Design Theory of Architecture Module 2 PDF

Summary

This document provides an overview of design theory in architecture and features examples and details including the golden ratio and regulating lines.It includes information on different architectural styles and classical orders.

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DESIGN THEORY OF ▪ Golden Section
▪ Regulating Lines
ARCHITECTURE MODULE 2 ▪ Classical Orders
▪ Renaissance Theories
▪ Modulor
LESSON 1
▪ Ken
▪ Anthropometry
DESIGN
Design: is the creation and organization
of formal elements in a work of art.
GOLDEN SECTION
Design principle: is a fundamental and The Golden Section can be defined as
comprehensive concept of visual the ratio between two sections of a line,
perception for structuring and aesthetic or the two dimensions of a plane figure,
composition. in which the lesser of the two is to the
greater as the greater is to the sum of
Proportion both.
The proper harmonious relation of one part
to another or to the whole. EXAMPLES:

Parthenon
Athens, Greece. Ictinus and Callicrates.
PROPORTIONING SYSTEMS
Tempietto, St.Pietro
They can visually unify the multiplicity of
Montorio, Rome. Donato Bramante.
elements in an architectural design by
having all of its parts belong to the same
family of proportions.

They can provide a sense of order in, and REGULATING LINES
heighten the continuity of, a sequence of If the diagonals of two rectangles are
spaces. either parallel or perpendicular to each
other, they indicate that the two
They can establish relationships between rectangles have similar proportions.
the exterior and interior elements of a These diagonals, as well as lines that
building. indicate the common alignment of
elements, are called regulating lines.

TYPES OF PROPORTIONING EXAMPLES:
SYSTEMS
World Museum Diastyle = 3 D
Geneva. Le Corbusier Araeostyle = 4 D

Palazzo Farnese
Rome. Antonio da Sangallo the Younger
RENAISANCE THEORIES
The Pantheon The architects of the Renaissance,
Rome believing that their buildings had to
belong to a higher order, returned to the
Villa Garches Greek mathematical system of
Vaucresson, France. Le Corbusier proportions.

Villa Foscari Seven Ideal Plan Shapes for
Malcontenta, Italy. Andrea Palladio. Rooms.

Andrea Palladio (1508–1580) was
CLASSICAL ORDERS: probably the most influential architect of
the Italian Renaissance. In The Four
To the Greeks and Romans of classical Books on Architecture, first published in
antiquity, the Orders represented in their Venice in 1570, he followed in the
proportioning of elements the perfect footsteps of his predecessors, Alberti
expression of beauty and harmony. The and Serlio, and proposed these seven
basic unit of dimension was the “most beautiful and proportionable
diameter of the column. manners of rooms.”

CLASSICAL ORDERS: Determining the Heights of
Rooms.
▪ Tuscan: (6 Diameters)
▪ Doric: (7 Diameters) Palladio also proposed several methods
▪ Ionic: (8 1/3 Diameters) for determining the height of a room so
▪ Corinthian: (8 1/3 Diameters) that it would be in proper proportion to
▪ Composite the room’s width and length

INTERCOLUMNATION ▪ The height of rooms with flat
ceilings would be equal to their
Pycnostyle = 1 ½ D width.
Systyles = 2 D
Eustyle = 2 ¼ D ▪ The height of square rooms with
vaulted ceilings would be one-third
greater than their width.
KEN:
▪ For other rooms, Palladio used The ken was introduced in the latter half
Pythagoras’ theory of means to of Japan’s Middle Ages.
determine their heights.

Although it was originally used simply to
EXAMPLES:
designate the interval between two
columns and varied in size, the ken was
Villa Capra (The Rotunda)
soon standardized for residential
Vicenza, Italy. Andrea Palladio.
architecture.
Room sizes: 12 x 30, 6 x 15, 30 x 30

The size of a room is designated by the
Palazzo Chiericati
number of its floor mats.
Vicenza, Italy. Andrea Palladio.
54 x 16 (18), 18 x 30, 18 x 18, 18 x 12
Palazzo Chiericati ANTHROPOMETRY:
Vicenza, Italy. Andrea Palladio. Anthropometry refers to the
54 x 16 (18), 18 x 30, 18 x 18, 18 x 12 measurement of the size and
proportions of the human body.
Villa Thiene
The dimensions of the human body also
Cicogna, Italy. Andrea Palladio.
affect the volume of space we require
18 x 36, 36 x 36, 36 x 18, 18 x 18, 18 x 12
for movement, activity, and rest.
The fit between the form and dimensions
of a space and our own body dimensions
MODULOR: can be:
Le Corbusier developed this ▪ Static;
proportioning system to order “the ▪ Dynamic; or
dimensions of that which contains and ▪ Based on social distances and
that which is contained.” personal space.

