Airports were a novel development without precedent. Although similar to railway
stations, aircraft had quite different architectural requirements to passenger trains. This
did not deter designers in the early 20th century from using the styling of train stations
and train interiors in their designs for the new airport terminals and aircraft cabin
interiors. Much as the great railway stations encapsulated the engineering achievements
Entries A–F 57
of the 19th century, airport terminals were to become highly visible indicators of
technological advancement for nations and global cities in the 20th century.
The symbolism of airport terminals was present almost from the outset, but it has
undergone significant alteration over time, from the oversized modern designs of the
1930s; to expressive structures such as Eero Saarinen’s eaglelike TWA Terminal,
Idlewild, New York (1962); to the futurist high-tech terminals of the 1980s and 1990s. In
the mid-1960s, Paul Andréau’s centralized Terminal 1 at Charles de Gaulle International
Airport, Roisy-en-France (1974), demonstrates how air terminals had evolved into large
complex megastructures that were purely sys-tems to deal with enormous numbers of
travelers. The air terminal type embodied an inevitable romanticism about flight and
movement in contrast with the reality of scale and flexibility in an environment subject to
rapid unrelenting change.
Aircraft have changed enormously since that first flight at Kitty Hawk, North
Carolina, in 1903. The changes in commercial aircraft design over the 34 years that
separate the Douglas DC-3 (1935) from the Boeing 747–100 (1969) have been
staggering; airports raced to keep up with the new aircraft and airline needs. The much
increased seating capacities, safety, reliability, speed and range of aircraft lowered costs
and increased the popularity of air travel, which encouraged ever greater numbers to fly;
in turn, airport terminals around the globe were confronted by new pressures to expand
facilities. The one constant factor in airport terminal design was change—swift,
unrelenting, and unpredictable. Airport terminal design is a contest between the rival
claims of centralization and dispersal, between providing minimum passenger walking
distances on the landside and dispersal on the airside to take advantage of the
maneuverability of airplanes.
The challenge of mass air travel in the 1990s led to the building of extremely large
terminals to handle upward of 35 million passengers per year in an unprecedented
expansion of airports around the world that culminated in a stunning new architectural
synthesis. This new generation of terminals were hugely complex, giant high-tech steel
sheds that responded to the demands of extreme efficiency and a renewed emphasis on
architectural expression. Indeed, it is hardly an original observation to say that much as
train stations were the great popular monuments to 19th century industrialism, in the 20th
century, these extraordinary airport terminals similarly express the pinnacle of 20th
century achievement in architecture and construction.
The new terminals are almost cities unto themselves, albeit rampant metropolitan
fragments, populated by hoards of transient nomads. The introduction of lightweight tent
and tensile forms in Saarinen’s elegant terminal at Dulles International Airport,
Washington, D.C. (1962), and later in the new Haj Terminal, Jeddah, Saudi Arabia
(1978), and at Denver, Colorado (1995), and Kuala Lumpur, Malaysia (1998),
international terminals reinforced this incipient nomadic connection.
Whether the strategy of building ever-larger terminals proves effective and they are
the forerunners of even larger terminals in the future, or whether other factors—air traffic
density, weariness of the traveling public—intervene to limit size, time alone will tell.
The great size and cost of the new terminals may yet prove to be their undoing. Of all the
new building types to emerge in the 20th century, and notwithstanding the skyscraper,
these new terminals speak more vividly and eloquently than any other mass movement by
peoples across the globe. Starkly contrasting with the tragic events of the 20th century,
Encyclopedia of 20th-century architecture 58
the horizontal steel-and-glass terminal is a cathedral whose standardized open space,
immersed in light, encapsulates mankind’s dream of freedom.
The earliest airline routes—both national and international—began across Europe in
spring 1919. The first generation of airfields was primitive, little more than grassy
fields—unobstructed flat surfaces used for recreational purposes at the weekend or for
military training and parades. The Dugny-Le Bourget (Paris) and Croydon (London)
airports, which opened in 1920, signaled the arrival of second-generation airports having
purpose-built terminals, the beginning of the concept of the modern air terminal complex.
