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REPRESENTATION
OF
PLACES
The Publisher gratefully acknowledges the contribution provided by the Art Book Endowment Fund of the Associates of the University of California Press, which is supported by a major gift from the Ahmanson Foundation.
Representation of Places Reality and Realism in City Design PETER
BOSSELMANN
University of California Press Berkeley
Los Angeles
London
An earlier version of Chapter 4, entitled "Times Square," was published in Places 4, no. 1 (1987). An earlier version of Chapter 6, "Urban Form and Climate," was published in the Journal of the American Planning Association 20 (1995). University of California Press Berkeley and Los Angeles, California University of California Press, Ltd. London, England © 1 9 9 8 by
The Regents of the University of California Library of Congress Cataloging-in-Publication
Data
Bosselmann, Peter. Representation of places : reality and realism in city design / Peter Bosselmann. p. cm. Includes bibliographical references and index. ISBN 0-520-20658-4 (cloth : alk. paper) 1. City planning. 2. Communication in architectural design. 1. Title. NA9031.B69
1997
7ii'.4-dc2i
97-8i
Printed in the United States of America 9 8 7 6 5 4 3 2 1 The paper used in this publication meets the minimum requirements of American National Standard for Information Sciences—Permanence of Paper for Printed Library Materials, ANSI Z39.48-1984.
For Dorit, Thea, Sophia, and Margerete
CONTENTS
Acknowledgments Introduction PART O N E :
viii
xii
A H I S T O R Y OF R E P R E S E N T A T I O N
IN CITY D E S I G N
1 Concept and Experience: Two Views of the World 2 The Search for a Visual Language in Design 3 Images in Motion PART TWO:
20
48
T H E C I T Y IN T H E L A B O R A T O R Y
4 Times Square, New York
IOO
104
5 Downtown San Francisco
120
6 Downtown Toronto: Urban Form and Climate PART T H R E E :
REALITY AND REALISM
158
7 Representing the Experience of Places 8 Representation and Design 9 Who Watches the Watchers? Notes
206
Selected Bibliography Index
223
216
186 198
166
138
2
I
ACKNOWLEDGMENTS
Many friends helped me with the preparation of the manuscript. Puja Kumar drew the historical
Jack Kent, Professor Emeritus and founder of the Department of City and Regional Planning at
maps. Cheryl Parker dedicated Tuesday morning
the University of California at Berkeley, read and
every week for an entire year to tracing thirty-nine
commented on an early draft of this book. Jay Clai-
drawings of a walk through Venice. Thomas Krone-
borne, Raymond Lifchez, and Nezar Alsayyad gave
meyer not only prepared the footprint maps and
valuable advice after reading successive versions.
completed the historical maps but also modeled,
M y friend Allan Jacobs, working in an office adja-
by computer, the Minerva Temple in Assisi. His
cent to mine on his book Great Streets, coached me
dedication went far beyond what I could reasonably
and all my helpers on mapmaking and the prepara-
expect from a busy graduate student. Jennifer Avery
tion of eye-level views. In fact, the map compari-
prepared the perspective of multiple station points
sons in Chapter 3 were triggered by his work on
in Chapter I, a challenge to her, and to anybody
streets. Allan repeatedly went over chapters of my
else, for that matter. She correctly refers to Brunel-
book and gave me his insights on how to present
leschi's view from Santa Maria del Fiore as "her
the information. I hope we can spend many more
image." Jennifer also rendered the computer images
years teaching and doing research together. Ken-
for the San Francisco chapter and supervised the
neth Craik from the Psychology Department at
production of all other computer-generated images.
U C Berkeley was responsible for the validation
Jeff Clark provided essential help with image ren-
study described in Chapter 3. He was one of the
dering in the final phase of the production. Ray
co-founders of the Environmental Simulation Lab-
Isaacs—one of the first doctoral students I have
oratory and has continued to be involved in its
met who is interested in writing on pedestrian
work. Donald Appleyard started the laboratory in
movement and the sense of time—created image
1968 after teaching and working with Kevin Lynch
sequences of the San Francisco computer model.
at the Massachusetts Institute of Technology.
Leila Pozo, who came from Milan to work at the
Donald did not see his laboratory applied to the
Berkeley Environmental Simulation Laboratory,
projects described, but his influence on this book
began the work on the San Francisco computer
is significant.
model that Ray and others completed. Mirelle Rodier inked drawings for the Times
David Van Arnam and Kaye Bock were responsible for the work of word processing. Neither of
Square chapter and prepared facade drawings for
them complained about my handwriting, although
the density study in Chapter 8 from designs pro-
it offered them plenty of opportunities. Stephanie
duced by Lotte Johansen, who came from Copen-
Fay's careful editing at U C Press strengthened the
hagen to the simulation laboratory. Lotte's work
book.
influenced all aspects of the density research. Stephano Fantuz, from Udine, came two years
Kevin Gilson, who had been involved with the Environmental Simulation Laboratory in one form
in succession to learn about visual simulation.
or another since 1979, was responsible for its day-
I am very grateful to him for arranging with offi-
to-day operation and worked on all the projects
cials in charge of the Florence cathedral to open
presented in this book. He also developed the tables
the main portal of Santa Maria del Fiore. He took
for determining correct viewing distances in Chap-
the 90-degree images of Brunelleschi's view with a
ter 7. I am very grateful to him and learned to de-
special camera. To see the heavy doors swing open
pend on his insights. William Kanemoto, who took
and reveal the famous view from inside is un-
over from Kevin in 1994, contributed a sequence of
forgettable.
images from one of the current lab projects.
Jim Bergdoll did library research for me on Leonardo da Vinci and Brunelleschi.
Tony Hiss, who was writing for the New Yorker when the Times Square project was developed,
volunteered his help and turned my matter-of-fact
I thank all my friends and my family. Dorit
descriptions of the simulations into a finished film
read the manuscript, and her comments included
script. Jason Robards volunteered to narrate the
the final changes I have made.
film. Darleen McCloud, Nicholas Quinelle, Hugh Hardy, and Kent Barwick helped direct the New York project described in the fourth chapter. T h e Toronto project (Chapter 6) was awarded as a contract to the Environmental Simulation Laboratory, but the city of Toronto insisted that I select Canadian partners. Klaus and Marjut Dunker and Robert Wright from the University of Toronto offered to help. T h e work in San Francisco (Chapter 5), chronologically the first of the three case studies, became possible with the help of two former students, Terrance O'Hare and Juan Flores, who stayed on at the laboratory after finishing their studies. M y Berkeley colleague Edward Arens was essential in carrying out the work for Toronto and San Francisco. Funding for the preparation of the manuscript came from the U C Berkeley Committee on Research, from the Beatrix Ferrand Fund at the U C Berkeley Department of Landscape Architecture, and from the Environmental Simulation Laboratory at the Institute of Urban and Regional Development, U C Berkeley. As dean of the U C Berkeley College of Environmental Design, Richard Bender has watched protectively over the growth of the laboratory and helped to expand the idea of it to New York City, where a laboratory was underwritten by the Kaplan Fund, the Vincent Astor Foundation, and the Revson Foundation. Later Dean Bender generously offered his advice and assistance to Shigero Ito and Osamu Koide, who established a similar facility at Roppongi, in the heart ofTokyo. Professor Koide invited me to Japan to join the Advanced Science and Technology Research Center at Tokyo University during the time I was working on the manuscript. M y Japanese friends Shigeru Sato, Naomishi Kurata, and Toshio Oyama gave me many opportunities to present the themes of this book to professional audiences.
x
ACKNOWLEDGMENTS
INTRODUCTION
This is a book about the visual representation of
conceptually. Charts show statistics, diagrams show
city form. It asks how the experience of cities can
flow or movement, and maps indicate structure and
be represented and explores the influence of repre-
layout. Most professional representations are like
sentation on city design. The architects, engineers,
theory in that they reduce reality into easily and
and city planners trained in the design of cities
clearly communicable facts or measurements. But
acquire the skills necessary to represent what exists
the facts remain abstract. Professionals understand
and what might become reality. But because the
conceptual representations—or claim to—but few
richness and complexity of the real world cannot be
people outside the professions can read the infor-
completely represented, they must, out of necessity,
mation, let alone understand what it would be like
select from reality an abstraction of actual condi-
to walk through the streets or neighborhoods de-
tions. For them the process of representation is a
scribed in such representations.
complex form of reasoning. What they choose to
Professionals rarely represent the way people
represent influences their view of reality and very
move through urban places, looking down streets
significantly defines the outcome of designs and
or standing in a square alone or with others—actual
plans, and thus the future form of cities.1
conditions that people can imagine. Representing
This book asks how the creation of images
the experience of urban places means showing con-
affects what gets built. How good are images as
ditions as they are perceived by the human senses,
surrogates of reality? Can images be made that rep-
chiefly vision. Animation for special-effect cinema,
resent a match between design as a product of the
sketches, photo montage, watercolor paintings,
mind and a future reality?
or computer-generated eye-level views—all these
Much has been written about the form of cities.
are better understood than conceptual representa-
People in various disciplines have explained why
tions, and for that reason some professionals have
cities have taken on their forms and how they
searched for ways to combine the conceptual
might develop in the future. Although much has
method with the vibrant and empathic experiential
also been written about ideal communities—how
method. Much is to be gained from such a union
people should live in cities—the literature includes
in representation. T h e combination might help to
comparatively little on the conception of city de-
overcome the split between sense and thought that
sign. Professional planners and designers generally
Rudolf Arnheim has termed a deficiency disease
know the power and limitations of representation,
in modern man.
but they may take for granted how representation
Professionals increasingly rely on computer
influences design thinking. An examination of the
technology to store geographic and other detailed
relationship between design, the design media, and
spatial information. They can use it to display both
reality is timely now, as the computerized produc-
conceptual and perceptual images. Although in
tion of images is changing the way designers do
practice few designers and planners have integrated
their work. It may also change their thinking about
the two modes of representation, such an integra-
design.
tion is technically possible. It would make project
Design images portray change, which members
information more accessible and proposals more
of the public view with their own concerns in
readily comprehensible to the public. But the new
mind; the representation of places to be built trig-
technology can also be employed to communicate
gers emotions as well as calculated thought. People
design more persuasively, and this possibility raises
ask who is likely to be affected by design, who will
important questions: about the documentary qual-
gain from it, and who might lose. Although the
ity of images, that is, the values and biases that rep-
people who live in cities experience urban places
resentations encourage or discourage, and about the
firsthand, design professionals explain these places
credibility of the professionals who produce them.
T h e ideas illustrated in this book have sprung from experiments conducted in the Environmental
sciences of our culture; therein lies the pleasure of studying the topic. T h e sources for this work in-
Simulation Laboratory at the University o f Cali-
clude the writings o f architects, planners, and his-
fornia at Berkeley, 2 dedicated to improving visual
torians in the visual arts as well as physicists, com-
communication in urban design. 3 Although the
puter scientists, and perceptual psychologists.
question this book tries to answer—about the influ-
I ask for patience from experts in these fields.
ence of representation on the design of cities—
T h e words "representation" and "places," frequently
might rarely be asked, the problems implicit in it
used in the text, have different meanings in the vari-
have been with us for a long time. Part O n e pre-
ous disciplines. For some, the relationship between
sents a history o f professional representation in the
visual perception and representational images is
West, where during the Renaissance Italian archi-
necessary and intimate; for others, it is unnecessary,
tects perfected conceptual and experiential repre-
artificial, and misleading. 5 Architects, engineers,
sentation in a form similar to that used by archi-
and planners belong to the first group. Their repre-
tects and urban designers today. T h e chapters o f
sentations capture elements o f reality for manipula-
Part O n e discuss urban places in Europe that have
tion (that is, design) and for presentation to others
come into being through conceptual design during
as a substitute for reality.
the centuries since the invention o f accurate town
W h e n designers speak o f representation, they do
maps in 1502. T h e analysis is based on comparative
not mean only images that show an observer what
map studies and secondary sources.
the representer has seen. More frequently, designers
Part T w o presents case studies carried out over a ten-year period in which design and planning proposals illustrated concept and experience com-
represent things they have never seen but have only imagined or invented. 6 Equally in need o f clarification, the word
bined. T h e application of more understandable
"places" refers to conditions we can imagine: inside
media has not improved all the environments stud-
or outside, in front or behind, beside something or
ied; that I can already admit at this point. T h e
someone, viewing out from, or being sheltered.
chapters o f Part T w o illustrate how the visual capa-
To choose among such conditions is part o f being
bilities o f the Environmental Simulation Laborato-
human. 7 People define places according to their
ry at Berkeley were applied to projects in N e w York
own position in space, their relation to physical
City, San Francisco, and Toronto.
space, and to fellow humans within space. But
Part Three looks at the new imaging technology
places can discourage and encourage, exclude and
that allows professionals to explain their designs
include. I use the word "places" broadly in all its
more clearly than before. T h e chapters in this sec-
dimensions—physical, social, psychological, eco-
tion of the book discuss where technology is likely
nomic, and political.
to take professional representations and where pro-
Those w h o write about the making o f places
fessionals might like to take technology to bridge
rarely concern themselves with representation, nor
the split between concept and experience. G o o d
do those w h o write about representation mention
representations improve our ability to imagine and
places. T h u s this book. It is written primarily for
to conceive designs. But those preparing such repre-
urban designers, architects, and landscape archi-
sentations also exercise control over information.
tects, w h o depend on concrete representations for
Because of the adversarial context o f city design and
their own understanding o f what they do and for
planning, professionals must appraise the aesthetic
the evaluation o f their work by others. Concrete
and ethical implications of their tools. 4
representation—that is what this book is about.
A book about images, even specialized professional images, has to draw from the various arts and
XIV
INTRODUCTION
CHAPTER
ONE
Concept and Experience: Two Views of the World
Pictures do not mimic what we see. In fact, no
the Cathedral of Santa Maria del Fiore the view of
optical system exists to mimic the tasks performed
the Baptistery San Giovanni di Firenze. Apparently
by our eyes, although now, more than 150 years
he executed the painting in perfect linear perspec-
after the invention of photography, we assume that
tive. It is known that he painted the picture on a
photography truthfully records the world around
wooden panel, although there is much speculation
us. But photography is based on a convenient geo-
in art-historical literature about both the method
metric fiction called "central projection." Picture
Brunelleschi used to produce it and the date he fin-
taking, film, television recording, and eye-level
ished it. 1 The painting is lost, and the method used
drawings rendered by hand or computer all rely on
was not recorded until after his death.
the concept of central projection, or linear perspective, a technique that offers a somewhat limited
According to his biographer Antonio Manetti, Brunelleschi's demonstration went as follows:
representation of reality. These limitations have been with us since
He [Brunelleschi] had made a hole in the panel
Filippo Brunelleschi (1377-1466) carried out an
on which there was his painting
experiment associated with the discovery of linear
as small as a lentil on the painting side of the
perspective, 1 a method for representing a place in
panel, and on the back it opened pyramidically,
a manner that approximates reality. This artisan-
like a woman's straw hat, to the size of a ducat
engineer gave Florence the magnificent dome
or a little more. He wished the eye to be placed
(1420-1436) of the cathedral, the first such engi-
at the back, where it was large, with one hand
neering accomplishment in the Western world since
bringing it close to the eye and with the other
Roman antiquity. He was also a painter. Much has
holding a mirror opposite, so that there the
been written about his experiment with a painting—
painting came to be reflected back.. .which
what Rudolf Arnheim calls Brunelleschi's peep
in being seen, it seemed as if the real thing was
show. A decade prior to the construction of the
seen. I have had the painting in my hand and
dome, Brunelleschi had painted from the portal of
have seen it many times in these days, so I can give testimony. 3
The hole was
Indeed, Brunelleschi's contemporaries must have
We can only speculate that the late-fourteenth-
been stunned when he took viewers to the exact
century invention of flat mirror glass, produced on
spot where he had painted the Baptistery. Brunelle-
the Venetian island of Murano, gave him the idea
schi had set up his painted panel on an easel, five
of a two-dimensional representation of the multi-
feet inside the cathedral's main portal. 4 He had
dimensional world around him.
drilled a hole in the center of his picture to control
Since Brunelleschi, instructions in perspective
the position of the viewer's eye. Brunelleschi asked
generally start like those in Alberti's Delia Pittura:
his viewer to look from the back of his painting
"First of all, on the surface on which I am going to
through the hole into a mirror that he held approx-
paint, I draw a rectangle of whatever size I want,
imately a foot from the painted side of the panel.
which I regard as an open window through which
T h e observer saw the reflection of the painting
the subject to be painted is to be seen." 8 In
in the mirror. When the mirror was lowered, the
Brunelleschi's experiment, the frame of the cathe-
observer could confirm the painting's accuracy
dral door (today, as in Brunelleschi's day, 3.80
by comparing the painted scene with the reality
meters wide) was his "window." The distance be-
framed by the dark doorway of the cathedral.
tween the doorway and the exact place where the
When the mirror was raised, the observer would
picture was painted was approximately 1.75 meters.
again see the reflection of the painting. A person
T h e two-to-one ratio of door width to distance
standing where Brunelleschi stood when he painted
means that a person standing where Brunelleschi
the image could see the Baptistery in the center of
stood to paint and looking out toward the piazza
the scene, the Misericordia on the left, and the
could take in a 90-degree view between the up-
Canto alia Paglia on the right.
rights of the door. 9
Brunelleschi sought to increase the realism of the
Such explicit instructions guide an effort to
picture: "For as much of the sky as he had to show,
re-create what Brunelleschi's painting must have
that is where the walls in the picture vanished into
shown and what could be seen through the hole
the air, he put burnished silver, so that the air and
in it. T h e re-creation of Brunelleschi's experiment
the natural skies might be reflected in it; and thus
clarifies the shortcomings of linear perspective.
also the clouds which are seen in that silver are moved by the wind, when it blows." 5
What is most noticeable when the cathedral's heavy doors swing open (they open only on special
More than a decade after the experiment, Leon
occasions) is the immediate presence of the Baptis-
Battista Alberti credited Brunelleschi as the inven-
tery, with the morning sun illuminating the splen-
tor of linear perspective and called it constructione
did gold panels of the Portal del Paradiso. When
legitima.6 Now, nearly six centuries later, art histori-
the eyes grow accustomed to the scene, they begin
ans believe Brunelleschi's experiment "ultimately
to take in the details of the Baptistery (the arches,
was to change the modes, if not the course of West-
the inlaid marble) and the people in front of the
ern history." 7 Brunelleschi demonstrated a tech-
Portal del Paradiso who, noticing the open cathe-
nique for representing the world as we see it.
dral doors, step inside, as if that were the normal way to enter the cathedral. All this the spectator sees while looking at the facade of the Baptistery. T h e square to the right and left is visible, but only with a turn of the head. Similarly, the sky above the Baptistery can be seen only by tilting back the head.
