LA Futures by Smout Allen

Bartlett Design Research Folios

Smout Allen LA Futures

BARTLETT DESIGN RESEARCH FOLIOS

Smout Allen LA Futures

SMOUT ALLEN

LA FUTURES

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CONTENTS

1 (previous) #LATBD map table and models. 2 Line drawing for Crown of Mirrors model.

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Project Details

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Statement about the Research Content and Process

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Introduction

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Aims and Objectives

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Questions

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Context

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Methodology

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Dissemination

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Project Highlights

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Bibliography

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Related Publications

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3 As Los Angeles’ demography and landscape changes, so too do the constellations above. This complex architectural zodiac gives context to a design proposal for seven projects in the city.

PROJECT DETAILS

Project Details Authors

Laura Allen and Mark Smout

Co-author

Geoff Manaugh

Title

LA Futures

Output Type

Design and exhibition

Research Period

2015 to 2016

Design Proposals Freeway Astrolabe, Tower of Stars and Memory, Crown of Mirrors, Slow Fountain, Drift City, Earth Observatory, Fault Power Exhibitions

#LATBD, Treasure Room, University of Southern California Libraries, Los Angeles (15 October 2015 to 31 January 2016); LA Recalculated, Chicago Architecture Biennial (10 March 2015 to 1 March 2016)

Curators Nathan Masters (#LATBD); Joseph Grima, Creative Director of Design Academy Eindhoven, and Sara Herda, Director of the Graham Foundation for Advanced Studies in the Fine Arts for (LA Recalculated) Partners

USC Libraries

Funding £15,000 USC Libraries; £6,000 The Bartlett Architecture Research Fund (ARF); £6,000 The Bartlett Architecture Projects Fund (APF); £5,000 British Council Artists’ International Development Fund (AIDF); $6,000 Chicago Architecture Biennial Research Assistants Doug Miller, 3D modelling and fabrication; Harry Grocott, 3D modelling, fabrication and robotic milling; Sandra Youkhana, 3D modelling

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Statement about the Research Content and Process Description

Methodology

This project explores some of the key forces that have shaped Los Angeles – urbanisation, the freeway system, the history of global astronomy, the city’s unstable geological substratum and the pervasive existence of oil extraction infrastructure – to propose alternative future urban scenarios. The project culminated in the design of seven architectural proposals, commissioned for two exhibitions.

1. Identify and reflect on histories of geological and scientific relevance specific to LA by researching cartographic and photographic material at the USC Libraries and Archives; 2. Interdisciplinary collaboration between two designers and a writer to share and expand on ecological and hydrological knowledge, including critically studying a set of interviews;

Questions

3. Model design, drawing and making as tools of research interpretation, integration and proposition.

1. How have LA’s subterranean oil fields influenced its urban development from the late 1900s until today?

Dissemination

2. In what ways can architectural design and modelling integrate information and techniques from geomorphology, geology and seismography to interpret and visualise complex subterranean conditions?

LA Futures has been exhibited five times in the US and the UK, including at the USC Doheny Memorial Library, the Chicago Biennial and the Royal Academy of Arts, London. The project has featured in numerous articles, including one authored by Smout Allen published in the journal Hidden. Other articles and reviews have featured in the national and international press, including The Architect’s Newspaper and Vice. It has been the subject of invited talks in the US and UK, including UC Berkeley, College of Environmental Design and the American Institute of Architects – Baltimore Chapter.

3. In what ways can new infrastructures monitor the city’s subterranean conditions but also constructively influence its future urban development? 4. How can experimental architecture that forms a dynamic, dependent and deep-time relationship with geomorphological processes generate greater knowledge and contribute to current architectural practice?

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STATEMENT ABOUT THE RESEARCH CONTENT AND PROCESS

Project Highlights

LA Futures was commissioned by two venues with important international and intellectual reach: The USC Doheny Memorial Library in LA and the inaugural Chicago Architecture Biennial in 2015. The Biennial invited over 100 practices from 30 countries to participate, and attracted more than 500,00 visitors.

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STATEMENT ABOUT THE RESEARCH CONTENT AND PROCESS

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4 Fault Evaluation Report Map, 1985. The fault-zone boundary is indicated in yellow; fault traces in red.