The second-generation terminal, unlike the earlier primitive landing fields, comprised a
multifunctional building that was normally separated from the hangars and workshops
but that usually incorporated the control tower. Except for this control tower, the building
had a low profile to avoid obstructing flight passes, and the roofs were designed on the
airfield side as flat platforms for use by the public at air shows.
Terminals often resembled grandstands with tiered viewing terraces for the public to
watch air shows. More monumental than necessary, in Europe, architectural
overstatement was usually a product of local ambition or national pride. The air terminal
and modern architecture thus emerged concurrently. Terminal architecture was frequently
uncompromisingly modern, with examples such as the Schipol International Terminal
(1928) by Dirk Roosenberg serving as models. Schipol had an L-shaped layout, with a
tall control tower as a central feature and roof terraces for visitor viewing. The
importance of the tower was typical: At Lyon’s V-shaped terminal by Antonin Chomel
and Pierre Veriere (1930), the control tower is on the corner and advances toward the
field, and at Birmingham (1939), by Graham Dawbarn and Nigel Norman, the tower
sprouts sheltering wings on either side.
Gatwick terminal (1936), designed by Hoar Marlow and Lovett, was circular, with the
control tower mounted on top in the center. It had rail-mounted telescopic passageways
connected to the gates of the beehive to protect passengers from the weather and from
propellers. Gatwick was the first airport with a railway connection, and it initiated the
satellite concept for airport terminals. Significantly, Gatwick’s canvas passageways
connecting to aircraft are precursors of modern telescopic passenger-loading bridges or
jetties.
The postwar terminals coincided with the engineering and machine aesthetic of
modern architecture as expressed succinctly by Le Corbusier in Vers une architecture (1923), in which he
dedicated an entire chapter to airport architecture. Aircraft fascinated other architects as
well. Erich Mendelson sketched a hangar with workshops for airships and airplanes in
1914, and Peter Behrens designed an airplane factory at Henningsdorf near Berlin (1915)
for AEG. In the 1926 film Metropolis , a rooftop airport was included on top of a tower, and in 1932
Andre Lurcat suggested building airports in the River Seine, Paris. Manmade islands to
service transatlantic airplanes were proposed, an idea that, 70 years on, was realized in
the futuristic artificial island airports of Kansai (1994, Osaka Bay) and Chek Lap Kok
(1997, Hong Kong).
Stansted Airport exterior, Essex, England, designed by Norman Foster
and Partners (1981–91)
In the United States air services were started by the Post Office, which developed and
operated an airmail service from 1918 to 1925. After the passage of the contract Air Mail
Act of 1925, many private entrepreneurs and companies entered commercial aviation.
The history of American air transport policy contrasts with that of Europe, where the
responsibility for forming airlines, building navigation aids, and constructing airports
nearly always rested in the hands of each country’s central government. In America
airport designers generally simulated ideas from the architects and engineers of railway
terminals, combining the best of railroad station design with important airport elements
that became common features in later decades. On occasion, a regional style was chosen
for terminals, such as in San Francisco (1937) and Albuquerque (1939).
After 1927 increases in flight movements and passenger capacities and the weight of
commercial aircraft placed new demands on concepts for the buildings and for the entire
airfield and caused the third generation of airport construction. Expensive take-off and
landing strips with paved surfaces, standard at all airports in the United States since 1928,
now became mandatory in Europe. Usually, four or more strips were planned to respond
to varying wind directions. The airport at Bromma near Stockholm became the first to be
so equipped. Doubts now arose about the common practice of building on the periphery,
and in 1929, the French proposed the idea of a wedge-shaped building zone projecting
forward from the edge of the airport into the center of the airfield, leaving more than 80
percent of the edge undeveloped.
