FVDC
Modular Fab Tower
Delivery & Connection Diagrams

Modular Fab Tower

Diagrammatic illustrations showing how and where the delivery and connections of the FVDC units would take placeDiagrammatic illustrations showing how and where the delivery and connections of the FVDC units would take placeDiagrammatic illustrations showing how and where the delivery and connections of the FVDC units would take placeDiagrammatic illustrations showing how and where the delivery and connections of the FVDC units would take place

RELATED RESEARCH IMAGES

RELATED PROJECT IMAGES

Axon and plan drawings of the Nakagin Capsule Tower calling for FVDC modular housing to forget using the same unitAxon and plan drawings of the Nakagin Capsule Tower calling for FVDC modular housing to forget using the same unitAxon and plan drawings of the Nakagin Capsule Tower calling for FVDC modular housing to forget using the same unitAxon and plan drawings of the Nakagin Capsule Tower calling for FVDC modular housing to forget using the same unit
Overall building tower plan with three units, vertical circulation and plan on each floor with FVDC unit delivery systemOverall building tower plan with three units, vertical circulation and plan on each floor with FVDC unit delivery systemOverall building tower plan with three units, vertical circulation and plan on each floor with FVDC unit delivery systemOverall building tower plan with three units, vertical circulation and plan on each floor with FVDC unit delivery system
Board combining the various concepts and drawings for the FVDC project for presentationBoard combining the various concepts and drawings for the FVDC project for presentationBoard combining the various concepts and drawings for the FVDC project for presentationBoard combining the various concepts and drawings for the FVDC project for presentation
Set of diagrams illustrating the raw volume potential to be assembled and infilled by various delivered FVDC modular piecesSet of diagrams illustrating the raw volume potential to be assembled and infilled by various delivered FVDC modular piecesSet of diagrams illustrating the raw volume potential to be assembled and infilled by various delivered FVDC modular piecesSet of diagrams illustrating the raw volume potential to be assembled and infilled by various delivered FVDC modular pieces
Diagram concept combining various modular concepts into the FVDC housing tower: framework, delivered units, lift, and gasketsDiagram concept combining various modular concepts into the FVDC housing tower: framework, delivered units, lift, and gasketsDiagram concept combining various modular concepts into the FVDC housing tower: framework, delivered units, lift, and gasketsDiagram concept combining various modular concepts into the FVDC housing tower: framework, delivered units, lift, and gaskets
Diagram of automated parking structures as a basis for swapping units in the FVDC housing proposalDiagram of automated parking structures as a basis for swapping units in the FVDC housing proposalDiagram of automated parking structures as a basis for swapping units in the FVDC housing proposalDiagram of automated parking structures as a basis for swapping units in the FVDC housing proposal
Section sketch looking at the assembly system for delivery multiple components of a house at will in FVDCSection sketch looking at the assembly system for delivery multiple components of a house at will in FVDCSection sketch looking at the assembly system for delivery multiple components of a house at will in FVDCSection sketch looking at the assembly system for delivery multiple components of a house at will in FVDC
Series of diagrams explaining the shortcomings of the Capsule Tower and Zip-Up House to be tested with FVDCSeries of diagrams explaining the shortcomings of the Capsule Tower and Zip-Up House to be tested with FVDCSeries of diagrams explaining the shortcomings of the Capsule Tower and Zip-Up House to be tested with FVDCSeries of diagrams explaining the shortcomings of the Capsule Tower and Zip-Up House to be tested with FVDC
Diagrams from Richard Rogers' Zip-Up House as the basis for proposing modular units that can be zipped together for FVDCDiagrams from Richard Rogers' Zip-Up House as the basis for proposing modular units that can be zipped together for FVDCDiagrams from Richard Rogers' Zip-Up House as the basis for proposing modular units that can be zipped together for FVDCDiagrams from Richard Rogers' Zip-Up House as the basis for proposing modular units that can be zipped together for FVDC
Series of diagrams illustrating the relationship between the unit volumes, the central shaft and the FVDC structural systemSeries of diagrams illustrating the relationship between the unit volumes, the central shaft and the FVDC structural systemSeries of diagrams illustrating the relationship between the unit volumes, the central shaft and the FVDC structural systemSeries of diagrams illustrating the relationship between the unit volumes, the central shaft and the FVDC structural system
Elevation drawing of the skinny housing cylinder with units and shared spaces weaving throughout the FVDC towerElevation drawing of the skinny housing cylinder with units and shared spaces weaving throughout the FVDC towerElevation drawing of the skinny housing cylinder with units and shared spaces weaving throughout the FVDC towerElevation drawing of the skinny housing cylinder with units and shared spaces weaving throughout the FVDC tower

OTHER PROJECTS

The challenge of creating a pair of studio apartments that can fill a lifted 16'x16' void necessitates the creation of a quick, mobile, and opportunistic building system that can react to the found conditions of the site. Access to the site is limited and the ground must be free.
Scaffolding is often seen as a temporary urban necessity—functional, but rarely celebrated. This project reimagines scaffolding as an architectural intervention and public art piece throughout Española Way, transforming it into a vibrant, interactive element in Miami Beach’s urban fabric.
Framework: Inverted Square Pyramid (FW:ISP) reimagines the traditional pyramid by flipping it upside down, shifting its focus from the cosmos to the people. The structure’s apexes become seating points within a flexible, interactive framework that encourages public engagement and play.
University Island is a swirling shapeshifter, in both the landscape and the architecture, that offers it’s undefined field of opportunities to the students and anticipates that each will discover and produce their own individual relationship with the island and their education.
In Tempe there are two pedestrian axes: Mill Avenue and Palm Walk. Mill Avenue is successful and Palm Walk is not. Is there a way to make the palm trees useful to the students? The PEP structure is powered by buried hydraulic pressure systems giving vertical movement to the layer/palm interface.
Space has become redundant again. Popular culture is uninterested in the goings-on in space. Once achieved, mans absurd relation with space becomes yesterdays news. To become relevant to the public, CASIS must be an amenity and not a mission. Instead of promoting an HQ, make it a public interface.
Seating design is vital in fostering communal interactions in shared spaces. Rooted in the organic growth principles of the Metabolist movement and the transformational geometric language of digital Metaballs, Meta-Bench forms an experiential seating system which individuals can move and adjust.
Expanding the mission of the local Biscayne National Park Institute, MICROGROVE is a living research community designed for scientists, ecologists, researchers, and eco-tourists, dedicated to the study, restoration, and increased social awareness of coastal ecosystems.

OTHER RESEARCH