5 Postcard showing Signal Hill, also known as ‘Porcupine Hill’, c.1920. 6 Street and Section Map of the Los Angeles Oil Fields, 1906.

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Introduction

He has been the author of BLDGBLOG since 2004, exploring architecture and the built environment through an expansive lens. His bestselling BLDGBLOG Book (Chronicle Books) was one of Amazon’s ‘Books of 2009’. LA Futures was commissioned by the University of Southern California (USC) Libraries at the end of a 12-month Discovery Fellowship by Manaugh. The brief was to respond to the USC archival holdings and consider the intersection of artistic and scientific disciplines on the theme of the LA landscape. The project was subsequently exhibited in #LATBD (LA To Be Determined) at USC (1). LA’s future is one of intense speculation; its development influenced by the risk of catastrophic earthquakes and shifting ground alignments. Reflecting on the ‘deep context’ of the city, the project explores landscape conditions that are geological and astronomical in nature, and typically fall outside the remit of architectural design. It responds to two main themes: LA as a site of astronomical observation and scientific experiment, and of shifting alignments and unstable ground conditions. Geological information and the city’s relationship with urban crude are critical to the design investigation, and can inform our understanding of fragile and threatened landscapes in the future. Speculative architectural design in the earthquake zones of south California by American architect Lebbeus Woods are an influence, and are referenced here. LA Futures asks if the city can be an urban-scale research facility; a living device in which hypothetical instruments and influential architectures are developed. Diverse futures for LA are examined – narrative, scientific, architectural and landscape – and realised in the design of seven architectural proposals. These were presented in the form of 3D-modelled architectural landscapes atop a large graphic map table for the exhibition #LATBD. Fictional and factual items were

LA Futures stems from Smout Allen’s long-standing interest in landscapes that are undergoing dynamic transformation as a result of environmental processes and emerging cultural and climate change. There are currently few cities which are more affected by the climate emergency than LA. The city has long been defined by its dense urban landscape and notorious suburban sprawl, which has grown simultaneously with the boomtown infrastructure of petrochemical extraction. Although extraction has now declined, urban life remains interwoven with a network of 41 active oil fields and 3,000 active wells (Barragan 2014). The city is constantly breached by seeps of toxic hydrocarbons, some permanent, such as the La Brea Tar Pits, where crude oil has formed large pools of liquid asphalt which release clouds of methane gas. In addition, LA is situated in the most seismically active region in the US – the notorious San Andreas Fault and many others converge and dissect the city – and it experiences as many as 10,000 earthquakes a year. LA’s history of ecological and terrestrial fragility is paralleled with developments in planetary sciences, ecological monitoring and astronomical observation. The extreme LA landscape is, therefore, perfectly suited to Smout Allen’s focus on hydrogeological issues, and offered the opportunity to advance the practice’s research with reference to USC’s archival holdings. LA Futures continues Smout Allen’s working relationship with writer Geoff Manaugh who is an LA-based writer and author on issues relating to cities, design, crime, infrastructure and technology. Manaugh regularly contributes to The New York Times Magazine, The New Yorker, New Scientist, Wired and many other publications.

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INTRODUCTION

woven together and were accompanied by speculative game design, narrative writing, interactive text, extracts of interviews, as well as collections from the USC Archives. The developed proposals were also presented at the inaugural Chicago Architecture Biennial as a series of eight lightbox paintings (67). See pp. 18–28 for a brief summary of each design proposal.

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7 Playa del Rey oil field, looking north on Pacific Avenue, 1930. 8 Tar pushes up through cracks in the sidewalk on Wilshire Boulevard, near the La Brea Tar Pits.

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INTRODUCTION

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9 Tower of Stars and Memory crystal model. Past and future events are sub-surface laser etched onto a glass block.

10 Slow Fountain model. Slow fountains attuned to percolating ground fluids gather and mix in pools and reservoirs. The model shows oil, tar and liquid asphalt seeping up to the surface.

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INTRODUCTION

11–2 Models representing Mount San Antonio and Mount Wilson, and their experimental apparatus.

