Summary
Work History
Education
Skills
Links
Collegiateexperience
Buildingdetails
Parking - Minimumspaces
Designobjectives
Tasks
Timeline
Generic

Romeo Kidd

Durham,NC

Summary

Hardworking and passionate job seeker with strong organizational skills eager to secure entry-level Civil Engineering position. Ready to help team achieve company goals. Organized and dependable candidate successful at managing multiple priorities with a positive attitude. Willingness to take on added responsibilities to meet team goals. Detail-oriented team player with strong organizational skills. Ability to handle multiple projects simultaneously with a high degree of accuracy. To seek and maintain full-time position that offers professional challenges utilizing interpersonal skills, excellent time management and problem-solving skills. Hardworking Student offering part-time work experience and extensive knowledge of core subject matter. Meticulous and detail-oriented with excellent observational, organizational and communication skills. Effective Student committed to learning, developing skills in [Area of expertise] and team contribution. Self-directed and energetic with superior performance in both autonomous or collaborative environments working independently and collaborating with others on group projects.

Work History

Student

North Carolina A&T State University
05.2024 - 05.2024
  • The Aggie Multifamily project in Apex, North Carolina
  • Apex supports its small-town charm while being considered a suburb of Raleigh, with a population of around 63,000 residents
  • The developer, Withers Ravenel, is a multidisciplinary consulting firm based in Cary, North Carolina
  • The property is owned by North Carolina A&T State University, in Greensboro, North Carolina
  • This exciting project features three apartment buildings
  • Have also created a special amenity space where residents can come reach their workout goals and aspirations in their very own gym
  • It is all part of a commitment to designing spaces that truly enhance people's lives.
  • Skilled at working independently and collaboratively in a team environment.
  • Proven ability to learn quickly and adapt to new situations.
  • Self-motivated, with a strong sense of personal responsibility.
  • Worked effectively in fast-paced environments.

  • The project is situated in Greensboro, North Carolina
  • Key Players: Developer: Withers Ravenel Property Owner: North Carolina Agricultural and Technical State University Project Features: There will be constructing 3 apartment buildings
  • Additionally, there is a special amenity space planned for residents to enjoy
  • Zoning Category: The zoning designation for this project falls under High Density Multi-family (HDMF).

  • Building Footprint: There needed to be 3 multifamily buildings with identical footprints
  • Building Height: Each building must be 4 stories tall
  • Unit Composition: There will be a total of 28 units per building: 16 one-bedroom units 12 two-bedroom units Zoning Considerations: The High-Density Multi-family (HDMF) zoning conditions require a minimum building setback of 10 feet.

Student

Graduate
01.2024 - 05.2024
  • Building Footprint: There needed to be 3 multifamily buildings with identical footprints
  • Building Height: Each building must be 4 stories tall
  • Unit Composition: There will be a total of 28 units per building: 16 one-bedroom units 12 two-bedroom units Zoning Considerations: The High-Density Multi-family (HDMF) zoning conditions require a minimum building setback of 10 feet.

  • Building Footprint: You need three multifamily buildings with identical footprints
  • Building Height: Each building must be four stories tall
  • Unit Composition: There will be a total of 28 units per building: 16 one-bedroom units 12 two-bedroom units Zoning Considerations: The High-Density Multi-family (HDMF) zoning conditions require a minimum building setback of 10 feet.

  • Three Multifamily buildings with the same footprint
  • Each building must be four stories tall
  • 28 units per building (16 one-bedroom units, 12 two-bedroom units)
  • HDMF zoning conditions extend building setback to a minimum of 10 feet.

  • Minimum of 126 vehicle parking spaces (as per Unified Development Ordinance) Requirements: Building Footprint and Units: You need three multifamily buildings with the same footprint
  • Each building will be 4 stories tall
  • There will be a total of 28 units per building: 16 1-bedroom units and 12 2-bedroom units
  • Parking Spaces: The Unified Development Ordinance (UDO) mandates a minimum of 126 vehicle parking spaces
  • Make sure to account for this in your design
  • Zoning Designation: Your project falls under the High-Density Multi-Family (HDMF) zoning category
  • Amenity Space: Include at least one amenity space for residents to enjoy
  • This could be a communal lounge, fitness center, rooftop garden, or any other attractive feature
  • Stormwater Management: Ensure that your design can manage peak outflows for the 1-year storm.

  • Required to include three (3) multifamily buildings with the same footprint that will be provided on site
  • Each building will be 4 stories tall and will have 28 units, made up of 16 1‐bedroom units and 12 2‐bedroom units
  • A minimum of 126 vehicle parking spaces will be required according to the Unified Development Ordinance (UDO)
  • The zoning designation for this project is High Density Multi-Family (HDMF)
  • Required to include at least one amenity space for residents to enjoy
  • Required to match peak out flows for the 1-year storm.

  • Optimal Land Utilization: Maximizing the use of available land while adhering to UDO and HDMF zoning regulations and ensuring efficient space allocation for buildings, parking, and amenities
  • Functional and Appealing Building Design: Creating aesthetically pleasing multifamily buildings that blend well with the surrounding environment while providing comfortable living spaces for residents
  • Stormwater Management: Implementation of effective stormwater drains to mitigate the impacts of heavy rainfall events, including matching peak outflows for the 1-year storm to prevent flooding and erosion
  • Accessibility and Connectivity: Designing pedestrian-friendly pathways and ensuring easy access to amenities, parking areas, and building entrances for residents of all abilities
  • Sustainable Practices: Integrating sustainable design principles into the project such as green spaces, and stormwater retention features to minimize environmental impact and promote long-term sustainability
  • Community Engagement and Interaction: Creating an interactive amenity space that fosters a sense of community among residents, promoting social interaction and recreational activities
  • Safety and Security: Including measures enhancing the safety and security of residents, including well-lit pathways, security cameras, and secure access to buildings and parking areas.