The introduction of flying boats in the 1930s led to the construction of amphibian
airports on coasts, such as the International Air Terminal and Dinner Key Seaplane Base
at Miami (1934) and Marine Air Terminal, LaGuardia Airport (1939), where one could
transfer to a land airplane. The 1930s saw some striking terminal buildings erected, such
as Ramsgate Municipal Airport (1937) by David Pleydell-Bouverie in Great Britain.
Encyclopedia of 20th-century architecture 60
Resulting from the tremendous advances in aviation made during World War II and
the introduction of new types of commercial aircraft carrying 80 to 100 passengers,
existing arrival and departure halls were rendered inadequate. Airport construction and
modernization was delayed in the immediate postwar period and only got going properly
in Europe in the 1950s. The frontal system or transporter configuration of terminal design
dominated: Aircraft stood out on aprons, separate from the terminals, and passengers had
to walk out across the tarmac to the planes. The Zurich International Airport (1953) by
Alfred and Heinrich Oeschger is typical of this fourth generation of airports. Other
examples are Heathrow (1956, London) and Orly (1961, Paris), which had a terminal
located at the center with two fingers on either side, stretching 2,300 feet from end to
end.
Finger- and star-shaped terminals arrived in the 1950s in the United States and soon
afterward in Europe. The terminal at London’s Gatwick Airport in 1958, a rectangular
building with a single finger, was the first example of a fifth-generation airport, with two
more added in 1964; Rome, Milan, Copenhagen, London, and Amsterdam soon adopted
the system. Toronto airport (1961) in North America and Geneva’s Cointrin airport
(1968) and the Cologne-Bonn airport (1970) in Europe are leading examples of satellite
terminal design.
The basic assumption inherent in fifth-generation airports—minimum distances
between landside and airside—came under great pressure in the 1970s when international
terrorism surfaced. Since then, airports have been subject to strict safety regulations.
The main feature of the next, sixth, generation of airports, dealt with the terrorist threat
by applying the bottleneck principle, with the arrival and departure halls once again
centrally located (often on separate floors), in combination with a strict division between
the “secure” area and the “open” area. As a consequence, well-designed terminals assure
a discreet transition from public area to a zone of differentiated security, thereby avoiding
any feeling of restricted freedom.
The 1990s brought a climax in terminal design with the creation of some 40 major
new terminals around the globe, replacing older obsolete facilities for cities as far apart as
Osaka, Hong Kong, Bilbao, London, Paris, Inchon, Barcelona, Seville, and Shanghai.
Although they are very varied architecturally, they share many common features; namely,
great size, openness, lightweight construction, high-tech detail of structure and services,
and a new lyrical freedom. The new high-tech megaterminals frequently combine
extensive areas of retail, hotel and conference facilities, bars, and movie theaters. At a
minimum, the 1990s terminals are the products of a 40-year evolution and, hence, bring
together many existing trends in a striking new synthesis. Constructional ingenuity and
bravado, large, curved, roofs, the application and celebration of advanced technology—
all this and more has been applied obsessively to every facet of terminal performance.
Although the dominant high-tech expression was not confined to air terminal design,
there is an immediate appropriateness about its use. Sir Norman Foster and Partners, Sir
Richard Rogers, and Renzo Piano, as well as a host of other designers and followers,
were inspired by 19th-century English industrial buildings, and more critically, by Sir
Joseph Paxton’s 1851 Crystal Palace.
Foster and Partner’s Stansted Airport in Essex, England (1991), is such an example.
Stansted is a single-level building that incorporated an evenly spaced grid of columns that
is clearly and intentionally reminiscent of Mies van der Rohe’s steel-andglass pavilion
Entries A–F 61
concept. Its plan was for an elegant and directionless neutral terminal with a detached
satellite in a flat English landscape, a step farther on from his previous Sainsbury Center
for the Visual Arts at Norwich (1978), which resembles an aircraft hangar.
