MEASURING CRITICAL SUCCESS FACTORS
IN ERP PROJECTS
Results from a Case Study in a SME
Jos J.M. Trienekens
Eindhoven University of Technology, Den Dolech 2, Eindhoven, The Netherlands
Pedro van Grinsven
RIS Rotterdam, Brugge 24, 2993 LB Barendrecht, The Netherlands
Keywords: ERP system implementation, success factors, measurement.
Abstract: Over the past decade many organizations are increasingly concerned with the implementation of Enterprise
Resource Planning (ERP) systems. This counts for both large and small and medium sized companies.
Implementation can be considered to be a process of change influenced by different so-called critical
success factors (CSF) of type organizational, technological and human. This paper reports on the
development of a measurement approach for managing CSF in an ERP implementation project in a small
and medium sized company (SME). Critical success factors are being derived from project goals and
subsequently measured in this project to monitor and control the implementation project.
1 INTRODUCTION
Over the past decades a new class of software
applications has emerged: Enterprise Resource
Planning (ERP) systems. These software packages
seek to integrate the complete range of a business’s
processes and data communication patterns on the
basis of one single information and IT architecture
(Klaus et al, 2000). Quality control and assurance
during the implementation of ERP packaged
software has been under-researched, in particular
regarding the identification, definition and validation
of critical success factors (CSF) (Krumbholz and
Maiden, 2001), (Marble, 2003). These factors can be
of different types, such as organizational (e.g. top
management support), human (e.g. communication
attitude, user resistance), technical (e.g. business
process modeling methods and tools), (Stelzer and
Mellis, 1998), (Trienekens et al, 2001). Although
some articles recognize factors that drive success in
ERP implementation, they look at them from
different perspectives and also with different
definitions of “success factors” in mind (Aladwani,
2001), (Amoako-Gyampa and Salam, 2003). Over
the past years several research papers have emerged
that strive at the identification and classification of
CSF (Hoon Nah and Shang Lau, 2001). More
recently research papers have emerged that focus on
the evaluation and validation of CFS relevance in
practice, e.g. the CFS relevance along the different
ERP implementation project phases (Esteves and
Pastor, 2004). This paper strives at taking one step
further: the development of an approach towards
measuring CSF during an ERP implementation
project.
The ERP implementation project that has been
selected is a current project at a small and medium
sized (SME) enterprise, called RIS BV in The
Netherlands. RIS BV is primarily active in the
domain of innovative Traffic Sign Systems. Both
standard products and tailormade systems, i.e.
special projects, are being developed. One of their
most important customers is the Dutch ANWB
(national traffic organisation) for that they are the
first supplier of route and road signs systems along
the Dutch highways. The development process for
these complex projects consists of analysis and
design, manufacturing and implementation. These
processes ask for integration of business data from
different perspectives, e.g. project, financial, supply
etc. An ERP system should support the flow of data
throughout the company and the usage of a central
203
J. M. Trienekens J. and van Grinsven P. (2008).
MEASURING CRITICAL SUCCESS FACTORS IN ERP PROJECTS - Results from a Case Study in a SME.
In Proceedings of the Tenth International Conference on Enterprise Information Systems - DISI, pages 203-209
DOI: 10.5220/0001693302030209
Copyright
c
SciTePress
database concept, so that all involved departments
can exchange information and communicate in an
efficient and effective way.
RIS BV implements the ERP system Navision in
its business processes. This is carried out in a
modular way. The module that is being implemented
currently is the Projects module. The high priority
for implementing this module is a consequence of
the current project planning problems at RIS. The
traditional way of planning by using manually
controlled Gantt charts (e.g. in Excel) is not
effective anymore due to, among others, the high
number of change requests in the complex projects.
On the short term RIS BVwants to improve their
reliability and customer satisfaction regarding the
finalisation of the complex projects in due time. The
Navision Projects module should offer the
opportunity to analyse and control the change
requests in the planning process. On that basis it
should become possible, in a flexible way, to derive
management reports on the financial consequences
of changes in the project.
