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1 Introduction
Albert Einstein stated: “Science must start from facts and

end with facts, irrespective of the theoretical structures that it
uses to combine them” [1–4].

This statement is directly relevant to morphological ana-
lysis based on Lull’s Art, as this method starts from facts
and combines them in a mechanical way, thereby creating
theoretical structures. According to this method, from among
the theoretical structures formed in this way, only those are to
be chosen, which will be in accordance with a pre-defined
need.

Thus, the method assumes a decision-making role, the
creative choice of a human-designer, which is an indispens-
able element of architectural design in a systemic approach.1

At present, the traditional understanding of architectural
design2 does not correspond fully with the assumed high
level of complexity of technological and architectural design
processes. The traditional understanding of design is also
not consistent with the contemporary level of complexity of
designed technical objects. In the creative method of mor-
phological analysis [5–11], the study or design of fragments
of reality, while treating these fragments as wholes composed
of different parts, correspond to the contemporary level of
complexity of designed technical objects.

The use of this method requires that a concept be in-
troduced, which will make it possible to isolate the object of
study or design. This concept is the system, and, in the case of
architectural design, it is the architectural system [11].

The effect of the development of a design methodology
which searches for general instructions of procedure and
regularities that will refer to the broadest classes of processes
of the design of technical objects, is, among others, the
formation of the specific interdisciplinary conceptual means
that accepts and facilitates a systemic approach to design.

Such a development of the methodology of design (Fig. 1)
[9], means that the process of architectural design can be
directly described and studied, without referring to the
description of a designed object [12–14]. At present, not only
design processes but also creation methods may be
characterized, without the necessity to defined them directly,
with the use of object descriptions [5]. According to our
contemporary methodological knowledge, features formed
in a design process are as fundamental as those which result

from the function of the object, the material used for its
production, and the production process.

These facts, on the background of knowledge resulting
from the contemporary extensive development of the meth-
odology of scientific design, involving the methods, proce-
dures and techniques of design [6], form a reason for
undertaking an attempt to study of the study of the morpho-
logical analysis methodology based on Lull’s Art[5, 7], as that
which can be applied not only in technology, but also in archi-
tectural design.

These remarks are the leading concepts of the presented
considerations referring to the possibilities of applying mor-
phological analysis or some parts of it in the real process of
architectural design. The indispensable condition for these
considerations is a systemic approach2 to the architectural
design process and to design as an architectural system.

2 Lull’s art as a philosophy and a
“Pre-concept” of the morphological
analysis methodology
Morphological analysis methodology has its “pre-con-

cept” [7–8], which testifies not only to the richness but also
to the continuity of human thought through the ages.
Ramon Lull, (1235–1315), a monk from Majorca, later know
as Raimundus Lullus, constructed a “logic machine” that
performs automatic combinations of solutions. This consists
in systematic combinations of a small number of notions.

These notions symbolize intervals on the orbits of con-
centrically rotating circles (App. 1) [8]. Ramon Lull called his
method “Great Art”, and later he reduced to nine the number
of notions subject to automatic combination (App. 2) [5]. An

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Application of Morphological Analysis
Methodology in Architectural Design
A. Prokopska

The theory of system and design methodology as the sphere of concepts being objective mode can be applied to a more precise description,
analysis and improvement of the methods of the real architectural design process.
Lull’s art as the primary idea of morphological analysis, has been acknowledged as to an element corresponding with the specificity of
architectural design. From the architect’s point of view it is worth studying the rules and peculiarities of morphological analysis
methodology.
In engineering design thus it may be possible to apply the methodology in architectural design.

Keywords: design, architecture, engineering, structure, morphology, analysis.

Fig. 1: Sequential basic actions in the process of satisfying needs
[9]



example contained in the table, reprinted from a seven-
teen-century book, is a typical morphological interval (Fig. 2,
3, App. 3).

Lull’s Art, however, led to the danger that thought might
be mechanized. Kant [5] expressed this danger as follows:
“being young, I studied a little between philosophy and
logics, … but after studying them I am of the opinion that
logics and syllogisms serve rather to explain things that are
known, or even, as in Lull’s Art, to speak without judgement
about things of which we know nothing, and which we must
learn”.

