“I am a proactive professional deeply involved in shaping residential and commercial facilities management projects. My adaptability to diverse challenges, different personalities, and dynamic work settings complements my robust organizational and analytical skills.
INFO
Phone No. (515}-916-3473
Timpeter@iastate.edu
Timilehin695@gmail.com
https://www.linkedin.com/in/timi -
As a collaborative team player, I possess strong interpersonal skills, troubleshoot effectively, and steer projects toward successful outcomes. My hands-on experience in architecture extends beyond traditional design, encompassing graphic and product design, showcasing my commitment to innovative, functional solutions.
Through practical experiences, I’ve honed my ability to merge innovation with meticulous attention, navigating complex project landscapes. This amalgamation of skills and practical expertise ensures a seamless blend of innovation and practicality in every project.”
EDUCATION
2023Date
Iowa State University, Ames,IA. USA.
Master of Architecture
CAD PROFICIENCY
Revit Archiecture
Rhino
3ds Max Vray
Adobe Photoshop
Adobe Indesign GrassHopper
2023Date 20152019
Olabisi Onabanjo University. Ogun State. Nigeria. Bachelor of Achitecture.
Thesis: A Study On The Adaptation of Renewable Energy in Nigerian Museums
WORK EXPERIENCE
Iowa State University, Ames. IA, College of Design Teaching Assistant.
Sketchup
Twinmotion
2024
- Building Science and Technology 1&2
- Architecture History Survey from ancient Architecture through 1700 CE
- Histories and Theories of Architecture after 1750 CE
LSU Coastal Ecosystem Design Studio Intern.
-Ecosystem design of N.Broad corridor and adjacent neighborhood using urban green infrastructure for storm water and ecosystem.
Collaborated with professionals, produced construction specs, authored designs, participated in meetings, researched trends, coordinated technicians, aided tenders.
This design build studio, allowed students to partner with a local children’s care to create a playground for children age 3-12.
RESEARCH
Meeting with the clients highlighted their interests, needs, and priorities, guiding our design process as we refined ideas, explored local precedents, and researched materials to create a functional and cost-effective solution.
INSPIRATION
Drawing from precedent projects, client wishlist, and their imagination. The students created a vision of what their playground is to be.
EXECUTION
After a number of iteration, we came up with a new plan that featured 5 different sections, which was later narrowed down to 3 for time purposes. We placed them in a waving pattern throughout the property with the arch at the front, welcoming guests as they come down the driveway.
MOUNT PRAIRIE FLOWER.
This arch structure is designed for multiple purposes. Primarily, it serves as a welcoming entrance to the playground, as its name suggests. Additionally, it functions as a climbing structure for children.
The structure is primarily composed of 2” x 6” wooden members, which are sandwiched together to form a sturdy frame. This frame is anchored to concrete piles driven 2 feet into the ground, connected through a pin system for added stability.
MOUNT PRAIRIE FLOWER
A Climbing structure and agility structure for children to play on. Features a climbing mountain and Horizontal Deck.
The structure comprised of wooden frame made from 2”x 6” wood member in a truss like structure with angle greate than 45 degrees. The structure is attachced to a 12” diameter concrete tube, 24” into the ground.
Top Deck
Rock Climbing
Mount Prairie Flower Garden
Fire Ring Horizontal Ladder Home base
To create the structual strenght a sand wich system was employed, bring in three layer of the panels to form a wing.
Interior wooden frame made from 2 x 6 wood members
Diagonal truss system made from 2”x6” wood members.
Exterior wooden frame made from 2 x 6 wood members
1”X6” Wooden panels.
For structural stablity the trust were design to form at different angles greate the 45 degrees
FOUNDATION DETAIL
Steel L-Bracket
Concrete Pile, 2’ into the ground
2” X 6” Wooden members
FABRICATION AND CONSTRUCTION
Concrete Pile 2’ into the ground
4” x 4” wooden post
Steel Bracket bolted into the concrete pile
The project aims to create a continuous prototype of the existing Droukas court in Des Moines to serve as one of the solutions needed to accommodate displaced people. Taking into cognizance the demerits of the existing development and executing a solution in the new development.
Using the analysis of the climatic factor of the site sun direction, wind pattern and noise pattern played a major role in space planning, position and the zoning of each section of the development.
Concept/ Grid.
The site development was concluded by juxtaposing the two contrasting arrangements and creating a link between them. The green areas were used to zone the site into different categories, which are the high-density areas and the low-density areas (dwelling). The high-density area, in this case, is the community centre that also serves the community outside Droukas Court, hence its position being close to a major road. Giving room for social interaction through the creation of various green areas that can be used for such purposes. The green areas also serve as a lot of demarcation for each apartment.
Home in a Heartland - Droukas Court
Iowa State University. Ames IA.
Master of Architecure. MArch.
Professor in Charge: Andrew Gleeson
Sustainability.
Following the SFI standard cut-down, trees were replaced and evenly distributed across the site to advance sustainability. The trees also serve as a screening methodology for each apartment based on the arrangement.
Community Center New Droukas Court
Perpective of the Existing and Proposed Development
Quick Trip
Our Lady of the Americas Parish
Car Park
Old Droukas Court
Holy Family School
Car Park
CommunityCenter NewDroukas Court
Elevation - Bungalow
Section - Bungalow
Perspective View of The Bungalow
EcoSystem Design For N.Broad Corridor
Lousiana State University, CEDS
Baton Rouge, LA
2024 Summer Intership
Supervisor: Dr. Traci Birch
Sustainable Ecosystem Design for N. Broad Corridor
The N. Broad Corridor project integrates urban green infrastructure to manage stormwater and enhance the local ecosystem. It began with analyzing flood patterns using historical data and hydrological models to identify high-risk areas.