In section 2 the research framework and
approach is presented that is applied in the case
study. Section 3 reports on the results of the case
study at RIS BV. In section 4 conclusions and
recommendations for further research are given.
2 RESEARCH FRAMEWORK
AND APPROACH
Critical success factors (CSF) have become a
management instrument in the broad area of
software engineering, both in development and
implementation. However, the applications that are
presented in literature are still of a qualitative nature
and do not support implementation managers in
practice with operational and quantitative
instruments. As a consequence most implementation
projects only get little support from these studies.
Therefore the main questions still are:
1. How to control ERP implementation projects in
SMEs on the basis of CSF?
2. Can CSF be measured during implementation
projects in SMEs?
Regarding the management and control of CSF
several attempts have been made to make CSF
operational, e.g. by elaborating the definitions and
by investigating the usefulness of these definitions
for practitioners. Although interesting results have
been gained, previous research focused in particular
on the possibility of applying CSF during ERP
implementation. E.g. in (Esteves et al, 2003) in
particular two CSF are being investigated and only
some attempts have been made to make these CSF
operational. However experiences with measurement
of CSF in real-life ERP implementation projects in
SME is not yet reported.
Based on previous research findings on ERP
implementation it was decided to make use of the set
of CSF definitions of (Esteves and Pastor, 2000) and
the GQM method (van Solingen and Berghout,
1999). Applying GQM in order to determine metrics
has also been studied by (Esteves and Pastor, 2003).
However the experimentation with GQM to monitor
and control CSF in a real-life ERP implementation
project has not yet been reported. Regarding the
usage of CSF it was decided to select already early
in the implementation project a limited set of CSF.
This is in conformance with guidelines for the usage
of metrics in real-life projects, (Kitchenham, 1996).
The ERP implementation project is relatively
small, i.e. restricted to only one ERP module, a time
interval of only three months, and to only 10
participating people. The approach that has been
followed in our research consists of the following
steps:
1. Development of the research framework: CSF
and GQM
2. Applying the GQM approach in a real-life SME
project:
a. Identification of the goals of the
project
b. Selection of a limited number of CSF
c. Development of the measurement
instrument (i.e. questionnaires)
d. Collection of the data
e. Analysis and evaluation of the data
3. Evaluation of the research framework and
approach
2.1 Critical Success Factors and Goal
Question Metric Method
CSF have already been investigated by a number of
researchers, see the introduction of this paper. In this
paper the relatively recent and extensively
researched list of (Esteves and Pastor, 2000) has
been used, see table 1.
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204
Table 1: CSF in accordance with (Esteves and Pastor,
2000).
CSF
Sustained management
support
Project champion role
Effective change
management
Tactical adequate training
program
Project scope management Appropriate usage of
consultants
Dedicated staff and
consultants
Empowered decision makers
Communication Organizational trust between
partners
Formalised project plan Strategic avoid customization
Project team composition Technological software
configuration
Comprehensive process
reengineering
Legacy systems knowledge
Preventive trouble shooting Adequate ERP version
ERP implementation
strategy
User involvement and
participation
The Goals Question Metrics (GQM) method is
an operational instrument for the development of a
metrics program (Solingen and Berghout, 1999). In
accordance with GQM the goals, e.g. project goals,
have to be stated first in a formalised way.
Subsequently these goals have to be refined by
questions about how these goals should be reached.
This refinement then leads to the identification of
data that are needed. For the collection of these data
operational metrics have to be defined. The GQM
method as applied in our case study consists of four
phases, respectively:
1: Planning the measurement – identifying
project goals and allocating resources
In this phase the project goals are being defined in
close collaboration with the project management and
the overall management of RIS BV. Managers,
project members, quality assurance employees
involved in the implementation project have been
determined and have been allocated to the
measurement approach, e.g. regarding data
collection, analysis and evaluation, and the
development of improvement actions during the
ERP implementation project.