4
REPRESENTATION
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DESIGN
Portal del Paradiso, 17-degree horizontal angle,80 mm focal length.
C O N C E P T
AND
E X P E R I E N C E
5
View from the Portal of Santa Maria del Fiore,taken with a 90-degree angle of view, 21 m m focal length (60 m m camera format).
6
R E P R E S E N T A T I O N
IN
CITY
DESIGN
A modern camera equipped with an adjustable zoom lens can reframe the view to take in everything Brunelleschi would have seen through the frame of the cathedral door. To take in the entire 90-degree field of view, the zoom lens would have to be adjusted to a 21 mm focal length. 10 In the viewfinder (at 21 mm), however, the Baptistery appears farther away than it actually is, and the piazza more spacious. If the zoom lens is adjusted until the dimensions of the Baptistery in the viewfinder are identical to those of the Baptistery as the eye sees it, that is, to a 65 mm focal length, the field of
Portal del Paradlso, 27-degree horizontal angle,65 mm focal length.
view in the viewfinder becomes much narrower— approximately 30 degrees, or one-third of the view seen through the cathedral door frame. Although the Baptistery appears at the same distance and size, one cannot take all of it in through the viewfinder. Brunelleschi must have given distance perception serious consideration. If he wanted to verify the painting's accurate recording of the view, he must have concerned himself with the match between the objects in that view and their reflection in the mirror held up to the painting. Only if the mirror was held at the correct distance could there have been such a match. That distance would have depended on the size of the painting and the angle
Portal del Paradiso,60-degree horizontal angle, 35 mm focal length.
of the view. The view through the hole to the mirror image of the painting showed no more than what can be seen in a 30-degree cone of vision; that is, it included only slightly more than the portal of the Baptistery. The painting in all likelihood showed more; and if the hole in its back side was large enough, it might have been possible to move the eye, thus seeing the buildings and the sky Manetti so vividly described. The experiment with an adjustable focal length demonstrates one of the shortcomings of a linear perspective as a two-dimensional recording of the three-dimensional world around us. The problem lies in its imposed conditions. To close one eye and hold the head still at a single predetermined point in space is not the normal way of looking at the world. Under such conditions, matters that relate to the distance and dimensions of objects cannot be judged with certainty.
C O N C E P T
A N D
E X P E R I E N C E
7
Opposite:
It would be possible to overcome some of the
Multiple-station-point perspective.
problems inherent in linear perspective by keeping the zoom lens fixed at 65 mm and using the camera to scan the scene. The resulting series of pictures would start at the Misericordia on the left, move toward the Baptistery and the Canto alia Paglia, and end where Via de Martelli meets the piazza on the right. This photographic survey would require a matrix of pictures and would scan the scene in four horizontal rows. Photographic prints of these negatives at a size of 4 x 6 inches mounted on a large board show the full 90-degree field of view. If the photoboard is held at eye level, approximately 12 inches away, it shows the actual distance relationship the eye sees in the scene. The scene on the board can then be scanned more naturally with both eyes, which would not be limited to the narrow predetermined field of view seen in the viewfinder but could wander across the scene as they would if one were to stand in the actual place, looking at a slightly different perspective with each split-second move of the eyes. Painters of large canvases commonly practiced such multiple-station-point perspective. In a large Portal del Paradiso, c o m p o s i t e v i e w created from t w e n t y images
urban scene like a view down Venice's Grand
taken w i t h a 27-degree horizontal angle,65 m m focal length.
Canal, a CanalettO might give a detail its own focal
8
R E P R E S E N T A T I O N
IN
C I T Y
D E S I G N
inr-n
9H
J* . i t S E s ^ s
point and vanishing lines, slightly different from
such a stroll is taken in with the eyes. But all the
those of the main scene. Such a painting has a
senses work together in the experience of the
stronger spatial effect on the viewer than even a
square. The sense of touch registers the condition
very large photographic print. As the eyes of the
of the paving between the cathedral and the Baptis-
viewer wander across the canvas, the picture places
tery. Body orientation conveys a sense of the prox-
the viewer in the scene. T h e viewer appears to be
imity of walls, even those outside the field of view.
part of the picture because with every move of the
Hearing is involved. Sound is reflected back by the
eyes, a correct perspective is seen." The line draw-
buildings that frame the square. After taking such a
ing created from photographs taken through the
stroll, one can look at the Baptistery from different
portal of Santa Maria del Fiore captures the multi-
angles and judge its dimensions more accurately
ple station points of a 65 mm lens; it also captures
than before, because these now relate to the dimen-
time, showing how people opposite, in front of the
sions of the body. •
Portal del Paradiso, move on. T h e reader, holding the drawing close to the eyes, can now judge the distance to the Baptistery and the dimensions of the structure more easily. T h e eye perceives a multitude of reference points, and therefore the viewer appears to be part of the scene. Anyone interested in the dimensions of the square in front of the cathedral and the proportions of the buildings surrounding it, however, would be well advised to step out of the cathedral portal and stroll around the square. Much of the experience of
CONCEPT
AND
EXPERIENCE
9
r f "
Émr'-^
4
1/ « s i
u
.
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jü
if
,,
'
7
Whereas the physical dimensions of the real world
Map of Imola by Leonardo da Vinci, 1502, Royal Library at Windsor,
can be judged by direct experience, any future
Codex Atlantlcus, no. 12284. © Her Majesty Queen Elizabeth II.
reality has to be modeled. It is not coincidental that the art of modeling was perfected at the time that linear perspective came into use. During the Renaissance it was common to build large and precise models of building designs. James Ackerman writes that Giuliano da Sangallo built a model of St. Peter's in Rome that was big enough for a person to stand inside. 12 Brunelleschi's view tries to capture the world as the eye sees it. Almost ninety years after his experi-
IO
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DESIGN
ment, on the eve o f the Renaissance, a second method o f representing the world was perfected. Originally called ichnographia, or plan view, it is an abstraction of reality in which a place is viewed from above. Certainly the plan view does not depict a city in the way it is experienced. This method o f representation was first used, as it is used today, to show accurately the dimensions o f streets and city blocks as well as the general layout o f a city, with its relationship to surrounding places. In the first known example of a plan view resembling modern city maps, Leonardo da V i n c i drew the small town o f Imola, located on Italy's Emilia Romana halfway between Bologna and Faenza. 13 Leonardos map differs from plan diagrams like the early-ninth-century parchment of St. Gall. A l t h o u g h the historian Howard Saalman has traced the composition o f cloisters, church, and chapter hall on the St. Gall map to the great colonnaded square o f the Forum o f T r a j a n in Rome, framed by a basilica and temples, 14 the map itself represents neither historical reality nor a plan for building.
The Plan of St. Gall, early ninth century.® Stiftsbibliothek,St.Gall,
It was an organizational scene that served as a guide
Switzerland.
in the layout o f numerous abbeys from the ninth century on. Leonardo da Vinci's Imola map showed actual conditions. In 1502 Cesare Borgia commissioned Leonardo to design repairs for the city's fortifications, ruined during a siege in 1499. As Architecto e Ingegnero Generale, Leonardo drew an image o f this town that drastically departed from representations c o m m o n at the time. Late medieval plans represented cities iconically. T h e y showed a single perspective, with selected buildings chosen to symbolize the city, drawn in elevation. These buildings were distinguished in size according to their chiefly religious virtue, not their actual dimensions. For Leonardo, such a representation was o f little use. N e w ballistic methods required attention to a fortification's plan dimensions and the accurate measurement of angles. For determining exact bearings, Leonardo used a transit, known since antiquity, and a magnetic compass, 1 ' an invention
C O N C E P T
A N D
E X P E R I E N C E
Imola in comparison, 1502 and 1984.The 1984 plan view (shaded area) Is Imposed on the 1502 line drawing by Leonardo.
200 Meters
12
REPRESENTATION
IN
CITY
DESIGN
from China that had come to the Western world
New ways of looking at reality, however, can pro-
through the Arabian Sea. Leonardo also used a
voke surprising reactions from those unaccustomed
modified odometer, a device known since Roman
to them. One sixteenth-century source reports that
times, to measure distance. 16
Leonardo was ridiculed when he presented an un-
With these three instruments, Leonardo surveyed Imola and constructed an ichnographic city
solicited map of ancient Rome to the courtiers of Pope Leo X:
plan. 17 He was inspired by Leon Battista Albertis Descripto Urbis Romae, a brief description of a
In telling you something about the kind of
survey of Rome, written between 1443 and 1455.
consideration that courtiers have for men of
Although no example of Albertis survey work has
ingenuity and draftsmanship, I recall a wonder-
survived, his methodology is clear in another of his
ful cartoon which is impressed in my memory.
writings, the Ludi matematici. Apparently Alberti
A gentile intelletto had portrayed Rome as it was
did not use a compass but wrote that any point
in antiquity, not as it is now; he presented his
in a city can be fixed by establishing its polar coor-
work to the courtiers believing that they would
dinates. Using Albertis technique, Leonardo drew
express their enthusiasm for it, as it is customary
a polar grid, with the town square at the center of
of people who have no other way of prising
the map, locating all plan measurements of the
themselves than that of giving credit to the in-
town on the grid.
genuity of others. And while he was explaining
The Imola map is the earliest surviving artifact
to them how he had subdivided the city into
of the Renaissance revolution in cartographic tech-
seven parts, that is in as many parts as there are
niques. Every element of the town in the ground
hills, they started to let the wax of their candles
plan is represented as if it could be seen from an
pour down on the drawing. He was so intent on
infinite number of viewpoints, each perpendicular
his explanation that he did not notice that, and
to the earths surface. Every point on the map is
he went on saying that this is the Pantheon,
rendered equidistant from the observer. Modern
which Marcus Agrippa dedicated to all the
high-altitude photogrammetry of the town largely
Gods, and this is the Templum Pacis, and here
concurs with Leonardo's map, confirming Leonar-
are the Baths of Diocletian, here the Antoniane,
do's astonishing achievement. Since no written doc-
and again: through this passage, above such great
ument of Leonardo's technique has survived, we
columns, one could go from the main Forum
rely on a letter Raphael wrote while in service to
to the Campidoglio. In the meantime the wax
Pope Leo X, proposing to map Rome according to
of the candles continued to pour down, and
Leonardos
specifications.18
Raphael died in 1520,
before he could finish his work. •
he continued to go on by saying: here in the Vatican was the foundation of the Domus Aurea of Nero, here is the bridge of Horace, here Hadrian's sepulchre, which is now the Castle of S. Agnolo, and from which one could watch the bellum navale. And when he arrived to point out the Colosseum, the courtiers raised their candles pretending to praise the Ancients. Our good man continued his explanation, pointing out the places of the performances of the gladiators and of the fights of the wild beasts, and giving measurements of aqueducts, of painted grottoes,
CONCEPT
AND
EXPERIENCE
13
Detail, m a p of R o m e , 1736-1748. Giambattista Nolli, The
grande di Roma oiGiambattista
Pianta
Nolli in Facsimile, H i g h m o u r t , N.Y.:
J. H. A r o n s o n , 1984. N o t e t h e Theater of P o m p e i i in t h e u p p e r m i d d l e of t h e m a p b e t w e e n t h e n u m b e r s 635 a n d 633.
of the Metae, of obelisks, of the Column of
the cartoon with their candles, breaking into
Trajan, of the arches ofTitus, of Septimius, of
such laughter that one could only feel utter
Constantine, and of all the others. Then he
disgust at their behavior. 19
explained how many colossi and marble statues there were in Rome, and how many statues of
14
More than two centuries after Leonardo com-
bronze and gold; really, as I can tell you, he was
pleted his Imola map, Giambattista Nolli under-
explaining every detail in a marvellous way. And
took his famous survey of Rome. The map that re-
the courtiers, who as architects of human suffer-
sulted from his work is a high point of mapmaking.
ing could understand the Ionic, the Corinthian,
Nolli began as early as 1736 and finished in 1748.
and the Composite Orders in the same way as
He started work on the survey of Rome after being
they could understand Chaldean, Hebrew,
given an extraordinary pass by the Vicar of Rome,
Greek, and Latin, set fire to one of the sides of
Cardinal Gandagni, that reads: "Since His Holiness
REPRESENTATION
IN
CITY
DESIGN
Rome, 1991, d r a w n at t h e scale of t h e Nolli m a p using t h e same graphic conventions.
has given permission for the publication of a new,
districts. 21 In his surprisingly accurate map, Nolli
exact Map of the City of Rome, and since the
employs a simple and effective convention of using
geometra surveyor assigned to this task, Giambat-
voids to represent publicly accessible space and
tista Nolli by name, must have access and entry to
solid black to represent the coverage of buildings
all the Basilicas, churches and convents, even those
on a given block. His map holds up well in com-
of Cloistered Nuns, in order to take the necessary
parison with the detailed modern maps made for
measurements, His Holiness orders that the above-
the 1991 Atlas of Rome, 2 2 though Nolli made some
named geometra be permitted to enter with 4 or 5
interesting mistakes. For example, the representa-
Companions."
20
T h e first use of Nolli's map appears to have been
tion of the Roman ruin of the Theater of Pompeii is largely Nolli's invention. (The theater is situated
political. In 1744 a print of it was used to redefine
in the upper middle portion of the Nolli map.)
the borders of the city's fourteen administrative
T h e location is correct, and the large arch can still
C O N C E P T
AND
E X P E R I E N C E
15
Detail of a map of Rome produced at the time of the Emperor Septimus Severus, 203-211 a.d. Only fragments of the map have survived.Traced and reproduced at the same scale as the Nolli map. Note the location of the Theater of Pompeii and its orientation in the upper portion of the map.
l6
REPRESENTATION
IN
CITY
DESIGN
Location of ruins according t o an archaeological survey. Source: Carta de Centra Storico di Roma, 1988 (1:1000).Three survey maps were used t o reproduce t h e detail s h o w n here: Largo Argentina, Isola Tiberina, and C a m p o des Flori.
CONCEPT
AND
EXPERIEN
be seen in the fabric of Rome today, but the theater
about places between the clarity of abstractions
opens to the east, not the north.
