SAJEMS NS Vol 4 (2001) No 2- 254 

A Systems Approach to Research Inquiry in 
Accounting: A Research Note 

Carolina Koornhof 

Department of Accounting and Finance, University of Pretoria 

ABSTRACT 

Accounting research is strongly influenced by the research methodology and 
methods adopted in the natural sciences. As a result many researchers in 
Accounting have steered away from non-founal or interpretative methods. 
From a methodological perspective, Accounting research therefore has a narrow 
base (Tomkins and Groves, 1983). A solution to expanding the research base 
may be to search for non-formal, naturalistic research methods in disciplines 
related to Accounting, where they are more established. The purpose of the 
article is to introduce a research method, employed in Management Information 
Systems (Mitroff, Betz, Pondy and Sagasti, 1974) that may be of value to 
postgraduate students and Accounting researchers engaged in non-founal and 
naturalistic research. It is hoped that the exposure to this and other research 
models will contribute towards the broadening of the Accounting research base. 

JEL M41 

INTRODUCTION 

Research in Accounting has been greatly influenced by the research 
methodology of the natural sciences. Quattrone (2000) confiuns that 
researchers in Accounting, aiming to become "scientific", have adopted the 
epistemology of the natural sciences, even though they deal with human and not 
exclusively with non-human issues. One result is that Accounting research is 
still dominated by ontological and epistemological assumptions acceptable 
within the founal "scientific method". Although the realistic, positivistic 
research approaches have undoubtedly contributed to the growth of knowledge 
in Accounting, they represent but one type of knowledge. Morgan (1983) 
suggests that other research strategies will generate other types of knowledge 
that have an equally important role to play in the development of Accounting 
research. Tomkins and Groves (1983) encourage Accounting researchers to 
increasingly explore research approaches beyond the pure "scientific approach" 
towards more non-formal, naturalistic and interpretive research topics. I 

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255 SAJEMS NS Vol 4 (200 I) No 2 

At present there is still a limited number of Accounting research papers that use 
more interpretative research methods. This lack of examples of naturalistic 
research approaches may act as a hindrance to researchers. 2 A solution may be 
to look for appropriate research approaches or methods in disciplines related to 
Accounting, where a naturalistic research methodology is more established. 
These research methods may then be introduced to postgraduate students and 
Accounting researchers as feasible research models. 

The purpose of this article is to introduce a research method in Management 
Information Systems that may be of value to Accounting researchers, especially 
those engaged in non-formal, naturalistic or qualitative research, where there 
may be.a paucity of appropriate research methods. In 1974 Mitroff, Betz, Pondy 
and Sagasti developed a model that sought to highlight the processes involved in 
research inquiry. They used systems theory as a basis to explain the intricate 
network of relationships in the research process. The model assists the 
researcher by documenting the various steps in research inquiry and allowing 
the researcher to identify and follow those steps that are appropriate to hisfher 
research. Although the flexibility of the model's design makes it appropriate to a 
wide spectrum of research, it is particularly useful in less fonnal, experimental 
and naturalistic research. 

The article commences with a discussion of the elements and activities of the 
Mitroff-model. Then the use of the model in Accounting research and its 
advantages are identified. The article concludes with some remarks on the 
future of Accounting research and the potential use of the model in Accounting. 

mE MITROFF·MODEL 

In developing their model Mitroff, Betz, Pondy and Sagasti (1974) aimed to 
create a programme by which science could be studied from a holistic or 
systems perspective. They argued that there were aspects of science that could 
only be studied from a whole systems perspective and that anything less than a 
holistic view of science would fail to identify some of the essential features of 
science (Mitroff, 1974). The model identifies the different phases of problem 
solving, and also highlights various research approaches, styles and attitudes 
towards science. The model for problem solving (Mitroff, Betz, Pandy & 
Sagasti, 1974) represents a systems view of the different varieties of scientific 
behaviour, illustrated in Figure 1. 

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SAJEMS NS Vol 4 (2001) No 2. 256 

Figure 1 A system view of problem solving 

(narrow sense) 

51 
Validation 

6 

Source: Mitroff. 1.1., Betz, F., Pondy, LR., & Sagasti, F. (May, 1974) "On 
Managing Science in the Systems Age: Two Schemes for the Study of Science 
as a Whole Systems Phenomenon", Interfaces, Vol 4, No 3: 46-58. 

The systems view of the various kinds of scientific activity in the model results 
in a circularity, which implies that the diagram has no predefined beginning or 
end. Research does, however, have a beginning and thus a starting point. This 
starting point, together with the underlying assumptions of the researcher, has 
far-reaching consequences for the type of research that will be conducted and 
the subsequent stages of scientific inquiry that will be followed. The model 
implies that recognised and legitimate research does not have to start or end at a 
specific point, a view supported by Ghurchman and Ackoff (l 950). 