2: Development of the measurement instrument
On the basis of a refinement of the project goals the
relevant CSF that should be monitored and
controlled have to be identified. Subsequently the
data to be collected and analysed, in order to be able
to evaluate the control on the project, have to be
determined. In fact a measurement instrument for
the collection of these data has to be developed.
3: Collecting the data – applyting the
questionnaires
In these phase the data have to be collected.
Questionnaires have to be filled in by the
stakeholders involved in the implementation project.
Important is the distribution of the questionnaires,
the organisation of information sessions to clarify
the goals, and the analysis and feed-back of the
measurement activities.
4: Evaluation of the data
The data has to be analysed in a predefined way, e.g.
by using acceptation levels for the final scores.
Acceptable measurement scales should be defined in
close cooperation with representative stakeholders in
the implementation project.
The combination of CSF with the GQM method
has resulted in a measurement approach that has
been applied in the ERP implementation project.
3 APPLYING THE
MEASUREMENT APPROACH:
CASE STUDY RESULTS
In this section the results of the case study on
measuring CSF during ERP system implementation
are presented. In the following we will first
introduce in section 3.1 briefly the case study
environment. Subsequently we will present the
results of the application of the measurement
approach.
3.1 Case Study at RIS BV
The case study has been carried out during the first
three months of the implementation project in 2007.
The objective was to experiment with questionnaire-
based metrics in a real-life ERP implementation
project and to make a first step towards a well-
monitored and controlled project.
3.1.1 Identification of Project Goals
The goals of the ERP implementation project have
been investigated and discussed with representatives
from the various involved management levels and
potential key users of the Navision application. Both
the strategic goals of the organisation and the local
objectives of the different involved departments
have been taken into account. As main result the
following project goals for the ERP implementation
project have been defined:
- timeliness of finishing the implementation
MEASURING CRITICAL SUCCESS FACTORS IN ERP PROJECTS - Results from a Case Study in a SME
205
- ability of key-users to make use of the ERP
application immediately after implementation
3.1.2 Determination of CSF
Based on the two project goals the list of CSF has
been discussed with the involved stake-holders. In
particular a people dimension and a project
dimension have been identified. This is in
conformance with findings of (Estevez and Pastor,
2000) who identified also the importance of
monitoring and controling in particular human and
project aspects during an ERP implementation
project. From each of the two dimensions several
concerns of the involved stakeholders have been
identified. Regarding the people dimension these
concerns are respectively the CSF 'User-involvement
and participation', and 'Tactical adequate training
program'. Regarding the project dimension in
particular the CSF 'Project champion role' and
'Dedicated staff and consultants' were identified.
3.1.3 Measuring CSF:The Questionnaires
For each of the determined CSF a small number of
questions have been formulated with the involved
stake-holders in order to be able to determine
whether a CSF is under control or not. Regarding
these questions structured answers, i.e. measurement
scales, have been defined. The set of CSF with the
questions and the measurement scales are forming
together the measurement instrument. Regarding the
formulation of questions we explicitly adopted
similar questions as presented in the research of
(Mendoza et al, 2006) In that way we were able to
make a comparison between the results of our case
study and the results of case studies of the
previously mentioned authors. In the following the
four questionnaires for the distinct CSF are
presented.
Table 2: Questionnaire regarding the CSF Project
champion role.
CSF Relevance and motivation
Project
champion
role
The project champion should have the
capabilities to monitor and control the
progress of the project and to take and
communicate adequate decisions.
Questions Scale
Is the progress of the
project under
control?
5 = Always
4 = Almost always
3 = Sometimes
2 = Almost never
1 = Never
Table 2: Questionnaire regarding the CSF Project
champion role. (cont.)
Questions Scale
Are the decisions
being
communicated
during project
meetings?
5 = Very fast
4 = Fast
3 = Average
2 = Slow
1 = Very slow
Table 3: Questionnaire regarding the CSF Tactical
adequate training program.
CSF Relevance and motivation of the CSF
Tactical
adequate
training
program
A training and educational plan is needed to
prepare the management and other
stakeholders in the usage of the ERP
application.