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Freeway Astrolabe

To revitalise and extend LA’s sense of celestial responsibility, the city’s infamous freeway system is transformed into a functioning, urban-scale astronomical observatory. Frames, gates and other ornamental structures, including acid-engraved lines on various roads and bridges, align the fabric of the city with the stars (13–4, 31).

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13 Aerial view of the Four Level Interchange in downtown LA, 1959.

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14 Digital drawing of Freeway Astrolabe model, road view.

INTRODUCTION

Tower of Stars and Memory

This design is sited in the parking lot of the Dodger Stadium. The stadium was built in the 1950s during a notorious period of development in LA. The Chavez Ravine Mexican-American community were displaced to make way for the stadium and are subsequently commemorated there. A series of 360-degree planetariums resembling shrouded chapels observe geological and astronomical deep time (15–6, 32).

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15 Dodger Stadium construction site, 1961. 16 Tower of Stars and Memory. Exploded 3D drawing of planetarium.

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17 Tower of Stars and Memory, unfolded drawing. Information is arranged in logarithmic height scale and includes the streets of Chavez Ravine, a NASA Space Shuttle Endeavour memorial flight, the Kármán Line, the International Space Station and the Lyra Constellation.

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Crown of Mirrors

This design responds to American physicist Albert A. Michelson’s apparatus to measure the speed of light at an architectural scale. An assemblage of rotating hexagonal prisms and parabolic mirrors, partially veiled by slatted timber enclosures, align with an observation platform that looks towards Mount Wilson. A zone of surrounding rock face is slowly but continually scoured by a polishing stone, which is attached to armatures that record a physical trace of planetary time (18–20, 33).

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18 Foundation column of an old observation hut on Mount San Antonio, 2014. 19 Crown of Mirrors, exploded axonometric. 19

20 Sketch by Smout Allen incorporating remnants of Michelsen’s experiment.

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INTRODUCTION

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Slow Fountain

Slow Fountain reinterprets LA’s civic fountains, capturing a plentiful supply of hydrocarbons in liquid and gaseous forms. A large central fountain, constructed from the pipes and valves of LA’s oil industry, performs a choreography of flows and drips against a landscape of terraformed hills and valleys, palm trees and methane ‘pools’ (21–3, 27, 34).

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21 Colour linen postcard depicting the William Mulholland Memorial Fountain at the entrance to Griffith Park, c.1940. 22 Slow Fountain, exploded drawing.

23 Slow Fountain, early sketch drawing.

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INTRODUCTION

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Drift City

A field of deep subterranean pendulums, borrowing the technology of tuned mass dampers – typically large and heavyweight swinging pendulums of concrete or steel that stabilise buildings by responding to movement and oscillating freely at the natural frequency of the structure – are hung beneath the city to sway and counter sway with every quake. Above street level, a platform of umbrella-like structures mirrors underground movements (24, 29).

24 Drift City section drawing.

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INTRODUCTION

Earth Observatory

The United States Geological Survey (USGS) deploy a variety of fault monitoring instruments from which spatial and temporal data is collected. In this design, eight sets of creep metres are laced across the void of a deep fault trench. The slackening and tightening movement of these creep metres monitors the slow displacement of the geological substrata of the city and can be observed from above ground and subterranean laboratories (25, 28, 30).

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25 Earth Observatory section drawing.

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Fault Power

The endless jostling of the city, whether due to tectonic activity or its relentless cycle of demolition and construction, can be tapped as a new source of renewable energy. Vast flywheels convert seismic disturbance into future power, spinning beneath generation facilities built throughout the city’s sprawl. A ‘garden’ of beacons registers the fluxing power generation and reserve (26, 35).

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26 Line drawing of Fault Power model.

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INTRODUCTION

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27 Line drawing of Slow Fountain model. 28 Line drawing of Earth Observatory model.

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INTRODUCTION

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29 Drift City drawing, depicting a newly installed field of underground pendulums that protect the city’s infrastructure from collapse.

30 Earth Observatory drawing depicting a vast instrument, constructed from ropes and cables, buried beneath the city. The instrument reacts to and measures movement by tectonic plates, and is observed by a team of scientists stationed there.