Lull’s methodology, as a basis of their philosophy, has
been cultivated throughout the history by many thinkers, e.g.,
Giordano Bruno and G. W. Leibniz [5]. Leibniz wrote about it
with appreciation in his Dissertatio de Arte Combinatoria.
A. Kircher [5], a famous Jesuit (the inventor of the magic lan-
tern, and thus the ancestor of the cinema) presented a clear
example of morphological analysis (App. 3).

In Gulliver’s Travels, Swift [5] criticizes Lull’s Art by de-
scribing a device that sets letters in a random manner. This
method enabled the most ignorant people to write books
without the least help of genius or education. This criticism
makes a clear distinction between what is morphological anal-
ysis and what is not.

In later centuries, Lull’s Art gradually fell into oblivion,
despite its potential values.

3 Selected procedures of
morphological analysis
Morphological analysis was introduced by Fritz Zwicky

[8–10], an astronomer3 who succesfully used this method, a
pioneer of the construction of reaction engines.

Zwicky used the term “morphological analysis” to define
a standard construction method that served for identifying all
possible means enabling the attainmet of a specific functional
capability. He was interested only in technical dimensions.
He formulated a method for identifying, classifying and orga-
nizing the parameters influencing the construction of a
physical device.

The processes of thinking known as morphological analy-
sis or morphological exercise, go beyond Zwicky’s morpho-
logical analysis, which is limited to the arrangement of
technical factors.

The aim of contemporary thinking processes, whether
they are called decomposition into semantic factors, mor-
phological exercises, methods of morphological analysis, or
simply “common-sense activity", is to search for more proper
and meaningful factors through a continuation of the analysis
of partial terms connected with complex terms, and complex
terms covering partial terms [5, 8–9].

In morphological analysis, the value of solutions is con-
nected with the value of the analysis, and the solutions must
be consciously studied, and must also be used in future
applications of this method in architectural design.

Gerardin [5] states that, in fact, “morphological analysis is
a method of creation, and more precisely – a systematic help
in creation”. This does not eliminate creative work by a
human beying, but stimulates and develops it, allowing the
imagination to work on a larger number of ideas than would
be possible with the classic approach.

Arthur D. Hall [14] defines morphological analysis as a
generalization of the arrangement of properties, closely con-
necting them with morphological analysis itself. He regards
the name as apt, since the word “morphology" refers to the
science of structure and form (from Greek morphe – shape
and logos – science). He claims that pondering on structure
and form stimulates intuition, and helps in formulating the
problems themselves.

The procedure of this method is presented by Hall as
follows:

• start from the broadest possible formulation of the
problem;

• make a list of the independent variables of the desired
system;

• assign to each variable one of the dimensions of the
morphological map;

• count the values that may be taken by each variable.

The total number of the problems will be equal to the
product of the value numbers of each of the variables. In
this method, the combination process grows in geometric
progression, and tens of thousands of solutions are quickly
obtained; thus it is necessary to distinguish clearly what is
morphological analysis, and what is not.

The importance of this method does not consist
exclusively in obtaining an ordered means of recording the
combinations of the values of the features of an object in the
morphological interval. Its essence lies in imposing a dis-
cipline and a systematic way of procedure on the designer,
and, as a result, enabling successive choices to be made
among many variant solutions [14–15].

To perceive an intrinsic order in a physically non-existing
thing, and to settle the main features of thought out solution

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Acta Polytechnica Vol. 41  No.1/2001

Fig. 2: a) Known solutions of the problem
b) Structuralized solutions having various new solutions

of the problem inside their abstract structure.

Fig. 3: A schematic drawing of a morphological interval [24]



is the most difficult element of morphological procedure. It is
also difficult to define the variants of the main features.
Improper classification of the features of the thought-out
solution may lead to an analysis of many contradictory or
non-essential elements. Neglecting the essential values of
features, on the other hand, may cause interesting concepts to
be overlooked.

Gerardin [5] proposed that Zwicky’s definition be re-
placed by another simple definition: “Morphological analysis
is a method for systematic study of all the possible solutions of
a given problem”. According to this definition, a problem is
considered in morphological analysis from the most general
possible point of view, so that the greatest probability is ob-
tained in examining all usable solutions of the problem.