The new airport at Kansai, which was designed by Renzo Piano Building Workshop
and that opened in 1994, displays with great authority the characteristic features of
contemporary airport architecture such as scale (it has a 1.7-km-long departure lounge),
planning complexity, engineering prowess, and technological splendor. Kansai was the
first airport of its size (it was designed to handle 25 million passengers a year) to be
developed entirely on a man-made island. The architect anticipated later terminal designs
by exploiting open, curvaceous roofs that are ecologically sound and by using natural
light to mark the passenger routes through the terminal. It is a multinodal transportation
center as much as an airport.
Hong Kong’s new Chek Lap Kok (1997) terminal, also by Foster and Partners,
planned for 35 million passengers per year and extended the architectural language of
Stansted. The roof has a 36-meter structural grid and appears from above as a cutout
silhouette of a plane. On three main levels between two parallel runways, Chek Lap Kok
also has train and expressway links to Hong Kong.
The 1990s generation of megaterminals, although they make the most of available
technological resources, push beyond mere technological expression: They seek to
become more “natural” and less artificial as they acquire an outdoors-indoors character,
making the most of natural light and ventilation. This trend may be the result of
technology fatigue, the onset of boredom with technology in isolation, and an
acknowledgment that people require a deeper, more meaningful, relationship with natural
things for harmony and balance. It is not surprising to find terminal designers using
words such as “calm and visual clarity” to express their aims.
AHMEDABAD, INDIA
Described by 16th-century European travelers as “the handsomest town in Hindustan,
perhaps in the world,” in the 17th century as a “city comparable in size and wealth to
London” and as “the Manchester of the East” for its thriving textile industry, Ahmedabad
eventually hosted an architectural treasure trove in the 20th century. This metropolis in
western India, with a population of more than 2.8 million, is home to four key buildings
designed by Le Corbusier (1887–1965), the well-crafted Indian Institute of Management
Campus (1962–73) by American architect Louis I.Kahn (1901–74), and outstanding
projects by leading Indian architects Charles Correa (1930), Balkrishna Doshi (1927),
and Achyut Kanvinde (1916).
Named after its founder, Ahmed Shah, Ahmedabad was established in 1411 on the site
of Ashawal, an earlier trading settlement that was abandoned in the 11 th century.
Occupying the east bank of the Sabarmai River, the original city of Ahmedabad,
popularly known as the Old City, continues to serve as a distinct commercial and
Encyclopedia of 20th-century architecture 54
residential core of the present-day metropolis. With the building of the Ellis Bridge in
1870 (a wooden structure replaced by steel in 1882) and subsequent construction of a
series of reinforced-concrete bridges capable of withstanding monsoon floods, the city
started to expand across to the west bank. New bridges opened the less crowded west, or
right, bank of the river. The empty west bank was more attractive for development
compared with the crowded east side. This remains so today, even as the city is now
spread equally on both sides of the river. The expansion of the west bank in the 20th
century encouraged a wide range of new architecture. It would be a mistake, however, to
overlook the Old City, because the living architectural heritage from the last five
centuries can be found alongside 20th-century buildings. Noteworthy modern projects in
the Old City include the Premabhai Hall (1972) and the Central Bank of India Head
Office (1966) by Doshi, the Reserve Bank Headquarters (1969) by Hasmukh Patel
(1933), the Roman Catholic Church of Gaekwad-ni-Haveli (1979) by Leo Pereira (1943),
and the Geodesic Domed Calico Shop (1962) by Gautam (1917–95) and Gira Sarabhai
(1923).
Foundations of 20th-century architecture of Ahmedabad are primarily Western in
origin, beginning in the early 19th century, when the British took control of the city from
the Maratha kings. They established a military cantonment to the northeast of the Old
City in 1830. The railway was introduced in the 1860s with the first textile mill. In the
1870s, new gates were opened in the city wall, and large portions of it were pulled down
after World War I. Early expansion of modern Ahmedabad occurred on the side of the
Old City and in the direction of the cantonment. Suburban Shahibagh still holds a number
of well-designed homes of the rich mercantile class, including the Retreat (1936)
designed by Surendranath Kar (1892–1970), and Le Corbusier’s ground-hugging, vaulted
structure of the Sarabhai House (1951).