(the view from above) and the befuddling richness
Over the centuries, the Nolli map has sustained
and confusion of the ground-level view. These two
its appeal. T h e map reads like a written language,
mind-sets rarely achieve balance; but when they do,
describing the dimensions of streets and piazzas,
the effect is that of a bull's-eye hit.
interiors of churches, public buildings, courts, and gardens. Nolli's graphic convention produces an abstraction of physical reality and, like all abstractions, conveys selective information. Both methods of representation, Leonardo da Vinci's and Brunelleschi's, have been developed over the past six centuries. Brunelleschi's constructione legitima made possible the invention of photography, which led to motion pictures, which led to television and now digital image recording. Leonardo's cartography developed into modern mapmaking, with photogrammetry used to record selected points through triangulation. These two methods, fundamentally the only means available for depicting the world, represent two ways of looking at and understanding that world. In the development of a human individual and of our civilization, Brunelleschi's painting represents the earlier view—an understanding of the world based on the evidence of the senses. We believe those things to exist and to be true which we can take in through our senses. Leonardo's map symbolizes our need to go beyond direct experience, to explain the structure of things, the theory behind the phenomena we can see. Both methods of representation made possible design and planning work as we know it today, remote from the actual place of construction. It is not entirely fair to associate the two men with opposing methods of representation. We admire Leonardo's sensuous paintings and sculptures as much as his meticulous engineering studies and scientific records. Likewise, the concept governing Brunelleschi's dome above Santa Maria del Fiore still inspires engineering students. Creative achievement draws from both concept and experience. The chapters that follow suggest that the two methods of representation—map and perspective— introduced a division in professional thinking
l8
REPRESENTATION
IN
CITY
DESIGN
CHAPTER
TWO
The Search for a Visual Language in Design
How to describe a city? Even for an old inhabitant
palaces, churches, obelisks, columns and other rele-
it is impossible: one can present only a simplified
vant things, rather than spending money for a work
plan, taking a house here, a park there, as symbols
whose principal merit is only that it shows the exact
of the whole.
measurement of all the places of the city." 1 T h e Graham Greene
public had little need for the highly abstract map; for orientation and as a record of memory, people
Giambattista Nolli's map of Rome and the
preferred bird's-eye views, or maps that reminded
earlier map of Imola by Leonardo da Vinci are
them of buildings by showing the facades of impor-
beautiful examples of spatial representations drawn
tant structures.
in graphic terms now commonly used in Western
Certainly Leonardo's Imola map, intended as
society but unusual for their time. Few people
a tool to assess and plan fortifications, was not
could relate the information on the maps to what
made for public consumption. Leonardo prepared
they knew existed in the real world. And even today
it in his capacity as a salaried consultant on military
many people are not entirely comfortable with the
architecture to the "splendid and magnificent"
graphic convention of maps or plan views.
Cesare Borgia—who, according to Machiavelli, the
O f course, maps of cities simplify reality; they
Venetian representative to the duke's court, con-
are intended not to contain all available informa-
quered a new fortress once a month and "arrived in
tion but—like a scientific theory—to contain
one place before it is known he has left another." 1
the least possible information, arranged as un-
In conducting his campaigns, either by subterfuge
ambiguously as possible, to permit a skilled map
or an open show of force, the duke needed to know
reader to extract an adequate image of reality.
the city's entrances and exits and the routes within
Nolli's map was not a commercial success. Only
it, and these are exactly what the map shows.
340 copies sold of the 1,874 printed. Romans of
Its abstraction is a real advantage, not only in main-
the time, like one particular art dealer of the day,
taining the secrecy of information intended for
"would have preferred a map that showed the
military use but also in obliging the reader to recog-
nize that interpretation is an integral part of repre-
alleys. Indeed, throughout history, physical changes
senting reality.
to the form of cities have been justified as a cure for
Few of Leonardo's contemporaries understood
every ailment of urban society. Reasons for placing
the Imola map. The new convention of represent-
the ruler on the map have been articulated inside
ing cities was rarely used. In fact, none of the four
and outside the profession of city planning, but the
surviving sixteenth-century maps preserved in a
placement of the line is the act of a planner because
collection of maps of Rome from antiquity to
the planner understands best the meaning of this
modern times follows Leonardo's convention. 3
graphic convention.
T h e seventeenth-century portion of the collection
Although a designer like Leonardo may have
includes eighteen maps, only two of which are
searched for new conventions in the graphic repre-
presented in ichnographic form. And even among
sentation of cities for practical military reasons,
the eighteenth-century maps, only six of thirteen
designers also experiment for reasons of profes-
(including two by Nolli) follow Leonardo's plan
sional prestige. Those who mastered Leonardo's
view. But the thirty-nine maps produced during
graphic convention achieved greater standing
the nineteenth century all follow his ichnographic
vis-a-vis those in power. A proposed design
convention, and only three show Rome in the older
no longer had to be visualized on the site. Instead,
picture-map tradition. Not until the second half
the designers could come to court and spread out
of the eighteenth century had the new convention
a plan. In doing so, they gained access to power and
taken hold among professionals concerned with
became the equals of the courtiers, who depended
the form of cities.
on them to interpret what was to become reality.
N o one except G o d could see a city from above; a plan drawn on flat material does not correspond
At the same time, as designers' access to power increased, the new graphic convention opened up
to human experience in the way a "prospect" does.
the possibility of working on large-scale projects,
The idea of seeing a city in the mind's eye from
which previously would have been possible only
above was born of the Enlightenment and its fasci-
with piecemeal design. But power and the potential
nation with rational thinking and with abstractions
to work on large-scale projects came at a price:
or generalizations.
gradually, conceptual representation removed the
Through the power of abstraction, urban plan-
designer from the reality of the site—not only from
ning became possible. A map of a town could be
the physical, or ecological, reality, but also from
made, taken to an office (sometimes in another
political, economic, and socio-psychological reality.
city), spread on a table or hung on a wall, and
The examples that follow have been selected
looked at. A professional looking at such a map
from an extensive history of city design. I have
could imagine a city as a system. Even if it seems
selected one city design per century to show the
to a pedestrian to have no clear order, layers of
gradual introduction of conceptual representations,
order are readily visible in a city drawn in plan and
from the invention of Leonardo's map of Imola
viewed from a few feet away. Cities generally have
in 1502 to the end of the nineteenth century, when
centers, boundaries, and edges. Streets connect
a reaction to the conceptual representation of cities
places; major streets run from squares to gates and
set in. The places and the professionals searching
bridges. Frequently there is a hierarchy of squares,
for ways to perfect conceptual representations are
as there is a hierarchy of quarters and the activities
well known and require only brief introductions.
associated with them. If urban structure becomes obvious on a map, intervention in it might be equally obvious. With a ruler, one could mark a straight avenue through the ancient congestion of
REPRESENTATION
IN
CITY
DESIGN
LONDON,
1666
Steen Eiler Rasmussen, in his book on London,
had existed before. Wren connected St. Paul's with the Tower of London in a straight line; the road
explains how the conceptual planning method
that had linked them before had curved in several
might have been applied to that city.3 In 1666 the
places. Other intersections shaped as stars or
Great Fire destroyed the entire center of London.
squares had only graphic significance. New build-
It broke out late in the evening of September 1,
ings would have to give them meaning over time.
burned fast, and stopped on September 6, only to
For example, Wren moved the parish churches
break out again. Historians say it smoldered for
from their existing locations to intersections and
months. On September 10 the king received Chris-
alongside important roads. Wren also rotated
topher Wren, who came with a plan to rebuild the
St. Paul's Cathedral to make the building respond
city. Immediately after the fire, according to his
to the axes of the new streets. Wren's drawing is
son, Wren prepared a survey of the city. But when
nothing more than a conceptual diagram; major
his design is compared with Wenceslas Hollar's
modification would have been required to make it
"Exact Surveigh of the City of London," commis-
a design. T h e drawing's details do not correspond
sioned in December 1666, three months after the
to the actual ruins, the Thames River, or the Tower
fire, and published in 1667, the comparison reveals
of London.
that Wren's survey was probably traced from an ear-
A letter signed by Will Morris, the king's secre-
lier inaccurate map brought up-to-date by a hurried
tary, went out to the Lord Mayor of London the
walk through the smoldering ruins,5 an improvisa-
day of Wren's visit, asking the Lord Mayor "to
tion similar to what a modern-day professional
inhibit and straightly forbid all persons, whatsoever
might do. The designer quickly records an image
that they presume not to build any dwelling houses
mentally and on paper in order to work with it.
until further order," because "his Majesty had be-
Compare Wren's map with the hatched area on
fore him certain models and drafts for re-edifying
Hollar's survey, and note how carefully Wren de-
the city with more decency and convenience than
picted the edge of the fire-damaged areas.
formerly." 6
Wren was only thirty-four years old but had
Wren's design responded to the prevailing view
distinguished himself as a mathematician and held
that epidemics like the plague were caused by bad
a professorship in astronomy at Oxford. Architec-
air, which became stagnant in narrow, congested
ture was new to him; he had taken it up only four
streets with open sewers. T h e same narrow streets
years before the fire. His interest in the construc-
were correctly blamed for spreading the fire, which
tion of buildings and towns had led him to Paris,
had jumped from one roof to the next. T h e alleys
where he spent the year 1665—the year of the
had been too narrow to serve as firebreaks between
plague, a good year to be away from London. The
houses made primarily of wood. Moreover, build-
geometric clarity of the map Wren presented to
ings had been too high for the roofs to be reached
Charles II reminded the king, who had lived in
by ladders.
Paris himself for many years, that London could be
Wren's recommendations for rebuilding London
rebuilt according to the latest French planning
went beyond physical improvements for health and
methods.
safety. His plan was influenced by a growing litera-
Two monuments stand out in Wren's proposal:
ture on ideal cities, with clear geometric patterns,
St. Paul's and the Stock Exchange. The Guild Hall
applied first to the construction of fortified new
remained in its original place. All three structures
settlements in Northern Italy and later to the plan-
are linked by straight roads where none had been.
ning of settlements in the New World and the
From the Stock Exchange, a road leads directly to
resettling of religious refugees in the Protestant
London Bridge, again where no such connection
or Reformed countries in north central Europe. 7
THE
SEARCH
FOR
A
VISUAL
LANGUAGE
23
l i i i
Christopher Wren's map for the rebuilding of London, 1666 (fop); and Wenceslas Hollar's survey of London, 1667; redrawn to the same scale. Hatched areas indicate the extent of destruction after the 1666 fi re: (a) St. Paul's, (b) Tower of London, (c) Guild Hall, (d) Roya Exchange.
2 4
R E P R E S E N T A T I O N
IN
C I T Y
D E S I G N
In the wake of the Thirty Years' War, the lords,
plan. Rather, attention should go to rebuilding:
bishops, and kings of central Europe rivaled each
no wooden buildings; comparatively low buildings
other in renovating the fortifications around their
on narrow streets where light and air were scarce;
cities. At the same time, contradictorily, they en-
taller buildings along wider streets. Fleet Street,
gaged military engineers to design new subdivisions
Cheapskate, Cornell, and some other streets should
outside the remodeled fortifications. The geometric
be made much wider. The precise width was to be
order of the new towns outside the walls stands out
published later after consultation with the Lord
clearly on city maps of the period. 8
Mayor and aldermen. Lanes and alleys were pro-
Charles II saw that the Great Fire gave him the opportunity to introduce the same new geometry
scribed unless absolutely necessary. To give access to water in the event of future fires, a broad embank-
in London. During the days that followed Wren's
ment along the river was created, free of buildings
visit, the king received proposals from John Evelyn,
along the riverbank. In the rebuilding of London,
Captain Valentine Knight, and Robert Hooke.
practical reasoning prevailed. Decisions about the
Evelyn produced three versions of his design, all
city's future form were made locally, with an eye to
grid patterns with diagonals. One of them bears
the problems at hand, and not by the monarch
a curious resemblance to the later L'Enfant plan for
who lived outside the city.
Washington. Hooke, like Wren a mathematician,
Parliament voted on new controls for rebuilding
prepared a gridiron plan. 9 None of the plans was
London on February 8, 1667. T h e legislation had
executed. Each was considered for only a few days
been prepared in a remarkably short time by a
in late September 1666. The rejection of the Sep-
committee that included Wren and Hooke. One
tember plans signifies the power of the City of
of their first tasks had been to commission a new,
London—a city that, in contrast to capitals of the
accurate survey of London and the 1667 map, to
Continent, desired to be self-governing, indepen-
plan the widening of streets in detail. The commis-
dent of the Crown.
sioning of an accurate survey followed by the draw-
Although all buildings had burned to the
ing of an exact map became the prerequisite of
ground, citizens could stand on their property and
town planning. Without the map image, it would
point to where their houses had been and where the
have been impossible to evaluate projects prior to
neighbors' property met theirs. If Wren's plan was
constructing roads and city blocks.
to be carried out, the city's land would have to be assembled and somehow subdivided again in pro-
Almost two hundred years later in Paris, Baron Haussmann wrote in his memoirs: "Before con-
portions based on ownership before the fire, with
cerning myself with the piercing of the new public
land for roads and public buildings subtracted.
ways, whose networks constitute the most singular
Such an enterprise would have required govern-
part of the transformation of our great city, should
ment expropriation of the land and a large bank
I not in effect, speak of the initial study for this
to handle finances. With his government impover-
long and laborious work, and of the instruments
ished from the plague, the king needed no re-
which have served me to undertake this project in
minder of the impossibility of rebuilding London
its entirety and its details, to determine, on the
according to geometric schemes "drawn up by
spot, the line of each avenue, boulevard, or street,
clever men in a few days' time." 1 0
to be opened up, and to oversee the faithful execu-
T h e reminder came from representatives of
tion of the whole." 1 1
the city—the Lord Mayor, startled by the letter he
In Paris Haussmann's surveyors climbed high
received from the Crown the day after Wren's map
scaffolds or great wooden masts that Haussmann
was shown to the king, convinced the monarch
described in his journals as "higher than the houses,
how impractical it would be to carry out an ideal
from where they could measure according to the
THE
SEARCH
FOR
A VISUAL
LANGUAGE
25
method of triangulacion by the means of the most
BARCELONA,1776
perfect precision instruments. Angles were formed
In 1 7 7 6 , at a point midway between Wren's plan for
by the sides of each of the triangles determined on
rebuilding London and Haussmann's remodeling of
the spot by the extension of the central shafts of
Paris, the military engineer Juan Martin Carmeno
these temporary constructions." 11 To a surveyor
started work on a new street through the middle
holding on to the top, the sight lines from mast
of Barcelona. Carmeno had become known in
to mast "gave a real existence to the plan."
Catalonia for the planning of Barceloneta, a suburb
Haussmann wrote his journal entries before balloons equipped with cameras produced aerial
for workers near the port of Barcelona. The Ramblas ("riverbed" in Arabic) had been
images of cities. In the absence of such technology,
the site of a small creek, the Cagallel, that ran as an
the masts were an effective tool, permitting survey-
open sewer along the western edge of the Gothic
ors to "draw" an imaginary design above the roofs
quarter. In the thirteenth century a city wall had
of the city. It is not known whether Haussmann
been constructed along the curving creek. The wall,
himself climbed into the skies to compare his plan
made obsolete when a new wall was built further
against reality.
west, was taken down in 1779. Carmeno, guided by
One cannot help wondering if a person—
a survey, laid out a novel type of street, an urban
whether the prefect himself or any "geometer"—
bypass, a divided roadway with a wide median,
standing atop one of the masts might have imag-
connecting the port with a town gate, approxi-
ined the run of a proposed street and the connec-
mately where the Plaza de Cataluña (Plaça de Cata-
tion such a street would make between known
lunya on the map) is today. From there, highways
places. Might that same person not also have imag-
branched out north, west, and east. T h e new right-
ined the fate of the people who lived under the
of-way was marked by two straight parallel lines,
densely cluttered roofs in that same line of sight?
100 feet apart, a broad strip of road in a city where
By the end of Haussmann's tenure, the number of
streets are rarely more than 30 feet wide. T h e east-
displaced Parisians squatting outside the city walls
ern edge of the right-of-way was drawn with some
north and northeast of Paris had increased to
reference to the alignment of the old wall, but
140,000.13
without its curvature.
Although for Haussmann the new straight
On a map drawn in 1807, thirty years into the
streets meant "disemboweling the old Paris"—
existence of the new street, some property owners
the quarters of riots and barricades—because they
have taken advantage of the new right-of-way in
"did not lend themselves to the habitual tactic of
building structures up to the new frontage line.
local insurrection," history repeated itself. The
Carmeno's plan called for the razing of properties
displaced citizens marched back into the city to
near the port, drawn by the author of the 1807 map
take the Hotel de Ville on March 18, 1871. For the
in the same graphic convention (a dotted line) as
fourth time since 1789, revolutionaries claimed
the former placement of the city wall. Other, more
the city, this time for the short-lived Commune
substantial residences on the western side of the
of Paris.
Ramblas were left standing, although they projected into the new street. For the design of the straight street, and as a legal instrument for adjustments to individual properties, a precise map was necessary. An earlier map, drawn in 1697, which followed the graphic convention of representing structures by their facades instead of by roof or ground plans, would
26
REPRESENTATION
IN
CITY
DESIGN
Ramblas, Barcelona,as it appears o n maps in history (from left): 1697, prior to construction; 1807, thirty years into the existence of the street; and 1987, in its current form.