The basic grid consists of three
measures, 113, 70, and 43 centimeters, SCALE:
proportioned according to the Golden The size of something compared to a
Section. reference standard or to the size of
something else.
“maintains the human scale
everywhere.”
Two types: differentiating its shape from that of the
▪ Visual scale; and other elements in the composition.
▪ Human scale.
By Placement
Visual Scale A form or space may be strategically
It refers to how small or large something placed to call attention to itself as being
appears to be in relation to its normal the most important element in a
size or to the size of other things in its composition.
context.

Human Scale
Human scale in architecture is based on PROXEMICS:
the dimensions and proportions of the
Proxemics is the study of the symbolic and
human body.
communicative role of the spatial
separation individuals maintain in various
social and interpersonal situations, and how
HIERARCHY: the nature and degree of this spatial
For a form or space to be articulated as arrangement relates to environmental and
being important or significant to an cultural factors.
organization, it must be made uniquely
visible. Personal Space
The variable and subjective distance at
This visual emphasis can be achieved by which one person feels comfortable talking
endowing a form or shape with: to another. Also called personal distance.
▪ exceptional size;
▪ a unique shape; or
LEVELS OF DISTANCES
▪ a strategic location.
▪ Intimate Distance
▪ Personal Distance
By Size ▪ Social Distance
A form or space may dominate an ▪ Public Distance
architectural composition by being
significantly different in size from all the INTIMATE DISTANCE
other elements in the composition. 0-18 inches (0-450mm)
- Voluntarily selected gap between people
by Shape who are drawn to each other. At this
A form or space can be made visually close range, vision is distorted, and any
dominant and thus important by clearly vocalization is a whisper, moan, or grunt.
PERSONAL DISTANCE ▪ Sociopetal
18 inches to 4 feet (450 mm-1.20m) ▪ Sociofugal
- The sense of body heat is lost. Eyesight
begins to focus, and vocalization comes
Sociopetal Space
into play. Although only ritualized touch
Spaces which tend to bring people
is typical, the other person is still at arm’
together.
s length, available to be grasped, held, or
shoved away.
Sociofugal Space
Tend to keep people apart and
SOCIAL DISTANCE
discourage conversations.
4 to 10 feet (1.20m - 3.00m)
- This is the zone of impersonal
transaction. We now have to rely solely
on what we can see and hear.
By the middle of the range, the eye can LESSON 2
focus on an entire face. When the
distance is more than eight feet, it’s OK
VISUAL ACUITY AND
to ignore another’s presence and it’s PERCEPTION
easy to disengage from a conversation.

PERCEPTION – is the process by which we
PUBLIC DISTANCE
organize and interpret the
10 feet to infinity (3 meters and beyond)
patterns of stimuli in our environment, the
This is the zone where we can no longer
immediate intuitive recognition, as of an
pick up subtle nuances of meaning from
aesthetic quality.
the face or tone of voice. The eye can
take in the whole body at a glance.
ACUITY – sharpness or keenness of
It’s the distance of the lecture hall, mass
thought, vision, or hearing.
meetings, and interactions with powerful
figures until such time as they bid you to
SPATIAL PERCEPTION- The ability to be
come closer.
aware of your relationships with the
environment around you
and with yourself.
Spatial Awareness is made up of two (2)
SEMI-FIXEDFEATURE SPACE processes:
Furniture arrangement in public places
has a distinct relationship to the degree 1. Exteroceptive – which create
of conversation. representations about our space
through feelings – EXTERNAL SENSES
2. Interoceptive – which create PRINCIPLES IN PERCEIVING THE
representations about our body ,
OBJECTS AND SHAPES
like its position or orientation – INTERNAL
SENSES
FIGUREGROUND- A phenomenon wherein
drawings consisting of black lines, any line
SPATIAL PERCEPTION - which surrounds an area, is
quickly picked out the observer,
DISTANCE & SIZE and it seems to stand out from the
background.
SMALL/ NEAR VANITY- When you look at this figure from
MEDIUM/ MIDDLE afar it looks so much like a skull but when
LARGE/ FAR near, it clearly show a lady in front of a
mirror.

FLUCTUATION- Instances of fluctuation are
VISION- is experienced through the eyes given by the phenomena of the
but interpreted with the mind. alternating 'Figure' and 'Ground’ alternating
perspective and retinal rivalry.