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INTRODUCTION

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31 Freeway Astrolabe drawing. The city’s widely maligned landscape of freeways and parking lots has been narratively reinvigorated with the installation of gates, frames and other architectural horizon lines, aligning the grain of the city with the solstices, stars and future constellations.

32 Tower of Stars and Memory drawing depicting planetariums that connect the city with no-longer visible stars. It also gives simulated views into the Earth’s interior.

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INTRODUCTION

33 Crown of Mirrors. 34 Slow Fountain.

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35 Fault Power.

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AIMS AND OBJECTIVES / QUESTIONS

Aims and Objectives

Questions

This research aims to explore how specific geological and historical events have and continue to influence LA’s urban landscape. It sets out to examine:

1. How have LA’s subterranean oil fields influenced its urban development from the late 1900s until today, and how have they informed new urban design approaches?

1. Historical archival and cartographic materials to generate and share greater knowledge and understanding of geologically active landscapes and their impact on urban environments;

2. In what ways can architectural design and modelling integrate information and techniques from geomorphology, geology, seismography and astronomy? How can they best interpret and visualise complex subterranean conditions, such as fault paths and oil seeps, that can be useful for landscape and urban design disciplines?

2. The design of technological and instrumental landscapes, responding to narrative concepts that investigate futures for the city’s urban oil landscape;

3. In what ways can new infrastructures monitor the city’s subterranean conditions? Can alternative infrastructural systems, such as battery powered alternatives to fossil fuels, constructively influence future urban development?

3. The symbiotic relationship between the built and natural environment in the making of architectural scenarios.

4. How can experimental architecture generate greater knowledge and contribute to current architectural practice? Imagining alternative and, in this case, more symbiotic ways of living or inhabiting the landscape.

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Context

laboratory’ in which architecture is devised as an instrumental device: Tools for extending perceptivity to all scales of nature are built spontaneously, playfully, experimentally, continuously modified in home laboratories, in laboratories that are homes […] each object – chair, table, cloth, examining apparatus, structure – is an instrument; each material thing connects the inhabitants with events in the world around him and within himself (Woods 1992).

LA Futures researches LA’s geological potential and its relationship with the urban landscape. It draws from work by the Centre for Land Use Interpretation (CLUI), a nonprofit organisation based in LA. CLUI have recorded how the landscape of LA is interwoven with the infrastructure of petrochemical extraction, exploiting the reserves of some of the most productive wells in history. Flows of methane and helium and sticky pavement stains contribute to the ad hoc petroleum landscape of spills, vents, gas detectors and methane alarms, which reveal the volatility of the earth below. Matthew Coolidge, CLUI’s Director, leads tours of this dispersed network and writes ‘the petroleum industry operates in the cracks, corners and edges, hidden behind fences, and camouflaged into architecture, literally pulling oil out from under the feet of the city’s inhabitants’ (Coolidge 2006) (36–7). In exploring LA as a site of astronomical observation and scientific experimentation, this project responds to the work of physicist Albert A. Michelson who conducted a series of experiments in the 1920s to accurately measure the velocity of light in the mountains beyond the city. Sending pulses of light from Mount Wilson to Mount San Antonio, 22 miles east, Michelson measured the speed of the returning light reflected off an intricate apparatus of multifaceted revolving mirrors (38). Crown of Mirrors attempts to materialise the instruments of scientific study at a building and urban scale. LA Futures revisits two projects by architect Lebbeus Woods. Both projects present architecture as responsive to dynamic geomechanical forces and were instrumental in the design proposals, where architecture is similarly presented as dynamic and reactive to Earth’s elemental forces. Firstly, Underground Berlin (1988) imagines a subterranean ‘living

Inhabiting the Quake (1995), meanwhile, envisions a series of organic and responsive projects for San Francisco: Quake City, Slip House and Fault Houses explore the possibilities for an architecture that: In its conception, construction and inhabitation comes in to new and potentially creative relationships not only with the effects of earthquakes, but more critically with the wide nature of which they are a part (Woods 1997).

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CONTEXT

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36 Map of the Las Cienagas Jefferson drill site, showing a web of at least 30 diagonal wells radiating out and under the local residential area, 2017.