T H E
S E A R C H
F O R
A
V I S U A L
L A N G U A G E
27
confuse anyone wanting to establish dimensions. More misleading would have been the incorrect angles of buildings and streets. Even a surveyor who had learned to use a magnetic compass might not have understood that frequent, precise readings were necessary to determine accurate bearing angles of buildings and streets. But an accurate map made possible detailed planning away from the site; the plan, moreover, could be presented to the military governor for approval. Barcelona in 1 7 7 6 was an occupied city. The
Above: Ramblas, Barcelona.
straight line of the road that made the movement
Opposite: Joan Mirò, 1925, Lady Strolling on the Ramblas in Barcelona,
of goods more efficient also carried a distinct mes-
New Orleans Museum of Art; bequest of Victor K. Kiam.
sage of power: "You cannot fire a cannon around a corner, or send cavalry charging through winding alleys. T h e Barrio Gotico was the natural home of the urban guerrilla—the Ramblas implied the supremacy of the army." 1 4 But whatever its message, the Ramblas was a vast improvement over the old riverside walk, "thronged with people, choked with dust in the summer, and mud in the winter.'" 5 Carmenos Ramblas is one of those rare planning projects that achieves a balance between concept and experience. The abstract line was modified by the elements already in place. Because of this balance, urban designers still borrow Carmeno's concept. This street, a designer might exclaim of a proposal far from Barcelona, will look like the Ramblas. And the proposed street might have a paved median strip for pedestrians. But it might not be located near a high-density medieval quarter where even to this day people stroll. T h e proposed street may lack any number of design elements that characterize the Ramblas, such as the slightly changing width of pavement, a reminder of the former riverbed. Generally, the median measures from 42 feet, 14 inches, to 46 feet, 18 inches, widening only at the beginning and end. T h e plane trees are generally 18 feet apart, sometimes 36 feet.' 6 T h e straight plantation grows well in the wellcomposted alignment of the former sewer. And the proposed street might not share a number of other important elements of the Ramblas, such as vendors selling birdseed, flowers, and
28
REPRESENTATION
IN
CITY
DESIGN
THE
SEARCH
FOR
A VISUAL
LANGUAGE
magazines—the only goods that can be sold there—and waiters rushing through the traffic lane to deliver drinks to customers in the median strip (and, when I first saw the street, a Civil War veteran keeping the chairs in line and renting them out for a peseta to people who wanted to rest and watch the crowd stream by). Another memorable experience is to see the Ramblas framed by the buildings lining a narrow cross street. On a spring day, in such a narrow frame of view, the light reflecting in the leaves of the trees tints the air green. Such sights are part of the Ramblas experience. Joan Miro, in a 1925 painting, conveys another facet of this experience: the curvature of this relatively straight street.
tîuc.in
BARCELONA,
1859
By the middle of the nineteenth century Barcelona had been freed of the much-hated outer walls built under Bourbon occupation. In 1855 Ildefonso Cerda, a civil engineer, had been commissioned to prepare an accurate topographic survey of Barcelona and its surroundings. Whereas the city's popu-
Ildefonso Cerda, Barcelona and environs, 1855,detall redrawn.
lation in the eighteenth century was 64,000, by the 1850s it had grown to over 150,000. As a result, the density of Barcelona, at 315 inhabitants per acre (855 per ha), was one of the highest in Europe. (In Paris, density averaged 166 people per acre [400 per ha], and only in the third and fourth arrondissements did density approach that of Barcelona.) 17 T h e average life expectancy for a man ranged from 38.3 years among the wealthier classes to 19.7 years among the poorer laboring classes. T h e city was frequently ravaged by cholera epidemics. In the view of the public, Barcelona simply had to expand to accommodate the large influx of rural inhabitants seeking employment in the city. Cerda, who had completed his studies in 1849 in Madrid, belonged to the generation of European planners born after the French Revolution who had grown up amid the great economic and social changes of the Industrial Revolution. He welcomed the commission to prepare an accurate topographic survey as a necessary prerequisite for the much
3 0
R E P R E S E N T A T I O N
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C I T Y
D E S I G N
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officially started, on October 4, i860, Cerda's plan was criticized by the local architectural community for its monotony, its lack of human variety. 2 ' In his book, Cerda reflected on this criticism and clarified his thinking regarding the intent shown in the competition plan. His plan, the now famous pattern o f blocks with chamfered corners framing Barcelona to the north, west, and northeast, enclosed the old city. As an abstract pattern, it has visual appeal. Its 550 blocks cover 9 square kilometers, without reference to the gentle slope o f the land toward the sea. In its modularity, the plan could have been expended wherever topography permitted such regularity. W h a t we do not see on the plan, or experience today walking through the Ensanche, is a city shaped by social concerns. Cerda's book is clear: the smallest unit o f Cerda's structure is the city
Ensanche d e Barcelona, 1866. Source: Barcelona Public Works Department.
block, 113.3 meters (330 feet) square, with the famous 45-degree cut at the corners, resulting in four street facades, each 86 meters long, and four shorter facades facing squares at intersections. Typical streets are 19.80 meters (60 feet) wide, and the squares at intersections have 48-meter (150foot) sides. O n l y one-third, approximately 5,000 square meters, o f each block was to be used for buildings, constructed in rows two floors high above a basement. T h e rows would occupy two sides o f each block; the other two would be open to gardens. A glance at Cerda's competition map confirms his intention. T h e pattern he drew corresponds to this description. If built as planned, Cerda's extension would have resembled a garden city. H e intended that 25 blocks, five by five, should form a neighborhood, with its own school and church; 100 blocks, ten by ten, should form a district, with an entire block in each district set aside for a market and a park. In the northern section of Barcelona, six districts are visible in Cerda's plan. In the section o f the Ensanche just above the center o f the old city, on both sides o f the Paseo de Gracia, where construction started in i860, the pattern o f neighborhoods and districts is less clear.
32
REPRESENTATION
IN
CITY
DESIGN
As a concrete image of city development, Cerda's
Paseo de Gracia, Barcelona.
proposal exercised only limited control over threedimensional elements. An official map published in 1866 shows no trace of Cerda's two-sided block development with row housing. Instead, the height limit was set at 57 feet, or five floors; in 1891 the limit was increased to 65 feet, allowing for rows of seven-story buildings around the perimeter of each block. 24 The density increased from Cerda's original proposal of 150,000 square feet of floor space per block to 7 1 0 , 0 0 0 . In the eyes of the critics, the higher density led to disease and social problems. " T h e Middle Ages never escaped the common man." According to an 1888 medical survey made by a Doctor Faria, typhoid, scrofula, anemia, and tuberculosis were common in what should have been the "handsomest and healthiest of cities." Toilets drained into open pits, contaminating the air and water.
THE
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33
That same year another critic of the Ensanche
By the end of the nineteenth century, planners had
wrote: "With two story rowhouses and a basement
grown accustomed to Leonardo da Vinci's conven-
enclosed by gardens set out in pleasant and smiling
tion of the conceptual city map and had used it to
perspective, built on only two sides of each block,
rationalize the geometry of urban form. The rubric
meant for one family at a time, today they have be-
of rational planning, which assumed the existence
come veritable slums, in which the Barcelona fami-
of political control, included a concern that public
lies are imprisoned. T h e forces of speculation un-
and private places in cities be healthful for resi-
leashed without control." 25 Cerda's plan was unten-
dents, safe from fires, and efficient to move around
able because it implied political conditions capable
in for inhabitants as well as the military. The ele-
of controlling the speculation encouraged by the
ments of rational planning, moreover, could be
regular land division. 26
quantified and evaluated: straight was better than
Cerda's proposal did not exercise much control over private property; however, with regard to the publicly owned spaces, his plan had longevity. The
curved and wide better than narrow for all matters of health, comfort, safety, and efficiency. In Barcelona, the process of mapping a rational
layout of streets, blocks, and broad avenues was
plan invited idiosyncrasies: with his straightedge,
carefully studied with regard to all their dimen-
Cerda created the "Calle Diagonal" as well as the
sions.
Square of the Glory of Catalonia where two diago-
Cerda proposed that one hundred trees should be planted in each block. Regularly spaced plane
nal streets cross the Gran Via. Despite the important-sounding name, the place shaped by the cross-
trees still line many streets of the Ensanche. Walk-
ing of major roads had no geographic, symbolic, or
ing on the 30-foot-wide sidewalks under these trees,
other meaning prior to its creation, 27 and for that
which are planted every 24 feet, is a very pleasant
matter the square has not become a center of Barce-
experience. The pattern of short blocks shaded by
lona corresponding to its geographic location in the
trees, alternating with squares open to the sky, in-
grid and its accessibility. That situation may
troduces a rhythm to the walk. The rhythm is inter-
change, however, for finally, at the end of the twen-
rupted when the pedestrian must cross wide streets
tieth century, a performing arts complex is emerg-
or diagonal streets, but since these also appear at
ing there.
regular intervals, the rhythm is reestablished. Contrary to Cerda's early critics, such a walk is
The process of designing a town in plan does not in itself inform decisions regarding those di-
rarely boring or monotonous. Some portions of the
mensions and proportions that make the experience
walk present real treats, like a stroll on Antonio
of urban form worthwhile. At the end of the nine-
Gaudi's tiled sidewalk along the Paseo de Gracia or
teenth century, in response to rapid urbanization,
in the middle of the right-of-way on the Ramblas
the authors of books on city form stressed artistic
de Catalonia, one block west. These urban spaces
principles, and in doing so started a search for rep-
afford pedestrians a sense of mastery, leaving them
resentations that expressed the experience of urban
surprisingly unaffected by the onslaught of car
geometry. For the English-reading audience,
traffic. •
Raymond Unwin addressed the art of city design, using material from the German planner Joseph Stiibben. 28 Both were preceded by Cerda's contemporary, the Austrian Camillo Sitte.
34
REPRESENTATION
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DESIGN
VIENNA,
The most innovative element of Sitte's work
1870
Sitte wrote his Städtebau, a book about artistic
was his insistence that urban places respond to the
considerations in urban design, when the vast
inhabitants' psychic state, an idea that can only
complex of public monuments and private apart-
be understood as an offspring of the turn-of-the-
ment buildings in Vienna known as the Ringstrasse
century fascination with the work of Sigmund
was nearing completion.
19
Sitte's ideas of urban life
and form were opposed to those of his professional
Freud and a growing interest in the workings of the human mind. 31
rivals, who had captured the imagination of the
Vienna, in the mid-nineteenth century, had
liberal government of Vienna with conceptual
burst its seams. The old city, Roman at the core,
images of urban form shaped according to rational
with medieval extensions, was still surrounded by
thinking. Camillo Sitte was a promoter of the
the massive defense works that had withstood the
Arts and Crafts movement. He had studied at the
onslaught of the Turks. But already more of Vienna
Vienna Polytechnic and founded the state profes-
was outside the fortifications and beyond the exten-
sional school for arts and crafts in 1875 in Salzburg
sive glacis than within. The new liberal government
and later a second school in Vienna.
made plans to raze the old fortifications. In 1848
Carl Schorske has written that Sitte "won his
the city and its institutions, including the court of
place in the Pantheon of communitarian theorists
the emperor, appeared in danger not from invaders,
where he was revered by other reformers, such as
but from revolutionaries.
Lewis Mumford and Jane Jacobs."
30
Sitte's contri-
Sitte intended to weave the streets and city
bution is important to our discussion of represen-
blocks of the old inner core with the more regular
tation and the influence of representational method
pattern of the suburbs into a continuous fabric.
on the design of cities. His graphic methods com-
Seemingly by accident, urban spaces would have
bined concept and experience. He produced
resulted "in nature," shaped by a complicated
comparative map studies of well-dimensioned
geometry of street grids. In front of great buildings
urban places and eye-level drawings mainly of cities
like the new Reichstag, the Austro-Hungarian
in Austria, Italy, Germany, France, and Belgium.
Parliament, for example, Sitte proposed to build
He used graphic representations to exemplify
supplementary structures to frame and contain
physical enclosure and spatial definition.
squares as islands of human community. Instead,
If dimensions are important in the art of city
in the official plan the Prachtbauten (splendid struc-
design, then measured drawings are an essential
tures) dominated these squares. The vast urban
record of places worth remembering. Sitte failed to
spaces that resulted were too large for the tradi-
indicate the scale of his drawings, and thus they
tional uses of urban space—for trade, assembly,
convey only the relative spatial relationship of
celebration, and demonstration. Moreover, they
enclosure to openness. But Sitte's insistence on a
were not connected to the streets that led toward
three-dimensional survey of city form was new.
them. They were voids.
He implied that the design of cities should be the
A square, in Sitte's view, was not merely a piece
work of professionals trained to imagine urban
of unbuilt land, but a space enclosed by walls, like
form three-dimensionally. Because of Sitte's writ-
an outdoor room, serving as a theater of common
ings, a change took place: military engineers
life. "No one thought of that," he complained.32' In
responsible for the design of fortified cities had
his view, the members of the City Expansion Com-
turned over to engineers the task of laying out
mittee had lost their senses. "The rage for open
boulevards when city walls came down; after Sitte
space," he proclaimed, would produce a new urban
published his Städtebau, however, the physical
neurosis of Platzscheue, or agoraphobia, the fear of
shape of cities became the responsibility of
crossing, and of being dwarfed by, space and being
architects.
THE
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35
impotent in the face of the vehicles to which it has been consigned. 3 3 In his book Sitte had presented measurements and images of well-proportioned town squares to open the public's eyes to urban qualities too important to sacrifice. T h e psychological well-being of citizens, he argued, is as important as improvements in mobility and hygiene. H a d Sitte's work been understood as an attempt to design for the psychic state of urban people, his critics might have seen its progressive aspects. But Sitte did not know how to express his concern in a form that could appeal to those interested in the new field of psychology. As a result, his method looked to his contemporaries like historicizing; and for that matter,
36
REPRESENTATION
IN
CITY
DESIGN
Vienna, 1891 (top), w i t h detail of Sitte's proposal redrawn.
T H E
S E A R C H
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L A N G U A G E
3 7
designers of cities today face similar struggles. The
Edouard Jeanneret, Le Corbusier had started work
irony in their work is that they frequently look
on a manuscript entitled "La Construction de
backward in history in order to go forward. Sitte's
Villes" (The building of cities). It was the product
critics, seeing images of largely medieval or baroque
of an earlier time when Jeanneret was under the
squares and winding roads, interpreted his work as
influence of the French version of Sitte's book,
that of someone who lived in the past, wanting to
translated by Camillo Martin in 1902. Jeanneret
go backward.
never finished his manuscript (it was rediscovered
Thirty-five years after Sitte first published his
by Allan Brooks in 1982), but he had prepared
Städtebau (the first edition, in 1889, sold out within
some of the illustrations, which are particularly fine
a month of publication), this reaction was given
examples of his early work. He had taught drawing
voice: "The winding road is the pack donkey's way.
at the arts college of his hometown, La Chaux-de-
The straight road is man's way," wrote Le Corbusier
Fonds. Some of these drawings suggest the experi-
in his 1924 book Urbanisme (published in English
ence of a walk through Munich, for example. On
as The City of Tomorrow and Its Planning). The
the Neuhausserstrasse, the view is closed (creating
persuasive order of the machine age influenced the
what Sitte would have called a geschlossenes Architek-
form of cities in the twentieth century. In his first
turbild) because a building projects into the line of
chapter Le Corbusier contrasts Sitte's artistic prin-
sight along a straight stretch of road. A pedestrian
ciples—polemically caricatured as the pack donkey's
retracing the same route in the opposite direction,
way—with the new order, man's way. The "new
however, would see a splendid view of the Frauen-
urbanism" calls for rationalism, function, efficiency.
kirche's two towers. During his travels in England, Jeanneret observed similar spatial qualities in Ham-
The winding way is the result of happy-go-lucky
stead Garden City. 35 There it is: "La leçon de l'âne
heedlessness, of looseness, lack of concentration
est à retenir." The lesson of the donkey is to be
and animality. The straight road is a reaction,
retained. In the manuscript, he urges planners to
an action, a positive deed, the result of self-
learn from the donkey how to design roads which
mastery. It is sane and noble.
respect and enhance the landscape and are "never
The city is a center of intense life and effort. A heedless people, or society, or town, in which
tiring to ascend because of the variations in their slope." 36
effort is relaxed and is not concentrated, quickly
In The City of Tomorrow, Le Corbusier shed
becomes dissipated, overcome, and absorbed by
Sitte's influence. But he continued to represent the
a nation or a society that goes to work, in a
city as an "architectural landscape." Throughout his
positive way, and controls itself. It is a way that
life he would develop typologies of buildings that
cities sink to nothing, and that ruling classes
support the topography of a settlement, as in the
are overthrown.
34
design for the Quartier Modernes Fruges proposed in 1925 for Bordeaux-Pessac or in his later studies
When Le Corbusier wrote these words in 1924,
of architectural landscapes for Rio de Janeiro and
continental Europe had just witnessed firsthand
Algiers.37 But Le Corbusier and modern movement
Russia's unparalleled leap from absolutism and a
advocates did not view, nor did they represent, such
maximum agrarian economy to state socialism.
a landscape of buildings as a sequence of images
Outside the Soviet Union, his call for order echoed
but rather as a machine-made system of arteries and
a common cry for a new society built on technol-
organisms that structure the city.
ogy, individualism, and intellectual ideals.
Cities have always been places for the produc-
Le Corbusier's famous donkey polemic has an
tion and exchange of goods and services. In the
interesting history. Under his given name, Charles-
1920s the modernization of production meant
38
REPRESENTATION
IN
CITY
DESIGN
" Q u a r t i e r M o d e r n e s Fruges," B o r d e a u x - P e s s a c , Le C o r b u s i e r , 1926. ® F o n d a t i o n Le C o r b u s i e r , Paris.
