MCROH
Microgrove
Construction Arrival Perspective

Microgrove

Perspective of the MICROGROVE 3D printed Biscayne Bay housing and research community with ongoing construction and wildlifePerspective of the MICROGROVE 3D printed Biscayne Bay housing and research community with ongoing construction and wildlifePerspective of the MICROGROVE 3D printed Biscayne Bay housing and research community with ongoing construction and wildlifePerspective of the MICROGROVE 3D printed Biscayne Bay housing and research community with ongoing construction and wildlife
Perspective of the MICROGROVE 3D printed Biscayne Bay housing and research community with ongoing construction and wildlife

A coastal research community where elevated, 3D-printed homes mimic mangroves—integrating renewable systems and reef-like foundations to sustain marine life while adapting to tides. The layers of the 3D-printed concrete pillars create textured surfaces, allowing marine life to attach, fostering coral growth, and stabilizing the underwater ecosystem. Ongoing construction mirrors natural growth as structures evolve with the bay, forming a regenerative network where architecture, ecology, and climate resilience merge.

Perspective of the MICROGROVE 3D printed Biscayne Bay housing and research community with ongoing construction and wildlife

Perspectives

Emblematic

Competitions

Housing

Infrastructure

Ecology

RELATED RESEARCH IMAGES

RELATED PROJECT IMAGES

Underwater perspective of divers enjoying and researching the local ecology of Biscayne Bay below the aquatic permacultureUnderwater perspective of divers enjoying and researching the local ecology of Biscayne Bay below the aquatic permacultureUnderwater perspective of divers enjoying and researching the local ecology of Biscayne Bay below the aquatic permacultureUnderwater perspective of divers enjoying and researching the local ecology of Biscayne Bay below the aquatic permaculture
Combination section and plan drawings of the MICROGROVE 3D printed housing community in MiamiCombination section and plan drawings of the MICROGROVE 3D printed housing community in MiamiCombination section and plan drawings of the MICROGROVE 3D printed housing community in MiamiCombination section and plan drawings of the MICROGROVE 3D printed housing community in Miami
Plan drawing of the private Crow’s Nest sleeping and meditation room at the top of the MICROGROVE 3D printed homePlan drawing of the private Crow’s Nest sleeping and meditation room at the top of the MICROGROVE 3D printed homePlan drawing of the private Crow’s Nest sleeping and meditation room at the top of the MICROGROVE 3D printed homePlan drawing of the private Crow’s Nest sleeping and meditation room at the top of the MICROGROVE 3D printed home
Interior view of a woman reading a book in the lounge of the 3D printed MICROGROVE home with a net lounge aboveInterior view of a woman reading a book in the lounge of the 3D printed MICROGROVE home with a net lounge aboveInterior view of a woman reading a book in the lounge of the 3D printed MICROGROVE home with a net lounge aboveInterior view of a woman reading a book in the lounge of the 3D printed MICROGROVE home with a net lounge above
Aerial perspective of the clustered MICROGROVE 3D printed house layout connecting units side by side with gangwaysAerial perspective of the clustered MICROGROVE 3D printed house layout connecting units side by side with gangwaysAerial perspective of the clustered MICROGROVE 3D printed house layout connecting units side by side with gangwaysAerial perspective of the clustered MICROGROVE 3D printed house layout connecting units side by side with gangways
Botanical concept sketch of a typical mangrove plant with roots below the water and thin structure rising aboveBotanical concept sketch of a typical mangrove plant with roots below the water and thin structure rising aboveBotanical concept sketch of a typical mangrove plant with roots below the water and thin structure rising aboveBotanical concept sketch of a typical mangrove plant with roots below the water and thin structure rising above
Axonometric diagram of the various components of the MICROGROVE 3D printed house unit with attached gangway and interiorAxonometric diagram of the various components of the MICROGROVE 3D printed house unit with attached gangway and interiorAxonometric diagram of the various components of the MICROGROVE 3D printed house unit with attached gangway and interiorAxonometric diagram of the various components of the MICROGROVE 3D printed house unit with attached gangway and interior
Diagram showing the construction methods and components within the MICROGROVE housing system of 3D printing aquatic homesDiagram showing the construction methods and components within the MICROGROVE housing system of 3D printing aquatic homesDiagram showing the construction methods and components within the MICROGROVE housing system of 3D printing aquatic homesDiagram showing the construction methods and components within the MICROGROVE housing system of 3D printing aquatic homes