A research project could begin at either of circles I, II, III or IV. For example, 
the inquiry could commence at circle I, with the identification of an existing 
problem. The first phase of problem solving would then be the performance of 
activity I, conceptualisation, so as to devise a conceptual model in circle II. The 
conceptual model establishes, in broad terms, the definition of the particular 
problem to be solved. It specifies the field variables that will be used to define 

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257 SAJEMS NS Vol 4 (2001) No 2 

the nature of the problem and the level at which the variables will be treated 
(Mitroff et al., 1974: 47). For example, a financial problem may be viewed at 
different levels: From a country perspective (typically a macro perspective), or 
from an industry, company or individual perspective (increasingly a micro 
perspective). 

The next phase may entail the performance of activity 2, namely the formulation 
or development of a scientific model in circle III. A scientific model is a set of 
either qualitative or quantitative logical relationships, which link together the 
relevant features of the reality with which we, the researchers, are concerned 
(Rivett, 1972: 9). It should be borne in mind that the scientific model represents 
a simplified version of reality, consequently it is a form of reductionism 
(Hakanson, 1978). 

The third phase concerns the performance of activity 3 to derive a solution 
(circle IV) from the scientific model. This function is related to the teleological 
dimension of Social Science, which assumes that the practice of science is 
invariable goal directed. Started in simple terms, the aim of social science is to 
provide a solution to a specified problem. This dimension may act as a 
constraint on research inquiry, because the problems that are addressed are often 
limited or restricted to the achievement of specified research goals (Mouton & 
Marais, 1996: 15). 

The implementation of activity 4 entails a feedback of the solution to the 
original problem or reality. This requires the implementation or utilisation of 
the solution to the problem area in society. It is apparent that the skills required 
for the implementation of a proposed solution differ from those required to 
develop a mathematical model. Mitroff et al. (1974: 50) confirm that the 
elements and activities in the model demand different skills and involve 
different standards or criteria of performance. For example, individuals who are 
convergers may excel in modelling while divergers may excel in implementation 
(Hudson, 1966). 

In validation (activity 6) the degree of correspondence between reality and the 
scientific model may be evaluated. The comparison between the scientific 
model and reality may take place repeatedly until the scientific model is refined 
to reflect the necessary aspects of reality. Finally in activity 5, that is, feedback 
in the narrow sense, problem solving activities (circles II, III, IV) are applied 
when the goal is to derive better scientific solutions. In this activity, continual 
feedback causes a solution to be refined so that it meets the criteria and field 
variables specified in the conceptual model. It is typical in this research cycle 
that no reference is made to reality and implementation does not occur. 

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SAJEMS NS Vol 4 (2001) No 2 258 

Given the simple system of interconnected elements in Figure 1, the authors 
calculated that a total of 3 555 research subsystems could be formed by 
considering all possible combinations of two, three and four elements (Mitroff et 
ai., 1974). The authors excluded activities that are related to only one element, 
because a system consists of at least two elements plus a relationship between 
them. Although not included in their total number of possible research 
subsystems, the authors did not preclude the possibility of subdividing activities 
I to 6 to incorporate, for example, different ways of performing the modelling or 
the conceptualisation activities. Such subdivision would substantially increase 
the number of research subsystems. Each of the research subsystems represents 
a different type or form of scientific activity. The model implies that legitimate 
research need not address all of the activities and elements in the model. 

Mitroff et al. (1974) uses the example of a complex subsystem of scientific 
inquiry, illustrated in Figure 2 to demonstrate the application of the model. 

Figure 2 An application of the model of problem solving 

2 

6 

Validati011 

In this example, the starting point of research comprises both elements I and II. 
The activity of conceptualisation takes place by means of alternate consideration 
of reality and the problem situation on the one hand and the feasible conceptual 
models on the other. The outcome of activity 1 serves to influence the direction 
that will be taken in the modeling and validation activities that follow. 

In judging performance in a research inquiry such as the one in Figure 2, 
different criteria should be used for each activity. The criteria appropriate to 
conceptualisation will be based on the ability to identifY anomalies, formulate 

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259 SAJEMS NS Vol 4 (2001) No 2 

new or interesting problems and to identify puzzles or paradoxes. The criteria 
appropriate to the activity of modelling will be based on the ability to formulate 
"significant relationships within some formal system of abstract thought" 
(Mitroff et al., 1974). The activity of validation will be assessed on the research 
design and execution of the validity testing of the scientific model against the 
problem area or the reflection of reality. 

THE USE AND BENEFITS OF THE MODEL IN ACCOUNTING 
RESEARCH 

The Mitroff-model guides the researcher through the - research inquiry 
procedures that should be followed in solving a particular problem. The model 
may be appropriate to use in a wide spectrum of research beyond the realm of 
systems theory. It may be useful in both scientific and naturalistic research. 
The model was however, found to be especially useful in Accounting areas 
where well established research methods are lacking, for example where new 
knowledge is generated or naturalistic and exploratory research are undertaken. 