38 The Packard Well site disguised as an office building, however, aerial photos reveal oil derricks operating 51 wells that extend from a void behind its façade.

37 Schematic by Albert A. Michelson of the Mount Wilson apparatus set-up, c.1920.

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39 #LATBD map showing use of a gameboard graphic, featuring images from the USC Archive.

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40 USGS Geological section no. 11, LA Basin to San Gabriel Mountains. 41 Earthquake Faults of California, 1980.

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METHODOLOGY

Methodology

2. Researching material from the USC Libraries photographic archive

Research began with scrutiny of photographic archival material, maps and geological data, as well as interviews conducted by Geoff Manaugh. The interviewees included: Lucy Jones, USGS Seismologist; Jeff Watson, USC Assistant Professor of Interactive Media and Games; Edwin C. Krupp, Director of the Griffith Observatory; Erik Davis, writer; Nathan Masters, historian; and John Carpenter, filmmaker. The interviews revealed concepts and opinions that were critical in imagining LA as a discontiguous ground or a liquid landscape, and were instrumental in our decision to conceive the projects as geographically independent architectures, anchored only to the influence of their geological or astronomical environment. Extracts from the interviews were incorporated into the material exhibited at USC. All material was critically interpreted to form the basis for an iterative design process that led to a set of architectural, urban and landscape proposals (39).

The USC Digital Library holds extensive historical archives of maps, land-use surveys, Works Progress Administration projects, photos, posters, audio and video recordings. A set of photographs, maps and postcards were selected that depict LA’s infrastructural transformation. This included buildings that were moved or demolished in preparation for civic projects, the construction of the Dodger Stadium, the denaturing of the LA River with concrete embankments, tangled networks of freeways and the incision of tunnels. The selected material illustrates the accomplishments of the Mount Wilson Observatory and records the encroachment and subsequent retreat of the city’s oil fields. The process of terraforming – the regrading of contours and flattening of hills – is depicted in the selected imagery. Terraforming opens up the city to suburban sprawl and car culture, providing accessible land for housing speculations and faster road networks. It also eradicates above-ground indications of the natural topography and significant geological circumstances of the LA landscape (41–8).

1. Researching cartographic material

In order to understand the geography of LA, map analysis was undertaken, including the use of 1:24,000 quadrangle topographic maps, geological sections, Google Earth imagery, fault maps, oilfield and wellhead maps, bathymetric maps and the USGS interactive earthquake map. The data revealed the complex physical geography of LA and the forces of human inhabitation that leave marks and contend for space within the city’s dense fabric (40).

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42 Aerial view of LAX, facing northeast, 1951. The picture has been edited to highlight the runway system. In the foreground are houses and fields; in the distance the city extends and tapers off towards a mountainous border.

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43 Santa Monica Freeway under construction, looking east from Hoover Street, 1961.

METHODOLOGY

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44 Construction of an unidentified bridge. 45 Exterior view of Mount Wilson Observatory in snow, c.1930s.

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46 Fort Moore Hill High School being moved across Temple Street and Broadway, 1886. 47 Chavez Ravine evictions, 1959. 48 Griffith Observatory under construction, 1933.

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49–51 Development sketches.

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3. Model design as a tool of research interpretation, proposition and communication

Hand drawings of seismic devices and civic installations are translated into digital 2D-drawing files, which in turn become 3D-data files (51). Sectional drawings of geological strata indicating the relationship between geophysical features, such as faults, rock types and oil deposits, are extrapolated for eight significant cross-sections across the LA basin. The chosen sites and their interpreted geological strata are translated into a milling pattern for the five sides of each timber model base (53–4). The timber for the models was chosen as it has a soft, fine and even grain, and has been used for intricate carving for thousands of years. Each model base, measuring 400 × 280 × 280 mm, is topped with blue high-density polyurethane model ‘foundry’ board, which is finely milled by a six-axis robot into complex forms. This represents the local site context and immediate footprint of each proposal (55–8). The remaining elements are modelled from a mix of 3D printing and traditional analogue-modelling techniques.