Questions Scale
Is a training and
educational
program available?
5=yes
1=no
Is there sufficient
time available for
the training
program?
5 = Plenty
4 = Sufficient
3 = Average
2 = Little
1 = Very little
Table 4: Questionnaire regarding the CSF User
involvement and participation.
CSF Relevance and motivation of the CSF
User
involvement
and
participation
To ensure the integration of the ERP
application in the business system, both on
the operational process level and on the
management level, representatives from
these levels should be involved in the
implementation project.
Questions Scale
Is there a structured
plan for the meetings
and information
sessions?
5 = Yes
1 = No
Are the invited
representatives
present at the
meetings and
interview sessions?
5 = Always
present (80–
100%)
4 = Almost
always present
(60–80%)
3 = Average
present (40–60%)
2 = Almost never
present (20–40%)
1 = Never (0-
20%)
Are actions
regarding 'not
showing up' at
meetings and
interviews being
executed in-time by
the responsible
persons?
5 = Always
4 = Almost
always
3 = Sometimes
2 = Almost never
1 = Never
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206
Table 5: Questionnaire regarding the CSF Dedicated staff
and consultants.
CSF Relevance and motivation of the CSF
Dedicated staff
and
consultants
Technical support from the ERP provider is
needed during the whole implementation
project.
Questions Scale
How dependend is the
implementation
project from technical
support?
5 = Very low
4 = Low
3 = Average
2 = High
1 = Very high
Is technical support
specified in the service
level agreement in
sufficient detail?
5 = Yes
1 = No
3.1.4 Data Collection and Analysis
In the first three months of the ERP implementation
project the questionnaires have been filled in by 10
stakeholders from different organizational levels,
respectively end-users, and managers on the tactical
and the operational level. The results are shown in
Table 6.
Table 6: Measurement results CSF.
CSF's, questions and
total score per CSF
1:
Accep-
tation
level
2:
Avera
ge
2
minus
1
Score
in % of
max.
Project champion role
Q1
3 3,1 0,1
62
Q2
3 3,4 0,4
68
Total score
65
Tactical adequate
training program
Q1
5 1,0 -4
20
Q2
3 1,4 -1,6
28
Total score
24
User involvement and
participation
Q1
5 1,0 -4
20
Q2
3 4,5 1,5
90
Q3
3 4,5 1,5
55
Total score
55
Dedicated staff and
consultants
Q1
3 1,6 -1,4
32
Q2
5 5,0 0
100
Total score
66
For each of the CSF a total score has been
calculated in a similar way as has been done in
(Mendoza et al, 2006). The score of each question is
presented as a percentage of the maximum that
could be reached on the measurement scale. In
Figure 1 the measurement results are presented and
are compared with the measurement results of two
previous ERP implementation project in
organizations A en B (Mendoza et al, 2006
The 'Project champion role' is carried out
satisfactory. However, 'Tactical adequate trainign
program' scored significantly lower in the RIS
implementation project than the reference
organizations A and B. It appeared that 'Tactical
adequate training program' is not well
communicated throughout the organisation and that
the training plan is not yet fully operational. As
correcting action the development of a
communication plan has been defined.
Regarding 'User Involvement and Participation' and
'Dedicated staff and consultants' several weaknesses
have been identified, however the overall scores for
these CSF are sufficient.
4 CONCLUSIONS
This paper shows that literature on CSF can act as a
reference basis for the development of a
measurement approach to monitor CSF in ERP
implementation projects. The case study shows that
a well-defined selection of CSF, derived from
project goals, can be taken as a starting point for the
development of a questionnaire-based measurement
instrument. The relatively small questionnaire could
be applied succesfully in a SME in practice during
an ERP implementation project.
The (intermediate) results of the measurement
are being used by the project management to
monitor the implementation project and to take
adequate actions. Further the (intermediate) results
could be compared with results from other
implementation projects that have been described in
literature. As such a first step has been made
towards benchmarking CSF measurement in ERP-
implementation projects.