Some solutions of the problem under consideration are
however, always known (Fig. 2a, b). Thus in a procedure also
consistent with morphological analysis, by starting from the
analysis of a known or apparently right solution, the discovery
of a new solution may be hoped for (Fig. 2b). Having under-
taken the analysis of a problem by morphological analysis, its
structure must then be defined and described in an abstract
form, while limiting it, for example, to the form of a morpho-
logical matrix (Fig. 2b). By calculating all possible solutions,
the set of possible solutions is investigated. A few of these
solutions can be regarded as meeting the pre-determined
requirements.

This method is particularly suitable for studying objects of
a very high level of complexity, and for solving problems
whose substance reduces to various combinations of a large
number of elements. These elements, combined in various
manners, form wholes of more and more new features, as
happens in the process of architectural design.

The most important advantage of this method, as
analysed from the viewpoint of its future application in archi-
tectural design, is that it leads, when the sets of main and
particular features are properly determined, to the identi-
fication and investigation of all combinations of the real
features of an object.

This morphological exercise depends on passing from
one level of abstraction or population to others, in order
to determine the essential change connected with a given
problem.

At present, morphological analysis serves for the deter-
mination of a full set of combinations of the variants of the
features of a defined class of technical objects, since it creates
the possibility of making a choice.

It is important for architects that, thanks to these
properties, this method makes it possible to obtain uncon-
ventional solutions, and, at the same time, to formulate
complex problems in a general, comprehensive and clear
manner.

Joining together the particular elements of an object
under study in a combinatory manner, we can create (or
generate) a huge number of types of systems. This task has
a large, but always finite number of solutions.

In morphological analysis method, the examination of
fragments of reality or their design, and regarding these
fragments as a whole composed of various parts (e.g.,
architectural forms), corresponds with the modern level of
complexity of design processes as intellectual processes, and
the complexity of the design of technical objects, including
architectural objects.

4 Selected examples of the
applications of morphological
analysis
In practical applications of this method in technology, suc-

cess is attainable if a randomly selected set of solutions allows
new ideas to be found. This is an attractive feature from the
point of view of the specificity of an architect’s design work.

Swager [15] describes an example of the use of morpho-
logical analysis in searching for real factors connected with
the future of coatings in the package production industry. In
this case, the analysis covered a number of conditions related
to: transport, distribution, concept of marketing, changes in
product manufacture technology, standards and government
acts, changes in product forms, changes in demand for the
products, and income per head.

During this morphological exercise which started with a
description of the problem from the point of view of an
evaluation of the importance and significance or lack of
significance, an analysis was performed in relation to the
usefulness and functions. In this analysis, each division or
combination of the fragments of the description of the prob-
lem was investigated in terms of potential changes that could
increase or decrease the future importance or requirements in
relation to the described functions and usefulness.

Sielicki [6] presents in the following manner the course of
a morphological procedure which is at the same time an
analysis of an example of its application:

• for a given class of objects, a set of main features is
defined: A,B,C, ...

• then, for each feature, its varieties or particular features
are determined

A1, A2, …Ak
B1, B2, …Bk
C1, C2, …Ck

This process can be continued to determine the subse-
quent varieties of the particular features.

• then all possible combinations of particular features or
varieties of these features are determined. A graphical
description can be used here, in the form of a table
(Fig. 4), a tree of solutions (Fig. 5), a morphological
matrix (Fig. 5) or a structural card (Fig. 6). In a situation
when there are a considerable number of features and
varieties of features, it is convenient to use computer
procedures.

• the obtained set of variant solutions is subjected to
reduction.

The remaining variants form the set of solutions searched
for, and undergo further evaluation and reduction.

The set of solutions can be reduced, while searching for
limitations that may exist as regards the values of various
parameters. These limitations may reflect true impossibilities,
physical, admissible values, also combinations, that seem to
be unrealistic.

In order to study all solutions obtained through morpho-
logical analysis, the morphological interval must be defined
(Fig. 3) in such a way that a number of different solutions be
obtained, which correspond to a reasonable amount of time
for studying them. In a morphological interval containing

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Acta Polytechnica Vol. 41  No.1/2001



seven parameters, each having three values, 2187 solutions
are obtained. In the case of seven parameters, each having
two values, only 128 solutions are obtained.