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39
increased mechanization, which had the effect of
stability of individual ownership of land. Land in
separating residence from workshop, production
cities had been available in relatively small parcels,
from consumption. The inhabitants of cities
mainly privately held. New city designs depended
became commuters. Industrial production exposed
on the redistribution of land. 40 Only a few mod-
the followers of the Ajrts and Crafts movement
ernists took issue with the overly conceptual ap-
among city designers (essentially, Sitte's followers)
proach to city design. Erich Mendelsohn, who had
to the cold blast of mechanism. Artists like the
traveled and seen much of the world, including the
modernist sculptor Bernhard Hoetger still wanted
new Russia, wrote in 1928 that world architecture
"the individual room, not the factory made prod-
needed to combine "the finiteness of mechanisms
uct." They wanted "personality, not norm, not
with the infiniteness of life." 41 In the journal Urban
schema, not series, not type."
38
But by 1928 most
modernists had rejected Henry Van de Velde's 1914
Architecture, Ancient and Modern, Bruno Taut discussed the new movement in a column called
thesis that the artist creates individually shaped
"Friihlicht" (Daybreak) and dismissed all concepts,
pieces in favor of the opposing thesis of Hermann
old and new. In the United States, Frank Lloyd
Muthesius, like Van de Velde a member of the
Wright lectured young architects about the overly
German Werkbund. Muthesius had proclaimed
conceptual approach to design: "Do not rationalize
concentration and standardization the aims of
from machinery to life. Forget the architecture of
modern design. If products had to be standardized
the world, go to the building sites." 42
to be produced, then the best had to be made of
The modern movement began anew in Europe
the resulting matter-of-fact style, the "Neue Sach-
when the need to rebuild cities destroyed during
lichkeit." For city form this approach entailed
World War II made possible a far more sweeping
abstraction and precision, spaciousness and the
application of the themes that had been developed
inclusion of nature, a fascination with mathematics
during the 1920s. Broad straight streets were laid
and modules.
out and lined with homogeneous structures, where
The images of new cities were like dreams where
historically buildings had been diverse. In 1944 Ivor
even citizens of the north could enjoy the warmth
de Wolfe reacted on the editorial page of Architec-
of the Mediterranean climate. The occupants of
tural Review with an article called "The Art of
new extensions of cities would "see and feel the
Making Urban Landscapes." He surprised readers
sun," but the old city centers would lose popula-
with a call for pluralism in urban design, an aim
tion, a certain criterion of city failure.39
that requires that the architect know "how to let
The designers of new cities wanted to give all
Bill Brown see what he is going to get." "It isn't that
citizens equal access to the fruits of industrial pro-
he is a fool," he writes; "he is quite capable of imag-
duction, good design for everybody. For example,
ining complications inherent in planning, even of
the Bauhaus town planner Ludwig Hilberseimer
making sacrifices for the greater good of the greater
proposed radically reducing the ground area
number, but he cannot, he feels, be expected to
covered by buildings in favor of green space, so that
do his part without being given an idea, a pretty
each individual could live close to nature. He also
clear idea, of what it is all leading up to. He wants
developed visions of gigantic new cities of tall
a picture of the kind of world the physical planner
buildings. For him they were a way to assert order
will make." 43
and avoid the paralyzing effect of chaos on the indi-
The new campaign started by Wolfe as editor of
vidual. A population living in standardized dwell-
the Review was later called the Townscape Move-
ing units had predictable needs—for furniture, for
ment after the "Townscape Casebook," an editorial
appliances, and soon for automobiles. The new city
Wolfe prepared with the illustrator Gordon Cullen
encouraged consumption but not necessarily the
for the February 1944 issue. They wanted above all
40
REPRESENTATION
IN
CITY
DESIGN
to remind readers of a picturesque tradition of ar-
It should be possible to combine the abstract
ranging objects in the landscape. Cullen and Wolfe
approach to representing cities with one that shows
tried to solicit public support for their campaign:
what might be there in reality, using images to
the public could not possibly like the "new Jeru-
explain the concept as well as the experience of
salem, all open space and white concrete," that was
form, ideally in a nonstatic visual language under-
being proposed by the modernists.
44
Gordon
standable to the people who might live in the place
Cullen, in the introduction to his 1961 book
represented. Such a fusion of opposing methods
Townscape, wrote, "The way the environment is
would be needed for completeness.
put together is potentially one of the most exciting
The polemic waged between authors such as
and widespread pleasure sources. It is no use com-
Le Corbusier or Ivor de Wolfe and the various
plaining of ugliness, without realizing that the
camps of sympathizers, however, indicates that divi-
shoes that pinch are really a pair of ten league
sions run deep. The images of cities shaped either
boots." 45 Cullen argued that design professionals
by concepts or by experiences not only portray
needed to popularize the art of environmental
urban space but also express fundamentally differ-
design. Surely he had a twinkle in his eye when he
ent mind-sets and, possibly, political beliefs. If con-
wrote: "Until such happy day arrives when people
ceptual schemes emphasize geometric order on a
in the streets throw their caps in the air at the sight
large scale, they imply a need for central control—
of a planner (the volume of sardonic laughter is the
political, institutional, and economic—capable of
measure of our deprivation) as they now do for
effecting that order. But images that suggest what
footballers and pop-singers, the main endeavor is
it might be like in a particular place are likely to be
for the environment makers to reach the public
comprehensible to many people, who might in
emotionally." 46
their turn object to centralized control, for reasons
Although Cullen's work was criticized for reasons similar to those behind criticism of Sitte—
that may or may not have to do with a specific design proposal.
the images evoked memories of places from the past—he had an important influence on representa-
The political dimensions of representation remained important in the post-World War II era.
tion in urban design because he developed methods
In Boston in the 1950s the historic center was trans-
for recording what he called the "awareness of
formed by state government-sponsored renewal
space." His technique permits the architect to
and the construction of urban freeways. The archi-
illustrate in graphic form how a person walking
tect and planner Kevin Lynch and the artist Gyorgy
through a city experiences it. •
Kepes, who had started a survey of the visual form of cities, were especially interested in Boston, realizing that the physical structure of the city was about to change. They wanted to persuade those planning the renewal to consult with local residents. According to Lynch, his and Kepes s "first study was too simple to be quite respectable." 47 The team interviewed thirty people about the image of Boston's inner city, repeating the exercise in Jersey City and in Los Angeles, cities they believed either lacked an image because they lacked character or produced an image different from Boston's because the heavy use of automobiles in the latter two cities somehow affected residents' perception of their city.
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41
Neither researcher had any formal training in the
own new visual language. In the fifteen years fol-
methodology of behavioral research, and there was
lowing Lynch's publication of The Image of the City,
no literature to guide them. Kenneth Boulding's
new notation systems emerged, with one produced
book The Image, which would have given them the
by each designer who searched for a new unified
theoretical foundation for their inquiries, was still
language. In retrospect, all these systems were idio-
being written.48 Lynch believed that the image of a
syncratic. Although graphically elegant and often
city is shared knowledge, public rather than private;
artful, the notations were in code, which had to be
local residents perceive what they experience in
interpreted. Some were similar to musical scores—
similar ways. Lynch never concluded explicitly that
or a language for choreographing movement and
subjective individual knowledge, when it is shared,
the meaning of space.50 For designers who used
becomes objective—such a conclusion belongs to
notation, it became a method to predict the public
the realm of epistemology—but he did conclude
image of any existing or proposed development.
that if a group of people share an image of their
"Plans were fashionably decked out with nodes,
city, if the various images are roughly identical, and
and all the rest. There was no attempt to reach out
if residents build up these images through much
to the actual inhabitants, because that effort would
the same experiences, the value systems of the indi-
waste time and might be upsetting." 51
viduals must be approximately the same.
By the early 1970s, as the search for a new lan-
He asked residents what came to mind about
guage to explain experience led to other fields, espe-
their city; he asked them, moreover, to make a
cially geography and the new field of environmen-
sketch map, to describe imaginary trips, and to rec-
tal psychology,52 Lynch's work became a small part
ognize and locate places in various photographs.
of the much larger study of human cognition.53 For
Residents described distinctive elements of Boston.
example, Stanley Milgrim asked 218 Parisians to
Some of them took the researchers on a walk
draw a map of their city.54 "The first principle is
through the city, describing what they saw and how
that reality and image are imperfectly linked. The
they structured the city in their minds. "At times,
Seine may curve in a great arc through Paris, almost
as we listened to the tapes, and studied the draw-
forming half a circle, but Parisians imagine it as a
ings, we seemed to be moving down the same
much gentler curve, and some think of the river as
imaginary street with them, watching the pavement
a straight line, as it flows through the city." An
rise and turn, the buildings and open spaces appear,
explanation for this distorted perception may be
feeling the same pleasant shock of recognition, or
that a person standing on one of the Seine's em-
being puzzled by the same mental gray hole, where
bankments sees the river as much straighter than
there should have been some piece of the city."
49
Residents of Boston, the research concluded,
it actually is. From some places the Seine indeed appears to run in a straight line.
had a relatively coherent and detailed mental image
In fact, many modern-day Parisians draw a map
of their city—an image that had been created in the
of Paris similar to pre-Renaisssance pictorial maps,
interaction between self and place. That image was
selecting symbols to characterize the city's essence.
essential to people's actual functioning and impor-
It is interesting to note that Parisians show remark-
tant to their emotional well-being. Lynch demon-
able agreement in selecting symbols: the Seine,
strated, moreover, that the mental image could be
Notre Dame, and the Ile de la Cité.
recorded in an image map, a novel type of map using visual language to show experience.
Of the 218 people asked to draw, nearly 200 noted the Seine and the city's boundaries along the
Inspired by Lynch's work on how urban environ-
périphérique. Listed in descending frequency, sym-
ments are remembered, some designers in North
bols that appear on the maps of at least half the
America and in Europe began to search for their
subjects include the Etoile, Arc de Triomphe, Notre
42
REPRESENTATION
IN
CITY
DESIGN
'WltoltiH-
s o s i o n image stuoy: n e i a Analysis or Major Problems, from Kevin Lynch, The Image of the City, 1964. © Institute Archives, MIT.
THE
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A
VISUAL
LANGUAGE
43
#
Standing
#
Standing
X
Sitting
O
Standing and talking
A
Musicians, Performers
•
Standing and waiting
•
Vendors and Waiters
X
Sitting
Wednesday, 19 July, 1995
Monday, 23 July, 1968
Time:
13.30 P.M.
Time:
12:00 noon
Weather:
Fine, 23° C.
Weather:
Fine, 20° C.
Standing:
340 persons
Standing:
429 persons
Sitting:
389 persons
Sitting:
324 persons
Total:
753 persons
Total:
729 persons
4 4
R E P R E S E N T A T I O N
IN
C I T Y
D E S I G N
0
^ 200
0
50
100
400
600 200
goo 300
^ Feet Meters
J a n Gehl, m a p s h o w i n g pedestrian activities a n d n u m b e r of persons
Dame, Eiffel Tower, Bois de Boulogne, Louvre, and
sitting a n d s t a n d i n g o n C o p e n h a g e n ' s Stroget, on sunny days in J u l y
the Place de la Concorde. The list goes on to in-
1968 a n d J u l y 1995.The t i m e of d a y w a s similar in e a c h case, as w a s t h e w e a t h e r . O f t h e 753 p e o p l e r e c o r d e d in 1968,429 w e r e s t a n d i n g (either talking or w a i t i n g ) , a n d 324 w e r e sitting. In 1995,729 persons
clude the Champs Elysée, Luxembourg Gardens, Bois de Vincennes, and the Montparnasse Station
w e r e o b s e r v e d (including musicians, performers, vendors, a n d
and/or tower. Parisians like to say that there is a
waiters, as well as pedestrians); 340 w e r e standing, a n d 389 w e r e
tourist Paris but that the real Paris is something
sitting. J u l y 1968 m a p from Gehl, Life between
quite apart. It appears that the same places visited
1995 m a p c o u r t e s y J a n Gehl.
Buildings, 1987; J u l y
and remembered by tourists provide the Parisians' basic cognitive structure. When asked a question one might logically ask in view of the history of the French people—"Where would you take your last walk in Paris if you were exiled from Paris?"— Parisians gave an answer surprisingly similar to what tourists might say about the last day of their tour: a stroll on the Champs Elysée, along the Left Bank. A large number of Parisians would even join the tourists and climb Montmartre one last time." The work on Parisians' mental maps was part of expanding urban design research in the 1960s and 1970s. Researchers used focused interviews and observations, tools developed in the social sciences, to involve citizens in city design. For example, the Danish architect Jan Gehl observed pedestrians on Copenhagen's main shopping street, Straget, in 1968, five years after this set of old streets in the town center was temporarily closed to cars on an experimental basis. O n a warm summer day, 66,000 people walked down Straget. Gehl recorded pedestrian activities at various intervals during the course of nearly thirty years, analyzing how changes of the physical spaces influenced the use of the spaces. He observed where people gathered and where they passed through quickly. His observations were used in designing permanent, expanded pedestrian networks in other cities. 56 Lynch's experiments with the representation of cities led him away from abstract notation to more conventional pictorial diagrams. In a project called Looking at the Vineyard, graphics convey the character of Martha's Vineyard to a broad audience. They capture the Vineyard experience, 57 and thus they engaged many members of the community in discussion. In the Martha's Vineyard project, the visual
THE
SEARCH
FOR
A VISUAL
LANGUAGE
45
LOW DENSITY, NO D E V E L O P M E N T OR VERY LITTLE. RIGID CONTROL.
THE SALT LANDS
POSSIBLY SOME CLUSTERS OF MODERATE DENSITY, L I T T L E OR NO D E V E L OPMENT E L S E W H E R E . RIGID CONTROL.
THE
LOW-MODERATE DENSITY, S O M E DEVELOPMENT. CAREFULLY MANAGED.
C L E A R T O M O O R OR.: M O D E R A T E D E N S I T Y IN DISTRIBUTED OPENINGS. I N V E N T I V E CONTROLS.
R O A D S V E R Y LIGHT, M O S T L Y IH T H I C K E T . FOOT P A T H S TO POND
NONE ON BEACH, DUNE, M A R S H , POND, GRASS. ONLY VERY SMALL, LOW CLUSTERS EACK IN THICKETS
THE
MODERATE TO HIGH DENSITY, IN DENSE CLUST E R S , SURROUNDED B Y EXTENSIVE OPEN. I N V E N T I V E CONTROLS.
M O D E R A T E TO H I G H DENSITY. CREATIVE C O N T R O L S . EXCHANGE FOR F R A GILE LANDS.
4 6
MEN ONL.Y TEMPORARILY PRESENT. NO C A R S , E N G I N E S E N C O U R A G E B ' R D S , DOMESTIC A N I M A I S , S M A L L BOATS. QUIET ACTION, SWIMMING AMD OTHER W A T E R ORIENTED ACTIVITIES.
LEAVE ALONE. NO EXOTICS.
E A R T H , GRASS, WOOD. E A R T H COLORS.
•SLOPES. NEVER. ON C R E S T S .
P A R K I N G A N D ROADS NOT V I S I B L E F R O M SHORE. NO ROADS RUNNING UP THE S L O P E .
NO T A L L VEGETATION ON C R E S T S . M A K E M O R E OPEN.
NO PAINT OR M E T A L . M A T E R I A L S WHICH B L E N D OR W E A T H E R . NO L A R G E , L I G H T S U R -
BOATS, FISHING. NO C A R S . SOME RESIDENCE.
L O W IN V A L L E Y S . NONE ON HILLS. CLUSTERED. ROOTED.
TRACKS IN G R A S S , NARROW, LOW WITH LANDH I D D E N PARKING, N E V E R ON TOPS.
K E E P OPEN. NO E X O T I C S OR TREES. M O W OR G R A Z E . _
WEATHERED WOOP, STONE. STONE, EARTH FENCES.
RECREATION. GARDENS, PASTURE. DOMESTIC ANIMALS. RESIDENCE.
W O O D SHINGLE ROOFS.
PRIMARILY HOUSING. PRIVATE, SCATTERED.
G R O U P S OF HOUSES REL A T E D TO GROVES OF TREES OR. LAND FORMS. LOW OR STEPPED UP
N A R R O W OR T U N N E L S , WINDING. O P P O R T U N I T Y FOR C A R V I N G SEQUENTIAL OPENINGS.
E D G E S OF PRIVATE CLEARINGS. L O W , T A L L E R . IN VALLEYS.
SITING AND ROAD AND PATH FORM OF CHARACTER, BUILDINGS PARKING WINDING, NARROW,
THE
ACTIVITIES
AND B E A C H . NO PARKINS.
DEVELOPMENT DENSITY, TYPE OF CONTROL MODERATE DENSITY. NORMAL CONTROL AND D E S I G N SKILL. D I S P E R S E D STRUCTURES.
MATERIALS AND DETAILS
SITING AND ROAD AND PATH CHARACTER, FORM OF BUILDINGS PARKING
DEVELOPMENT DENSITY, TYPE OF CONTROL
E D G E S OF C L E A R I N G S OR IN THINNED WOODS. LOW H O U S E S ON TOPS, T A L L E R ON S L O P E S , IN V A L L E Y S .
IN CLUSTERS, NOT SCATTERED. D E N S E P A C K I N G , SOME TALL.