The completion of the Ellis Bridge was followed by increased development on the
west side of the river. Not too far from the bridgehead emerged the educational complex
of Gujarat College (c.1890), an eclectic Public Works Department project with Gothic,
Tudor, and local touches, where the George V Hall (1910) was renamed Mahatma
Gandhi Hall after India’s independence. Other important buildings include the Town Hall
(1940), designed by an influential British architect, Claude Batley (1879–1956); the
Bombay-based partnership of Gregson, Batley, and King is inspired by Indian traditions
and Western classical orders. The Town Hall, the Relief Cinema (1940), and the
Electricity House (c. 1940) do not bear the typical stylistic imprint of these architects;
rather, the Art Deco and the International Style architecture seem to have inspired all
three buildings.
The Postindependence Era
Ashram Road, the main traffic artery connecting all bridgeheads along the west bank of
the Sabarmati River, begins near the Subhas Bridge to the north and ends near Sardar
Bridge to the south. A host of important civic structures are located along this road,
including Charles Correa’s Gandhi Smarak Sangrahalaya (1963), located less than 100
yards from the Hriday Kunj (heart grove) in the Sabarmati Ashram, where Gandhi
resided from 1917 to 1930. Built around 20-foot-square modules only 7 feet high with
Entries A–F 55
hutlike structures that are interconnected and with courtyards, this modest and inspiring
edifice holds letters, photographs, and other documents of Gandhi. Kanvinde’s Darpana
Dance Academy (1968) fits beautifully with nature and its surroundings. To the south of
the Gandhi Bridge lies the wellknown Mill Owners’s Association Building by Le
Corbusier. The southernmost crossing of the river at Sardar Bridge is the cultural
prescient of Ahmedabad; Le Corbusier’s recently refurbished museum, or the Sanakar
Kendra (1954–57), the reinforced-concrete folded plate structure of Tagore Memorial
Theater (1962) by Doshi, and the rambling National Institute of Design Campus (1961)
by Gautam and Gira Sarabahi are all located here.
The westward growth of suburban Ahmedabad continued rapidly in the
postindependence period. A number of welldesigned private residences can be found in
these neighborhoods, including the Shodhan Villa (1951–54) by Le Corbusier, which,
according to his Oeuvre complète, “recalls the ingenuity of the Villa Savoye…in a tropical Indian
setting.”
A number of educational and research institutions beyond these suburbs represent
significant contemporary architecture of Ahmedabad, including the Gujarat University
main buildings (1947) by Atmaram Gajjar (1901–61); a fine range of projects by
architect Doshi, including the Institute of Indology (1957–62), science buildings (1959–
62) for Gujarat University, the School of Architecture (1966–68), the Gandhi Labor
Institute (1980–84), and the Hussain-Doshi Gufa (1992–94), a mosaiccovered cavelike
exhibition structure; the Ahmedabad Textile Industries Research Association Facility
(1950–52) and the Physical Research Laboratory (1954) by Kanvinde; and the Newman
Hall (1970) and the Indian Space Research Organization (1975), two beautiful brick
complexes, by Hasmukh Patel. The Nehru Center for Environmental Education (1988–
90) by Neelkanth Chhaya (1951) and the Entrepreneur Development Institute (1985–87)
by Bimal Patel (1960) represent projects by young Indian architects. Louis Kahn’s
brooding brick complex of the Indian Institute of Management has served as an
inspiration to many of these projects.