The Mitroff-model was thus used in an Accounting thesis where the new 
concept of "flexibility" was introduced into the discipline. (Koornhof, 1998). 
The aim of introducing the new construct, was to develop a framework for the 
identification and measurement of information on flexibility in business 
organisations. It was posited that this information could then be communicated 
to users by means of the existing accounting information system (Koornhof, 
1999). The exploratory and non-formal nature of the research presented the 
researcher with a problem, particularly as regards to the research approach, the 
structuring, legitimacy and validity of the research. To address these problems, 
the researcher selected the Mitroff-model proposed in Management Sciences 
and used the model to: 

define the scope of the research; 
provide guidance in structuring the research; and 
identify the thought processes and research stages that should be followed 
in conducting research in Accounting. 

The phenomenon "flexibility" was observed in the behaviour of management in 
organisations, but no attempt had been made to recognise and measure the 
multi-dimensional phenomenon in Accounting. The research commenced at the 
activity "conceptualisation" (refer to Figure 1) with the purpose of refining 
"flexibility" into a workable construct. The construct was developed by defining 
the term, delineating the field of study, categorising flexibility, and by assessing 
the role of these categories in the organisation. Using the activity of 

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SAJEMS NS Vol 4 (2001) No 2- 260 

"modelling", a framework consisting of six categories, four aspects and three 
levels of flexibility was developed. The construct was then introduced into 
Accounting with the view to identifying and measuring information on 
flexibility and communicating it to users of financial information. The activity 
of "model solving" resulted in the use the framework to develop indicators of 
flexibility. Suggestions on procedures that management and accountants could 
use to develop the flexibility indicators for their businesses, were also addressed. 

The Mitroff-model was used in the research design and to divide the thesis into 
logical chapters. The scope of the research on flexibility in the thesis was 
confined to circles I, II, III and IV and activities 1, 2, 3 and 5 of the modeL 
Activities 4 (implementation) and 6 (validation) were not included due to the 
exploratory nature of the research. The application of the Mitroff-model in 
Accounting research provided evidence that the model may be useful in 
disciplines other than Management Sciences, where it was originally developed. 

The author found the model to be a valuable tool in Accounting research 
especially in areas where there is a lack of suitable research approaches and 
methods: 

Its circles and activities were helpful in delineating the scope of research; 
the circles also assisted the researcher to segment the research project into 
chapters; 
the various research activities suggested an appropriate and logical 
sequence of chapters; 
it prompted appropriate thought processes at various stages in the research 
project, for example, lateral thinking during conceptualisation and logical 
reasoning during modelling; 
it encouraged a holistic approach to scientific endeavour; 
it supported a process-related approach, because the model has no specific 
beginning or end and provides for continuous feedback; 
it provided legitimacy to an exploratory and non-formal research topic; 
it dispelled misconceptions about research such as the following: 

research should cover all activities identified in the model; 
research must be validated; 
research must be implemented; and 

it highlighted alternative research approaches and styles that can be 
adopted. 

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261 SAJEMS NS Vol 4 (2001) No 2 

CONCLUDING REMARKS 

From a methodological perspective, Accounting research has developed from a 
narrow base. Tomkins and Groves (1983) suggest that in the past accounting 
researchers have generally ignored or been unaware of the existence of more 
naturalistic and non-formal research approaches, and the adherence to so-called 
scientific methods has resulted in a very narrow foundation for accounting research. 
The "scientific approach" has not only dominated research approaches and methods, 
but also influenced views and opinions as to what constitutes "legitimate" research. 
Researchers in Accounting have tended to concentrated on applied research where 
well established research methods existed, rather than venturing into high risk areas 
of pur~ and exploratory research where recognised research methods are often 
lacking. Hakanson (1978) contends that because of the formalised approaches by 
Accounting researchers, there has not been major advances in accounting 
knowledge during recent years. He suggests that the greatest contributions to 
knowledge in the Financial Sciences has come from Finance rather then 
Accounting. Perhaps the growth in Accounting research can be stimulated by 
encouraging pure research, by exploring opportunities requiring naturalistic and 
non-formal approaches and by developing new research frameworks. 

The purpose of this article has been to encourage the development of such 
innovative research approaches. It hopes to introduce postgraduate students and 
researchers to a research framework from Management Accounting Systems that 
may be useful to Accounting research in more qualitative research areas, where 
appropriate research methods may not be found. There exists a need to broaden the 
foundation for accounting research. To realise this aim, Accounting researchers 
should become more "adventurous" in their research by exploring new or different 
approaches to conducting research. 

ENDNOTES 

The terms "scientific" versus "naturalistic" research approaches are 
defined by Abdel-Khalik and Ajinkya (1983). Formal research and Non-
formal research are defined by Churchman (1961). 

2 See Morgan and Willmot (1993) for a list of Accounting Journals 
publishing the "new" and "softer" types of Accounting research. 

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SAJEMS NS Vol4 (2001) No 2· 262 

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