OCCASIONAL, S L E N D E R TOWERS. MOSTLY LOW, D E N S E IN CLUMPS IN FOREST. SCREEN AHY SUBURBAN
REPRESENTATION
IN
CITY
CONTOUR-FOLLOW IN 6. OCCASIONAL VIEWS AND OPENINGS. ROADS IN V A L L E Y S OR
M A I N ROADS STRAIGHT, OR LONG CURVES, SLIGHTLY DEPRESSED. A V E N U E PLANTING. F E W MINOR R O A D S , L I G H T A N D CURVING.
C L E A R ALL OR ONLY VALLEYS. NATURAL PATCHES. •'DWARF" L A N D S C A P E S .
CLEARING AND PLANTING ONLY PATCHES FOR GARDENS OR RARTIAL VIEWS. NO CLEARING ON H I L L TOPS. FOLLOW L A N D FORM.
KEEP AREA AROUND C L U S T E R S OPEN. PLANT T R E E S ONPF W I T H I N C L U S T E R S OR ALONG ROADS. M O W OR G R A Z E .
S H I F T B A L A N C E TO RECTANGULAR GRID OF M I X T U R E OF CLEARED NARROW, URBAN, AND WOODED. M I N O R STREETS. C L E A R UNDERWFMRI FREQUENT CURVES ON MAJOR ROADS. . S C A T T E R E D DE VE LOP' ^ V M B N T SET BACK, /", S O M E C E N T E R S OH
DESIGN
MATERIALS AND DETAILS
ACTIVITIES
NOT SO CRITICAL. WOOD PREFERRED.
HOUSING AND ITS SERVICES, SCATTERED. GA&DÊNS, PASTURE.
NOT C R I T I C A L , E X C E P T NO F E N C E S OR ONLY L I G H T ONES.
U R B A N SURROUNDED BY A G R I C U L T U R E . A N I M A L S , ACTIVITY.
NOT C R I T I C A L , BUT U S E A CLOSE T E X T U R E OF V I S U A L
HOUSING. URBAN A N D A G R I C U L TURAL USES. C A M P I M S . BF/PFIRINVJ
How to build compatibly with landscape elements. From Lynch,
language allowed local groups to understand the
Sasaki, Dawson and Demay Associates, Looking at the Vineyard.
effect of proposed development and to agree on
©Vineyard Open Land Foundation.
policies to guide it. Lynch's analysis—he also lived on the island—gave him a detailed knowledge of landforms, vegetation, climate, history, the people, and their culture. 58 In 1976, Lynch took stock of the new type of professional representation: "A unified language appropriate to the sensory form [of cities] will be a long time developing, if indeed a unified language is possible. Meanwhile, we must deal with the many different aspects of this issue in diverse and sometimes not entirely compatible ways. Language in some form—whether graphic, verbal, gestural, mathematical, or whatever—is indispensable to thought." 59
THE
SEARCH
FOR
A
VISUAL
LANGUAGE
47
CHAPTER
THREE
Images in Motion
Painters in Western society have learned to represent the sense of movement by studying the human body. A painter's ultimate goal might be to paint landscapes or still lifes, but the drawing of the nude would be fundamental to any exploration of rhythmic relationships—the organization of shapes, linear movement, solidity, stability, mobility, equilibrium, and expressive character. 1 Urban designers have no equivalent educational tradition, though the work of Gordon Cullen or Edmond Bacon has taught them that movement can be read and understood as a pictorial sequence. Critics of this approach argue that reliance on serial vision has led to overly picturesque designs. That claim is true if eye-level perspectives are the dominant form of imagining a place, but if these are combined with measured drawings such as maps, designers can learn important lessons about scale in city design. A designer who compares, for example, a plan view of a place with a pictorial sequence illustrating a walk through that place has a much better grasp of dimension. The representation of pictorial sequences came late to Western culture. Chinese landscape painters perfected the representation of movement. The art
historian George Rowley has written: "For the painters of landscape scrolls the principles of spatial design are conditioned through the isolation of motifs." For Rowley, motifs are picture elements a viewer can easily grasp in one single focus. The eyes, moving through the intervals between these elements, can overcome the isolation of each motif, tying adjacent motifs together. Thus the viewer is set free to "walk" through the landscape and observe the world in motion: "A scroll painting must be experienced in time like music or literature. Our attention is carried along laterally from right to left, being restricted at any moment to a short passage which can be conveniently perused." 2 The scroll tells a tale that can be interrupted and repeated. The walk through Venice on the pages that follow presents such a scroll, one that reads not from right to left, but from the bottom of the page to the top. At first, this direction seems counterintuitive, especially when the accompanying written text is read top to bottom. But reading images is different from reading text. For the images to have the desired effect of pulling the reader into the space, the pictures themselves must be read from bottom to top. Western art traditionally represents
conditions yet to be realized, the future and things associated with it—that is, hope, expectation, and so forth—in the upper portions of pictures. The present condition or position in space or time is shown in the middle of pictures; the past, what we have left behind, is shown at the bottom. An upward movement of the eyes implies progression; a downward movement, regression.3 In scanning the Venice images, the reader pieces them together and gains the illusion of movement through space. Reading the pictorial sequences quickly is similar to watching a motion picture film. Like a film, the pictorial sequences transport the viewer into the scene.
50
REPRESENTATION
IN
CITY
DESIGN
• The walk starts on the Calle Lunga de Barnaba, in a typical Venetian alley: a dark, narrow passage about to open into a square.The pedestrian is drawn to the light beyond the passage, in the Campo Santa Barnaba.The pedestrian crosses the campo diagonally. Light reflects on the church facade and the stone pavement. Past a covered well, a bridge in the far corner of the campo gives new direction to the walk.
IMAGES
IN
MOTION
51
Beside the bridge is a shop selling mirrors. A large one on display in the w i n d o w reflects the bridge and a young couple coming d o w n the steps.The bridge arches high over the canal, reaching almost to the second story of nearby buildings. Signs announce the name of the bridge: Ponte Santa Barnaba at the Fondamente Rezzonico.At the highest point on the bridge, the pedestrian wants to take bearings.
But here the scroll technique shows its limits.The scroll continues on the obvious path d o w n the steps into Calle de Bateche, but instead the pedestrian wants to look around. A glance to the left reveals the long straight Rio San Barnaba, with t w o more bridges in the distance. A Venetian might not remember the bridges' names but once oriented probably would know that they lead to another neighborhood near the large C a m p o San Marcherita, where an open-air market is held.The view to the right reveals the Grand Canal and perhaps the waterbus stopping at the Campo San Samuele on its way to the Rialto.The scroll, however, reveals none of this information.
52
REPRESENTATION
IN
CITY
DESIGN
Detail, m a p of Venice (1 inch - 200 feet) Sou-ce Atlante di 'venezio, 1989.
I M A G E S
IN
M O T I O N
53
T h e s e q u e n c e o f pictures leads d o w n t h e steps a n d a l o n g Calle Boteche, a short, n a r r o w street that turns right. (The walk skips a short s e c t i o n o f t h e next alley.)
54
REPRESENTATION
IN
CITY
DESIGN
The sequence starts again at the corner of Calle Cappeler;the pedestrian turns right and—before seeing the square—senses the proximity of open space from the abundant light. A double row of trees marks a diagonal path across the Campiello del Squelin, where a bookstore sits on the square at the corner with the Calle Foscari.
IMAGES
IN
MOTION
Along the Calle Foscari a three-story-high wall on the right hides the garden of the Ca' Foscari; the palace itself faces the Grand Canal. The pedestrian's path parallels the Grand Canal behind the properties that face it.
56
REPRESENTATION
IN
CITY
DESIGN
The pedestrian sees the light falling on the facade of a building beside the Palazzo Balbo, on the other side of a large bridge with many steps, suggesting a wide span.Ponte Foscari "slides" into full view as the corner building on the left recedes. From the steps of the bridge, a landmark of the Polo district comes into view: the bell tower of the church of the Frari. From the bridge itself, the pedestrian looks d o w n a street that is very wide and straight by Venetian standards. Standing on top of the Ponte Foscari, the pedestrian takes a bearing once more.The view to the right again reveals the Grand Canal, looking closer than it looked from the Ponte Santa Barnaba and much wider as it bends eastward, but none of these sights is shown in the limited view of the Images, which lead ahead d o w n into the Calla Larga Foscari.
IMAGES
IN
MOTION
57
Four images suffice to convey the 80-meter length of the Calla Larga Foscari,a distance that has taken up to fourteen images in earlier sections of the walk w h e n streets were narrower and more winding. Only w h e n the pedestrian reaches what appears to be the d e a d e n d of this street does another pedestrian, stepping out of the narrow o p e n i n g to an alley, show h o w the route continues, into the narrow Calle d e la Dona Onesta.
t-
>m
58
REPRESENTATION
IN
CITY
\
DESIGN
The contrast b e t w e e n the w i d e Calle Foscari and the narrow Calle de la D o n a Onesta is impressive. Half the length of the w i d e Foscari, Calle Onesta nonetheless appears longer. Light falls d o w n into it from above a high garden wall; even more light falls o n t o a bridge, the cast-iron Ponte di D o n a Onesta, that c o m e s into v i e w at the e n d of this narrow space. Steps to it rise suddenly from the alley.
IMAGES
IN
MOTION
59
From the bridge, the pedestrian sees a bookstore o n the F o n d a m e n t e del Fornu straight ahead and can read the covers of the books on display. But not for long, for the walk continues with a right turn o n to the F o n d a m e n t e del Fornu, where a row of beautiful buildings faces the Rio de la Frescada.The Grand Canal, visible o n c e again, looks surprisingly distant; it has curved away from the pedestrian's straight p a t h . O n the canal o n e of the palazzi g l i m p s e d from the bridge over the Rio Foscari again c o m e s into view.
6 0
REPRESENTATION
IN
CITY
DESIGN
I walked along this route many times on the way to and from the Giudecca. Early in my stay, when one narrow alley looked like another, the bridges stood out as spatial elements, giving structure to my movements and expressing a rhythm. I remember the experience of rising at each bridge and gaining a better view for a few moments before "plunging" back to ground level. The squares along the walk defined the beginning and end of movement. Crossing a square gave me a sense both of balance and of anticipation of the next stretch of narrow alleys to be traversed before the next bridge and the next square. The walk in Venice measures 1,060 feet, or approximately 350 meters. It takes four minutes to walk this distance—a very short time considering the many different physical spaces encountered. In Venice, buildings, squares, alleys, canals, and bridges are all crowded together in a very small area. To explore the scale of Venice relative to the scale of other cities, I have overlaid the length of the walk in Venice on maps of other cities. T h e fourteen city maps that follow are all drawn to the same scale, one inch equals 200 feet, which is also the scale of the map accompanying the pictorial sequences. T h e fourteen city maps were selected to represent a wide range of urban scales. Some cities are finely scaled, like Kyoto or Barcelona. Others are large in scale, like Washington, D . C . Some cities have streets following regular grids; in other cities streets follow irregular patterns. The same four-minute walk applied to these fourteen city maps appears to take different amounts of time. In most cities, traveling the distance that is actually equivalent to the walk in Venice appears to take less time. In some of the cities, walking this distance comes close to the time it takes to walk in Venice. For a designer, these comparisons are important. The dimensions and placement of urban elements influence the perception of time.
IMAGES
IN
MOTION
61
6 2
REPRESENTATION
IN
CITY
DESIGN
Detail, map of the Berkeley campus (1 Inch - 200 feet). Source:
The distance covered in the walk in Venice equals that
University of California, 1987.
of a walk many Berkeley students take daily from the corner ofTelegraph Avenue and Bancroft to Wheeler Hall (along the dotted line).This walk appears much shorter than the walk in Venice.
IMAGES
IN
MOTION
6 3
In San Francisco, the distance covered in the Venice walk is equivalent to that of a walk from the entrance of the St. Francis Hotel, through Union Square, past the Naval Monument, across Stockton Street, and into Maiden Lane to the Circle Gallery, designed by Frank Lloyd Wright—really a very short walk.
Detail, m a p of San Francisco's retail district (1 inch = 200 feet). Source: D e p a r t m e n t of City Planning, City of San Francisco, 1983.
6 4
REPRESENTATION
IN
CITY
DESIGN
IMAGES
IN
MOTION
65
Also in San Francisco, a walk from the Bank of America
Detail, map of San Francisco's Chinatown (1 inch = 200 feet).
Building along California Street, past Old St. Mary's
Source: Department of City Planning, City of San Francisco, 1983.
Church, with a turn into Grant Avenue to a restaurant at the corner of Commercial Street appears to take a little longer than the previous walk in San Francisco but seems shorter than the walk in Venice.
66
REPRESENTATION
IN
CITY
DESIGN
IMAGES
IN
MOTION
67
Map of New York City's Times Square (1 inch = 200 feet).
At Times Square in New York, a walk begins at the foot
Source: Department of City Planning, City of New York, 1982,
of the old Times Tower, passes the Army Recruiting Station, stops in the median strip between Broadway and Seventh Avenue for a good look at the square, chances it across Broadway, and proceeds along to the Palace, across from Duffy Square where tickets for same-day performances are sold.This is a quick walk.
68
REPRESENTATION
IN
CITY
DESIGN
IMAGES
IN
MOTION
6g
100 _j
200 1 50
7 0
300 I 100
400 1
REPRESENTATION
150
IN
600 I
CITY
200
DESIGN
800 I
1000 1 300
1200 I
Feet n
400
Meters
M a p of Copenhagen's main pedestrian street (1 inch - 200 feet).
In Copenhagen,a pedestrian walks along Straget from
Source:Copenhagen General Planning D e p a r t m e n t ; redrawn, 1989,
Nytorv, past York Passage, then catches sight of the
by Allan Jacobs.
grand old trees at the churchyard reaching into the streets at Helligaands Kirke,and walks to AmagerTorv. The distance is the same as that of the walk in Venice, though it appears a little shorter.
Detail, map of Washington, D.C. (1 inch = 200 feet).
In Washington, D.C., a walk along Pennsylvania Avenue,
Source: Allan Jacobs, 1989.
from the National Archives to the Old Post Office, equals the distance of the walk in Venice but appears much shorter.
IMAGES
IN
MOTION
73
In an old neighborhood ofToronto, a walk equal in
Detail, map ofToronto (1 inch - 200 feet). Source: Department of
distance to the Venice walk takes a pedestrian along
Public Works,City ofToronto, 1990.
alleys from Ontario and Gerrard streets to the end of Milan Lane. Because there is much to see on this route along garages and yards in the rear of properties, this walk appears to take just as long as the Venice walk.
74
REPRESENTATION
IN
CITY
DESIGN
Vi ^
?
1 •»^Vü f^t
01 0
100 i
200
1
50
300 i
100
400 1
600 i
150
800 i
200
1000 1
1200 i
300
IMAGES
Feetn
400
IN
MOTION
75
Meters
M
i
m
i
KraifiW
wmm 1 W S i S35 0
200
100 50
7 6
300
400 I
100
REPRESENTATION
800 I
600 200
150
IN
CITY
DESIGN
1000 300 _ r
Feet
1200 400
Meters
A walkthrough the old city of Kyoto, which was laid out 1,200 years ago, starts on Aya-no Koji Street, turns into one of the major old north-south streets called West Side ofTohin, passes the Aya Wishi Children's Playground,turns into Bukko-ji Street, and almost reaches the entrance to the neighborhood shrine of the Suga Minister.This walk, a distance of two large cho's, appears a little longer than the walk in Venice.
Detail, m a p of Kyoto (1 inch = 200 feet). Source: Kyoto City Planning D e p a r t m e n t , 1985.
IMAGES
IN
MOTION
77
To m y great surprise, t h e walk in Venice equals a stroll t h r o u g h t h e Piazza Navona in Rome. A l t h o u g h I claim t o k n o w it well, I had u n d e r e s t i m a t e d its size, a s s u m i n g t h a t it t o o k o n l y half t h e t i m e o f t h e Venice walk; but, in fact, crossing t h e plaza takes f o u r minutes.
Detail, m a p of t h e historic quarter, Rome (1 inch = 200 feet). Sou ree: City o f Rome, Map of t h e Centro Storico, 1985; redrawn by Allan Jacobs.
78
REPRESENTATION
IN
CITY
DESIGN
»
m u «
•
¡ss^a 200
100 50
300 1
100
400
600 [ 150
800 200
1000 300
IMAGES
Feet
1200
— 1 _
n
400
IN
MOTION
79
Meters
Detail, map of London (1 inch - 200 feet). Source: London
My surprise was even greater when the distance of
Ordnance Survey.
the Venice walk was plotted out on a map of Trafalgar Square in London, from a point nearthe Arch of the Admiralty, past Canada House and the Venturi and Brown extension to the National Gallery, to St. Martin in the Fields.This stroll seems to cover a greater distance than the previous walks.
80
REPRESENTATION
IN
CITY
DESIGN
^HIS
s 0 1
100 I
50
200 1
_r
300 I 100
400 1—
800
600 150
200
300 _
n
400 n
r
IMAGES
Feet
1200 —I
1000
IN
MOTION
8l
Meters I
8 2
REPRESENTATION
IN
CITY
DESIGN
Map of the Marais, Paris (1 inch - 200 feet). Source: Prefecture de
In Paris a walk starts at the beautiful symmetrically
Paris, Edition 1969.
framed Place du Marché St. Catherine, off Rue Saint Antoine, turns right on Rue de Jarente, left on Rue Turenne,and right again to enter the Place des Vosges, where a statue of Louis XIII occupies the center of the square.The Paris walk appears to take longer than the walk in Venice.