Although the recent urban growth of Ahmedabad has not been very coherent and is
continuing in a rather uncontrolled fashion, a few housing projects provide attractive and
affordable places to live. For example, the Ahmedabad Study Action Group’s Housing
Rehabilitation Project (1973–75) provides housing for about 2,500 flood-affected
families in the southern suburb of Vasna. It combines a series of housing clusters around
a sequence of open spaces, well suited for community activities. In his Life Insurance
Corporation Project (1973–76), Doshi employed a stackable urban row house model that
allows users to expand their units. Architect Kamal Mangaldas’s (1938) narrow-front row
house project for Sanjay Park (1985) and the duplex-type Gulmohur Luxury Housing
(1986) support a sense of community and self-sufficiency by organizing rows of housing
around a cluster of amenities. However, such projects are few and far between.
Nevertheless, these enlightened housing and architectural projects distinguish
Ahmedabad from other rapidly expanding Indian cities.
perhaps in the world,” in the 17th century as a “city comparable in size and wealth to
London” and as “the Manchester of the East” for its thriving textile industry, Ahmedabad
eventually hosted an architectural treasure trove in the 20th century. This metropolis in
western India, with a population of more than 2.8 million, is home to four key buildings
designed by Le Corbusier (1887–1965), the well-crafted Indian Institute of Management
Campus (1962–73) by American architect Louis I.Kahn (1901–74), and outstanding
projects by leading Indian architects Charles Correa (1930), Balkrishna Doshi (1927),
and Achyut Kanvinde (1916).
Named after its founder, Ahmed Shah, Ahmedabad was established in 1411 on the site
of Ashawal, an earlier trading settlement that was abandoned in the 11 th century.
Occupying the east bank of the Sabarmai River, the original city of Ahmedabad,
popularly known as the Old City, continues to serve as a distinct commercial and
Encyclopedia of 20th-century architecture 54
residential core of the present-day metropolis. With the building of the Ellis Bridge in
1870 (a wooden structure replaced by steel in 1882) and subsequent construction of a
series of reinforced-concrete bridges capable of withstanding monsoon floods, the city
started to expand across to the west bank. New bridges opened the less crowded west, or
right, bank of the river. The empty west bank was more attractive for development
compared with the crowded east side. This remains so today, even as the city is now
spread equally on both sides of the river. The expansion of the west bank in the 20th
century encouraged a wide range of new architecture. It would be a mistake, however, to
overlook the Old City, because the living architectural heritage from the last five
centuries can be found alongside 20th-century buildings. Noteworthy modern projects in
the Old City include the Premabhai Hall (1972) and the Central Bank of India Head
Office (1966) by Doshi, the Reserve Bank Headquarters (1969) by Hasmukh Patel
(1933), the Roman Catholic Church of Gaekwad-ni-Haveli (1979) by Leo Pereira (1943),
and the Geodesic Domed Calico Shop (1962) by Gautam (1917–95) and Gira Sarabhai
(1923).
Foundations of 20th-century architecture of Ahmedabad are primarily Western in
origin, beginning in the early 19th century, when the British took control of the city from
the Maratha kings. They established a military cantonment to the northeast of the Old
City in 1830. The railway was introduced in the 1860s with the first textile mill. In the
1870s, new gates were opened in the city wall, and large portions of it were pulled down
after World War I. Early expansion of modern Ahmedabad occurred on the side of the
Old City and in the direction of the cantonment. Suburban Shahibagh still holds a number
of well-designed homes of the rich mercantile class, including the Retreat (1936)
designed by Surendranath Kar (1892–1970), and Le Corbusier’s ground-hugging, vaulted
structure of the Sarabhai House (1951).
The completion of the Ellis Bridge was followed by increased development on the
west side of the river. Not too far from the bridgehead emerged the educational complex
of Gujarat College (c.1890), an eclectic Public Works Department project with Gothic,
Tudor, and local touches, where the George V Hall (1910) was renamed Mahatma
Gandhi Hall after India’s independence. Other important buildings include the Town Hall
(1940), designed by an influential British architect, Claude Batley (1879–1956); the
Bombay-based partnership of Gregson, Batley, and King is inspired by Indian traditions
and Western classical orders. The Town Hall, the Relief Cinema (1940), and the
Electricity House (c. 1940) do not bear the typical stylistic imprint of these architects;
rather, the Art Deco and the International Style architecture seem to have inspired all
three buildings.
