 | Architectural History I
INSTRUCTOR - William Batson
YEAR - 2022
PROJECT - Historical Invention | The Pendelum COURSE - ARCH 1302 | Architectural History II
INSTRUCTOR - William Batson
YEAR - 2023
PROJECT - 2024 ACSA Mass Timber Competition (Class Site Model)
YEAR - 2024
PROJECT - Grind House Fitness & MMA
COURSE - ARCH 1303 | Architectural Design I
INSTRUCTORS - Jeremy Curtis & John Okello
YEAR - 2021
PROJECT - Multi-Use High Rise (Site Model)
COURSE - ARCH 3625 | Architectural Design V
INSTRUCTOR - Dr. Rania Labib
YEAR - 2023
PROJECT - Laser Cutting Room Scrap Bin
COLLEAGUE - Michael Otekunrin
CONTRIBUTION - Inception |3D Model | Construction
YEAR - 2024
PROJECT - Jenga Giant Set
COLLEAGUES - Raymon Blair & Michael Otekunrin
CONTRIBUTION - Construction
YEAR - 2023
PROJECT - Fabrication Center Printer Roll Bin
COLLEAGUES - Michael Otekunrin
CONTRIBUTION - Inception & Construction
YEAR - 2025