  • Frequent use of AutoCAD
  • Placements and Drawings: - Inputting the placement of parking spaces
  • Drawing the subgrade present in the site
  • Elevations: - Input the elevations of each point on the building using the contour lines of the site
  • Indicate the direction of storm drainage occurring within the site
  • Infrastructure: - Input the water lines and sewer lines that occur in the site and lead them to existing pipes in the streets
  • Add in grates and sewer holes to the sites
  • Boundary Lines and Grading: - Define boundary lines of the building and the site
  • Calculate grading of the site based on boundary lines
  • Ensure balanced cut and fill grades (green and red bars graph)

  • Volunteer: PEER: Mentor Duke sensor Saturday Academy (academic year enrichment program)
  • 65 hours over the course of the academic year
  • Aided in preparations for classes
  • Ensured all students stay on task
  • Kept track of lab materials in each group.

Volunteer

Duke Sensor Academy
  • Assisted with special events and programs.
  • Maintained clean, neat, and operational facilities to serve program needs.
  • Supported engaging, fun, and smooth-running events by helping with organization and planning.
  • Used strong interpersonal communication skills to convey information to others.
  • Mentored new volunteers, fostering a supportive and inclusive team environment.
  • Promoted environmental awareness with educational workshops and hands-on activities.
  • Coordinated volunteer training sessions to ensure consistent delivery of services across teams.

Design Project Coordinator

Education

Bachelor of Science Civil Engineering -

North Carolina A&T State University
Greensboro, NC

Durham School of The Arts
Durham, NC

Skills

  • Attention to Detail
  • Teamwork
  • Problem Solving
  • Leadership
  • Data Analysis
  • Project Management
  • Time Management
  • Flexible and Adaptable
  • Dependable and Responsible
  • Multitasking
  • Excellent Communication
  • Multitasking Abilities

Links

Linkin, Indeed

Collegiateexperience

Apex, NC, The Aggie Multifamily project in Apex, North Carolina. Apex supports its small-town charm while being considered a suburb of Raleigh, with a population of around 63,000 residents. The developer, Withers Ravenel, is a multidisciplinary consulting firm based in Cary, North Carolina. The property is owned by North Carolina A&T State University, in Greensboro, North Carolina. This exciting project features three apartment buildings. We have also created a special amenity space where residents can come reach their workout goals and aspirations in our very own gym. It is all part of our commitment to designing spaces that truly enhance people's lives., Greensboro, NC, Withers Ravenel, North Carolina Agricultural and Technical State University, Three apartment buildings and a special amenity space., High Density Multi-family (HDMF)

Buildingdetails

You need three multifamily buildings with identical footprints., Each building must be four stories tall., There will be a total of 28 units per building: 16 one-bedroom units, 12 two-bedroom units., The High-Density Multi-family (HDMF) zoning conditions require a minimum building setback of 10 feet.

Parking - Minimumspaces

Minimum of 126 vehicle parking spaces (as per Unified Development Ordinance)

Designobjectives

  • Optimal Land Utilization: Maximizing the use of available land while adhering to UDO and HDMF zoning regulations and ensuring efficient space allocation for buildings, parking, and amenities.
  • Functional and Appealing Building Design: Creating aesthetically pleasing multifamily buildings that blend well with the surrounding environment while providing comfortable living spaces for residents.
  • Stormwater Management: Implementation of effective stormwater drains to mitigate the impacts of heavy rainfall events, including matching peak outflows for the 1-year storm to prevent flooding and erosion.
  • Accessibility and Connectivity: Designing pedestrian-friendly pathways and ensuring easy access to amenities, parking areas, and building entrances for residents of all abilities.
  • Sustainable Practices: Integrating sustainable design principles into the project such as green spaces, and stormwater retention features to minimize environmental impact and promote long-term sustainability.
  • Community Engagement and Interaction: Creating an interactive amenity space that fosters a sense of community among residents, promoting social interaction and recreational activities.
  • Safety and Security: Including measures enhancing the safety and security of residents, including well-lit pathways, security cameras, and secure access to buildings and parking areas.

Tasks

  • Frequent use of AutoCAD.
  • Placements and Drawings:
  • - Inputting the placement of parking spaces.
  • - Drawing the subgrade present in the site.
  • Elevations:
  • - Input the elevations of each point on the building using the contour lines of the site.
  • - Indicate the direction of storm drainage occurring within the site.
  • Infrastructure:
  • - Input the water lines and sewer lines that occur in the site and lead them to existing pipes in the streets.
  • - Add in grates and sewer holes to the sites.
  • Boundary Lines and Grading:
  • - Define boundary lines of the building and the site.
  • - Calculate grading of the site based on boundary lines.
  • - Ensure balanced cut and fill grades (green and red bars graph)

Timeline

Student

North Carolina A&T State University
05.2024 - 05.2024

Student

Graduate
01.2024 - 05.2024

Volunteer

Duke Sensor Academy

Design Project Coordinator

Bachelor of Science Civil Engineering -

North Carolina A&T State University

Durham School of The Arts

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Romeo Kidd