The example analysed above of the use of morphological
analysis and a multitude of possible graphical descriptions of
this method (Fig. 3, 4a, 4b, 5, 6, 7 and 8) describes and device
for collecting apples, presented by Sielicki [6].

The structure of description shown in Fig. 4a, b corre-
sponds to the tree of solution variants. This structure can also
be presented in the form of a so called structural card (Fig. 6)
[4].

Another form of graphical representation is a morpho-
logical matrix (sometimes called a morphological box). The
number of dimensions of this matrix is equal to the number of
main features of the solution, and each of its elements
corresponds to a defined combination of features (Fig. 5).
Figure 7, on the other hand, gives an example of a two-di-
mensional matrix, which describes the main features of the
same device for collecting apples.

The most convenient method of representation is a so
called decision graph (Fig. 1) [6].

The number of possible paths in the graph corresponds
to the number of possible variants of the solution.

In the decision graph shown, which is related to the
process of architectural design, one design decision would be
defined by one operational action, and would be depicted as
passing from one graphical point to the second point. Thus,
in the process of architectural design based on morphological
analysis, an architectural object can be formed [6, 11, 13–14],
in successive design steps taken as a result of evaluations made
in accordance with the ideas, knowledge and skill of an
architect.

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Acta Polytechnica Vol. 41  No.1/2001

method
separation
fruit from
branch

method
location
system

method
collest
fruit

vibration

pulling down

cutting

burning

on support

suspension

transport

loosing
and
catching

shaking
ulrasoundes

hand operated
mechanical
suction

electric
resistance
flame
soldering iron

cruth

ladder

scaffold

translocation

lift

baloon
lift

container

conveyor

network
tapes linen
bowl with water
mattress with rubber
air cushion

common
rollers runner

hydraulic
screw elevator

sack
box

band
helical
pipe

suction
force gravit

a)

Fig. 4: a), b) Table of the tree of solutions [9]

P

A

B

C

A1

B1

C2

A2

A3

B2

C1

A11

A12

A21

A22

A23

A4

A41

A42

A43
B11

B12

B13

B14

B21

B22

C11

C12

C21

C22

C23

C24

C25

C111

C112
C121

C122

C123

C1231

C1232

B131
B132

B141

B142

b)

Fig. 5: Two-dimensional morphological matrix [9]



5 Discussion and Conclusions
The modern development of the theories of system,

proxeology, and design methodology, together with the
development of concepts connected with these domains, has
led to new possibilities of design and improvement in the real
process of an architectural design system approach to design.

One of many consequences of the development of theo-
ries of system design methodology is an increase in the im-
portance of new applications of various methods; this
includes the method of morphological analysis known and
applied in technology, which is based on Lull’s Art.

In architectural design applications, this method, based
on the arrangement of fragments into more or less complex
wholes, requires a systemic approach.

A fundamental way of viewing morphological analysis
methodology is to treat it consciously as a tool that increases
the possibility of aggregating diversities in the process of
architectural design.

From the point of view of an architect, morphological
analysis has a particularly attractive feature that enables a de-
signer to create freely and yet systematically many variants
of the solution, according to a predefined need, and also
according to his creative imagination, knowledge and skill.

The present development of design methodology is close-
ly connected with design practice. The usefulness of future
processes of architectural design, in which morphological
analysis methodology will be applied, will result from the
degree to which these processes will enable understanding,
teaching and easier performance of architectural design.

Morphological analysis, as a mathematical method
facilitates computer aid to the process of design, including
architectural design.

The analysis undertaken here does not exhaust all possi-
bilities of the use of a systemic approach to architectural
design, and further study is recommended.

