The field research trip to the Bayou Dupont long distance sediment pipeline for marsh creation was part of the Advanced Research in Coastal Ecological Design Seminar, “Objects of Coastal Restoration” taught by Justine Holzman in the Spring of 2015, as a collaboration among upper division Landscape Architecture students and the LSU Coastal Sustainability Studio to capitalize on the critical mass forming around local coastal issues and the built environment to take a stance and position on design’s relationship to coastal restoration. Complementing the overarching theme, the course is composed of two major components addressing specific research agendas within the LSU CSS. First, the development of content for the Expanded Small Scale Physical Model Exhibition Space. And second, continue to research and test methodologies for transdisciplinary collaboration between science and design fields by addressing the importance and agency of visualization and communication across disciplines.
The course received additional funding and support from the Coastal Sustainability Studio and the Coastal Protection and Restoration Authority.
The Realities and Realms colloquium focuses on the role of computation and robotics in landscape architecture and the expanding sensorial field of the built environment. These hybrid grounds of operation merge anthropogenic perception and technological mediation. As sensing networks expand, data grows exponentially in quantity and ubiquity, building an increasingly abstract landscape of information. How such data is elucidated, curated, and augmented forms new realities for design. This colloquium will explore design methodologies that address concurrent physical and virtual realms and the realities in which they operate.
In this context, a realm is a lens through which we sense an environment and a reality is place within which we take action. The Realities and Realms colloquium engages select practitioners, theorists, and academics for an afternoon to explore the future of responsive technologies to interpret and modify environment. Panelists will posit trajectories that frame the role of responsive technologies to imagine, choreograph, and evolve cyborg landscapes and synthetic ecologies.
The colloquium will be organized in two panel sessions followed by open discussions, exploring the tools, practice, theories, and futures of responsive technologies in landscape architecture.
Opening Remarks and Panel Introductions
Bradley Cantrell, Associate Professor of Landscape Architectural Technology, Harvard GSD
Justine Holzman, Assistant Professor, John H. Daniels Faculty of Architecture, Landscape and Design, University of Toronto
Session 1: Realities
Sara Dean, Assistant Professor of Graduate Design, California College of the Arts
Alexander Robinson, Assistant Professor, University of Southern California
David J. Klein, Director of AI, Conservation Metrics, Inc.
Nataly Gattegno, Co-founder Future Cities Lab, Chair of Graduate Architecture, California College of the Arts
“Perhaps all boundaries are illusory, whether erected by ourselves through our lack of information about the nature of things, or by the choice of an oversimplified (or even over-complicated) model of reality?” —John D. Barrow, Impossibility: The Limits of Science and the Science of Limits, 1998
Advances in sensing technologies have fundamentally altered the methods in which the landscape is known and modified, ranging from oil exploration and precision agriculture to interplanetary autonomous rovers. The ability to sense, virtualize, and simulate environmental phenomena has resulted in a variety of composite physical and digital realities that often exist simultaneously across multiple temporal moments and scales. While responsive technologies further the blurring between physical and digital space, this mode of understanding the landscape by means of measurement and modeling requires a turn to the landscape, which has always been the principal practice of landscape architecture.
With the increasing accessibility of responsive technologies and open data acquired from sensing networks, what realities emerge? How can architects and designers craft new realms to engage this liminal space between the physical and the digital? How have sensing technologies shaped contemporary discourse, and how might we engage directly with their design and deployment? What models are necessary to engage real-time feedback in landscape systems?
Session 2: Realms
moderator: Erle Ellis, Professor, Geography & Environmental Systems, University of Maryland, Baltimore County
Rob Holmes, Assistant Professor of Landscape Architecture, Auburn University
Kathy Velikov, Associate Professor, Taubman College of Architecture and Urban planning, University of Michigan; co-founder, RVTR
Liam Young, Fiction and Entertainment Coordinator, SCI-Arc
“What landscape futures might we explore when entire terrains are internally mechanized, given partial sentience, and able to interact with one another wirelessly, over great distances of time and space?” —Geoff Manaugh, Landscape Futures, 2013
Responsive technologies, altered biology, and cybernetic ecologies are already influencing and shaping the landscape at various scales and velocities. Examples are seen at the planetary scale through the domestication of flora and fauna, at the continental scale through infrastructure and ecological maintenance, and at the territorial scale through contemporary agriculture. There is a complexity to the anthropogenic influence on ecological systems that ranges far beyond the scale of human interaction or intent. New fields of innovation and application are emerging which present strategies for synthetic biology, robotic ecology, and geo-engineering. For instance, technological advances have been made in precision agriculture to optimize agricultural production while implementing a framework for large-scale water resource conservation.
What regions and scales of influence are implicated in the re-shaping and the modification of the environment through responsive technologies? What role does design play in large-scale environmental management? How can we identify areas of innovation and engage the territorial scale without determining future scenarios?