Site visits and consultations with stakeholders, including local communities and environmental organizations, provided valuable insights into flooding issues and their socio-economic impacts.
Collaborating with a team, the project focused on equitable solutions, blending best practices and community feedback. Partnerships with non-profits helped secure funding through grants and philanthropic support. Research into green infrastructure, such as green roofs, urban forests, rainwater harvesting, and improved drainage, informed tailored interventions.
These efforts culminated in a detailed implementation plan, fostering a sustainable, resilient environment for the N. Broad Corridor and its neighborhoods.
Based on our study of the metropolis, the team developed a site transect illustrating the zoning districts. This transect specifically maps the area from New Orleans along Broad Street, spanning from Lower Mid-City to the Treme neighborhood. The districts include the Light Industrial District, Mixed-Use District, and Residential Districts. The accompanying flood map highlights the extent of sedimentation caused by flooding across the
This transect specifically maps the area from New Orleans along Bayou rd, spanning from Treme-Neighborhood to the Seventh ward district. The districts include the Business districts, residential disctrict, a mixture of both and open spaces.
The accompanying flood map highlights the extent of sedimentation caused by flooding across the area. Deeper color representations on the map indicate higher levels of flood sedimentation.
Elevation and Flood Conditions - Potential Flood Surfaces and High Flood Risk.
Bayou St. John
Andre Cailoux Park and Musician Lot
Norman C. Francis Parkway
Broad Street and Lafitte Ave with Callouts
Andre Cailoux Park and Musician Lot
Broad Street
Proposed Green Infrastructure Area : 11,950 sq. ft
Approx. Construction Cost : $224,301$454,100
Approx. Maintenance Cost : $6,692$13,623
Approx. Total Cost : $230,994$467,723
Approx. Total Water Volume Capture: -With Green Infrastructure - 17,130 gallon
Green Roof - Delta World Tire Shop
Designed a guest suite and studio for two architects on the site of Frank Lloyd Wright’s Spring House in Tallahassee, drawing inspiration from the existing development and Ledoux’s Cooper’s House design.
The project incorporates two geometric concepts from precedent studies, capturing an organized underlying grid. The exterior facades employ a proportional and regulatory strategy, establishing a harmonious relationship between the individual parts and the overall design.
This approach creates a cohesive and integrated aesthetic, reflecting both the historical context and innovative architectural principles, while enhancing the functionality and visual appeal of the guest suite and studio
Professor in Charge: Andrew Gleeson
A B Jacobs Rd.
Okeeheepkee Rd
Existing Development
A. Existing Development
B. New Development Geometry Pattern that gave rise to the new development
Crafted within a tranquil, imaginary hideaway, a geometrically-inspired work cabin emerges, its design dictated by an allocated extruded shape and a structured grid. Limiting its footprint to a maximum of 500 square feet and height to no more than 15 feet, the cabin caters to essential functionalities:
The Program.
1. Workspace (desk with area for computer and crafts)
2. Relaxing Space (reading area, bookshelves, whatever else you deem fit)
3. Water closet (sink, toilet)
4. Small storage (closet, or otherwise)
5. Small outdoor deck/balcony/stoop.
Design Concept. Octagon.
The Geometer’s Cabin Iowa State University. Ames IA.
Master of Architecure. MArch. Professor in Charge: Andrew Gleeson
Ground Floor Plan
Mezzanine Floor Plan
Sectional Axonometry
Axonometry
Des Moines Art Center - Couryard Design
Iowa State University. Ames IA.
Master of Architecure. MArch.
Professor in Charge: Peter Zuroweste.
DesMoines Art Center: Iowa State University
DMAC is excited to present the inaugural “Cinemato(po)graphies Festival” this summer, showcasing art from our collection paired with curated films every week. Each theme, art piece, and film will change weekly, culminating in Friday and Saturday evening screenings, discussions, and art viewings led by guest curators. We seek architectural proposals adaptable for two modes: Screening on weekends and Default mode on weekdays.
Proposals include:
- Temporary projector booth and screen
- Mobile seating for 100-200 attendees
- New aperture in DMAC wall for art display and visual connectivity
- Wooden canvas-roof for rain-proof screenings and art viewings
- Consideration for shade and sunlight during Default mode
- Optional elements to increase weekday visitation and courtyard engagement.
- While the reflection pool adds a serene ambiance, we’re open to ideas involving its partial or full draining. Innovative engagement with water elements in the courtyard is encouraged for playful interaction
The floor plan optimizes movement circulation, integrating a temporary pool platform to enlarge the courtyard’s capacity. Positioned atop this platform, the elevated screen enhances ambiance while providing relief from scorching summer temperatures. This innovative design caters to both functionality and atmosphere, offering an immersive cinematic experience amidst natural cooling elements
On weekdays, the courtyard transforms into a vibrant hub for cyanotype art. Movable seating and table blocks offer flexibility for creative arrangements. This adaptable setup encourages interaction and collaboration among users, fostering a dynamic artistic community. With cyanotype art as the primary activity, the courtyard becomes an open canvas for imagination to flourish