IMAGES
IN
MOTION
83
A walk in Barcelona equal in distance to the Venice walk starts at the Plaza Reial and continues along the famous Ramblas, barely reaching the Sant Joseph Market, not quite halfway to the north end of the Ramblas, which is at the Plaza de Cataluña.The Rambias is longer than I had remembered. I would have thought that the equivalent of the Venice walk would have reached the Plaza de Cataluña.
Detail, map of Barcelona (1 inch = 200 feet). Source: Corporacio Metropolitana de Barcelona, 1983.
84
REPRESENTATION
IN
CITY
DESIGN
100 I
200 H 50
300 I 100
400 1—
800
600 I 150
1000
200
— I
300 _
n
400 Meters "1 I
r
IMAGES
Feet
1200
r~
IN
MOTION
85
Map of a gated c o m m u n i t y in the City of Laguna Niguel,
To match the distance of the walk in Venice, a home-
Orange County, California (1 inch = 200 feet).Source:Traced
owner in Orange County,California, might navigate
from a 1981 aerial photograph, Robert J. Lung and Associates.
a little more than halfway around the street that loops through the neighborhoods walk much shorter than expected.
86
REPRESENTATION
IN
CITY
DESIGN
SJ BX I 4 Pl JBII •IHM« F ' V m IUI J Si S S tt«"M *Till rafl .... "il. « li- JÎ"! s:!?f IT. Z ~ •• ni 0
200
100
50
300 100
400 [
600 150
800 200
n
— I
300
IMAGES
Feet
1200
1000
400
IN
MOTION
87
Meters
Map of the Stanford Shopping Center in Palo Alto, California
A shopper at the Stanford Shopping Center in Palo
(1 inch - 200 feet). Source: City of Palo Alto, Stanford Shopping
Alto, California, might start at the Nordstrom depart-
Center, 1994.
ment store and not get very far at all. •
88
REPRESENTATION
IN
CITY
DESIGN
100 _j
200 1 50
r
300 I 100
i
400 1
150
I
600 i
200
I
800 1
1000 1 300
1200 I
I
IMAGES
F«*t n 400 Meters
I
IN
MOTION
89
I
Thinking about time's embodiment in the physical world might bewilder most of us. The failure to grasp the elements that make one walk appear longer or shorter than another has astonished some of the most experienced city designers. I do not have answers to explain all variables that alter the perception of time, but I found some interesting hints in the writings of the philosopher William James: 4 "Our heart-beats, our breathing, the pulses of our attention, fragments of words or sentences that pass through our imagination, are what people this dim habitat" that he and others have called the twilight of our general consciousness. All of these elements have to do with rhythm. Even if we try to empty our minds, by sitting still, for example, with eyes closed, "some form of changing process remains for us to feel and cannot be expelled. Awareness of change is the condition on which our perception of time's flow depends." But there is no reason to believe that sitting still and seeing nothing suffice to arouse the awareness of change. "The change must be of some concrete sort." Pedestrians tell the length of their walks by the rhythmic spacing of recurring elements. The Venice S p a c e - m o t i o n a n d v i e w d i a g r a m s , f r o m D o n a l d A p p i e y a r d , Kevin
walk has frequent and different types of rhythmic
Lynch, a n d J o h n R. Myer, The View from the Road ( C a m b r i d g e : M I T
spacing. Other environments have produced fewer
Press, 1964).
types of spacing, and the visible information engages walkers less frequently. Thirty-nine drawings of unequal spacing were needed to explain the fourminute walk in Venice; far fewer drawings could explain most of the other walks. Successive acts of apperception and recognition influence one's sense of time. T h e walk through Venice necessitates many turns—through two squares, along several narrow alleys, across three bridges, and near a number of waterways. Pedestrians perceive change successively and adjust their knowledge—for example, of bridges—to what they have already learned. But James warns that this observation is too crude. "To our successive feelings, a feeling of succession is added, that would be treated as an additional fact requiring its own special elucidation." A walk through Venice might be followed by a walk
9 0
R E P R E S E N T A T I O N
I N
C I T Y
D E S I G N
through Mestre, the nearest town on the mainland. Or, as here, a walk through Venice might be compared to a walk in a place as far away as San Francisco, New York, or Kyoto—a comparison that requires large mental leaps in time and space. Even if these walks were known well, the sights they entail would have to be recalled; the images of Venice, in contrast, are still accessible to the reader in the pages of this book and can be looked at again. A consideration of rhythm in city design is valuable. The dimensions of the physical objects and the setting of these objects in space influence the sense of time. Designers thus have remarkable power to affect the perception of time by arranging objects in space, by setting dimensions, designing textures, selecting color, and manipulating light. Chapter 8 discusses representations of "moving focus" as a tool in conditioning spatial design. At this point, however, I want to look at experiments conducted in the 1960s and early 1970s with moving images that capture the "View from the Road." The construction of urban expressways made it possible to drive through cities at accelerated speeds. From these roadways, sometimes level with but frequently raised above ordinary streets, the motoring public views cities and landscapes, passing them quickly and with few interruptions. Expressways created a new image of the city. Places and their surroundings had to be relearned to the extent that walking through them differed from a drive through them at high speed. In their book The View from the Road, Donald Appleyard, Kevin Lynch, and Richard Myer further developed the graphic notations originally used in Lynch's Image
=
73 Composite Sketch Sequence of Northeast Expressway
I
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surreR
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CtAy
136
THE
CITY
IN
THE
LABORATORY
Central Park south through midtown, with a saddle south of the Empire State Building, before height again increases south of Soho toward the southern tip of Manhattan. If adopted, this ordinance would prevent outright a structure like Television City, the "tallest building in the world." But a Manhattan ridge line is only remotely related to New Yorkers' daily movements. Many would admit that such shaping might be more pleasing to those who see Manhattan from the bay, from the East and Hudson Rivers, or from New Jersey.
Opposite: D o w n t o w n " h i l l " s h a p e d by t h e 1974 planning c o n t r o l s (fop) and by the 1985 D o w n t o w n Plan.
Residents value a city form shaped according to natural topography because it allows them to cope with change. People interviewed in San Diego, California, about the physical form of their city, expressed affection for the oceanside setting, the bay, and the canyons that open toward the bay. According to one resident, nostalgic for an earlier cityscape, "The north side is ugly, and the accelerated building in the valley floor is plain tragic. And there are the areas of parked cars waiting to be sold, where once there was greenery and birds and peace and quiet. Imagine hearing spring peepers in the city. We used to!" 15 Planners in San Diego have tried to direct the city's development away from the valleys to protect them as elements of the city's visual structure. Although they have not always succeeded, their work enjoys public support. In his review of literature on the perception of, and response to, anticipated or experienced change, Erwin Zube notes that "a greater obligation will be placed upon those in the planning and design professions to ensure change does not outrun the ability to comprehend and cope with it." 16 I have focused on natural images that influence the aesthetics of a city's structure. Helmut Wohl usefully relates aesthetic vision to a coherent point of view and to trust, "perhaps the deepest criterion for the measure of coherence that a point of view represents. Aesthetic vision provides both an ideal and a standard of that wholeness which a point of view imparts on reality." 17
DOWNTOWN
SAN
FRANCISCO
137
CHAPTER
SIX
Downtown Toronto: Urban Form and Climate
City planners in San Francisco drew on the knowl-
Thomas Jefferson, upon returning from England
edge of a relationship, as old as the experience of
and France in 1800, complained about the con-
living in cities, between urban form and a city's cli-
stantly gray skies of England and noted the "collec-
mate. During the Renaissance, both Leon Battista
tive psyche of the English men who tended to be
Alberti and, later, Andrea Palladio reported the
suicidal due to lack of sunlight in the North."
observation of Tacitus that parts of Rome became
In America, skies are usually blue, he observed, but
hotter during the summer—and less healthy—when
people suffer from high humidity during the sum-
streets were widened during the reign of Emperor
mer months. He designed a checkerboard city plan
1
Nero. Palladio recommended that cities in cool
where black squares represented built-up city blocks
climates have "ample and broad" streets so that
and white squares indicated gardens crossed diago-
these cities would be "much wholesomer, more
nally by roads. He anticipated that cool air from
commodious, and more beautiful." But cities in
the shaded garden squares would cause a natural
hotter climates would be more healthful with nar-
airflow between them and the hotter city blocks. 4
row streets and tall houses to provide shade. Palla-
The health benefits of direct sunlight and air
dio and Alberti were inspired by the writings on
circulation became the focus of research by the
city planning and climate of Vitruvius, who, in
medical profession around the turn of the century.
recommending the laying out of colonial cities at
The findings on the relationship between sunlight
the time of Emperor Augustus, suggested orienting
and bone diseases or tuberculosis, for example,
streets away from the direction of prevailing winds
and on ventilation as a factor in health had a major
as a protection against their violent force. 1 Vitru-
effect on the practice of architecture and urban
vius's writings were studied in Spain's colonial office
planning worldwide. 5 But subsequently, local cli-
and incorporated into the Law of the Indies, pro-
mate conditions have had less influence on the
claimed by King Philip 11 of Spain in 1573 and
form, spacing, and style of buildings. The architect
sometimes applied to city building in the New
Bruno Taut observed correctly in 1937 that his
World. 3
fellow modernists disregarded local differences in
climates: "The modern buildings built up high in
Bioclimatic charts for Toronto, Vancouver, Phoenix, and New Orleans.
the north [of Europe] have the same appearance as
To read the bioclimatic chart for Toronto, note that lines in t h e lower
those built along the Mediterranean Sea."
6
Each decade has brought new building styles; changes in functional and structural requirements have changed building dimensions, but modern cities have rarely been shaped by a concern for cli-
right p o r t i o n indicate t h e range o f average m o n t h l y m a x i m u m a n d m i n i m u m temperatures and humidity.The comfort zone in the center indicates c o m f o r t a b l e t e m p e r a t u r e and h u m i d i t y c o n d i t i o n s for a person dressed in a business suit, taking a leisurely walk in t h e shade. Except for July a n d August and a few days in September, Toronto's temperatures are t o o low for a c o m f o r t a b l e leisurely stroll.
mate. In downtown Toronto, where winters are
D u r i n g most of t h e year, pedestrians in business c l o t h i n g are
cold and summers hot and humid, buildings resem-
c o m f o r t a b l e only in direct sunlight. Lines b e l o w t h e lower e d g e of
ble those of downtown Los Angeles, where winters are mild and summers moderately warm. In arid
t h e c o m f o r t zone indicate h o w m u c h sunlight they need. For example, t o c o m p e n s a t e for midday temperatures of 50°F (10°C) in April, t h e equivalent of 350 watts per square meter of radiation is
Phoenix, Arizona, street dimensions and the spac-
needed. Direct sunlight produces such a m o u n t s w h e n t h e sun rises
ing between tall buildings are similar to those in the
high e n o u g h above t h e horizon, as it does at m i d d a y In April and
Shinjuku district of Tokyo, where summers are also
September in Toronto. On July and August days w h e n m i d d a y
hot but much more humid. In all these cities,
temperatures rise above 77°F (25°C) and the h u m i d i t y measures
urban form has adversely affected the local climate: streets and squares have become windier, hotter, or colder. Although the relationship between a city's form and its climate has been intuitively understood, intuition cannot predict how specific future buildings will affect climatic conditions. No comprehensive mathematical model exists that relates proposed structures to the comfort of pedestrians on sidewalks or in public open spaces—that is, the thermal conditions that affect their physiological well-being. A combination of experimental and computational techniques is necessary to make comfort predictions. Six variables affect thermal comfort outdoors: sunlight, wind, humidity, ambient air temperature, activity level, and clothing. Depending on local climate and weather, a person might prefer to sit or walk in sunlight or in the shadow of buildings, might enjoy a breeze, or might take shelter from the weather in buildings or under arcades. Cities can be built to provide these choices. In 1990 planners in Toronto were searching for a rationale for setting new building height limits and density controls near the city's downtown. The Environmental Simulation Laboratory was commissioned to carry out modeling experiments on the effects of urban form on microclimatic conditions there. 7 The laboratory examined the effects
I40
THE
CITY
IN
THE
LABORATORY
above 55 percent, people in Toronto seek shade and a light breeze. A breeze of 0.5 meters per second, as s h o w n above t h e c o m f o r t zone o n t h e chart, compensates for t h e heat a n d humidity.
TORONTO, ONTARIO 43° 4 0 ' N , 79° 2 4 ' W 105 Year Record 11 m above sealevel
VANCOUVER, BRITISH COLUMBIA 49° 17'N, 123° 0 5 ' W 43 Year Record 14 m ahove sealevel
.JVIND NEED D
Si
WIND NEED D
WIND mis)
IN
~9J ~0J
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-
— 140 — 210
Ï Ï D Î Â Î iONNij ED&D
ortZo n e
\c
W» -I
III
\ c - o m f ortZo n e
WIND (m/s)
=.