A series of models were devised to examine and communicate architectural, urban and landscape concepts for LA. The models are presented as independent dioramas, each atop an extracted geological core, which is represented by a deep wooden base. A range of analogue and digital processes were used, including sketching and developing, sketch modelling, digital modelling, CADCAM manufacturing and 3D printing (59–61). The models in this context take on numerous roles: they are a vital step in the creative process and in 3D thinking, enabling speculation on practical alternative designs; they are artefacts of the research and design process; and they make thinking visible. Via prototypes and maquettes – so-called ‘study models’ of yet-to-be-realised ideas – pragmatic concepts such as programmatic requirements, spatial relationships, proportion and material qualities are iterated. More significantly, however, the model allows for freedom of interpretation. As a reflective device for both the designer and viewer, the model is more than simply an interlocutor between the design and realisation of architecture, and most importantly for this research project, is ‘a proposal for, and an abstraction of, the world’ (Barikin 2013).

The making process Design begins with sketches that establish links with site and context. As well as examining the communication of technical and cultural concepts, such as site, terrain, geological features, time and scale, these drawings provide the first stage in a design progression to measured drawings for digital-manufacturing processes.

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METHODOLOGY

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52 #LATBD model plans.

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53 Extracted geological section (left) translated into a milling pattern (right). 54 Milling tool paths are arranged to be sympathetic to the timber grain so that they contribute to the demonstration of geological terrain.

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55 Digital image of model bases in elevation, showing the sequence of combined milled patterns and demonstrating the geological terrain.

METHODOLOGY

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56 Polyurethane model board during the milling process. 57 Layering of modelling materials: blue model board on robot-milled lime base. 58 Each base was hand finished and oiled. The natural grain of the wood contributes to the machine marks and demonstrates the geology of the model landscape.

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59 Each design is digitally modelled to enable the production of 3D-printed elements. These are composed in a process similar to kit modelling, and are dyed and augmented with hand-modelled brass and plastic components.

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60 Drift City (foreground) and Slow Fountain (background), depicting layering of materials, including lime-wood blocks, milled model board and 3D-printed architectural models.

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61 Earth Observatory final model proposal. 3D-printed components are set into a base of Perspex and milled model board.

METHODOLOGY

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Dissemination

Project Highlights

LA Futures has been shown at a number of exhibitions in the UK and internationally, in full or partial form:

LA Futures has been exhibited at important international venues with a wide intellectual reach, including The USC Doheny Memorial Library in LA (62–3, 65–6) and the Royal Academy of Arts in London. Smout Allen were chosen to participate in the inaugural Chicago Architecture Biennial in 2015, alongside over 100 practices from 30 countries. The Biennial is a major international architectural event and in its first year attracted more than 500,000 visitors (64, 67).

· LA Recalculated (extract, drawing), Roca London Gallery (2019–20) · LA Recalculated (extract, drawing), Taubman College, University of Michigan, Ann Arbor (2018–9) · Summer Exhibition 2016, Royal Academy of Arts, London (2016) · #LATBD, Treasure Room, USC Libraries, Los Angeles (2015–6) · LA Recalculated, The Chicago Architecture Biennial (2015–6) The project was published in one article by the authors in the journal Hidden (2015). It has been extensively written about by Geoff Manaugh on his aclaimed blog BLDGBLOG. It has been the subject of five invited talks in the US and UK: · AIA Baltimore and Baltimore Architecture Foundation Spring Lecture Series (2016) · Norwich School of Architecture (2016) · Greenwich School of Architecture, London (2015) · UC Berkeley, College of Environmental Design (2015) · USC Libraries and the USC Sidney Harman Academy for Polymathic Study, Los Angeles (2015)

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DISSEMINATION /PROJECT HIGHLIGHTS

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62–3 #LATBD exhibition. 64 Lightbox fabrication for LA Recalculated.

65 Visualisation of the #LATBD exhibit in the Doheny Library Treasure Room, USC.

66 #LATBD exhibition board game.

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67 LA Recalculated, Chicago Architecture Biennial.