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Acta Polytechnica Vol. 41  No.1/2001

Fig. 6: A structural card [9]

Fig. 7: Three-dimensional morphological matrix [9]



References
[1] Einstein, A.: The Common Language of Science. “Advance-

ment of Science”, II, 5/109, 1937
[2] Kuzniecov, B. G.: Einstein Albert. Evic, Warszawa-Moskwa

1959
[3] Einstein, A.: Historical and cultural perspectives. The Cen-

tennial Symposium in Jerusalem, Ed. by Gerald Holton,
Yehuda Elkana, Princeton, Univ. Press, 1980

[4] Einstein, A.: Philosopher – Scientist. Ed. by Paul Arthur
Sohilp Brothers Publ., Harper Toveh books, Science Li-
brary, New York, 1959, vol. 1, vol. 2

[5] Gerardin, L: Screenplays of future. Morphological Analysis –
the Method of Creation. in: A Guide to practical technologi-
cal forecasting, Eds. Bright J. R. and Schoeman M. E. F.,
Prentice – Hall. Inc., Englewood Cliffs, New Jersey, USA,
1973, pp. 507–522

[6] Sielicki, A., Jeleniewski, T.: The Elements of the Methodology
of Technical Design. WNT, Warszawa 1980 (in Polish)

[7] Swager, W. L.: Perspective trees – method of creative applica-
tion of prognoses. In: A Guide to practical technological
forecasting, Eds. Bright J. R. and Shoeman M. E. F.,
Prentice – Hall. Inc., Englewood Cliffs. 204–234, New
Jersey, USA, 1973

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Acta Polytechnica Vol. 41  No.1/2001

Fig. 8: A decision graph [9]



[8] Zwicky, F.: The Morphological Method of Analysis and Con-
struction. Courant, Anniversary Volume, Intersciences,
Publ., New York 1948

[9] Zwicky, F.: Morphology and Nomenclature of Jet Engines.
Aeron. Eng. Review, June 1947

[10] Zwicky, F.: Morphology of Propulsive Power Monographs on
Morphological Research. No. 1. Society for Morphological
Research, Pasadena, California 1962

[11] Prokopska, A.: Morphological analysis in architectural
design. “Teka” Komisji Architektury i Urbanistyki

TXXVIII, Polish Academy of Science (PAN), Kraków,
1997 (pp. 185–195) (in Polish)

[12] Simon, H. A.: The Science of the artificial MIT Press.
Cambridge, MA, USA 1969

[13] Simon, H. A.: The Style of Design. In: Designing and systems.
Methodological problems, Vol. 3, Polish Academy of Sci-
ence (PAN), Komitet Naukoznawstwa, 1981,
pp. 97–115, Warsawa (in Polish)

[14] Simon, H. A.: Formulating, finding out and untie of problems
in design. Design and Systems, Vol. XII, Zagadnienia

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Acta Polytechnica Vol. 41  No.1/2001

App. 1: Lull’s Great Art [8]

App. 2: Ramon Lull’s Table [8]



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Acta Polytechnica Vol. 41  No.1/2001

App. 3: A clear example of morphological analysis from 17th century, in [8]



metodologiczne dyscyplin praktycznych, Wrocław-War-
szawa-Kraków-Gdańsk-Łódź, Zakład Narodowy imienia
Ossolinskich, Polish Academy of Sience (PAN), 1990
(in Polish)

[15] Swager, W. L.: Prespective trees – method of creative applica-
tion of prognoses. In: A Guide to practical technological
forecasting, Eds. Bright J. R. and Schoeman M. E. F.,
Prentice – Hall. Inc., Englewood Cliffs, New Jersey, USA,
1978, pp. 204–234

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Acta Polytechnica Vol. 41  No.1/2001

1) The application of a systemic approach to architectural design may turn out to be difficult, as this approach requires
precise knowledge which is not always available to the architect, since he acts in the sphere of intuition and
professional know-how.

2) The so-called architect’s design studio consist of know-how knowledge and know-how knowledge. The notion of an
“architectural studio” is indispensable in architecture, and originates from the traditions of this profession, because
architectural design originated from manufacture and has know-how in itself, i.e., knowledge which can be referred to
as “I know, but I don’t know how to say it”. This knowledge can be described at least partly by means of the language
of concepts in the theory of system and design methodology.

3) see also: Zwicky, F.: Morphological Astronomy. Springer Verlag. Berlin 1957

Endnotes

Prof. Aleksandra PROKOPSKA, D.Sc. arch
Dept. of Town Planning and Architecture
Faculty of Civil and Environmental Engineering
Rzeszów University of Technology
ul, Poznańska 2
35-084 RZESZÓW
POLAND