Freud, S i g m u n d , 35
an
d social
problems, 34
future reality, models of, 10. See also c o m p u t e r simulations;
Denver, 134
Environmental Simulation Laboratory
Descripto Urbis Romae (Alberti), 13 design, notation systems for, 42 Deutscher W e r k b u n d (German Association o f Craftsmen),
G e h l , Jan, 4 4 , 45 General Theory of Urbanization
(Cerda), 31, 32
Gilson, Kevin, 168
40 disease. See health
glass, mirror, 4
D i s n e y C o m p a n y , 107
G o e t h e , Johann W o l f g a n g von, 159—60,162, 164—65
distance: judgments of, 7 , 9, 61, 90 (see also comparisons
Goldberger, Paul, 107
underWenice);
measurements of, 13
d o c u m e n t a r y quality o f representation, 99, 203. See also objectivity/neutral stance D o w n t o w n C e n t e r (Toronto), 142-43
G o m b r i c h , Erich, 187 Great Fire ( L o n d o n , 1666), 23 green space, 40 G u g g e n h e i m M u s e u m (Wright), 203
Dreiser, T h e o d o r e , 106 D u c o s d u H a u r o n , Louis, 178 D u o m o (Cathedral o f Santa Maria del Fiore, Florence), 3, 4,
Hamstead G a r d e n C i t y (England), 38 Haussmann, Georges Eugene, 2 5 - 2 6 health: and urban planning, 23, 25, 33, 139
18
Hilberseimer, L u d w i g (Bauhaus t o w n planner), 40 Dykstra, John, 93, 2 i o n . i o
H i t c h c o c k , Alfred: Rope, 93, 2 i o n . i 3 Hoetger, Bernhard, 40
Eliot, T . S., 101
Hollar, Wenceslas, 23, 2 4
Enlightenment, and abstraction, 22
H o o k e , Robert, 25
Ensanche (urban extension plan, Barcelona), 3 0 - 3 1 , 3 0 - 3 4 environment, and visual quality o f cities, 9 2 - 9 3 , 94, 2 i o n . i 6
ichnographia, 2 0 7 ^ 1 7 . See also plan view
Environmental Policy A c t (1969), 92, 94, 2 i o n . i 6
Image, T'Äi'(Boulding), 42
Environmental Simulation Laboratory (University o f
image maps, 42, 45
California at Berkeley), xiv, 207n.2; built by Appleyard
Image of the City, The (Lynch), 42, 43, 91
and C r a i k , 9 2 - 9 3 , 2ion.8; cost o f simulations, 96;
Imola (Italy), m a p of, 1 0 , 1 1 , 1 2 , 13, 2 1 - 2 2 , 207n.l3
m o d e l - p h o t o g r a p h y experiment at, 92, 9 3 - 9 4 , 9 5 - 9 7 ,
individual style vs. standardization, 40
96, 2 i o n . 9 ; objectivity of, 2 0 0 - 2 0 1 ; opened to
industrialization, 38, 4 0
engineers, designers, and planners, 94; residentialdensity simulation, 1 8 8 - 8 9 , 1 9 0 - 9 1 , 1 9 2 , 1 9 3 - 9 5 , 1 9 6 , 1 9 7 ; role in policy making, 1 2 8 , 1 3 0 - 3 2 , 1 9 9 - 2 0 0 ; San
224
INDEX
Jacobs, Allan, 21111.5
Marquis Theater (New York), 107
James, William, 90
Marriott Hotel (New York), 106
Jeanneret, Charles-Edouard. See Le Corbusier
Martha's Vineyard, 45, 46, 47
Jefferson, Thomas, 139
Massachusetts Institute ofTechnology, 97
Jeffrees, Jerry, 2ion.8
Maxwell, Sir James Clerk, 2i4n.i8
Jencks, Charles, 162
meaning vs. order, 187
Jersey City, 41
Mellander, Karl, 2ion.8 Mendelsohn, Erich, 40
Kamnitzer, Peter, 92
mental images, shared, 42, 45
Kant, Immanuel, 187
Mies van der Rohe, Ludwig, 142
Kemp, Martin, 178, 2 1 4 ^ 1 5
Milgrim, Stanley, 42, 45
Kepes, Gyorgy (artist), 41—42
military forces: and fortified cities, 25, 35; maps/plans used
Knight, Valentine, 25
by, 11, 21-22
Kueller, Richard, 2ion.9
Miller, Alvay J., 2ion.8
Kyoto, 61, 76, 77
Mirò, Joan: Lady Strolling on the Ramblas in Barcelona, 29,
Lady Strolling on the Ramblas in Barcelona (Mirò), 29, 30
mirror glass, 4
Lafayette (California), 200—201
Mission Bay project (San Francisco), 121, 1 2 2 , 1 2 3 - 2 4 ,
30
landmarking, 107 land ownership, 40
2iin.i models: of future reality, 10; of St. Peter's Basilica, 10,
Last Laugh, The (Mumau), 93
207n.i2. See also computer simulations; Environmental
Law of the Indies (Spain), 139
Simulation Laboratory
Le Corbusier (Charles-Edouard Jeanneret), 212n.fi;
modernism, 40
"Construction de Villes, La," 38; Quartier Modernes
motifs, 49
Fruges design, 38, 39; Urbanism, 38
movement/motion, 49—99, 183—85; drives recorded on film,
Leonardo da Vinci: designs of, 187-88; influence of, 19; map of Imola, 10, 1 1 , 1 2 , 13, 21—22, 207n.i3; map of Rome, 13-14; surveying instruments of, 1 1 , 1 3 , 207ml.15—16 life expectancy, in Barcelona, 30 London: 1666, 23, 24, 25—26; modern, 80, 81
90-91, 91-94, 95; drives simulated by computer, 96-97, 97—99; and experience of distance, 61, 90 {see also comparisons underVtmct)-, and frames per second displayed, 183, 184; as pictorial sequence, 49-51, 51-52, 54-60, 54-60; rhythm and, 61, 90-91
Looking at the Vineyard( Lynch), 45, 46, 47, 209^58
Munich, 38
Los Angeles, 4 1 , 1 4 0
Municipal Arts Society of New York, 103, 109,115, 2iin.7
Lucas, George: Star Wars, 184, 2ion.io
Murnau, F.W.: Last Laugh, The, 93
Lumière brothers, 178
Muthesius, Hermann, 40
Lynch, Kevin, 41—42, 204, 207n.3 ; Image of the City, The,
Myer, Richard: View from the Road, The, 90-91, 91-92
42, 43, 91; Looking at the Vineyard, 45, 46, 47, 209^58; View from the Road, The, 90-91, 91-92 Lyric Theater (New York), 107
National Science Foundation, 92-93 neorationalists, 204 neutrality. See objectivity /neutral stance
machine age, 38, 40
New Amsterdam Theater (New York), 107
Maertens, Hans, 172
Newman, Paul, 201
Manetti, Antonio (Italian biographer), 3, 207n.4
New Orleans, 141
Manhattan. See New York City
New York City: Board of Estimates, 107; Columbus Circle,
maps/plans: abstractness of, 21-22; of Barcelona, 26, 27,
203, 204; conventioneers in, 112; Forty-second Street
30—32, 30—33; and designers' prestige, 22; of Imola, i o ,
redevelopment project, 2iin.io; Manhattan, shape of,
1 1 , 1 2 , 1 3 , 21-22, 207n.i3; of London, 23, 24, 25, 2o8n.5;
134, 137; Parks Council, 118; Television City, 118,137,
for military purposes, 11, 21—22; plan view, 10, 10—11,11—
1 7 0 - 7 2 , 1 7 1 - 7 2 ; Upper East Side, 118; West Side
12, 13, 22, 187; of the Ramblas, 26, 27; reality simplified
Highway proposal, 101-2, 103,103, 118; West Way
by, 21; of Rome, 1 3 - 1 4 , 1 4 - 1 7 , 1 8 , 21; of Vienna, 35-36, 36-37. 38
proposal, 102. See also Times Square project New York Times, 105
INDEX
225
Nolli, Giambattista, 14, 14-15, 18, 21 notation systems, for design, 42
politics of representation, 41—42,130-32. See also decision making Portal del Paradiso, Baptistery San Giovanni di Firenze, 4,
objectivity/neutral stance, 173—76, 203; and control of information, 200; and public nature of representations, 201 Ochs, Adolf, 105 odometer (surveying instrument), 11, 13, 207n.i6 open spaces: climate in, 129—30; fear of, 35-36; in Times
5-9 Portmann Marriott Marquis Hotel (New York), 107 property (land), 40 psychic well-being, 35-36 public access to planning projects, 94, 102, 115, 121, 200; representations as public property, 199, 201
Square, 112, 1 1 6 , 1 1 8 Orange County, Calif., 86, 87
Quartier Modernes Fruges design (Le Corbusier), 38, 39
order vs. meaning, 187
Quattro /¿¿«(Palladio), 1 5 9 - 6 0 , 1 6 1 , 1 6 2 , 164-65, 2130.6
painting; Chinese landscapes, 49; pointillist, 178; upward
RADIANCE software, 2I4N.5
movement/progression in, 49—50 Palladio, Andrea, 139; Quattro libri, 159—60, 1 6 1 , 162, 164— 65, 2i3n.6
Ramblas (Barcelona), 26, 27, 28, 2 8 - 2 9 , 3 ° Raphael, 13 Rapoport, Amos, 189
"Panorama de Bercy" (Bisson), 1 8 0 , 1 8 0
Rasmussen, Steen Eiler, 23
Paris, 2 5 - 2 6 , 1 8 0 ; Parisians' images of, 42, 45; Venice vs.,
realism, 162,164—65; and camera lens distortion, 168, 169 (table), 1 7 0 - 7 2 , 171; and objectivity, 1 7 3 - 7 6 ; and
82, 83 Parks Council of New York City, 118 Pei (I. M.) and Partners, 2iin.i
representational medium, 188. See also computer simulations
perception. See sense perception
Red Books (Repton), 204
peripheral vision, 93—94
Renaissance architects/designers, xiv, 4. See also
perspective: aerial, 173, 204; Brunelleschi linear-perspective
Brunelleschi, Filippo; Leonardo da Vinci
painting of Baptistery, 3—4, 168, 173; correction of, 109;
representation, definitions of, xiv
eye-level, 204; limitations of linear, 4, 7 - 8 ; multiple-
Repton, Humphrey (landscape architect, 19th cent.): Red
station-point, 8-9; representing physical dimensions in space, 1 7 3 - 7 6 , 1 7 4 - 7 5 . ' 7 7 Philip II of Spain, 139
Books, 204 residential-density simulation, 1 8 8 - 8 9 , 1 9 0 - 9 1 . 192> I93 _ 95> 196,197
Phoenix, 140, 141
rhythm, movement and, 61, 90-91
photography: Baptistery San Giovanni di Firenze survey, 5—
Richelieu (France), 2o8n.8
8, 7-8; of building facades, 178, 1 8 1 , 1 8 1 ; color in, 178,
Ringstrasse (Vienna), 35
2i4n.i8; continuous-shot technique, 93, 2ion.i3; at eye
Rome: Leonardo's map of, 13—14; maps of, 14—17; Nolli's
level, HI; fish-eye images, 128; focal length/field of view,
map of, 14, 14-15, 18, 21; Venice vs., 78, 79
93,168, 169 (table), 1 7 0 - 7 2 , 171, 207n.i0; linear
Rope (Hitchcock), 93, 2ion.i3
perspective in, 3, 7—8; multiple station/reference points
Rovira i Tias, Antonio, 31
in, 8, 8-9, 171; objective vs. subjective recordings, 93,
Rowley, George, 49
210n.11; perspective-correcting technique, 109; photomaps, 1 7 3 - 7 6
Saalman, Howard, 11
physical dimensions, in space, 173—76,174—75, 1 7 7
Saftie, Moshe, 203, 204
Piazza del Comune (Assisi, Italy), 163
St. Gall (Switzerland), plan of, 11, 11
Place Royal (Paris), 208n.8
St. Peter's Basilica (Rome), 10, 207n.i2
places, definitions of, xiv
San Diego, 137
plague, 23
San Francisco, 1 2 1 - 3 7 ; aerial photo survey of, 176, 2 1 3 -
plans. See maps/plans
i 4 n n . i o - n ; Bay Area transit station project, 188-89,
plan view, 10, 1 0 - 1 1 , 1 1 - 1 2 , 1 3 , 1 8 7
1 9 0 - 9 1 , 1 9 2 , 1 9 3 - 9 5 , 1 9 7 ; Board of Supervisors,
pluralism, 40
129, 131; building height and floor space in, 1 2 6 - 2 8 , 1 2 7 ,
pointillism, 178, 181
2iin.5; Chinatown, 1 2 6 , 1 2 7 ; computer model of, 1 7 7 ;
policy making. See decision making
Department of City Planning, 128, 129, 131; downtown expansion, 124—26,125, 2iin.4; Embarcadero, 182; "hill"
226
INDEX
policy in, 127, 1 3 4 , 1 3 6 ; land use in, 121, 200; open
Tacitus, 139
spaces in, 129; public resistance to development, 125,
Talbot, William Henry Fox, 178
130—32, 200, 201, 2i4n.i; scale and character of
Taut, Bruno (architect), 40, 139-40, 2i2n.6
downtown districts, 2iin.3; scale model of, 1 2 3 , 1 2 4 , 1 2 6 ,
Television City (New York), 118, 1 3 7 , 1 7 0 - 7 2 , 1 7 1 - 7 2
1 2 7 ; South of Market, 132,134, 135; suburban
Temple of Minerva (Assisi, Italy), 1 5 9 - 6 0 , 1 6 1 - 6 4 ,
development, 125-26; sunlight in, 128, 1 2 9 - 3 0 , 1 3 0 ;
I( 2
5>
164-65, 2i3n.6
Venice vs., 64, 65, 66, 67. See also Mission Bay project;
texture, 181, 196. See also under computer simulations
San Francisco Downtown project
Theater Advisory Council (New York), 107
San Francisco Downtown project (Environmental
theater district. See Times Square
Simulation Lab), 103; accuracy of model challenged,
time, perceptions of, 61, 90, 91
200; Chinese Playground studied in, 128—29, I ) ° >
Times Square (New York), 1 0 5 - 1 8 , 1 1 7 , 1 1 9 ; air rights in,
climate studied in, 129-30, 131; film anticipating
1 0 6 , 107, 116; "as of right" building volumes in, 1 0 6 ,
Proposition O, 2iin.3; film of model showing changes,
107, 109, 116; brilliance of, 106, h i ; daylight in, 116,
126—27,127; model of San Francisco modified, 125, 133;
2iin.i2; landmarking in, 107; news band in, 105—6; New
political debate fueled by, 130—32; retail district modeled
York State redevelopment project for, 107; 1982
by, 128; scale studied in, 127—28, 132; sunlight studied in,
midtown planning controls, 1 0 6 , 106—7,
1 2 8 - 2 9 , 1 2 9 ; Transbay Terminal area studied in, 132, 134
1985/1986 development controls, 1 1 3 - 1 4 , 115-16, 1 1 6 ,
Santa Maria del Fiore, Cathedral of (Florence), 3, 4 , 1 8
io
9>
IIC>
;
118; office space in, i n , 2iin.io; theaters in, 105, 1 0 6 - 7 ,
Save the Theaters (New York), 107, 2 i i n . j
2iinn.3—5; Times Tower, 105; Venice vs., 68, 69. See also
Schoenfeld, Gerald, 107, 109
Times Square project
Schorske, Carl, 35
Times Square project (Environmental Simulation Lab):
scroll painting, 49
building height and floor space studied in, 1 1 2 , 1 1 3 , 1 1 5 —
sense perception: vs. conceptual representation, xiii, 18;
16, 118, 211n.11; electric signs studied in, 1 1 1 , ill—12,114,
perspective and, 9 sensory overload, 189, 192, 196 Seurat, Georges, 2 1 4 ^ 1 5 ; Farm Women at Work, 178, 179
115; models, 109, 1 0 9 - 1 0 , m , 2 i o - n n . 8 ; openness studied in, 112, 116, 118; public viewing of models, 115; scale disparity revealed by, i n
Shreveport (Louisiana), 200
Times Tower (New York), 105
simulations. See computer simulations
Tokyo, 140
Sitte, Camillo, 204; Städtebau, 35-36, 37, 38
topography, 38, 209^58
Skidmore, Owings, and Merrill, 203
Toronto, 1 3 9 - 5 6 , 1 4 2 - 4 3 , 153; Bloor and Yonge Streets, 144,
sky. See sunlight
156, 2I2-I3n.9; building height/volume in, 149, 151, 153,
Social Life of Small Urban Spaces, The (Whyte), 149
154, 157; climate of, 140, 1 4 1 , 1 4 2 , 1 4 4 , 1 4 5 - 4 6 , 148,
social overload, 189, 192, 196
2i2-i3n.9; comfort maps/illustrations of, 1 5 0 , 1 5 4 ;
Sorte, G . J., 2ion.9
Downtown Center, 142-43; Planning and Development
space: awareness of, 41; physical dimensions in, 1 7 3 - 7 6 , 174-75.177 Spielman, Heinz, 160
Department, 2i2n.7; proposals for, 155—56; railroad yard area, 153,155; trees on downtown streets of, 155, 2i3n.i3; Venice vs., 74, 75. See also Toronto project
Städtebau (Sitte), 35-36, 37, 38
Toronto Dominion Center (Downtown Center), 142-43
standardization vs. individual style, 40
Toronto project (Environmental Simulation Lab), 103,
Stanford Shopping Center (Palo Alto, Calif.), 88, 89
2i2n.7; building height/volume studied in, 151, 153;
Star Wars (Lucas), 184, zion.io
pedestrian comfort studied in, 147, 149; wind conditions
streets: and climate, 139; and fire safety and health, 23; straight vs. winding, 38 Stiibben, Joseph (German planner), 34, 204 sunlight: and health, 139; measurements of, 2iin.i2; and
studied in, 140, 142, 143-44, 147 Townscape Movement, 4 0 - 4 1 Transbay Terminal (San Francisco), 132, 134 transit (surveying instrument), 1 1 , 1 3 , 2 0 7 ^ 1 5
pedestrian comfort, 140, 149; in San Francisco, 128,
triangulation, 25—26
129—30, 130; in Times Square, 116, 2iin.i2
trust of professionals, 102, 201
surveying: instruments, 1 1 , 1 3 , 207nn.i5—16; techniques, 13, 25-26, 28
University of California at Berkeley, 62, 63, 130-31. See also Environmental Simulation Laboratory
Unwin, Raymond, 34, 204 Urban Design Committee (American Institute of Architects), 132 Urbanism (Le Corbusier), 38 urban planning: and abstraction, 22; citizen involvement in, 42, 45, 47; and displacement of residents, 26; form of cities, 134, 137, 139—40,144, 155; geometric/rational design, 23, 25, 34, 38, 2o8n.8; and health and safety, 23, 2
5> 33. '395 historical roots of, 204; and psychic well-
being, 35-36; public access to, 94, 99, 102; and social problems, 33—34; and three-dimensional form, 35 Vancouver, 141 Velde, Henry van de, 40 Venice: Barcelona vs., 61, 84, 85; Berkeley campus vs., 62, 63; Copenhagen vs., 70, 71; Kyoto vs., 61, 76, 77; London vs., 80, 81; map of, 53; maps of historic center, 173,174-75, 2.1311.5; Orange County, vs., 86, 87; Paris vs., 82, 83; pictorial sequence of stroll in, 49—51, 51—52, 54-60, 54-60, 90-91; Rome vs., 78, 79; San Francisco vs., 64, 65, 66, 67; Stanford Shopping Center, vs., 88, 89; Times Square vs., 68, 69; Toronto vs., 74, 75; Washington, D.C., vs., 61, 72, 73 Victory Theater (New York), 107 Vienna, 1870, 35-36, 36-37 View from the Road, The (Appleyard, Lynch, and Myer), 90— 91, 91-92 viewing images, 168,171—72 Vitruvius, 139 Wallace, Roberts, and Todd, 2iin.i Washington, D.C.: building height in, 134; Venice vs., 61, 7 1 . 73 Werkbund (German Association of Craftsmen), 40 West Side Highway proposal (Manhattan), 101-2,103,103, 118 West Way proposal (Manhattan), 102 White House Conference on natural beauty (1965), 2ion.i6 Whyte, William: Social Life of Small Urban Spaces, The, 149 wind: climate and, 129-30,144; standards for protection from, 144, 2I2-I3n.9; in Toronto, 140, 142, 143-44, H5 Wohl, Helmut, 137 Wolfe, Ivor de, 40-41 Works Progress Administration, 124 Wren, Christopher, 23, 25, 2o8n.5, 2o8n.8 Wright, Frank Lloyd, 40; Guggenheim Museum, 203 Zube, Erwin, 137
228
INDEX
Designers: Steve Renick & John D. Berry Compositor: John D. Berry Design Text: Adobe Garamond with Myriad Display: Adobe Garamond Printer: Edwards Brothers Binder: Edwards Brothers