Further research is needed regarding the
interrelationships between the explicitly defined
project goals, the selected CSF and the questions
(and measurement scales) of the measurement
approach. Currently the measurement approach is
applied in subsequent phases of the mentioned ERP
implementation project. The results will be used to
further improve the monitoring of the
implementation project as well as the validation and
further improvement of the measurement approach.
MEASURING CRITICAL SUCCESS FACTORS IN ERP PROJECTS - Results from a Case Study in a SME
207
Figure 1: CSF scores in RIS BVand the reference organisations A and B.
REFERENCES
Aladwani A.M., 2001, Change management strategies for
successful ERP implementation, Business Process
Management Journal, Vol. 7 No. 3, pp. 266-275, MCB
University Press, 1463-7154.
Amoako-Gyampah K., A.F. Salam, 2003, An extension of
the technology acceptance model in an ERP
implementation environment, Information &
Management.
Esteves J., J. A. Pastor, 2004, Organizational and
Technological Critical Success Factors Behavior
along the ERP Implementation Phases, in:
Proceedings of the Sixth International Conference on
Enterprise Information Systems, Porto, Portugal, April
14-17.
Esteves J., J. Pastor, J. Casanovas, 2003, A
Goal/Question/Metric research proposal to monitor
user involvement and participantion in ERP
implementation Projects, Information Resources
Management Association Conference (IRMA),
Philadelphia (USA).
Esteves J., Pastor J., 2000, Towards the Unification of
Critical Success Factors for ERP Implementation, 10
th
Annual BIT conference.
Hoon Nah F.F.,J.L. Shang Lau, 2001, Critical factors for
successful implementation of enterprise systems,
Business Process Management Journal, Vol. 7 No. 3,
pp. 285-296. MCB University Press, 1463-7154.
Kitchenham B..A., 1996, Software metrics: measurement
for software process improvement, NCC Blackwell
Publishers
Klaus H., M. Rosemann, G.G. Gable, 2000, What is ERP?
Information Systems Frontiers, 2:2, 141-162.
Krumbholz M., N. Maiden, 2001, The implementation of
enterprise resource planning packages in different
organisational and national cultures, Information
Systems, 26 , 185-204.
Marble R.P., 2003, A system implementation study
management commitment to project management,
Information & Management 41, 111–123.
Markus M.L., C. Tanis, 2000, The enterprise system
experience – from adoption to success”, in Zmud,
R.W. (Ed.), Framing the Domains of IT Management:
Projecting the Future Through the Past, Pinnaflex
Educational Resources, Inc., Cincinatti, OH, pp. 173-
207.
Mendoza, Pérez, Grimán, 2006, Critical Succes Factors
for Managing Systems Integration, Information
Systems Management, Volume 23, Issue 2 pages
0,00%
20,00%
40,00%
60,00%
80,00%
100,00%
Project
champion
role
Tactical
adequate
training prog.
User
involvement an
d
Participation
Dedicated staff
and consultants
Ris
A
B
ICEIS 2008 - International Conference on Enterprise Information Systems
208
56 - 75
Perez M., Griman A., Mendoza L., Rojas T., 2004, A
Systemic Methodological Framework for IS
Research. Proceedings of the Tenth Americas
Conference on Information Systems, New York.
Solingen R., E. Berghout, 1999, The
Goal/Question/Metric Method, A practical guide for
quality improvement of software development,
McGraw-Hil.
Stelzer D., W. Mellis, 1998, Success Factors of
Organizational Change in Software Process
Improvement, Software Process: Improvement and
Practice 4, 227-250.
Trienekens J.J.M., R.J. Kusters, R. van Solingen, 2001,
Product Focused Software Process Improvement:
Concepts and Experiences from Industry, Software
Quality Journal 9, 269-281.
Wohlin C., A. Amschler Andrews, 2001, Assessing Project
Success Using Subjective Evaluation factors, Software
Quality Journal, 9, 43-70.
MEASURING CRITICAL SUCCESS FACTORS IN ERP PROJECTS - Results from a Case Study in a SME
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