STEREOSCOPIC
The visual process creating an
IMPOSSIBLE FIGURES/ GESTALT
illusion of three-dimensional
depth, making it possible to judge IDEAS OF VISUAL PERCEPTION
distances.
The visual process creating an - The Gestalt’s Principles are a set of
illusion of three-dimensional laws
depth, making it possible to judge describing how humans typically see
distances. objects bygrouping similar elements,
recognizing
patterns, and simplifying complex
KINESTHETIC images. (EVERYTHING IS VIEWED AS A
The sensory input that occurs in WHOLE, NOT INDIVIDUAL PIECES.)
the body that serves as feeling
responsible for the correctness of
a movement. GESTALT THEORY: Principles

CLOSURE
Preferring complete shapes, we
automatically fill in gaps between elements
to perceive a complete image; so, we see
the whole first.

PROXIMITY
objects that are near or close
to each other are perceived as a group

SIMILARITY
items that are similar to each
other are perceived as a group. If
there is an assortment of
objects, we perceptually group
the similar ones together.
Similarity can occur in terms of
shape, colour, texture or other
qualities

SYMMETRY
The mind tries to see a center point in
between the objects and tries to
perceive objects as being
symmetrical. LESSON 3
For this reason, when two
symmetrical elements are separate, DESIGN PERCEPTION
the mind perceptually connects
SPACE- Space is the three-dimensional field
them to form a familiar shape.
in which objects and events occur and have
relative positions and directions, especially
CONTINUITY a portion of that field set apart in each
Continuity principle states that if the instance or for a particular purpose.
objects are aligned, they are
perceived as a group and integrated SPACE RELATIONSHIPS- Spaces may be
into a perceptual whole. related to each other in several
fundamental ways:
* Space within a space;
* Interlocking spaces;
* Adjacent spaces; and
* Spaces linked by common space.
 Lawrence House
SPACE WITHIN A SPACE Sea Ranch, California. Moore
- In this type of spatial relationship, the Turnbull/MLTW.
larger, enveloping
space serves as a three-dimensional field
for the smaller space contained within it.
EXAMPLES: SPACES LINKED BY A COMMON SPACE
Moore House - Two spaces that are separated by distance
California, US. Charles can be linked or related to each other by a
Moore. third, intermediate, space.
EXAMPLES:
One-Half House
INTERLOCKING SPACES John Hejduk.
- An interlocking spatial relationship results
from the overlapping of two spatial fields
and the emergence of a zone of shared
space. SPACIAL ORGANIZATION
EXAMPLES: - Centralized
Plan for St. Peter - Linear
Second Version. Donato - Radial
Bramante and Baldassare Peruzzi. - Clustered
Villa at Carthage - Grid
Tunisia. Le Corbusier

CENTRALIZED
- A centralized organization is a stable,
ADJACENT SPACES
concentrated composition that consists of
- Adjacency is the most common type of
several secondary spaces grouped around a
spatial relationship. It allows each space to
large, dominant, central space.
be clearly defined and respond, each in its
own way, to specific functional or
EXAMPLES:
symbolic requirements. Taj Mahal
Agra, India.
The spaces are individualistic in size, shape, Villa Farnese
and form. The walls that enclose them Caprarola, Italy. Giacomo da Vignola.
adapt their forms to accommodate the National Assembly Building
differences between adjacent spaces.
Dacca, Bangladesh. Louis Kahn.
EXAMPLE:
Chiswick House London, England.
Lord Burlington and William Kent.
LINEAR another. It often consists of repetitive,
A linear organization consists essentially of cellular spaces that have similar functions
a series of spaces. These spaces can be and share a common visual trait such as
directly related to one another or inked shape or orientation.
through a separate and distinct linear EXAMPLES:
space. Yeni-Kaplica
EXAMPLES: (Thermal Bath) Bursa, Turkey.
Residential Palace of King Minos
Expansion Knossos, Crete.
St. Andrew’s University, Scotland. Rajarajeshwara Temple
James Stirling. Thanjavur, India.
Lloyd Lewis House St. Carlo alle Quattro Fontane
Libertyville, Illinois. Frank Lloyd Rome. Francesco Borromini.
Wright.

RADIAL GRID
- A radial organization of space combines - A grid organization consists of forms and
elements of both centralized and linear spaces whose positions in space and
organizations. It consists of a dominant relationships with one another are
central space from which several linear regulated by a three-dimensional grid
organizations extend radially. pattern or field.
EXAMPLES:
EXAMPLES:
Guggenheim Museum
Shodhan House
Bilbao, Spain. Frank Gehry.
Ahmedabad, India. Le
Canberra
Corbusier.
Australia. Walter Burley Griffin.
The Eixample
Paris, France
Barcelona, Spain. Ildefons
France, Napoleon III and Georges-
Cerdà.
Eugène Haussmann.
Eric Boissonnas
H. F. Johnson House |
House | Glass House
Wingspread Wind Point, Wisconsin.
New Canaan, Connecticut. Philip
Frank Lloyd Wright.
Johnson.

CLUSTERED
- A clustered organization relies on physical
proximity to relate its spaces to one