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Bibliography

Morrison, M. and Morgan, M. eds (1999). Models as Mediators: Perspectives on Natural and Social Science. Cambridge: Cambridge University Press. Ulin, D. L. (2005). The Myth of Solid Ground: Earthquakes, Prediction, and the Fault Line Between Reason and Faith. London: Penguin. USGS Earthquake Hazards Programme (2018). ‘Earthquake Hazards’. USGS. [Viewed 6 December 2020]. www.usgs.gov/naturalhazards/earthquake-hazards Velikov, K., Salomon, D., Dwyre, C. and Perry, C. (2014). ‘Ambiguous Territory: Architecture, Landscape, and the Postnatural’. Taubman College. [Viewed 6 December 2020]. https://taubmancollege.umich.edu/ research/ambiguous-territory Woods, L. (1992). OneFiveFour. New York: Princeton Architectural Press. Woods, L. (1997). Radical Reconstruction. New York: Princeton Architectural Press.

California Geological Survey (2014). Fault Evaluation Report FER 253 and Supplement No. 1: The Hollywood Fault. [Viewed 6 December 2020]. https://planning.lacity.org/eir/8150Sunset/ DEIR/RDEIR/Technical_Appendices/ Appendix%20B%20-%20Fault%20 Evaluation%20Report%20Supplement%20 and%20Golder%20Responses%20to%20 LADBS%20Comments.pdf Coolidge, M. (2010). Urban Crude: The Oil Fields of the Los Angeles Basin. [Viewed 6 December 2020]. http://clui.org/ sites/default/files/exhibits/online/index.html Davis, T. L. (2016). Thomas L. Davis, Geologist. [Viewed 6 December 2020]. www.thomasldavisgeologist.com Fox, W. L. (2006). Making Time: Essays on the Nature of Los Angeles. Berkeley: Counterpoint. Mahood, T. (2019). ‘Historic Speed of Light Measurements in Southern California’. OtherHand. [Viewed 6 December 2020]. www.otherhand.org/home-page/physics/ historical-speed-of-light-measurementsin-southern-california/ Manaugh, G. (2014). ‘The Fiery Underground Oil Pit Eating L.A.’. Daily Beast. [Viewed 6 December 2020]. www.thedailybeast.com/ the-fiery-underground-oil-pit-eating-la Michelson, A. A. (1924). ‘Preliminary Experiments on the Velocity of Light.’ The Astrophysical Journal. 60. pp. 256–6. Michelson, A. A. (1927). ‘Measurement of the Velocity of Light between Mount Wilson and Mount San Antonio.’ The Astrophysical Journal. 65. pp. 1–20.

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BIBLIOGRAPHY / RELATED PUBLICATIONS

Related Publications by the Researchers Allen, L. and Smout, M. (2015). ‘L.A. Recalculated’. Hidden. 28. pp. 238–57. Manaugh, G. (2016). ‘Inland Sea’. BLDGBLOG. 16 July. Manaugh, G. (2016). ‘L.A. Recalculated’. BLDGBLOG. 25 May.

Related Writings by Others Business Wire (2015). ‘Discovering L.A.’s Future Through Its Archives – And Some 3D-Printed Plastic’. Business Wire. Korody, N. (2015). ‘Geoff Manaugh, Smout Allen, and Co. Investigate the Future of Los Angeles in a New Exhibition at the USC Libraries’. Archinect. Letaw, J. A. S. (2015). ‘Chicago Architecture Biennial: Too Long; Didn’t Read’. Archinect. Messner, M. (2017). ‘Over 40 Practices Imagine the Post-Human, Post-Natural World’. The Architect’s Newspaper. Pacheco, A. (2015). ‘8 Architectural Models Depict the Future of LA’. Vice. Velikov, K., Salomon, D., Dwyre, C. and Perry, C. (2012). ‘Ambiguous Territory: Aesthetic Practices Against Agrilogistics’. Footprint. 12 (2). pp. 154–5.

Printed article

Online article (clickable link)

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Image Credits

Bartlett Design Research Folios

All images © Smout Allen, unless otherwise stated.