The Postindependence Era
Ashram Road, the main traffic artery connecting all bridgeheads along the west bank of
the Sabarmati River, begins near the Subhas Bridge to the north and ends near Sardar
Bridge to the south. A host of important civic structures are located along this road,
including Charles Correa’s Gandhi Smarak Sangrahalaya (1963), located less than 100
yards from the Hriday Kunj (heart grove) in the Sabarmati Ashram, where Gandhi
resided from 1917 to 1930. Built around 20-foot-square modules only 7 feet high with
Entries A–F 55
hutlike structures that are interconnected and with courtyards, this modest and inspiring
edifice holds letters, photographs, and other documents of Gandhi. Kanvinde’s Darpana
Dance Academy (1968) fits beautifully with nature and its surroundings. To the south of
the Gandhi Bridge lies the wellknown Mill Owners’s Association Building by Le
Corbusier. The southernmost crossing of the river at Sardar Bridge is the cultural
prescient of Ahmedabad; Le Corbusier’s recently refurbished museum, or the Sanakar
Kendra (1954–57), the reinforced-concrete folded plate structure of Tagore Memorial
Theater (1962) by Doshi, and the rambling National Institute of Design Campus (1961)
by Gautam and Gira Sarabahi are all located here.
The westward growth of suburban Ahmedabad continued rapidly in the
postindependence period. A number of welldesigned private residences can be found in
these neighborhoods, including the Shodhan Villa (1951–54) by Le Corbusier, which,
according to his Oeuvre complète, “recalls the ingenuity of the Villa Savoye…in a tropical Indian
setting.”
A number of educational and research institutions beyond these suburbs represent
significant contemporary architecture of Ahmedabad, including the Gujarat University
main buildings (1947) by Atmaram Gajjar (1901–61); a fine range of projects by
architect Doshi, including the Institute of Indology (1957–62), science buildings (1959–
62) for Gujarat University, the School of Architecture (1966–68), the Gandhi Labor
Institute (1980–84), and the Hussain-Doshi Gufa (1992–94), a mosaiccovered cavelike
exhibition structure; the Ahmedabad Textile Industries Research Association Facility
(1950–52) and the Physical Research Laboratory (1954) by Kanvinde; and the Newman
Hall (1970) and the Indian Space Research Organization (1975), two beautiful brick
complexes, by Hasmukh Patel. The Nehru Center for Environmental Education (1988–
90) by Neelkanth Chhaya (1951) and the Entrepreneur Development Institute (1985–87)
by Bimal Patel (1960) represent projects by young Indian architects. Louis Kahn’s
brooding brick complex of the Indian Institute of Management has served as an
inspiration to many of these projects.
Although the recent urban growth of Ahmedabad has not been very coherent and is
continuing in a rather uncontrolled fashion, a few housing projects provide attractive and
affordable places to live. For example, the Ahmedabad Study Action Group’s Housing
Rehabilitation Project (1973–75) provides housing for about 2,500 flood-affected
families in the southern suburb of Vasna. It combines a series of housing clusters around
a sequence of open spaces, well suited for community activities. In his Life Insurance
Corporation Project (1973–76), Doshi employed a stackable urban row house model that
allows users to expand their units. Architect Kamal Mangaldas’s (1938) narrow-front row
house project for Sanjay Park (1985) and the duplex-type Gulmohur Luxury Housing
(1986) support a sense of community and self-sufficiency by organizing rows of housing
around a cluster of amenities. However, such projects are few and far between.
Nevertheless, these enlightened housing and architectural projects distinguish
Ahmedabad from other rapidly expanding Indian cities.
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