Upper perspective showing residents and researchers walking on the gangway paths attached to the 3D printed concrete homesUpper perspective showing residents and researchers walking on the gangway paths attached to the 3D printed concrete homesUpper perspective showing residents and researchers walking on the gangway paths attached to the 3D printed concrete homesUpper perspective showing residents and researchers walking on the gangway paths attached to the 3D printed concrete homes
Sunset perspective from the upper balcony of the 3D printed Miami home on Biscayne BaySunset perspective from the upper balcony of the 3D printed Miami home on Biscayne BaySunset perspective from the upper balcony of the 3D printed Miami home on Biscayne BaySunset perspective from the upper balcony of the 3D printed Miami home on Biscayne Bay
Section drawing of an individual MICROGROVE 3D printed housing unit for use in Miami’s Biscayne BaySection drawing of an individual MICROGROVE 3D printed housing unit for use in Miami’s Biscayne BaySection drawing of an individual MICROGROVE 3D printed housing unit for use in Miami’s Biscayne BaySection drawing of an individual MICROGROVE 3D printed housing unit for use in Miami’s Biscayne Bay
Perspective of researchers studying the permaculture aquatic plants and algae growth farming integratedPerspective of researchers studying the permaculture aquatic plants and algae growth farming integratedPerspective of researchers studying the permaculture aquatic plants and algae growth farming integratedPerspective of researchers studying the permaculture aquatic plants and algae growth farming integrated
Interior perspective of a man cooking in the MICROGROVE 3D printed home with built in cabinetry and woodworkInterior perspective of a man cooking in the MICROGROVE 3D printed home with built in cabinetry and woodworkInterior perspective of a man cooking in the MICROGROVE 3D printed home with built in cabinetry and woodworkInterior perspective of a man cooking in the MICROGROVE 3D printed home with built in cabinetry and woodwork
Plan drawings of the dock, permaculture, and gangway system for the MICROGROVE 3D printed housing community in MiamiPlan drawings of the dock, permaculture, and gangway system for the MICROGROVE 3D printed housing community in MiamiPlan drawings of the dock, permaculture, and gangway system for the MICROGROVE 3D printed housing community in MiamiPlan drawings of the dock, permaculture, and gangway system for the MICROGROVE 3D printed housing community in Miami
Perspective of the Crow’s Nest reflection and resting zone of the 3D printed microhome in MiamiPerspective of the Crow’s Nest reflection and resting zone of the 3D printed microhome in MiamiPerspective of the Crow’s Nest reflection and resting zone of the 3D printed microhome in MiamiPerspective of the Crow’s Nest reflection and resting zone of the 3D printed microhome in Miami
Plan drawing of the cabin spaces of the MICROGROVE 3D printed house combining the lounge and galley kitchen/bathPlan drawing of the cabin spaces of the MICROGROVE 3D printed house combining the lounge and galley kitchen/bathPlan drawing of the cabin spaces of the MICROGROVE 3D printed house combining the lounge and galley kitchen/bathPlan drawing of the cabin spaces of the MICROGROVE 3D printed house combining the lounge and galley kitchen/bath

OTHER PROJECTS

Infrastructure as urban performance. Serving as both a backdrop to elegant theatrical dances and a framework for holding a wandering public, the Dance Machine enacts performance through both its program and its existence as a merged urban extension of the Queensboro Bridge.
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.
The YELE music studio competition, underway before the earthquake, must respond now, but plan for the future of the community. Music is relief in a time of tragedy. The goal is to meet the most basic survival needs now while leaving spaces for future growth through self sustaining phases.
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.
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.
Seeing Park Avenue as an underutilized zone that connects four vibrant neighborhoods from 42nd Street to 144th Street, Infrastructural Infill is a study testing the potential to locate a combination of mixed-use housing and transportation in the residual spaces caused by urban infrastructure.
The CART live/work housing prototype adds a vertical profile to downtown while converting an underutilized public path into an urban gesture by introducing of a specialized food cart zone in New Haven. The CART residents would rent and appropriate the moving space as a means of expanding their zone.
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.

OTHER RESEARCH