ISSN 2753-9822

Photo: Richard Stonehouse USC Library Archive 5 Department of Archives and Special Collections, William H. Hannon Library, Loyola Marymount University 6 Geography and Map Division, Library of Congress 7, 42, 44–46 CC BY 3.0. Credit: University of Southern California Libraries and California Historical Society. Digitally reproduced by the USC Digital Library; from the California Historical Society Collection at the University of Southern California 8 Photo: Geoff Manaugh 13 Security Pacific National Bank Collection / Los Angeles Public Library 15 USC Digital Library. Los Angeles Examiner Photographs Collection 18, 37 Photo: otherhand.org, T. Mahood 36 Stand Together, Redeemer Community Partnership 40 T. L. Davis 41 E. V. Terry 43 State of California Department of Public Works, Division of Highways. Sacramento, California 47–48 California Historical Society, Collection Division of Highways. Sacramento, California 1, 9

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2022 SERIES

Design for Learning AY Architects

Poikilokydric Living Marcos Cruz

Life of Clay Guan Lee

Audialsense Paul Bavister

Warsaw Karowa Bridge DKFS Architects

Flood House Matthew Butcher

Photosynthetic Architecture ecoLogicStudio

Digital Manual Guan Lee, Daniel Widrig

Instruments Nine and Ten Nat Chard Coworking Spaces Izaskun Chinchilla Architects Organic Growth Pavilion Izaskun Chinchilla Architects TransDisciplinary PostDigital FrAgility Marjan Colletti + REX|LAB

Discrete Timber Architecture Gilles Retsin LA Futures Smout Allen

Kew House Tim Lucas

Infractus Smout Allen

Losing Myself Yeoryia Manolopoulou, Níall McLaughlin

A Register of User Adaptations Storp Weber Architects

Oxford Projects Níall McLaughlin Architects

Uncovering Casa Sperimentale Storp Weber Architects

High Street Regeneration Jan Kattein Architects

Funicular del Tibidabo Miàs Architects

Oxford North Jonathan Kendall

The Cloud Miàs Architects

Cork Construction Oliver Wilton, Matthew Barnett Howland

Hakka Cultural Park Christine Hawley, Abigail Ashton, Andrew Porter, Moyang Yang

Alga(e)zebo mam

55/02 sixteen*(makers)

Chong Qing Nan Lu Towers mam

Envirographic and Techno Natures Smout Allen

City of Ladies Penelope Haralambidou Discrete Methods for Spatial Robotic Extrusion Manuel Jiménez García, Gilles Retsin

Playing the Picturesque You + Pea

2015 SERIES

Bloom Alisa Andrasek, José Sanchez House of Flags AY Architects Montpelier Community Nursery AY Architects Design for London Peter Bishop 2EmmaToc / Writtle Calling Matthew Butcher, Melissa Appleton River Douglas Bridge DKFS Architects Open Cinema Colin Fournier, Marysia Lewandowska The ActiveHouse Stephen Gage Déjà vu Penelope Haralambidou Urban Collage Christine Hawley

House Refurbishment in Carmena Izaskun Chinchilla Architects Refurbishment of Garcimuñoz Castle Izaskun Chinchilla Architects Gorchakov’s Wish Kreider + O’Leary Video Shakkei Kreider + O’Leary Megaframe Dirk Krolikowski (Rogers Stirk Harbour + Partners) Seasons Through the Looking Glass CJ Lim Agropolis mam

ProtoRobotic FOAMing mam, Grymsdyke Farm, REX|LAB Banyoles Old Town Refurbishment Miàs Architects Torre Baró Apartment Building Miàs Architects Alzheimer’s Respite Centre Níall McLaughlin Architects Bishop Edward King Chapel Níall McLaughlin Architects Block N15 Façade, Olympic Village Níall McLaughlin Architects

Hydrological Infrastructures Smout Allen Lunar Wood Smout Allen Universal Tea Machine Smout Allen British Exploratory Land Archive Smout Allen, Geoff Manaugh 101 Spinning Wardrobe Storp Weber Architects Blind Spot House Storp Weber Architects

Regeneration of Birzeit Historic Centre Palestine Regeneration Team

Green Belt Movement Teaching and Learning Pavilion Patrick Weber

PerFORM Protoarchitecture Lab

Modulating Light and Views Patrick Weber